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Date published July 31 2020 by Stella Carter

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Latest Aerospace Engineering Dissertation Topics for 2022-2023

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Academic Level Undergraduate Masters PhD Others

Aims and Objective

To design an improved turbofan ramjet engine for sustained hypersonic flights.
To analyse the fuel consumption of the engine design and maximum thrust to weight ratio.
To analyse impact of varying altitude and weather on the performance of engine.
To evaluate the design and operational cost of the engine and their service life.
To analyse the benefits of integration of Artificial intelligence in commercial flights.
To evaluate the working of AI and its control over the aircraft.
To evaluate the provided effective outcomes of the program and its future impact on air travel.
The study will also provide the system for autonomous communication for AI based aircraft and their role in flight control.
To design new and improved aero-dynamic design for commercial aircraft.
To evaluate the fuel consumption of new design.
To analyse the integration techniques to upgrade the existing aircraft design to new and improved models.
To evaluate the cost of maintenance of new design and its performance in unexpected conditions.
To design a new AI based computer program to guide the satellite in complex system.
To analyse the implementation techniques of new design in the existing satellite system.
To compare the effectiveness of new computer program verses existing programs.
To analyse the efficiency of the computer program and its maximum handling capacity.
To design the new and improved design for sustained supersonic flights.
To determine the maximum sheer, tensile and compressional stress of the material and its behavior in flying conditions.
To analyse the cost of material production and its maintenance cost.
To analyse the service life of the material and the ways to increase it.

The aim of the study is to investigate the simulation of infrared and visual sensors and the computational modelling for developing a new system of hypervelocity terminal guidance of the small asteroids (50-150 in diameter). The research aims to develop the computation software techniques for the signal to noise ratio assessment of IR and visual sensors, assessment of maximum and minimum target detection ranges and the Graphic processing unit (GPU) accelerated simulations of the intercept guidance system on the basis of IR will also be developed. Additionally, the aim of the study is to use the model of scaled polyhedron for objects such as NASA’s OSIRIS Rex Bennu, Rosetta Comet mission 67P/C-G and the 433 Eros asteroid for the development of simulation tools that are GPU-based for the terminal guidance system which is IR based.

Objectives:

The objectives of the study are the following:

To develop the tracing algorithm of parallelized-ray for the simulation of accurate shadowing of the surface of the comets or asteroid which are of irregular shape.
To study and consider the approximation of polyhedron solid-angle.
To investigate the processing of the digital image by using the computational model for the determination of multiple or single effect location to estimate the practical feasibility of modern mission concept of planetary defence of using a multiple interceptor vehicle of kinetic energy or the intercept vehicle of hypervelocity asteroid.

The aim of the study is to conduct a critical analysis of the requirement of modelling for the formulation of value in designing and developing engineering system which is large scale and complex. The research aims to study the satellite networking system of NASA. Therefore, the aim of the study is to assist the designers and developers in transitioning from the old necessities approach to the modelling of value. The research aims to use the design structure matrix which will be attribute-based to elaborate the procedure. Additionally, the research aims at quantifying the loss value because of the required usage. Furthermore, an extended study will be conducted on how the requirement presence has thereby resulted in the designs which are sub-optimal. Through this aim, the importance of using the approach of value over the approach of the requirement will be certainly justified. The overall requirement elimination process is not possible therefore, the study will develop an understanding of each of the requirements as not each requirement possess the same potential impact on the value. This aim will assist in areas like after the designing process completion, where the consumer wants to modify the requirements.

To assess the requirement impact on the sensitivity and value of these requirements on the finest design.
To analyze the value gap of to what extent there is a need to capture the uncertainty.
To study the usage of uncertainty’ probabilistic representation and its importance.

The aim of the study is to develop a model of value for the Unnamed Aircraft Systems (UAS) by taking into consideration the operational, environmental and technical scenarios involved for developing an analysis simulation of the decision in order to rate and analyze various UAS based on its readiness level of technology (TRL) and autonomy level (AL). Furthermore, this will assist in future to analyze the problem between the regulation to analyze the induced inefficiencies and the stakeholder preferences in the operation of UAS because of the requirement of policies. Therefore, the research aims to include utilizing a mixture of different frameworks and tools like decision analysis, Multidisciplinary Design Optimization and the Value-Driven Design to understand and analyze different factors which are involved while operating and designing UAS on a big scale for the use of civil applications and structural health monitoring.

The objective of the study will be:

To analyze how do the various operational and environmental scenario play a crucial role in the operation of UAS with respect to the task which is being performed.
To study how the class and physical characters of the UAS associated to the TRL and AL to the performance in the various operational scenario.
To evaluate whether the model of value-based can be used to conduct an analysis of risk on the UAS operation autonomously on the basis of societal, legal and ethical issues.

The aim of the study is to analyze the new approaches usage in the defence acquisition’ negotiation phase, which will certainly form an important phase. Therefore, the study will analyze the required transition to the value by suggesting a performance-based price and value approach for defence acquisition. Therefore, the study aims to payoff maximization to both the contractor and the government establishing the governmental weapon system. The research will propose bargaining ideas from the game theory and will attempt to offer negotiation for the mathematical foundations.

To evaluate the effectiveness of game theory for improving the approach of value toward negotiation in performance-based and price based contracting scenario which certainly leads toward improved design system as compare to the one which is achieved through the old methods of driving requirement.
To determine the player order impact the bargaining game.
To determine whether a value-based approach joint with negotiation over other aspect be certainly utilized for bridging the gap between the defence acquisition setting contractor and the governmental preferences for the weapon system.

Aim of the study The aim of the study will be “To explore a novel approach methodology for rapid hypersonic flow predictions via surrogate modeling with machine learning and deep learning”. Objectives of the study The objectives of the study will be;

To explore the processes and modeling approaches involved in machine learning and deep learning.
To understand the concepts of surrogate-based modeling, optimization, and applications in engineering.
To review the approaches used for the rapid hypersonic flow predictions via surrogate modeling in the past years.
To compare the past and current approaches that can be used for the predictions of rapid hypersonic flow.
To develop a novel methodology for the rapid hypersonic flow predictions and to evaluate machine learning and deep learning.
To examine the aerodynamic data predictions for transonic flows via a machine learning-based surrogate model.
To evaluate the surrogate modeling approaches of aerodynamic simulations for multiple operating conditions using machine learning.
To examine the novel spatial-temporal prediction models for the unsteady wake flows based on a hybrid deep neural network.
To find out the significance of using the novel approaches for rapid hypersonic flow predictions via surrogate modeling with machine learning and deep learning.

Aim of the study The aim of the study will be “To prepare a systematic review for understanding the effect of interactional aerodynamics on computational aeroacoustics of Lockheed Martin’s X2 platform”. Objectives of the study The objectives of the study will be;

To understand the concept of the interactional aerodynamics and computational aeroacoustics.
To find out the impacts of interactional aerodynamics on computational aeroacoustics of Lockheed Martin’s X2 platform.
To explore the design of aerodynamic optimization of proprotors for the convertible rotor.
To evaluate the optimization of the aerodynamic shape of a proporptor and its validation utilizing CFD and other experiments.
To examine the optimization of the aerodynamic shape of tiltrotor blades equipped with the continuous morphing aerofoils.
To find out the economic cost involved in the understanding of the effect of interactional aerodynamics on computational aeroacoustics of Lockheed Martin’s X2 platform.
To do the critical review on analysing the impacts of interactional aerodynamics on computational aeroacoustics.
To assess the positive and negative effects of interactional aerodynamics on computational aeroacoustics.
To explore the strategies involved in understanding the impacts of interactional aerodynamics on computational aeroacoustics.
To compare the past and current approaches that can be employed to examine the impacts of interactional aerodynamics on computational aeroacoustics of Lockheed Martin’s X2 platform.

Aim of the study The aim of the study will be “To do the critical analysis of digital control law synthesis for Lockheed Martin’s innovative control effectors aircraft concept. Can this technology set the fundamentals for 6th generation fighter jets?”

Objectives of the study The objectives of the study will be;

To understand the concept of digital control law synthesis.
To understand the impacts of the technology for the 6 th generation fighter jets.
To explore the applications of digital control law synthesis for the 6th generation fighter jets.
To compare the technologies used in the past years with the applications of digital control law synthesis.
To set the scope and design requirements for the performance analysis to categorize the aircraft.
To examine the conventional and modern flight control system design process for the tailless aircraft Simulink model with innovative control effectors provided by Lockheed Martin
To evaluate open-loop dynamics revealed modal instabilities as well as state and control coupling.
To find out which method will achieve the stable augmented control of the innovative control effectors (ICE) aircraft throughout the flight envelope.
To understand the tailless fighter aircraft model for control-related research and development.

Aims: Several experiments have been performed on aerodynamic load models with defined parameters to evaluate the critical decreased dry- and ice-galloping velocity of a conductor at a given wind-related yaw angle of the conductor. However, the researcher observed that there is not a vast amount of research in the domain of mitigating the outer structural and signal structures by using aerodynamic load identification. Therefore, the researcher wants to fill this gap. The aim outlined by the researcher for carrying out this research is to study the aerodynamic load identification and prediction of wind induced vibration on the outer structural and signal structures, in order to minimize them. In this context, the researcher considers Antonov 225 aircraft so that research outcomes can be meet in an effective manner. Objectives: In order to endorse the primary objective of the research study, the researcher formulated the secondary objectives so that the potential outcomes of the study can be met in an effective manner. Following are the secondary objective of the study are as following:

To study the significance of aerodynamic load identification in Antonov 225 from theoretical perspective.
To critically analyze the aerodynamic load identification and prediction of wind induced vibration on the outer structural and signal structures.
To examine the impact of aerodynamic load identification for minimizing the wind induced vibration on the outer structural and signal structures.
To identify the potential factors affecting wind induced vibration on the outer structural and signal structures.
To investigate the implications of using aerodynamic load identification in Antonov 225 for diminishing the wind induced vibration on the outer structural and signal structures.

In recent decades, the accretion of ice on aircraft or wind turbines has been generally recognised as a significant safety hazard. Therefore, the researcher wants to perform a research study in this domain. The purpose for conducting this research study is to perform an experimental investigation on thermodynamic characteristics of dielectric barrier discharge (DBD) plasma and its applications for aircraft icing mitigation. In this regard, the researcher takes specific note of the case of the Air Bus A-380 in order to support the main goal of the study being carried out.

The researcher designs the secondary objectives by narrowing down the primary objective into sub-parts in order to support the primary purpose of the study. Following are the secondary objectives:

To investigate the implications of dielectric barrier discharge (DBD) plasma from theoretical perspective.
To evaluate the approaches for icing control by using dielectric barrier discharge (DBD) plasma.
To perform an experimental study on Air Bus A-380 to bestow more reliable and safe solutions to mitigate aircraft icing.
To examine thermodynamic characteristics of dielectric barrier discharge (DBD) plasma and its applications for aircraft icing mitigation.
To provide relevant recommendations to effectively utilizing the thermodynamic features of dielectric barrier discharge (DBD) plasma for aircraft icing mitigation.

The speed of commercial aircraft has been limited for decades by the sound barrier. However, recent noticeable increases in air travel and the acknowledgement of time as a desirable commodity for travelers have called for quicker, more efficient commercial transport. Therefore, the researcher wants to conduct the research study in the domain of aerospace by specifically considering supersonic transport design. The aim of researcher in this study is to perform a critical study on reducing the dimensionality of a commercial supersonic transport design space by using active subspaces. In this context, the researcher wants to make use of air freight to minimize reliance on sea freight transport.

The researcher has developed secondary objectives in order to support the main objectives of the research, which are as follows:

To comprehend the implications of using active subspaces for reducing dimensionality of a commercial supersonic transport design.
To critically analyze the impacts of using active subspaces air freight for decreasing dependency on sea freight transport.
To build a framework for commercial supersonic architecture that involves active subspace surrogates to enhance the exploration of design space.
To provide adequate recommendations on effectively using active subspaces air freight for reducing the dependency on sea freight transport.

The aim or carrying out this research study is to critically evaluate the supersonic boundary layers over an adiabatic wall with deformations. In this regard, the researcher wants to analyze the use of supersonic boundary layers for bringing back supersonic passenger airliners in future.

T he primary of this research study is to evaluate the supersonic boundary layers over an adiabatic wall with deformations. Moreover, the researcher is inclined to explore the underlying factors which can guarantee the performance of the forthcoming supersonic passenger airliners. For the purpose of supporting the primary objectives of the research, the researcher formulated secondary objectives which are as following:

To investigate the implications of supersonic boundary layers over an adiabatic wall encompassing deformations.
To critically evaluate which aspects of supersonic boundary layers can be beneficial over an adiabatic wall to bring back supersonic passenger airliners in near future.
To explore which factors could guarantee the performance of the forthcoming supersonic passenger airliners.
To investigate prospective passengers' views of supersonic transport as a potential future mode of transportation.
To provide appropriate recommendations on successfully using supersonic boundary layers for bringing back supersonic passenger airliners in future.

For modern engineered systems like unmanned aerial systems and turbomachinery, the design of aerodynamic surfaces is essential. Therefore, the researcher wants to explore the multi-objective aerodynamic design by using different methods and techniques. In order to conduct this research study, the researcher has formulated the key aim, which is to perform a systematic study on exploring multi-objective aerodynamic design. The researcher is inclined to explore the multi-objective aerodynamic design using multi-fidelity methods and novel pareto set identification techniques.

The primary objective of this research is to fill the knowledge gap and explore alternatives for multi-objective aerodynamic architecture experimentation that are useful in multi-fidelity. In order to foster the primary objective of the research project, the secondary goal is designed by the researcher to enable the future findings of the study to be reached effectively. The secondary of the study are as following:

To study the concept of aerodynamic design from theoretical perspective.
To explore multi-objective aerodynamic design using multi-fidelity methods.
To investigate novel pareto set identification techniques that aligns with multi-objective aerodynamic design.
To assess the scalability of using the multi-fidelity methods and novel pareto set identification techniques.
To achieve optimized solutions which are non-commensurate using multi-fidelity techniques in the vicinity of a design configuration.

Aerospace Engineering Dissertation Ideas For Staggering Dissertations

Aerospace engineering is a very vast and innovative field. Therefore, aerospace engineering dissertation ideas will prove to be more helpful for you which you can customize into your favourite topic, rather than a handful of aerospace engineering dissertation topics. For this reason our market specialist senior expert writers have also prepared a free list of the best aerospace engineering dissertation ideas that you can use to custom make aerospace engineering dissertation topics for yourselves.

The aim of the study is to conduct a critical analysis of the lag parameter method for the modelling of turbulence of general and common air route taken by airline passenger to make themselves safe. Therefore, the research aims to identify the factors of service quality in the airline industry.

The primary objective of the study is to achieve the aim of the study. However, the primary objective of the study can be achieved through various secondary objectives. Therefore, the secondary objectives of the study are:

To determine the procedures and methods that the airline must follow in order to offer safe and secure air travel.
To evaluate how the service quality of airline can be improved.
To evaluate the association between the profitability of airline and the service quality.

The aim of the study is to conduct an experimental analysis on the de-icing/anti-de-icing technology and the icing physics of wind turbine. The research aims to analyze which approach is cost-efficient for the aircraft who are flying at enormously high altitudes. Therefore, the research aims to explain the physics pertinent of icing toward wind turbines. Furthermore, the research aims to suggest robust and effective mitigation strategies of ice for the wind turbines.

To measure the process of active ice accretion over the blade surfaces of the wind turbine.
To analyze the ice accreting blades’ aerodynamic penalties.
To promote and encourage a fine understanding regarding the transfer of heat during the process of icing.
To suggest mitigation strategies of ice for the wind turbine blade.
To analyze the effectiveness, flexibility, central control and mass-production possibilities, economical efficiencies and safety of the proposed suggestions.
To evaluate which approach is cost-efficient for high altitude flying of aircraft.

The aim of the study is to conduct a critical exploratory analysis to determine the bio-inspired surface coating for the icing mitigation of aircraft. The research aims to study that can the nanotechnology be the everlasting solution for the icing problem of the surface.

Objectives :

To develop a wind tunnel which will thereby quicken the droplets of water and determine the impact of highspeed droplet on the dynamics and coating of the bio-inspired surface.
To establish an accelerated and smooth spray generator to illustrate the bio-inspired surface durability.
To measure and quantify the details of the flow of the droplets which are wind-drive and to develop a theoretical model for forecasting the motion of wind-driven droplet on the different surface coating which are bio-inspired.
To offer a suggestion for the promising coating selection for icing mitigation of aircraft.

The aim of the study is to conduct a dynamic analysis of the complex wind turbine blade. The research aims to study the effectiveness of these composite blade. Furthermore, the aim of the study is to evaluate how much long-lasting, sturdier and stronger these blades areas compare to old ones. Therefore, the purpose of the study is to develop a basis for analyzing the level of accuracy required in the prediction model of load by comparing the wind turbine blade composite material results for the experimental wind loads set. Additionally, the research aims to evaluate how the wind forecasting dynamics can be enhanced for reliable, economical and safe operations of the wind turbines. The research will study the procedure of blade modelling, aerodynamic load calculations form the wind data collection and the analysis of fatigue for the wind turbine blade.

To study complex blades of wind turbines.
To evaluate the effectiveness of each blade.
To analyze as compare to conventional blades, how stronger these blades are?

The aim of the study is to study the electrical vertical landing and takeoff (VTOL) aircraft management in urban air mobility which are on-demand. The study aims to develop the most energy effective arrival trajectory with battery endurance that is limited, eVTOL type and the particular CONOP (Concept of operation). The research aims to meet the allocated RTA constraint with secure eVTOL separation requirement of aircraft and partial vertiport time slot of arrival.

To study the scheduling of eVTOLs and the sequence of arrival.
To solve and formulate the scheduling problem and sequencing for assorted eVTOLs fleet in order to enable efficient and safe UAM operations.

The aim of the study is to evaluate the effectiveness of the airline system in offering medical help to people in the urban hub cities which are overpopulated. Therefore, the research emphasizes on the urban development central aspect that is urban form and transport and studies how these two will certainly shape the provision of goods and services, access to people and the information in cities.

To evaluate the effectiveness of airline in offering medical support.
To investigate the association between passenger loyalty, passenger satisfaction and the service quality of the airline.
To determine factors which contribute to the service quality of airlines.

The aim of the study is to understand the requirement of technological development for the assessment and valuation in the space habitat making. Therefore, the study aims to fill the current gaps in technology selection and subsystem sizing. The aim of the study is to develop a methodology to size dynamically subsystems of space habitats and choose technologies to carry various missions.

To evaluate the requirement of technological advancement for the development of space habitats.
To analyze how the subsystem can be size dynamically and chose for various missions.
To evaluate the challenges of space exploration.
To analyze the space habitats characteristics.

The aim of the study is to conduct a critical exploration and the analysis of the performance of the techniques for the optimization of supersonic descent production aerodynamics. The study aims to analyze how this technique will certainly support and assist in manned landing on the surface of Mars.

To evaluate the performance of the novel techniques in the optimization of supersonic descent production aerodynamics.
To analyze the effectiveness of these techniques.
To study how these technologies will certainly help in manned landing on the surface of Mars.

The aim of the study is to conduct a novel approach on how the algorithms of deep learning can be implemented for enhancing the attitude of spacecraft and orbit control system (AOCS).

To explore the deep learning application on the isolation and fault detection in the AOCS.
To establish a framework for additional research for the aerospace deep learning.
To create or acquire the important telemetry that is to be used for testing and training the classifiers of AOCS.
To develop a model of simulation which is certainly capable of the simulation of on-orbit faults.
To analyze the basis of spacecraft attitude control and determination.

Aims and objectives

The aim of this study is that to critically evaluate the using of large eddy simulation and the machine learning augmentation for flow over bumps enabled turbulence modelling in the space crafts. However, large eddy simulation is the mathematical model which used the computational fluid dynamics for turbulence. The turbulent flow with two-dimensional bumps by the well resolved large eddy simulation. The data augmentation also reduces overfitting when training a machine learning. This is also closely related to the oversampling in data analysis. The optimization method is used to extract fields of variables used in the turbulence closure models.

The objectives of this study are the following:

To critically analyse the large eddy simulation LES and data augmentation.
To analyse the turbulence modelling in space crafts.
To evaluate the large eddy simulation and machine learning augmentation for flow over bumps enabled turbulence modelling in space crafts.

Aims The aim of this study is that it is the novel approach use of the hybrid electric distributed propulsion for landing and vertical take-off of the space crafts. This is the study also analyse the effectiveness of this system for the atmosphere in entering and leaving in different planets. This research also explores the interaction between the hybrid electric power system (HEPS) and aerodynamics and control for vertical take-off and landing (VTOL) aircraft applications with the selection of the configuration for evaluation of interaction with the hybrid power system. Objectives The objectives of this study are the following:

To analyse the Hybrid electric power system (HEPS) and vertical take-off and landing (VTOL).
To assess the novel approach or idea of using hybrid electric distributed propulsion for vertical takeoff and landing spacecraft.
To assess the system's affectivity for entering and leaving the atmosphere of different planets.
To analyse the impact of hybrid electric distributed propulsion for vertical take-off and landing spacecraft and atmosphere on other planets.

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Mechanical & Aerospace Engineering Theses & Dissertations

Theses and dissertations published by graduate students in the Department of Mechanical and Aerospace Engineering, College of Engineering, Old Dominion University since Fall 2016 are available in this collection. Backfiles of all dissertations (and some theses) have also been added.

In late Fall 2023 or Spring 2024, all theses will be digitized and available here. In the meantime, consult the Library Catalog to find older items in print.

Theses/Dissertations from 2023 2023

Thesis: Switching Methods for Three-Dimensional Rotational Dynamics Using Modified Rodrigues Parameters , Matthew Jarrett Banks

Dissertation: Studies of Flowfields and Dynamic Stability Characteristics of a Quadrotor , Engin Baris

Thesis: Development, Experimental Validation, and Progressive Failure Modeling of an Ultra-Thin High Stiffness Deployable Composite Boom for in-Space Applications , Jimesh D. Bhagatji

Thesis: Design and Implementation of a Launching Method for Free to Oscillate Dynamic Stability Testing , Kristen M. Carey

Thesis: SeaLion CubeSat Mission Architecture Using Model Based Systems Engineering with a Docs as Code Approach , Kevin Yi-Tzu Chiu

Dissertation: RoboRetrieve --In a Dual Role as a Hand-held Surgical Robot and a Collaborative Robot End-effector to Perform Spillage-free Specimen Retrieval in Laparoscopy , Siqin Dong

Thesis: Fabrication of Solid Oxide Fuel Cell Components Using Stereolithography 3D Printing , Hannah Dyer

Thesis: Fusion Bonding Behavior of 3D Printed PA6/CF Composites Via Post Fabrication Compaction , Gonzalo Fernandez Mediavilla

Dissertation: Machine Learning Approach to Activity Categorization in Young Adults Using Biomechanical Metrics , Nathan Q. C. Holland

Thesis: Study of Microphonic Effects on the C100 Cryomodule for High Energy Electron Beam Accelerators , Caleb James Hull

Dissertation: E-Cadherin Force Transmission and Stiffness Sensing , Mazen Mezher

Thesis: Experimental and Computational Aerodynamic Studies of Axially-Oriented Low-Fineness-Ratio Cylinders , Forrest Miller

Thesis: The Effect of Through Thickness Reinforcement Angle on the Disbonding Behavior in Skin-Stringer Configuration , Christopher John Morris

Dissertation: Chemical and Physical Interaction Mechanisms and Multifunctional Properties of Plant Based Graphene in Carbon Fiber Epoxy Composites , Daniel W. Mulqueen

Thesis: Data-Driven Predictive Modeling to Enhance Search Efficiency of Glowworm-Inspired Robotic Swarms in Multiple Emission Source Localization Tasks , Payal Nandi

Dissertation: Fabrication of Smooth SAC305 Thin Films via Magnetron Sputtering and Evaluations of Microstructure, Creep, and Electrical Resistivity , Manish Ojha

Dissertation: Faster, Cheaper, and Better CFD: A Case for Machine Learning to Augment Reynolds-Averaged Navier-Stokes , John Peter Romano II

Thesis: A Comparative Study of Vinti-Based Orbit Propagation and Estimation for CubeSats in Very Low Earth Orbits , Ethan Michael Senecal

Theses/Dissertations from 2022 2022

Thesis: A Comparison of Uniaxial Compressive Response and Inelastic Deformation Mechanisms in Freeze Cast Alumina-Epoxy Composites Without and With Rigid Confinement , Tareq Aljuhari

Thesis: Failure Mode, Effects and Criticality Analysis of a Very Low Earth Orbit CubeSat Mission , Robb Christopher Borowicz

Thesis: A Study of Asymmetric Supersonic Wind Tunnel Nozzle Design , Brittany A. Davis

Thesis: Electromagnetic Modeling of a Wind Tunnel Magnetic Suspension and Balance System , Desiree Driver

Dissertation: Advanced Generalized Predictive Control and Its Application to Tiltrotor Aircraft for Stability Augmentation and Vibration Reduction , Thomas Glen Ivanco

Dissertation: Numerical Simulation of Electroosmotic Flow of Viscoelastic Fluid in Microchannel , Jianyu Ji

Thesis: Assembly of Ceramic Particles in Aqueous Suspensions Induced by High-Frequency AC Electric Field , James E. John IV

Dissertation: The Effect of Soft Tissue and Bone Morphology on the Stresses in the Foot and Ankle , Jinhyuk Kim

Thesis: Development of Modeling and Simulation Platform for Path-Planning and Control of Autonomous Underwater Vehicles in Three-Dimensional Spaces , Sai Krishna Abhiram Kondapalli

Thesis: Deep Learning Object-Based Detection of Manufacturing Defects in X-ray Inspection Imaging , Juan C. Parducci

Dissertation: Utilization of Finite Element Analysis Techniques for Adolescent Idiopathic Scoliosis Surgical Planning , Michael A. Polanco

Thesis: Mechanics of Preimpregnated Fiber Tow Deposition and Compaction , Virginia Meredith Rauch

Dissertation: Role of Structural Hierarchy in Multiscale Material Systems , Siavash Sattar

Thesis: Implementation of an Extended Kalman Filter Using Inertial Sensor Data for UAVs During GPS Denied Applications , Sky Seliquini

Dissertation: Collaborative Robotics Strategies for Handling Non-Repetitive Micro-Drilling Tasks Characterized by Low Structural Mechanical Impedance , Xiangyu Wang

Theses/Dissertations from 2021 2021

Dissertation: Tunable Compressive Mechanical Behavior of Ice-Templated Materials , Sashanka Akurati

Thesis: Analysis of a Non-Equilibrium Vortex Pair as Aircraft Trailing Vortices , Manuel Ayala

Thesis: Modeling Interactions in Concentrated Ceramic Suspensions Under AC Electric Field , Naga Bharath Gundrati

Dissertation: Improved Strain Gage Instrumentation Strategies for Rotorcraft Blade Measurements , Timothy S. Davis

Thesis: A Model-Based Systems Engineering Approach to e-VTOL Aircraft and Airspace Infrastructure Design for Urban Air Mobility , Heidi Selina Glaudel

Dissertation: Development and Applications of Adjoint-Based Aerodynamic and Aeroacoustic Multidisciplinary Optimization for Rotorcraft , Ramiz Omur Icke

Thesis: A New Method for Estimating the Physical Characteristics of Martian Dust Devils , Shelly Cahoon Mann

Thesis: Post-Processing and Characterization of Additive Manufactured Carbon Fiber Reinforced Semi-Crystalline Polymers , Patricia Revolinsky

Thesis: Gradient-Based Tradeoff Design for Engineering Applications , Lena Alexis Royster

Thesis: The Effect of Through Thickness Reinforcement on Debonding Behavior of Skin/Stringer Configuration , Yogaraja Sridhar

Thesis: Empirical Modeling of Tilt-Rotor Aerodynamic Performance , Michael C. Stratton

Thesis: A Digital One Degree of Freedom Model of an Electromagnetic Position Sensor , Michelle Elizabeth Weinmann

Theses/Dissertations from 2020 2020

Thesis: Parametric Study of Residual Stresses in Wire and Arc Additive Manufactured Parts , Hisham Khaled Jamil Abusalma

Thesis: The Effect of Compaction Temperature and Pressure on Mechanical Properties of 3D Printed Short Glass Fiber Composites , Pushpashree Jain Ajith Kumar Jain

Thesis: Numerical Analysis of a Roadway Piezoelectric Harvesting System , Abdul Rahman Badawi

Dissertation: Role of Anisometric Particles in Ice-Templated Porous Ceramic Structure and Mechanical Properties , Mahesh Banda

Thesis: Mechanism of Compaction With Wrinkle Formation During Automatic Stitching of Dry Fabrics and the Size Effect of Compression Molded Discontinuous Fiber-Reinforced Composites , Anibal Benjamin Beltran Laredo

Thesis: Conical Orbital Mechanics: A Rework of Classic Orbit Transfer Mechanics , Cian Anthony Branco

Thesis: Rotorcraft Blade Angle Calibration Methods , Brian David Calvert Jr.

Dissertation: Onboard Autonomous Controllability Assessment for Fixed Wing sUAVs , Brian Edward Duvall

Thesis: A Parametric Analysis of a Turbofan Engine with an Auxiliary Bypass Combustion Chamber – The TurboAux Engine , Kaleab Fetahi

Thesis: Space-Based Countermeasure for Hypersonic Glide Vehicle , Robert Joseph Fowler IV

Thesis: Compaction and Residual Stress Modeling in Composite Manufactured with Automated Fiber Placement , Von Clyde Jamora

Thesis: Trajectory Simulation With Battery Modeling for Electric Powered Unmanned Aerial Vehicles , Ege Konuk

Thesis: Detailed Modeling of the Flash Hydrolysis of Algae for Biofuel-Production in COMSOL Multiphysics , Noah Joseph LeGrand

Thesis: Through-Thickness Reinforcement and Repair of Carbon Fiber Based Honeycomb Structures Under Flexure and Tension of Adhesively Bonded Joints , Aleric Alden Sanders

Thesis: Energy Harvesting Using Flextensional Piezoelectric Energy Harvesters in Resonance and Off-Resonance Modes , Mohamed A. Shabara

Thesis: Thermal Contact Resistance Measurement and Related Uncertainties , Amanda Elizabeth Stark

Thesis: Model Based Systems Engineering for a Venture Class Launch Facility , Walter McGee Taraila

Thesis: A Post-Impact Behavior of Platelet-Based Composites Produced by Compression Molding , Christopher Eugene Ervin Volle

Thesis: Nonlinearity Index Aircraft Spin Motion Analysis With Dynamic Inversion Spin Recovery Controller Design , Jeffry Walker

Thesis: A Study of the Aeroacoustics of Swept Propellers for Small Unmanned Aerial Vehicles , Arthur David Wiedemann

Thesis: Finite Element Analysis Investigation of Hybrid Thin-Ply Composites for Improved Performance of Aerospace Structures , Alana M. Zahn

Theses/Dissertations from 2019 2019

Thesis: Characterization and Optimization of a Propeller Test Stand , Colin Bruce Leighton Benjamin

Dissertation: Endogenous Force Transmission Between Epithelial Cells and a Role for α-Catenin , Sandeep Dumbali

Dissertation: Effect of the Physical Micro-Environment on Cell Adhesion and Force Exertion , Mohamad Eftekharjoo

Thesis: Reducing the Noise Impact of Unmanned Aerial Vehicles by Flight Control System Augmentation , Matthew B. Galles

Thesis: Design and Manufacture of an Inertial Cascade Impactor for Industrial Hygiene Purposes , Hector Joel Gortaire

Thesis: Off Axis Compressive Response of Ice-Templated Ceramics , Rahul Kumar Jujjavarapu

Thesis: Unsupervised-Learning Assisted Artificial Neural Network for Optimization , Varun Kote

Dissertation: Numerical Simulation of Viscoelastic Flow in Micro/Nanochannels , Lanju Mei

Thesis: Comparison of Support Methods for Static Aerodynamic Testing and Validation of a Magnetic Suspension and Balance System , Cameron K. Neill

Thesis: Extension of a Penalty Method for Numerically Solving Constrained Multibody Dynamic Problems , Troy Newhart

Dissertation: Computational Analysis and Design Optimization of Convective PCR Devices , Jung Il Shu

Thesis: Periodic Orbit Analytic Construction In The Circular Restricted Three-Body Problem , Jay Shriram Suryawanshi

Thesis: A CFD Study of Steady Fully Developed Laminar Flow Through a 90-Degree Bend Pipe with a Square Cross-Sectional Area , Subodh Sushant Toraskar

Dissertation: Estimation of Arterial Wall Parameters Via Model-Based Analysis of Noninvasively Measured Arterial Pulse Signals , Dan Wang

Theses/Dissertations from 2018 2018

Thesis: Offshore Wind Energy: Simulating Local Offshore Wind Turbine , Ian P. Aquino

Dissertation: Epithelial Sheet Response to External Stimuli , Yashar Bashirzadeh

Thesis: Anthropomorphically Inspired Design of a Tendon-Driven Robotic Prosthesis for Hand Impairments , Manali Bapurao Bhadugale

Thesis: Aerothermodynamic Analysis of a Mars Sample Return Earth-Entry Vehicle , Daniel A. Boyd

Thesis: Volterra Series Approximation for Multi-Degree of Freedom, Multi-Input, Multi-Output, Aircraft Dynamics , Alexander J. Chen

Dissertation: Simplified, Alternative Formulation of Numerical Simulation of Proton Exchange Membrane Fuel Cell , Russell L. Edwards

Thesis: Distributed Sensing and System Identification of Cantilever Beams and Plates in the Presence of Weak Nonlinearities , Patrick Sean Heaney

Thesis: Dynamic Response Modeling of High Speed Planing Craft with Enforced Acceleration , Brian K. Johnson

Dissertation: Identification and Optimal Linear Tracking Control of ODU Autonomous Surface Vehicle , Nadeem Khan

Dissertation: Design and Implementation of an Artificial Neural Network Controller for Quadrotor Flight in Confined Environment , Ahmed Mekky

Thesis: Gust Alleviation System for General Aviation Aircraft , Lucas Coleman Mills

Thesis: Human-Robot Collaborative Force-Controlled Micro-Drilling for Advanced Manufacturing and Medical Applications , Parimal Mahesh Prajapati

Thesis: Single-Stage, Venturi-Driven Desalination System , Brandon Proetto

Thesis: A Cost Effective Design for a Propeller Thrust/Torque Balance , Nicholas Barrett Sadowski

Dissertation: Understanding the Mechanical Behavior of Costal Cartilage at Their Curved Exterior Surface Via a Tactile Sensor with a Built-In Probe for Distributed-Deflection Detection , Jiayue Shen

Thesis: A Scientific Approach to Understanding the Head Trauma Endured by a Mixed Martial Arts Fighter , John William Michael Sorbello

Thesis: Robocatch: Design and Making of a Hand-Held Spillage-Free Specimen Retrieval Robot for Laparoscopic Surgery , Farid Tavakkolmoghaddam

Thesis: Effects of Automated Fiber Placement on High Strain Rate Compressive Response of Advanced Composites , Alexander Trochez

Thesis: A Monolithic Internal Strain-Gage Balance Design Based on Design for Manufacturability , Thomas Ladson Webb III

Dissertation: A Stepwise Compression-Relaxation Testing Method for Tissue Characterization and Tumor Detection Via a Two-Dimensional Tactile Sensor , Yichao Yang

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Research Topics in Aerospace Engineering

1. Nanomaterials in Aerospace : Exploring the use of nanomaterials to enhance structural properties and create stronger, lighter, and more durable materials.

2. Bio-Inspired Materials : Research materials inspired by nature, such as biomimetic composites, to improve structural design and performance.

3. Self-Healing Materials : Investigating materials capable of autonomously repairing damage, crucial for increasing the lifespan of aerospace components.

4. 3D Printing in Aerospace : Enhancing the use of additive manufacturing for complex geometries and producing lighter, stronger, and customized components.

5. Smart Materials : Research adaptive materials that change properties in response to external stimuli to improve efficiency and safety in aerospace structures.

6. Electric Propulsion : Studying electric propulsion systems, such as ion drives or electric turbofans, for efficiency and reduced environmental impact.

7. Hybrid Propulsion : Exploring combinations of traditional and alternative fuels for more efficient and environmentally friendly propulsion systems.

8. Micro-propulsion Systems : Researching miniaturized propulsion systems for small satellites and micro-spacecraft.

9. Hypersonic Propulsion : Investigating engines capable of sustained operation at hypersonic speeds for high-speed travel and space applications.

10. Green Propellants : Developing non-toxic, environmentally friendly fuels to reduce the environmental impact of aerospace missions.

11 . Autonomous Flight Control : Researching and implementing AI-driven systems for autonomous flight control in unmanned aerial vehicles and aircraft.

12. Decision-Making Algorithms : Developing AI algorithms for autonomous systems to make real-time decisions during complex flight scenarios.

13. Swarm Intelligence in Aerospace : Investigating swarm robotics and AI for coordinated operations of multiple drones or satellites.

14. Predictive Maintenance : Implementing AI to predict and prevent mechanical failures, reducing maintenance costs and enhancing safety.

15. AI in Space Exploration : Utilizing AI for autonomous exploration and decision-making in space missions, such as on Mars or other celestial bodies.

16. Active Debris Removal: Researching and developing technologies for actively removing space debris to reduce collision risks in orbit.

17. Orbital Traffic Management: Implementing systems to track and manage the growing number of satellites and spacecraft in orbit.

18. Debris Mitigation Strategies : Investigating techniques to design satellites with built-in capabilities to reduce debris creation.

19. Space Situational Awareness: Advancing technologies for better tracking and monitoring space objects to prevent collisions.

20. Deorbiting Technologies: Developing methods to safely deorbit defunct satellites and spacecraft to burn up in the Earth’s atmosphere.

21. Aero-elastic Tailoring : Studying how to design aircraft wings to adapt and reduce flutter or oscillations in flight.

22. Noise Reduction Technologies : Research advanced materials and designs to mitigate aircraft noise for improved environmental impact.

23. Structural Health Monitoring : Developing sensors and systems for continuous monitoring of aircraft structures to predict potential failures.

24. Sonic Boom Mitigation : Investigating techniques to reduce the intensity of sonic booms to enable supersonic commercial flights.

25. Aero-acoustic Simulations : Improving computational models to simulate and predict noise generated by aircraft in different conditions.

26. Regenerative Life Support Systems : Researching systems that recycle waste and support life sustainably in long-duration space missions.

27. Advanced Thermal Control : Developing efficient thermal management systems for space habitats in extreme conditions.

28. Bioastronautics : Investigating the effects of long-duration space travel on human physiology and mental health.

29. Closed Ecological Systems : Designing self-sufficient systems for life support that mimic Earth’s ecological cycles in space.

30. Space Agriculture : Researching methods to grow food sustainably in space for long-term missions.

31. Flow Control Technologies : Investigating techniques to control airflow over aircraft surfaces for enhanced efficiency and performance.

32. Drag Reduction Methods : Research ways to minimize drag through innovative design and flow control mechanisms.

33. Supersonic and Hypersonic Aerodynamics : Understanding aerodynamics at high speeds and developing efficient designs for supersonic travel.

34. Unmanned Aerial Vehicles (UAVs) : Advancing aerodynamics specific to drone technology and their varied applications.

35. Biologically Inspired Aerodynamics : Studying aerodynamic principles in nature for innovative aircraft designs.

36. 5G and Beyond in Space : Researching the implementation of advanced communication technologies in space for higher data rates and improved connectivity.

37. Inter-Satellite Communication : Studying methods for satellites to communicate with each other, forming constellations for better coverage and data sharing.

38. Secure Satellite Communication : Developing encryption methods and secure communication protocols for satellite networks.

39. Internet of Things (IoT) in Space : Exploring IoT applications for connected devices in space-based systems.

40. Quantum Communication in Space : Investigating the application of quantum technologies for secure and high-speed communication in space.

41. Formation Flying and Swarming : Researching the dynamics and control strategies for formations of satellites or spacecraft.

42. Space Traffic Control : Developing methods to regulate the traffic of spacecraft in congested orbits.

43. Planetary Landing and Mobility : Improving landing techniques and mobility systems for planetary exploration missions.

44. Orbital Dynamics of Small Satellites : Studying the unique orbital behaviors and challenges faced by small satellites.

45. Space Weather and its Effects : Understanding the impact of space weather on spacecraft and developing strategies for protection.

46. Avionic Systems Security : Securing critical avionic systems from cyber threats and potential attacks.

47. Satellite Cyber Resilience : Developing resilient and secure systems for satellites against cyber intrusions.

48. Flight Control Systems Security : Ensuring the integrity of flight control systems from cyber threats and vulnerabilities.

49. Secure Communication Networks : Implementing robust Cybersecurity measures in Aerospace communication networks.

50. AI-Powered Cyber Defence : Utilizing AI and machine learning for real-time threat detection and response in aerospace systems.

The aerospace engineering field is continually evolving, with research topics continually adapting to technological advancements , societal needs, and environmental considerations. These emerging areas represent only a fraction of the diverse and dynamic research landscape within aerospace engineering. As technology progresses and new challenges arise, researchers will continue to explore innovative solutions, paving the way for the future of aerospace engineering.

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25+ Research Ideas in Aerospace Engineering for High School Students

Aerospace engineering is an exciting domain that merges the principles of physics, mathematics, and engineering to design and analyze aircraft and spacecraft. If you have a passion for flight and space exploration, then you should know that while it's the pilots and astronauts pushing the physical frontiers, it’s the researchers and theorists doing the heavy lifting to push the edges of the theoretical envelope. Though it may seem daunting, you should not hold yourself back from pursuing research while still in school, as it will highlight your initiative and dedication, while actually building your analytical expertise, core domain knowledge, and problem-solving skills . Of course, it can also significantly boost your profile for the purpose of college applications.

In this blog, we present 25+ research ideas across various subdomains within aerospace engineering that you could consider exploring.

How should you go about pursuing research in engineering as a high schooler?

First and foremost, you should be aware of your relative inexperience and therefore choose a research topic that’s both accessible and relevant. The ideal subject should address a contemporary challenge or an existing knowledge gap, but as long as you try to innovate and add value to the field while having the resources and tools to do so, then you’re in the right direction. Once you've finalized a promising research topic, decide your methodology, and presentation of results, and of course be aware of any ethical considerations.

Topic 1: Aircraft Design and Aerodynamics

If the magic of flight has always fascinated you, then these are the topics for you. By diving into aircraft design and aerodynamics , you'll unravel how aircraft defy gravity, the principles that govern their design, and the complex mechanics of the movement of air molecules around an aircraft's body.

Good to have before you start:

A basic understanding of fluid dynamics, interest in aircraft design, and familiarity with computer-aided design (CAD) tools.

Convenient access to a computer design lab or CAD software - a lot of the theoretical research you do will require this specialized software.

Some potential topics:

1. Next-Gen Aircraft Designs: Delve into futuristic designs that prioritize sustainability, efficiency, and passenger comfort.

2. Stability and Control of Aircraft: Understand the delicate balance that keeps aircraft stable in the skies.

3. High-Speed Flight Aerodynamics: Explore the challenges faced when breaking the sound barrier and the realm of supersonic flight.

4. Micro Air Vehicles (MAVs): Investigate the world of tiny aircraft and their potential applications in surveillance, research, and more.

Ideas contributed by Lumiere Mentors from the Imperial College London, Texas A&M University, and the University of Illinois at Urbana-Champaign.

Topic 2: Spacecraft and Satellite Systems

Venturing beyond our atmosphere, this topic will take you on a journey through the vast expanse of space. From the intricacies of spacecraft design to the silent sentinels (satellites) that orbit our planet, you'll gain insights into how humans have extended their reach to the stars and the technologies that make space exploration possible. This is a beginner-friendly topic because much of the data you might need is already in the public domain, courtesy of NASA , and the topics are largely theoretical and give you a good opportunity to build your knowledge of physics and mathematics.

A foundation in orbital mechanics, interest in space exploration, and some understanding of electronic systems.

5. Reusable Rocket Technologies: Study the mechanics and feasibility of rockets designed for multiple launches.

6. Satellite Communication Systems: Explore the technology behind satellite-based communication and its advancements.

7. Spacecraft Propulsion Systems: Investigate innovative methods to propel spacecraft beyond Earth's orbit.

8. CubeSats and Miniaturized Satellites: Delve into the design and applications of small-scale satellites.

Ideas contributed by Lumiere Mentors from the University of Illinois at Urbana-Champaign and Cornell University.

Topic 3: Materials and Structures in Aerospace

At the core of aerospace engineering lies the challenge of creating structures that are both lightweight and incredibly strong. These topics delve into the advanced materials and innovative designs that ensure aircraft and spacecraft can withstand the extreme conditions they face.

Knowledge of material properties, understanding of stress and strain, and interest in innovative material solutions.

Access to a materials lab where you can test material properties yourself.

Some mentorship - due to the hands-on and experimental nature of these topics, we suggest that you work with a teacher, a mentor, or at the very least a lab assistant who can guide you on the basics and direct your testing.

Safety wear - as always, when working with materials, it’s important to wear appropriate safety gear.

9. Composite Materials in Aerospace: Learn about the blend of materials that offer strength without adding weight.

10. Thermal Protection Systems: Understand the shields that protect spacecraft from the intense heat of re-entry.

11. Aircraft Wing Morphing: Discover the adaptive designs that allow aircraft wings to change shape in response to flight conditions.

12. Nanostructured Materials in Aerospace: Dive into the microscopic world of nanomaterials and their transformative potential in aerospace applications.

Ideas contributed by a Lumiere Mentor from Cornell University.

Topic 4: Avionics and Control Systems

The brains behind every aerospace vehicle, avionics, and control system ensure that aircraft and spacecraft can navigate, communicate, and operate safely. This topic offers a deep dive into the electronic and software systems that are the nerve center of any aerospace vehicle.

Familiarity with electronic systems, understanding of control theory, and interest in software development.

Some experience with coding and knowledge of common programming language(s)

13. Autonomous Flight Systems: Explore the technologies enabling aircraft to fly without human intervention.

14. Spacecraft Navigation Systems: Delve into the advanced systems that guide spacecraft through the vastness of space.

15. Air Traffic Management: Understand the complex systems that coordinate the movement of thousands of aircraft in our skies.

16. Sensor Integration in Aircraft: Learn about the myriad sensors that monitor everything from airspeed to engine health.

Topic 5: Propulsion and Energy Systems

The driving force of aerospace vehicles, propulsion systems, is what makes flight and space travel possible. This topic will introduce you to the engines that roar on takeoff, the silent thrusters of spacecraft, and the future of propulsion technologies. It is a good intersection of chemical, thermal, and design engineering that is accessible to newcomers and great for building your knowledge.

A grasp of thermodynamics, an understanding of fluid mechanics, and an interest in energy solutions.

Some mentorship - since this field involves expertise in multiple topics, you will greatly benefit from a mentor who can guide your efforts.

17. Electric Propulsion in Aircraft: Discover the shift towards greener, electrically powered flight.

18. Rocket Engine Innovations: Understand the fiery powerhouses that send rockets soaring into space.

19. Alternative Fuels in Aviation: Explore the potential of biofuels and other alternatives to traditional aviation fuels.

20. Energy Storage in Aerospace: Delve into the challenges and solutions of storing energy for long-duration space missions.

Ideas contributed by Lumiere Mentors from Cornell University and Texas A&M University.

Topic 6: Aerospace Safety and Reliability

When you’re moving at hundreds or even thousands of miles per hour, safety becomes paramount. This topic focuses on the designs, systems, and protocols that ensure every flight is safe, and every space mission is executed without a hitch. It's an essential area for those who prioritize safety and reliability above all.

21. Aircraft Crashworthiness: Learn about the designs that protect passengers and crew during the unthinkable.

22. Spacecraft Life Support Systems: Understand the vital systems that keep astronauts alive in the hostile environment of space.

23. Reliability Analysis of Aerospace Systems: Dive into the methods used to ensure every component of an aircraft or spacecraft is reliable.

24. Emergency Landing Systems: Discover the technologies that can bring an aircraft safely back to the ground in emergencies.

Topic 7: Aerospace Environmental Impact

As the world becomes more environmentally conscious, understanding the impact of aerospace activities on our planet is crucial. This is a future-oriented topic that deals with the environmental fallout of humanity’s race for the stars . This topic will introduce you to the challenges and innovations aimed at reducing the environmental footprint of flying and space exploration.

A foundation in environmental science, understanding of emissions and their effects, and interest in sustainable solutions.

Some mentorship - while the ideas below are primarily theoretical, submitting an innovative research paper in this field will require good knowledge across multiple fields and the interplay between aerospace and sustainability engineering. Your chances and learning will be greatly enhanced if you find a mentor.

25. Aircraft Emissions and Climate Change: Explore the impact of aviation on our climate and the steps being taken to mitigate it.

26. Space Debris Management: Delve into the growing challenge of space junk and the solutions to manage and reduce it.

27. Noise Pollution from Aircraft: Understand the sources of noise from aircraft and the innovations aimed at quieter skies.

28. Sustainable Space Exploration: Learn about the practices ensuring that our exploration of space leaves no lasting harm.

Embarking on a research journey in aerospace engineering is like launching a personal mission to the stars. Not only will you learn much of the theory behind aerospace engineering, you will also ensure that your profile stands out to admissions officers by demonstrating your dedication, innovative thinking, and contribution to the field. Good luck with your research!

Lumiere Research Scholar Program

If you’re looking for the opportunity to do in-depth research on the above topics and more, you could also consider applying to one of the Lumiere Research Scholar Programs , selective online high school programs for students I founded with researchers at Harvard and Oxford. Last year, we had over 4000 students apply for 500 spots in the program! You can find the application form here.

Stephen is one of the founders of Lumiere and a Harvard College graduate. He founded Lumiere as a PhD student at Harvard Business School. Lumiere is a selective research program where students work 1-1 with a research mentor to develop an independent research paper.

Image Source: Unsplash

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Department of Aerospace Engineering

Website http://www.bristol.ac.uk/aerospace/

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3d printing shape-changing double-network hydrogels.

Supervisor: Seddon, A. M. (Supervisor) & Eichhorn, S. (Supervisor)

Student thesis : Doctoral Thesis › Doctor of Philosophy (PhD)

A consideration of geometry in very-low Earth orbit satellites

Supervisor: Berthoud, L. (Supervisor) & Allen, C. B. (Supervisor)

Acoustic Flow Perception in Bats and Applications in Navigation

Supervisor: Windsor, S. P. (Supervisor) & Holderied, M. W. (Supervisor)

Active Thermal Management in FRP Composites via Embedded Vascular Networks

Supervisor: Bond, I. P. (Supervisor) & Lawrie, A. G. W. (Supervisor)

Adaptive Compliant Structures for Fluid Flow Control: A ‘catastrophic’ approach

Supervisor: Pirrera, A. (Supervisor), Groh, R. (Supervisor) & Theunissen, R. (Supervisor)

Adaptive Sampling in Particle Image Velocimetry

Supervisor: Poole, D. (Supervisor) & Allen, C. (Supervisor)

Additive Manufacturing of Soft, Functional Structures for Next-Generation Soft Robotics

Supervisor: Faul, C. F. (Supervisor), Rossiter, J. (Supervisor) & Richards, A. (Supervisor)

A design approach for super-efficient Wrapped Tow Reinforced Hierarchical Space Frames

Supervisor: Woods, B. K. S. (Supervisor), Macquart, T. (Supervisor), Schenk, M. (Supervisor) & Pirrera, A. (Supervisor)

Advanced numerical methods for modelling impact in composite materials

Supervisor: Kawashita , L. F. (Supervisor), Melro, A. R. (Supervisor) & Hallett, S. R. (Supervisor)

Aerial Manipulators for Contact-based Interaction

Supervisor: Richardson, T. S. (Supervisor) & Georgilas , I. (External person) (Supervisor)

Aeroacoustic Characteristics of Static and Dynamic Stall

Supervisor: Azarpeyvand, M. (Supervisor) & Allen, C. (Supervisor)

Aerodynamic noise control using surface treatments

Supervisor: Zang, N. (Supervisor) & Azarpeyvand, M. (Supervisor)

Aeroelastic Tailoring of a Composite Wing with Adaptive Control Surfaces for Optimal Aircraft Performance

Supervisor: Pirrera, A. (Supervisor) & Cooper, J. (Supervisor)

Aeroelastic Tailoring of Composite Aircraft Wings with Uncertainty Quantification for Robust and Reliable Design

A holistic investigation of automated fibre placement’s effect on composite laminate thickness.

Supervisor: Potter, K. (Supervisor)

Student thesis : Doctoral Thesis › Engineering Doctorate (EngD)

Aircraft active inceptor dynamics under vibration loads

Supervisor: Lowenberg, M. (Supervisor), Rezgui, D. (Supervisor), Neild, S. A. (Supervisor) & Rahman, K. (External person) (Supervisor)

Alginate based composite scaffold for biomedical engineering applications

Supervisor: Hamerton, I. (Supervisor), Patil, A. (Supervisor) & Rahatekar, S. (Supervisor)

A Model-Based Framework for Early-Stage Analysis of Spacecraft

Supervisor: Berthoud, L. (Supervisor) & Tryfonas, T. (Supervisor)

A multi-scale reinforced natural composite sandwich panel concept for vibroacoustic applications

Supervisor: Scarpa, F. (Supervisor) & Ivanov, D. (Supervisor)

An adaptive shell model with variable-kinematics for the analysis of laminated structures

Supervisor: Hallett, S. (Supervisor), Kawashita, L. (Supervisor) & Pirrera, A. (Supervisor)

Analysis and Design of Buckling Resistant Thin-Walled Structures via Computationally Efficient 3D Stress Analysis

Supervisor: Pirrera, A. (Supervisor) & Weaver, P. (Supervisor)

Analysis and design of composite panels with Stringer run-outs

Supervisor: Weaver, P. (Supervisor)

Analysis and tailoring of stiffened panels with asymmetries via extended modal nudging

Supervisor: Pirrera, A. (Supervisor), Groh, R. (Supervisor) & Weaver, P. M. (Supervisor)

An Efficient Numerical Framework for Capturing Localised 3D Stress Fields in Laminated Composites

A new aerodynamic model for unsteady separated flow on high aspect ratio flexible wings.

Supervisor: Jones, D. P. (Supervisor) & Gaitonde, A. L. (Supervisor)

An experimental-modelling pitch link formulation for an induced ice damaged blade and its usage in vibration-based rotorcraft-blade health monitoring

Supervisor: Cooper, J. (Supervisor) & Titurus, B. (Supervisor)

Student thesis : Master's Thesis › Master of Science by Research (MScR)

An improved constraint stabilisation technique for Udwadia-Kalaba Formulation

Supervisor: Lowenberg , M. H. (Supervisor) & Neild, S. A. (Supervisor)

An improved description of the bonding and consolidation for overmoulded thermoplastic composite ribbed plates

Supervisor: Hallett, S. R. (Supervisor), Kawashita , L. F. (Supervisor), Gude, M. (External person) (Supervisor) & Kupfer, R. (External person) (Supervisor)

An investigation into the use of a pendulum support rig for aerodynamic modelling

Supervisor: Lowenberg, M. (Supervisor)

A numerical study of a nacre-inspired ballistic armour system

Supervisor: Hallett, S. (Supervisor)

A single camera optical system for the measurement of helicopter blade track and elastic deflection

Supervisor: Lieven, N. (Supervisor)

A spacetime framework for aerodynamics of complex motions

Supervisor: Rendall, T. (Supervisor) & Gaitonde, A. (Supervisor)

A Touchy Subject: Development and Exploration of Tactile Sensing for Perception and Manipulation

Supervisor: Lepora, N. (Supervisor) & Richards, A. (Supervisor)

Automated Dry Fibre Placement and Infusion Process Development for Complex Geometries

Supervisor: Potter, K. (Supervisor), Kim, B. C. (Supervisor) & Giddings, P. (Supervisor)

Automating “design for manufacture” of aerospace composite components

Supervisor: Kratz, J. (Supervisor), Rendall, T. (Supervisor) & Visrolia, A. (External person) (Supervisor)

Autonomous and objective characterisation of composite precursors in manufacturing

Supervisor: Ivanov, D. (Supervisor), Belnoue, J. P. (Supervisor), Hallett, S. R. (Supervisor) & Georgilas, I. (External person) (Supervisor)

Bayesian learning for control in multimodal dynamical systems

Supervisor: Richards, A. (Supervisor) & Ek, C. H. (Supervisor)

Behaviour of pseudo-ductile thin-ply angle-ply laminates under different loading conditions

Supervisor: Wisnom, M. (Supervisor), Bond, I. (Supervisor) & Fuller, J. (Supervisor)

Bifurcation analysis of a semiconductor laser subject to phase conjugate feedback

Supervisor: Krauskopf, B. (Supervisor)

Bioinspired Nonlinear Structures: Elastic Instabilities and Sound Production

Supervisor: Groh, R. (Supervisor), Holderied, M. W. (Supervisor) & Pirrera, A. (Supervisor)

Bio-inspired path planning for unmanned air vehicles in urban environments

Supervisor: Windsor, S. P. (Supervisor) & Richards, A. G. (Supervisor)

Bistable Structures for Morphing Applications Using Anisotropic Shells

Cactus based solids.

Supervisor: Scarpa, F. (Supervisor) & Perriman, A. W. (Supervisor)

Cellulose Composite Fibres for Potential Engineering and Bio-medical Applications

Supervisor: Rahatekar, S. (Supervisor) & Wisnom, M. (Supervisor)

Cellulose Nanocrystal Reinforced Electrospun Composite Nanofibres

Supervisor: Eichhorn, S. (Supervisor) & Trask, R. (Supervisor)

Cellulose nanocrystals-based nanomaterials with aligned microstructures for sustainable energy storage technologies

Supervisor: Eichhorn, S. (Supervisor) & Kim, B. C. (Supervisor)

Characterisation and Selection of Sustainable Discontinuous Natural Fibre Reinforced Polymer Constituents and Their Composites

Supervisor: Eichhorn, S. (Supervisor), Hamerton, I. (Supervisor) & Longana, M. L. (Supervisor)

Characterisation and understanding of viscoelastic leading edge protection solutions used on offshore wind turbines

Supervisor: Ward, C. (Supervisor), Hamerton, I. (Supervisor) & Dyer, K. P. (Supervisor)

Chemo-driven soft pneumatic actuation: from catalysts to neutralisation reactions for oscillating pneumatic systems

Supervisor: Faul, C. F. (Supervisor), Trask, R. (Supervisor) & Dicker, M. (Supervisor)

Composite compliant shell mechanisms: tailoring and characterisation

Supervisor: Ward, C. (Supervisor), O'Donnell, M. (Supervisor) & Schenk, M. (Supervisor)

Home > Research > Student Research > Graduate Research > Master’s Theses > Aerospace Engineering

Aerospace Engineering

Theses/Project Reports from 2024 2024

Supersonic Air Inlet Modeling Using the Method of Characteristics , Shay S. Takei

Theses/Project Reports from 2023 2023

Launch Vibration Attenuation For In-Space Assembly Cargo , Jered Bell

Development Of Load Measurement Technique For Arbitrary Shapes , Quintin J. Cockrell

Parametric Optimization Of A Wing-Fuselage System Using A Vorticity-Based Panel Solver , Chino Cruz

Structural Design, Modeling, And Analysis Of The Wing For A World Speed Record-Breaking Turbo-Prop Racing Airplane , Joseph C. Hammond

Gyroless Nanosatellite Attitude Determination Using an Array of Spatially Distributed Accelerometers , Kory J. Haydon

Autonomous Attitude Consensus for Nanosatellite Formations in LEO , Laird J. Mendelson

Distributed Control of Servicing Satellite Fleet Using Horizon Simulation Framework , Scott Plantenga

Feasibility Assessment of an All-Electric, Narrow-Body Airliner , Ariel Sampson

Theses/Project Reports from 2022 2022

Testing and Verification for the Open Source Release of the Horizon Simulation FrameworTesting and Verification for the Open Source Release of the Horizon Simulation Framework , William J. Balfour

Project Management and Systems Engineering Framework for Educational Cubesat Missions , Bailey Garrett

The Effects of Atomic Oxygen on Silicone and Carbon-Based Contamination , Mayana W. Gordon

Method and Simulation of On-Orbit Sub-microthrust Evaluation , Jonathan Hood

Spacecraft Trajectory Optimization Suite: Fly-Bys with Impulsive Thrust Engines (Stops-Flite) , Aaron H. Li

Development of a Dual-Band Radio Repeater to Be Carried by a Fixed-Wing Small Unmanned Aerial System , Carl Recine

Aeroelastic Analysis of Small-Scale Aircraft , Kent Roberts

Structural Loads and Preliminary Structural Design for a World Speed Record-Breaking Turbo-Prop Racing Airplane , Matthew G. Slymen

Effects of Atomic Oxygen on Outgassing of Silicone Materials , Samuel Westrick

Theses/Project Reports from 2021 2021

Simulation of a Configurable Hybrid Aircraft , Brandon Bartlett

Comparing Radiation Shielding Potential of Liquid Propellants to Water for Application in Space , John Czaplewski

Cultivating Creativity in Aerospace Systems Engineering to Manage Complexity , Kenneth Lucas Dodd

Integral Boundary Layer Methods in Python , Malachi Joseph Edland

Interior Point Optimization of Low-Thrust Spacecraft Trajectories , Jordan D. Frederiksen

Passive Disposal of Launch Vehicle Stages in Geostationary Transfer Orbits Leveraging Small Satellite Technologies , Marc Alexander Galles

Development of a Hybrid Particle Continuum Solver , Anthony J. Gay

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Research topics

Research topics can be generally divided in two main areas:

Aeronautics

I conduct research in the following lines of reaserch

Low-Thrust trajectory optimization
Flight Plan Optmization
Conflict detection and resolution
Robust flight planning
Avoidance of storms
Artificial Intelligence applied to Capacity-Demand balancing

An undergraduate introductory course to the fascinating discipline of aeronautical engineering.

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Home > MAE > MAE TDs > Masters Theses

Mechanical and Aerospace Engineering Masters Theses

Theses from 2023 2023.

Tailoring a System Engineering and Management Plan for a University Satellite Team , Jacob D. Anderson

IMPLEMENTING EFFECTIVE UNIVERSITY - LEVEL SMALL SATELLITE ASSEMBLY, INTEGRATION, AND TESTING PROCEDURES , Tyler Patrick Hoover

AREA AVERAGE SURFACE TRANSFER COEFFICIENTS IN UNIT CELL GEOMETRIES , Benjamin Gabriel Mackey

Flight Software Development for a University-Class Microsatellite Mission , Yumeka Nagano

Theses from 2022 2022

Numerical investigations of 2-D magnetic nozzles on pulsed plasma plumes , Joshua Daniel Burch

Industry 4.0 remanufacturing: a novel approach towards smart remanufacturing , Prashansa Ragampeta

A convolutional neural network (CNN) for defect detection of additively manufactured parts , Musarrat Farzana Rahman

Theses from 2021 2021

Composite-based additive manufacturing applications in the polymer injection molding cycle , Cody Bivens

Multiple-site fatigue cracking methodology to assess structural integrity of aircraft riveted panels , Haroldo Chacon

Fabrication of silicon nitride parts by ceramic on-demand extrusion process , Sachin Choudhary

Research and development of a laser hot wire deposition process , Christopher Croft

Variational inference for morphological modification to 3D geometry : An application to the support generation for metal additive manufacturing , Mugdha Swanand Joshi

DESIGN AND DEVELOPMENT OF A VARIABLE RESISTANCE HAND EXERCISER USING A COMPLIANT MECHANISM , Jyothi Komatireddy

Investigation of the sensitivity of human arm to small interaction forces during physical human-robot interaction (pHRI) , Fazlur Rashid

Physics-based modeling of lithium-ion batteries for control and estimation applications , Brody J. C. Riemann

Theses from 2020 2020

Comparison of Reynolds-averaged Navier-Stokes turbulence models for simulating boundary layers in hypersonic flows , Jorge-Valentino Kurose Bretzke

In-situ x-ray imaging of the selective laser melting process , Meelap M. Coday

Modal analysis as non-destructive testing technique for additively manufactured 304L stainless steel parts , Tristan N. Cullom

Characterization of a plasma source simulating solar wind plasma in a vacuum chamber , Blake Anthony Folta

Mid-infrared chiral metsurface coupling with molecular vibration , Md Shamim Mahmud

Performance evaluation of AlSi10Mg fabricated by a selective laser melting process , David Michael Murphy

Influence of input energy on mechanical properties of laser powder bed fused AISI 304L stainless steel , Tan Pan

Combining laser aided ablation and polishing to minimize surface roughness of additively manufactured aluminium components , Sahil Bipinkumar Patel

Theses from 2019 2019

Propagation of uncertainty through coning, sculling, and scrolling corrections for inertial navigation , James Daniel Alan Brouk

Aerosol-jet printing and flash sintering of conformal conductors on non-planar surfaces , I-Meng Chen

Multiphysics prediction model of microwave curing for thick polymer composites , Siva Dasari

Laser machining countersinks in carbon fiber reinforced polymer , Leon James Neely Hill

Characterization of the surface condition in AA6061 resulting from deep rolling as a function of common industrial parameters , Andrew Kenneth Layer

Controlled switching in Kalman filtering and iterative learning controls , He Li

The effect of cell size and surface roughness on the compressive properties of ABS lattice structures fabricated by fused deposition modeling , Leah Hope Mason

Small satellite earth-to-moon direct transfer trajectories using the CR3BP , Garrett Levi McMillan

Effects of uncertainty refinement on satellite collision probability , Bruce Thomas Morrison

Performance evaluation of BMI resin system for thin-ply composites , Manoj Kumar Reddy Rangapuram

Analyzing the effects of attitude errors when quantifying the on-orbit performance of a CubeSat micropropulsion system , Andrew Orion Watson

Program management for concurrent university satellite programs, including propellant feed system design elements , Shannah Withrow-Maser

Theses from 2018 2018

Thermal analysis and control of small satellites in low Earth orbit , Katelyn Elizabeth Boushon

Developing computational models for pulsed-inductive plasma formation , Zachary Aaron Gill

Laser-aided additive manufacturing of glass , John Michael Hostetler

Advanced process to embed optical fiber sensors into casting mold for smart manufacturing , Raghavender Reddy Jakka

Computational investigation of polymer electrolyte membrane fuel cell with nature-inspired Fibonacci spiral flow field , Suleyman Kose

Effects of terrain-based altimetry on navigation performance , Kenneth Michael Kratzer

Smart augmented reality instructional system for mechanical assembly , Ze-Hao Lai

Designed extrudate for ceramic additive manufacturing , Devin McMillen

Quantifying on-orbit performance of CubeSat micropropulsion systems by observing orbital element variations , Bradyn William Morton

Characterization of ionic liquid monopropellants for a multi-mode propulsion system , Alex J. Mundahl

Controlling phase fractions of 304L-SS in selective laser melting using cooling rate , Eberechukwu Anthony Okoro

Investigation of the information provided by light touch for balance improvement in humans , Anirudh Saini

Multiscale approaches toward advanced lithium-ion battery: From nano to meso scale , Susmita Sarkar

Development of a CFD model of the catalytic combustion of a microtube multi-mode propulsion system , Andrew Paul Taylor

Enhancement of performance of micro direct ethanol fuel cells by structural modification , Sindhuja Valluri

Theses from 2017 2017

Entropy-based performance analysis of jet engines; Methodology and application to a generic single-spool turbojet , Mohammad Abbas

Wrinkling of functionally graded sandwich structures subject to biaxial and in-plane shear loads , Harold Costa

Cathodic protection measurement through inline inspection technology uses and observations , Briana Ley Ferguson

Liquid pulsed plasma thruster plasma plume investigation and MR-SAT cold gas propulsion system performance analysis , Jeremiah Daniel Hanna

Dynamic electromechanical characterization of ferroelectrics at cryogenic temperatures , William Kent Hays

Bio-inspired flow fields for pem fuel cells- decoupling pressure and distribution effects on performance and identifying design opportunities , Joshua David Heck

Cyber-physical manufacturing cloud: An efficient method of building digital twin for 3D printer by adapting MTConnect protocol , Liwen Hu

In-situ control of substrate temperature in additive manufacturing to homogenize micro-hardness of laser clad deposits using thermo-electric cooling , Raghu Ram Kolla

Error mapping of build volume in selective laser melting , Ninad Kulkarni

Ti-Fe intermetallics analysis and control in joining titanium alloy and stainless steel by laser metal deposition , Wei Li

3D bioprinting a PCL/13-93B3 glass composite and its potential use as a bio-ink , Caroline Blair Murphy

Development and implementation of star tracker based attitude determination , Casey Grant Smith

Diffusion and mechanical characterization of nanoparticle-enabled diffusion controlled materials , Joseph Louis Volpe

Theses from 2016 2016

Prediction of surface roughness in abrasive waterjet cutting of graphite composite using response surface methodology , Prabhakar Bala

Mixing dynamics in municipal water storage tanks , Pramod Narayan Bangalore

Design and analysis of an axisymmetric aerospike supersonic micro-nozzle for a refrigerant-based cold-gas propulsion system for small satellites , Abdalla Ali Bani

Addressing the influence of carbon monoxide on the behavior of an HCCI engine , Allen Charles Ernst

Hybrid manufacturing processes for fusion welding and friction stir welding of aerospace grade aluminum alloys , Megan Alexandra Gegesky

Design and fabrication of a system for the additive manufacturing of transparent glass , Luke John Gilbert

Characterization of electric solid propellant pulsed microthrusters , Matthew Scott Glascock

Laser sintering and aerosol printing of conductive nanoparticles , Mahati Guntupalli

An IMU-based spacecraft navigation architecture using a robust multi-sensor fault detection scheme , Samuel J. Haberberger

Multifunctional wearable epidermal device for physiological signal monitoring in sleep study , J V M S Avinash Kankipati

The evaluation of sequential optimization and reliability analysis , Guannan Liu

Synthesis and photonic sintering of bioresorbable zinc nanoparticle ink for transient electronics manufacturing , Bikram K. Mahajan

Effect of sparse-build internal structure on performance of fused deposition modeling parts , Shixuan Meng

Effect of build parameters on mechanical properties of ultem 9085 parts by fused deposition modeling , Krishna Prasanth Motaparti

Intensity control of dielectric barrier discharge filaments , Matthew Crawford Paliwoda

Development and testing of a fracture energy-based model of explosive asteroid deflection , James A. Veerkamp

A linear matrix inequality-based approach for the computation of actuator bandwidth limits in adaptive control , Daniel Robert Wagner

Composite model representation for Computer Aided Design of Functionally Gradient Materials , Fangquan Wang

Engine sound simulation and generation in driving simulator , Shuang Wu

Theses from 2015 2015

A force feedback haptic interface for atomic force microscopy , Abdulmohsen Alabdulmuhsin

Experimental and computational analysis of thermosyphon based water heaters , Siddarth Ashokkumar

Numerical study of upstream and downstream regions of one dimensional detonation wave in a dusty gas medium , Shubhadeep Banik

Generation and validation of optimal topologies for solid freeform fabrication , Purnajyoti Bhaumik

On the dynamic analysis of compliant mechanisms based on the pseudo-rigid-body model , Andrew Christian

American Sign Language alphabet recognition using Microsoft Kinect , Cao Dong

Thermodynamic and chemical kinetic coupled modeling for the determination of cyclic combustion phasing in HCCI engines , Krishawn Michele Goodwin

Adjoint-based airfoil shape optimization in transonic flow , Joe-Ray Gramanzini

Emission and energy analysis of self-sufficient biomass power plant to achieve near net zero CO₂ emission , Baburaj Kanagarajan

On the design of a nearly constant-force modular device based on a compliant slider mechanism , Krutika Karthik

Space-based relative multitarget tracking , Keith Allen LeGrand

An experimental study of fabrication temperature effect on aqueous extrusion freeform fabrication , Jie Li

Hybrid manufacturing process of SiC f /SiC composite using preceramic polymer , Robert Raymond Meinders

Spatial and temporal modulation of heat source using light modulator for advanced thermography , Arvindvivek Ravichandran

Experimental and computational evaluation of water management and performance of a bio-inspired PEM fuel cell in comparison to a conventional flow field , Venkatanaga Bhaskar Prakash Saripella

Uncertainty quantification of turbulence model closure coefficients for transonic wall-bounded flows , John Anthony Schaefer

Discrete-time neural network based state observer with neural network based control formulation for a class of systems with unmatched uncertainties , Jason Michael Stumfoll

Parameter determination and experimental validation of a wire feed additive manufacturing model , Kannan Suresh Kumar

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71 Aerospace Essay Topic Ideas & Examples

🏆 best aerospace topic ideas & essay examples, 📃 interesting topics to write about aerospaces, ✅ simple & easy aerospace essay titles.

The Bombardier Aerospace Analysis A significant threat to the strategy of the Bombardier Company in the unveiling of the C-series airplane model is the legal dilemma that the company is facing.
Aviation and Aerospace Future Technology Aerospace refers to the earth’s atmosphere and the space beyond it. Technology in both aviation and aerospace has proved to be of great advantage to mankind over the years. We will write a custom essay specifically for you by our professional experts 808 writers online Learn More
Gulfstream Aerospace: Global Strategy to Rapidly Expand Oversea The choice of entry strategies is often dependent on the local business culture of the company, as well as the nature of the operational environment that prevails in the international market.
Aerospace Industry Risk and Procurement Management This paper aims to analyze the development and functioning of the procurement process in the example of Airbus. These components allow Airbus to control the information flow to and from its suppliers and to choose […]
Bombardier Aerospace Evaluation The main strategic objective of the company is to become a global leader in the manufacturing of aircrafts and everything possible is done to achieve this.
The ‘I’ Brand in the Aerospace Sector With my help, the organization will achieve more as I will manage my team realizing the peculiarities of the aerospace sector in Abu Dhabi and find out the best way to prepossess the customers and […]
WBS for Aerospace Project Management One of the key deliverables of the aerospace industry is risk control, and budgeting, as the production of many elements requires support from the government.
Aerospace Engineering Workshop Safety and Drawings The fitting of safety equipment and exposure of workers to preventive measures to reduce accidents in engineering workshops does not limit the occurrence of such risks.
Aerospace Companies Flying High with 3D Laser Trackers Another significant article from the Quality Magazine published by Martinez on the 8th of March explores the use of 3d laser trackers for measurements in aerospace companies.
Aerospace Toxicology: Flourinert The current knowledge about this fluid should become the foundation for completing additional experimentations and researches to discover additional health, toxicological, and safety benefits and expand its possible applications in different heat exchange systems.
Aerospace Legislation: Maintenance Procedures Planning and Organization In addition, the paper discusses the rules and regulations of maintenance procedures and safety as per the European Aviation Safety Agency manual.
Shape Memory Alloys in Aerospace Industry Shape memory materials are made possible by the ability of engineers to change the shape of the material while in a solid state.
A Survey of the Aerospace Industry in China It will be outlining the operational efficiency, financial and workforce efficiency in the commercial and military aviation developments, and the underlying factors behind the successful development of this industry in modern china.
Gulfstream Aerospace Corp Overview There is a close relationship between’ just in time production and selection of the location of production. Expansion of the company in Savannah is possible due to the large tract of waterfront land and low […]
Life Cycle Analysis for Systems and Program in Aviation & Aerospace Fifth is the actual launch of the system, where initiation of the system means operating the system and creating products that make the system do what it was proposed to accomplish.
Aerospace Engineering: Structural Optimization The total aero-structural design matter entails the concurrent optimization of the aerodynamic form of a design and the construction that is created to maintain its consignments.
Inventory and Constraints in the Aerospace Industry In this paper, the author will provide a report on an article touching on the application of the constraints theory in the management of inventory problems in the aerospace industry.
Boeing Aerospace Support’s Business Excellence Model To reduce the limitations of the current BEMs, a new BEF is proposed. It includes three elements that are expected to improve the existing BEMs: organizational culture, organizational characteristics, and the integrity of management techniques […]
Boeing Multinational Aerospace Corporation It is among the world’s largest aircraft manufacturers The largest exporter by value in the US. The second-largest airline planes supplier in the world found in 1916 by William Boeing.
Embraer Aerospace: Company’s Marketing in Brazil Customs duties procedures should also be introduced to enhance protection mechanisms and improve the quality of goods transportation by Embraer Jets.
Aviation and Aerospace Issues of Information Security Information Sharing and Analysis Centers are a significant part of the information sharing strategy in the U. There is such a center responsible for the aerospace industry, and its goals are the sharing of threat […]
Emirates Airlines as a Leader in the Aerospace Industry Emirates Airlines could be considered as one of the companies that were able to take advantage of the external environment and became one of the industrial leaders.
Global Aerospace Logistics Company: Training Evaluation Due to the fact that the process of training was determined to have a profound effect on the performance of the organization, it became clear that a certain level of control is necessary to estimate […]
The Aerospace Industry’s Marketing Plan This comprises the sectors of commercial aerospace, defense, space, and general aviation The United State of America is estimated to have spent US$253 billion in the year 2008 alone in military investments.
Hammond Aerospace: Company Leadership Considering that leadership involves the leaders and the followers, it is imperative to comprehend the relative connection between the two. Some literature suggests that leadership in view of the followers is the ability of the […]
Bigelow Aerospace: International Business From the side of the US, Bigelow Aerospace could approach the issue, on the basis that partnerships are treated as entities during the determination of the timing, amount, and the character of the income items […]
Problems in the Aerospace Industry The authors of the article outline all the problems that are encountered by the company that is outlined in the case study.
The British Aerospace Company: Tornado Aircraft The kingdom of Saudi Arabia is one of the most important countries not only in the Middle East, but also in the globe. Fuel is usually stored in the fuselage which is located in the […]
Aerospace Organisation and the Dangers of Escalation The objective of this report is to attempt to show the problems that can affect the aerospace defence company due to escalation and recommend suitable ways to deal with it.
Aerospace and Defense Telemetry Market: Opportunities and Forecast
Global Commercial Aerospace Coatings Market Share and Size
Aerospace Clusters and Competitiveness: A Bordeaux-Montréal Comparison
Additive Layer Manufacturing for Aerospace Parts
Aerospace Defense Industry Overview and Analysis
Project Management in the Aerospace Engineering Design
Aerospace Galley Equipment Market Growth, Size, Share, and Forecast
Analysis of Aerospace Engineering Career Paths
Aerospace Galley Trolley Market by Aircraft Type Market Growth and Size
Overview of Audit Program for Aerospace Industry
Aerospace Industry General Overview and Analysis
Automotive and Aerospace Industry Cluster Development
Aerospace Industry, Market Forces and Trends
Decision-Making Process in Aviation and Aerospace Industries
Aerospace Manufacturing Industry Research
Aerospace Quality Management Systems Analysis
Critical Capabilities and Performance of Subcontracting Firms in the Aerospace Industry
Database Usage and Improvement in Aerospace
Network Structure and Industrial Clustering Dynamics in the Aerospace Industry
Evolution, Innovation, and the Development of Aerospace
Global Strategic Benchmarking, Critical Capabilities and Performance of Aerospace Subcontractors
Leveraging Financial Management Performance of the Spanish Aerospace Manufacturing Value Chain
Market Trends, Forces, and the Aerospace Industry
Mixed Model Assembly Alternatives for Low-Volume Manufacturing in Aerospace Industry
Multifunctional Composites for Future Energy Storage in Aerospace Structures
Network Evolution, Success, and Regional Development in the European Aerospace Industry
Promoting Technology Transfer in Multi-Technology Industries: The Korean Aerospace Industry
Porter Five Forces Analysis Aerospace and Defense Industry
Race and Employment Dislocation in California’s Aerospace Industry
Trends in Cost and Their Implications for the UK Aerospace
Risk Acceptance Criteria in Application to Maintenance Management of Aerospace Systems
Safety Precautions for the Aerospace Industry
State and Industrial Restructuring: Aerospace Industries in Indonesia and Singapore Comparison
Strategic Partnerships in the Aerospace Industry
Structural Integrity and Performance of Aerospace Design
Supply Chain Risk Strategy of Rolls Royce Aerospace Management
Sustainable Supply Chain Management: British Aerospace Systems
The European Aerospace R&D Collaboration Network
How Engineering Design Enables Functional Expansion in the Aerospace Industry
The Lockheed Incident and Corporate Crime in the Aerospace Industry
Three Fundamental Concepts That Lead to the Most Dramatic Aerospace Advances
Value-At-Risk and Tsallis Statistics: Risk Analysis of the Aerospace Sector
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Aerospace Engineering Research Resources: Dissertations & Theses

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As part of the requirements for graduate level degrees, students must complete a thesis for a Master's degree and/or dissertation for a Ph.D. Dissertations and theses are submitted to the academic department and the Graduate College and are made available through the University Library. Since 2010, all theses and dissertations are electronically deposited into IDEALS, the Illinois Digital Environment for Access to Learning and Scholarship, the University's open repository of scholarly content.

ProQuest Dissertations is a comprehensive collection of citations to dissertations and theses worldwide from 1861 to the present day. Full text PDFs are available for many Ph.D. dissertations added since 1997 and some older graduate works.

IDEALS (UIUC Institutional Repository) Digital copies of theses, data sets, and publications by University of Illinois at Urbana-Champaign faculty and students.
ProQuest Dissertations and Theses PDF copies of dissertations and theses from U.S. universities.

Aerospace Engineering Dissertations & Theses

Aerospace Engineering Dissertations & Theses Search Interface

Print Dissertations & Theses

Prior to 2010, print format dissertations and theses were bound and cataloged separately for the Grainger Engineering Library. Prior to 1983, each thesis was shelved by a call number assigned by subject headings. To locate them, search the online catalog for the author’s last name, title word(s) if known, and “theses” and the year granted as subject term(s).

Aerospace Engineering dissertations and theses granted from 1985 to 1999 were assigned Q.629.1T a , followed by the 2-number year, followed by starting letters from the author’s last name. (Example: A 1991 thesis by M. Doyle would be Q.629.1Ta91D). Dissertations and theses granted from 2000 to present were assigned Q.629.1T b , followed by the 2-number year, followed by starting letters from the author’s last name. (Example: A 2006 thesis by H. Dewey would be Q.629.1Tb06De).

Aerospace Engineering - Q. 629.1T

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Mechanical and Aerospace Engineering

Thesis - mechanical and aerospace engineering, student thesis overview.

This overview will describe the thesis, why it is very important to your graduate study, what are the steps that you will need to do and when they should or must be done, how to find an advisor, and the resources that are available to help you along the way. In the following section, questions and answers are provided for some common questions.

A thesis is a "position or proposition that a person (as a candidate for scholastic honors) advances and offers to maintain by argument." and a document containing results of original research and especially supporting a specific view.

What is a Thesis?

The thesis is the most important part of your graduate education. While the course work lays the foundation by providing analytical methods and tools, it is the thesis that provides to you the opportunity to use this knowledge in a new, original and creative manner. During your thesis research you will be able to consolidate what you have already learned, and possibly extend this by further self-study, and to use this body of knowledge to attack a new problem. The thesis will hopefully be your crowning achievement of your graduate study, and will be your introduction to the community of scholars.

Choosing Your Topic and Advisor

The first step in the thesis process is choosing an advisor and a topic. While your formal thesis slots may be in the last 2 or 3 quarters at NPS, it is very important that you have a thesis advisor and topic chosen well before this, preferably a year or so before you plan to graduate. During the time between choosing an advisor/topic and the start of your thesis slots, you should meet regularly with your advisor and spend a few hours a week reading background material and thinking about the problem.

The method for choosing your topic and advisor is completely up to you. However, you are strongly advised to talk to every faculty member in all the areas that you have any interest before making decisions. There are several questions you might want to ask yourself, before talking to the faculty. What type of work do you most enjoy? Generally, thesis research may be categorized as analytical (e.g. using a pencil and paper for mathematical modeling and derivation of solutions), computational (e.g. using finite element technique or computational fluid mechanics to find solutions), experimental (e.g. designing, building, or modifying an existing set-up to obtain new data) or some combination of the three. It is generally advisable that you take a course from a professor before you make a commitment to work for him or her. The Mechanical Engineering Faculty periodically schedule thesis opportunity presentations, where they will discuss their current research interests and the available topics. In addition, there is a ME website which contains short written descriptions for current thesis topics of ME faculty. You may talk to fellow students, who are close to graduating to discuss what they have done and how they enjoyed their experience. However, they probably will not be as good a source of what the available research topics are as the faculty members, themselves. Finally, you may wish to review previous thesis, as well as conference and journal publications from the various faculty members. After you find an advisor and agree on the topic, you are required to fill out a thesis approval form, which must be signed by the thesis advisor, the Academic Associate and the Chairman of the Mechanical Engineering Department.

Common Pitfalls and Advice

While your advisor will help you along the way and provide broad guidance and feedback, it is the responsibility of the student to be self-motivated and to initiate all of the steps. Do not expect your advisor to provide a detailed, step-by-step, road map for you. You should be independent and think through problems first, before asking your advisor. However, that does not in any way mean you should avoid meeting with your advisor. You should meet regularly with your advisor to discuss what you have done, what issues have arisen, how you plan to solve them, and what your next steps should be.

One common problem faced by researchers, is the failure to sufficiently limit the scope of their work. Being overly broad can lead to a lack of focus and prevent any contribution from being made. It may seem to you that your advisor has asked you to solve a problem that you consider trivial and your may be inclined to broaden the scope. Stay focused on the immediate problem. If you solve the problem then by all mean go on to a larger problem. But initially, stay focus on a narrow and well-defined problem.

Thesis Proposals

One way that you can help yourself is to write a short Thesis Proposal. It can be useful in helping to consolidate your understanding and focusing your future work. This may be written after you have been working on the problem for several months, have read dozens of articles and it may contain the following elements:

Introduction to the problem. This describes the problem and why it is important.
State of the art. Literature review and what is not known.
Objectives. Your goals for the work. What would be the desired outcome(s). Be specific. Do not say "to better understand something".
Proposed work. Very limited and specific.

For you to make an original contribution, it generally requires that you have an understanding of what is already known, by experts in your field. Therefore, one of the primary resources on which you will depend is the NPS library and the reference staff. While the world-wide-web is becoming an increasing source of information, and you should make use of it, there are many primary sources, such as books and journals, which are not available on the web. Most of the information on the web is not archival in nature - that is, it might not exist if a certain site is closed. One of the most valuable skills you should learn during your thesis is how to obtain and process information and how to synthesize new results from that original information.

After your research is complete you will be required to write and submit a thesis document. For many of you it will be the longest document that you have written. There are several sources available to help you in writing the document, including "How to Write a Thesis" by the Mechanical Engineering Department and several guidelines and templates available on the NPS web site.

Finally you are required to make an oral presentation of your thesis research to the faculty and students of the Mechanical Engineering Department. The presentation is approximately fifteen minutes with about a 5-minute question and answer period. A document on how to prepare and deliver this presentation is available from the Mechanical Engineering Department.

Common Questions and Answers

Please visit our Thesis Q&A page to view common questions and answers regarding your Thesis.

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How It Works

110 Engineering Research Topics For Engineering Students!

Getting engineering topics for research or presentation is not an easy task. The reason is that the field of engineering is vast. Engineers seek to use scientific principles in the design and building of machines, structures, bridges, tunnels, etc.

Engineering as a discipline has a broad range of specialized fields such as chemical engineering, civil engineering, biomedical engineering, computer engineering, mechanical engineering, software engineering, and lots more! In all, engineering seeks to apply mathematics or science to solving problems.

110 Engineering Topic Ideas in Different Areas

Genetic engineering topics, mechanical engineering research topics, electrical engineering research topics, software engineering research topics, computer engineering research topics, biomedical engineering research topics, civil engineering topics, chemical engineering research topics, controversial engineering topics, aerospace engineering topics, industrial engineering topics, environmental engineering topics for research.

We understand how difficult and tiring it could be to get engineering research topics; hence this article contains a total of 110 interesting engineering topics covering all aspects of engineering. Ready to explore? Let’s begin right away!

Genetic engineering is the direct manipulation of the gene of an organism using biotechnology. Many controversies are surrounding this engineering field because of the fantastic potential feats it could achieve. Here are some genetic engineering topics that encompass essential areas of this field.

Can the human personality be altered through genetic engineering?
Genetic engineering: hope for children with intellectual disabilities?
Genetic engineering: the problems and perspectives.
Genetic engineering and the possibility of human cloning.
Genetic Engineering
The side effects of altering human personality
Immortalizing humans through genetic engineering
Addressing human deficiencies through genetic engineering

Mechanical engineering deals with the design and manufacture of physical or automated systems. These systems include power and energy systems, engines, compressors, kinematic chains, robotics, etc. Here are some impressive mechanical engineering topics that double as mechanical engineering thesis topics too.

A study of the compressed air technology used in cars.
The design of a motorized automatic wheelchair that can serve as a bed.
The why and how of designing stronger and lighter automobiles.
The design of an electronic-assisted hydraulic braking system.
Basics of Electronics Engineering
AC and DC motors and operations
Design and implementation of wind energy
Power lines and electricity distribution
Electromagnetic field and its applications
Generators and electric motors

Electrical engineering is a trendy and well-sought field that deals with the design and manufacture of different electrical and electronic systems. Electrical engineering encompasses power and electronics. The basic principle of digital technology and electricity are all given birth to in this field. From your lighting to computers and phones, everything runs based on electricity. Although finding topics in electrical engineering could be difficult, we have carefully selected four electrical engineering topics to give you a great head start in your research! or write research paper for me

A study on how temperature affects photovoltaic energy conversion.
The impact of solar charging stations on the power system.
Direct current power transmission and multiphase power transmission
Analysis of the power quality of the micro grid-connected power grid.
Solar power and inverters
Alternator and electric magnetic induction
AC to DC converters
Operational amplifiers and their circuits.

Software engineering deals with the application of engineering approaches systematically to develop software. This discipline overlaps with computer science and management science and is also a part of overall systems engineering. Here are some software engineering topics for your research!

The borderline between hardware and software in cloud computing.
Essential computer languages of the future.
Latest tendencies in augmented reality and virtual reality.
How algorithms improve test automation.
Essentials for designing a functional software
Software designing and cyber security
5 computer languages that will stand the test of time.
Getting software design right
Effects of malware on software operation.

Computer engineering integrates essential knowledge from the subfields of computer science, software engineering, and electronic engineering to develop computer hardware and software. Computer engineering applies various concepts to build complex structural models. Besides, we have completed researches in the information technology field and prepare great it thesis topics for you. Here are some computer engineering topics to help you with your research.

Biotechnology, medicine, and computer engineering.
Programs for computer-aided design (cad) of drug models.
More effective coding and information protection for multinational companies.
Why we will need greater ram in modern-day computers.
Analysis and computer-aided structure design
Pre-stressed concrete structures and variations
General computer analysis of structures
Machine foundation and structural design
Storage and industrial structures.

Biomedical engineering applies principles and design concepts from engineering to medicine and biology for diagnostic or therapeutic healthcare purposes. Here are some suggested biomedical engineering topics to carry out research on!

A study on how robots are changing health care.
Can human organs be replaced with implantable biomedical devices?
The advancement of brain implants.
The advancement of cell and tissue engineering for organ replacement.
Is planting human organs in machines safe?
Is it possible to plant biomedical devices insensitive to human organs?
How can biomedicine enhance the functioning of the human brain?
The pros and cons of organ replacement.

Civil engineering deals with the construction, design, and implementation of these designs into the physical space. It is also responsible for the preservation and maintenance of these constructions. Civil engineering spans projects like roads, buildings, bridges, airports, and sewage construction. Here are some civil engineering topics for your research!

Designing buildings and structures that withstand the impact of seismic waves.
Active noise control for buildings in very noisy places.
The intricacies of designing a blast-resistant building.
A compatible study of the effect of replacing cement with silica fume and fly ash.
Comparative study on fiber-reinforced concrete and other methods of concrete reinforcement.
Advanced construction techniques
Concrete repair and Structural Strengthening
Advanced earthquake resistant techniques
Hazardous waste management
Carbon fiber use in construction
Structural dynamics and seismic site characterization
Urban construction and design techniques

Chemical engineering transverses the operation and study of chemical compounds and their production. It also deals with the economic methods involved in converting raw chemicals to usable finished compounds. Chemical engineering applies subjects from various fields such as physics, chemistry, biology, and mathematics. It utilizes technology to carry out large-scale chemical processes. Here are some chemical engineering topics for you!

Capable wastewater treatment processes and technology.
Enhanced oil recovery with the aid of microorganisms.
Designing nanoparticle drug delivery systems for cancer chemotherapy.
Efficient extraction of hydrogen from the biomass.
Separation processes and thermodynamics
Heat, mass, and temperature
Industrial chemistry
Water splitting for hydrogen production
Mining and minerals
Hydrocarbon processes and compounds
Microfluidics and Nanofluidics.

Not everyone agrees on the same thing. Here are some engineering ethics topics and controversial engineering topics you can explore.

Are organic foods better than genetically modified foods?
Should genetically modified foods be used to solve hunger crises?
Self-driving cars: pros and cons.
Is mechanical reproduction ethical?
If robots and computers take over tasks, what will humans do?
Are electric cars really worth it?
Should human genetics be altered?
Will artificial intelligence replace humans in reality?

Aerospace engineering deals with the design, formation, and maintenance of aircraft, spacecraft, etc. It studies flight safety, fuel consumption, etc. Here are some aerospace engineering topics for you.

How the design of planes can help them weather the storms more efficiently.
Current techniques on flight plan optimization.
Methods of optimizing commercial aircraft trajectory
Application of artificial intelligence to capacity-demand.
Desalination of water
Designing safe planes
Mapping a new airline route
Understanding the structural design of planes.

Petroleum engineering encompasses everything hydrocarbon. It is the engineering field related to the activities, methods, processes, and adoptions taken to manufacture hydrocarbons. Hydrocarbon examples include natural gas and crude oil which can be processed to more refined forms to give new petrochemical products.

The effect of 3d printing on manufacturing processes.
How to make designs that fit resources and budget constraints.
The simulation and practice of emergency evacuation.
Workers ergonomics in industrial design.
Heat transfer process and material science
Drilling engineering and well formation
Material and energy flow computing
Well log analysis and testing
Natural gas research and industrial management

Manufacturing engineering is integral for the creation of materials and various tools. It has to do with the design, implementation, construction, and development of all the processes involved in product and material manufacture. Some useful production engineering topics are:

Harnessing freshwater as a source of energy
The design and development of carbon index measurement systems.
Process improvement techniques for the identification and removal of waste in industries.
An extensive study of biomedical waste management.
Optimization of transportation cost in raw material management
Improvement of facility layout using systematic planning
Facilities planning and design
Functional analysis and material modeling
Product design and marketing
Principles of metal formation and design.

So here we are! 110 engineering research paper topics in all major fields of engineering! Choose the ones you like best and feel free to contact our thesis writers for help. It’s time to save humanity!

Mechanical and Aerospace Engineering Master's Theses

All master’s theses completed through the Graduate College of Western Michigan University since 2012 have been entered into ScholarWorks. Some may be embargoed or restricted by the authors and may be only available from on-campus computers. Print copies from earlier years are available through interlibrary loan. We have a few digital copies of earlier years. If you have any questions, please contact [email protected].

Theses/Dissertations from 2023 2023

Improving Future Vehicle Fuel Economy and Operational Design Domain Through Novel Data Pipelines , Kyle James Carow

3D Printed Poly Lactic Acid Structures for Cell Growth and Nanoparticle Transport-Simulation and Experimental Validation , Shrikrushna Vinayak Sonawane

Theses/Dissertations from 2022 2022

Dynamic Maneuvers For Satellite On-Orbit Servicing Utilizing Novel Continuum Robotics: Development & Experimentation , Nathan Dalton

Design, Manufacture, and Characterization of a Novel Miniature Coaxial Ion Trap Mass Analyzer , Kyle Davis Lyman

The Design and Development of a Miniature Gridded ECR Ion Thruster , Nicholas Nuzzo

Design and Optimization of An Electron Cyclotron Resonance Thruster , Austen Thomas

Measurement of Low-Speed Impinging Jet Structure Using Temperature Sensitive Paint , Arthur Dean Woodworth

Theses/Dissertations from 2021 2021

Standardized 1x6U CubeSat Structure Design , Maximilian H. Brummel

Simulation and Analysis of Engine Torque – Measurement and Study of Its Effect on Heavy Duty Vehicles , Iqbal Singh Chahal

Probabilistic Approach to Predict Contact Fatigue of Straight Toothed Net-Shape Forged Bevel Gears , Caleb Gurd

3D Printing of Lab on Chip Structures for Cell Growth and Experimental Validation of Magnetic Nanoparticle Flow Simulations , Prabhjot Singh

Theses/Dissertations from 2020 2020

Vehicle Performance Analysis of an Autonomous Electric Shuttle Modified for Wheelchair Accessibility , Johan Fanas Rojas

Vehicle Velocity Prediction Using Artificial Neural Networks and Effect of Real-World Signals on Prediction Window , Tushar Dnyaneshwar Gaikwad

Optimized System for On-Route Charging of Battery Electric Buses and High-Fidelity Modelling and Simulation of In-Motion Wireless Power Transfer , Yogesh Bappasaheb Jagdale

Development of a Single Emitter Ionic Liquid Ion Source Research Platform , Thomas V. Kerber

Fatigue Damage Characterization by Surface Roughness and Instrumented Micro – Hardness Measurements , Suraj Sanjay Nikam

Comparison of Optimal Energy Management Strategies Using Dynamic Programming, Model Predictive Control, and Constant Velocity Prediction , Amol Arvind Patil

Development of a Finite Element Model of the Stamping Process to Predict the Natural Frequencies of Dimpled Beams , Varad Vasudeo Pendse

Prediction of Isotropic Strain Hardening Material Properties Using Gradient Boosted Regression Tree Method and Hyperparameter Optimization , Darren R. Promer

Transition to Renewable Energy Generation to Mitigate Climate Change: Implications on Japanese and Indian Energy Policies , Vaibhav S. Pujari

Theoretical and Experimental Study on Thermoelectric Generators Using Liquid-To-Liquid Flow Ducts at a Temperature Range Between 10ºC and 100ºC , Sudarshan Rawale

A Multiscale Thermomechanical Metal Additive Manufacturing Simulation and the Impact of Geometry on Residual Stress and Distortion , Luis Fernando Silva Velasco

Synthesis and Characterization of Non-PGM Catalysts for Fuel Cell Applications , Sudharsan Sridhar

Mission Architecture Analysis: Exploring Long-Period Comets From Multiple Staging Orbits , Gabriel Prescinotti Vivan

Skin Friction Topology in Junction Flow Affected By Upstream Rod , Bo Ching Wong

Theses/Dissertations from 2019 2019

Gearbox Baffle Optimization , Megan Arduin

Estimation of the Fatigue Life of Additively Manufactured Metallic Components Using Modified Strain Life Parameters Based on Surface Roughness , Peter Grohs

Optimal Energy Management for Forward-Looking Serial-Parallel Hybrid Electric Vehicle Using Rule-Based Control Strategy , Abhijit Bhaskar Jadhav

Inconel 625 Additive Manufacturing Process Parameter Investigation on an EOS M290 , Joseph W. Johnson

Modeling and Simulation with Optimal Gear Ratio for a Forward-Looking, Velocity-Driven, Power-Split Hybrid Electric Vehicle , Sonal Babasaheb Kanap

Model Based Development of Enhanced Multi-Mission Radioisotope Thermoelectric Generator and Effect of Thermoelectric Leg Length on eMMRTG , Swapnil Dnyandev Magdum

Design, Fabrication and Testing of 3D Printed Lab-On-Chip Devices for Nanoparticle Drug Delivery Applications , Piyush Prakash Pokharna

Model Predictive Control Synthesis for the Innovative Control Effector Tailless Fighter Aircraft , Christopher Proctor

Training Set Density Estimation for Trajectory Predictions Using Artificial Neural Networks , Zachary Reinke

Hybrid Optical-Flow-Cross-Correlation Method for Particle Image Velocimetry , David Moussa Salazar

Control Law Synthesis for Lockheed Martin’s Innovative Control Effectors Aircraft Concept , Cameron James Segard

Theses/Dissertations from 2018 2018

Forward-Looking, Velocity-Driven, Powertrain Modeling and Optimal Control for Continuous Variable Transmission , Paresh Deshmukh

Liquid-To-Liquid Low Grade Waste Heat Recovery Using a Two-Channel Loop , Waleed Farwana

Variable Reluctance Virtual Torque Sensor for Automotive Applications , Vivek Iddum

Design of a Portable Biogas Purification and Storage System , Anilkumar Kosna

Control-Oriented Automatic Transmission- Based Powertrain Modeling and Simulation with Judder , Harshal B. Kundale

Investigation of Discrete Element Methods for Stud to Turf Interactions , Justin Rittenhouse

Optimization of Analytical Inverse Heat Transfer Recovery Solution , Nathan Schick

Experimental Comparison Between Hollow Cathodes with Cermet, Lanthanum Hexaboride, and Barium Oxide Insert Materials , Nagual Simmons

Determination of Chemical Notch, K chem on Aluminum and Steel When Subjected Under Slow Strain Rate Test in Corrosive Environment , Joshua Teo Lee Kuok

Multi-Scale Analysis of Composite Materials Using Calculix and the Method of Cells: An Open Source Implementation , Francisco A. Yapor Genao

Theses/Dissertations from 2017 2017

Effect of Design Parameters on Thermal Performance of a Vane Type Disc Brake Rotor , Yogesh Satish Dalal

Investigation of Measured Cane Vibrations for Prediction of Blind Pedestrian Performance in Surface Preview Tasks , Aaron Dean

Atmospheric Microbial Community Sampling System for Varying Altitude Collection , Kenneth David Domingue

Finite Element Analysis of Tibiofemoral Contact Mechanics , Erika Fojtik

Development of Empirical and Virtual Tools for the Study of Bicycle Safety , Brent Kostich

A Virtual Reality Based Powered Wheelchair Simulator , Yuliia Sergeeva

Satellite Sequencing Optimization and Observational Orbit Determination Using Genetic Algorithms , Andrew W. Verstraete

Model Predictive Power Management of a Hybrid Electric Propulsion System for Aircraft , Tyler J. Wall

Experimental Study of Global Luminescent Oil-Film (GLOF) Skin-Friction Meter on Delta Wings , Patrick Nicholas Wewengkang

Theses/Dissertations from 2016 2016

Second Law of Thermodynamics Analysis of an Internal Combustion Engine Fueled with Methane , Muataz Abotabik

Optimization Methodology for CVT Ratio Scheduling with Consideration of Both Engine and CVT Efficiency , Steven Beuerle

Analytical Study of Miniature Thermoelectric Device , Mohammed Dhannoon

Analytical Modeling and Numerical Simulation of a Thermoelectric Generator Including Contact Resistances , Shripad Dhoopagunta

Optimal Design of a Thermoelectric Cooling/Heating System for Car Seat Climate Control (CSCC) , Abdulmunaem H. Elarusi

Optimal Design of Automotive Exhaust Thermoelectric Generator (AETEG) , Hassan Fagehi

Preliminary Study of Optical-Flow Based Background-Oriented Schlieren Measurements , Hassan A. Ghazwani

Development of an Analytical Model for Beams with Two Dimples in Opposing Directions , Mofareh H. Ghazwani

Modeling, Optimizing and Testing Thermoelectric Generators for Liquid-to-Liquid Low Grade Waste Heat Recovery , Ali Eyddan Hamil

An Exploration of CubeSat Propulsion , Andrew Davis Hine

Design, Modeling and Simulation of a Thermoelectric Cooling System (TEC) , Pooja Iyer Mani

A Genetic Algorithm Incorporating Design Choice for the Preliminary Design of Unmanned Aerial Vehicles , Kenneth Michael Mull

The Decomposition of Hydroxylammonium Nitrate under Vacuum Conditions , Gregory A. Neff

Experimental Characterization and Simulation of Carbon Nanotube Strain Sensing Films , Nagendra Krishna Chaitanya Tummalapalli

Theses/Dissertations from 2015 2015

Implementing a Linear Quadratic Spacecraft Attitude Control System , Daniel Kolosa

Wind Oscillator for Power Genration , RS Vewen Ramasamy

Theses/Dissertations from 2014 2014

Localization and System Identification of a Quadcopter UAV , Kenneth Befus

Trajectory Optimization for a Misson to the Trojan Asteroids , Shivaji Senapati Gadsing

Simulation of an Intake Manifold Pre-Heater for Cold Diesel Engine Startup , Patrick K. Kreun

Comparative Analysis of Clavicular Tunnel Confìguration for Coracoclavicular Ligament Reconstruction , Mark Omwansa

Electroplating of Nanoengineered Polymer Substrate , Brandon Voelker

Analytical Performance Evaluation of Thermoelectric Modules Using Effective Material Properties , Sean Lwe Leslie Weera

Theses/Dissertations from 2013 2013

Analytical Solutions for a Large-Scale Long-Lived Rotating Layer of Fluid Heated Underneath , Pouya Jalilian

BroncoBlade: An Open Source Wind Turbine Blade Analysis Tool , Alex R. Quinlan

Development of CFD Models for the Purposes of Exploring Free Surface Wave Phenomena , Leonard P. Stoehr

Implementation and Analysis of a 1.4L Turbo Liquid Cooled CAC and AC Condenser System , Mitchell Zajac

Theses/Dissertations from 2012 2012

High Capacity Lithium-Ion Battery Characterization for Vehicular Applications , Sazzad Hossain Ahmed

The Effects of Coolant Temperature on Spark Ignition Engine Performance , Alaa M. Attar

Absorber Geometry Optimization for a New Wave Energy Converter , Rachel A. Durren

Design of a Catenoidal Shaped Anechoic Termination , Kyle Myers

Benchmarking of a Single-Cylinder Engine Toward the Development of a Direct Fuel-Injection System , Michael J. Nienhuis

Experimental Determination of Colburn and Friction Factors in Small Plate Heat Exchangers with High Surface Enlargement Factors , Andrew H. Pike

Passive Control of Thin-Wing Flutter , Nicholas L. Pohl

Computational Analysis of a Wing Oscillator , Ryne Derrick Radermacher

Biofuel Characteristics in Micro Turbojet Engine Application , Ing Huang Tan

Theses/Dissertations from 2011 2011

Comparison of Martin’s Empirical Correlation with Measurements on a Compact Plate Heat Exchanger , Abdulmohsen A. Alothman

On-Board Monitoring of Engine Oil , Ryan James Clark

Stereo Particle Image Velocimetry Measurements in the Exhaust System of a Motorized Engine , Arman Mirhashemi

Parametric Study of Gear Rattle and the Effect of Flexible Enclosures on Gearbox Vibratory Responses , Joshuah Thomas Racine

Theses/Dissertations from 2010 2010

A Mathematical Algorithm to Isolate Cyclic Variability in Internal Combustion Engines , Curtis S. Krallman

Modeling and Control of Hydraulic Servomechanisms , Ondrej Pekarovic

Detection of Hybrid and Quiet Vehicles by Blind and Visually Impaired Pedestrians , Jay M. Pliskow

Simulation of Landfill Gas Performance in a Spark Ignited Engine , Daniel P. Swain

Theses/Dissertations from 2009 2009

Dynamic Modeling and Simulation of Hose-Paradrogue Assembly for Mid-Air Operations , Husain Ahmad

Investigation of Underhood Buoyancy Driven Flow and Thermal Measurements in a Simplified Full Scale Underhood Engine Compartment with Open Enclosure , Charles Davis

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Aerospace Engineering

MSAE Project & Thesis Reports: 2020

Spring 2020, summer 2020.

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Research Areas

Michigan Aerospace remains a leader in aerospace research and education, covering an expansive array of topics from unmanned air and space vehicles to commercial airliners. The ever-evolving topics in aerospace encompass the traditional areas of gas dynamics, flight dynamics, control, structures and materials while probing visions of future needs for the aerospace enterprise. Research in aerospace engineering brings our best together to solve tough problems.

Aerodynamics & Propulsion

Aerodynamics & Propulsion is important for numerous aspects of aerospace engineering, such as airplane aerodynamics, helicopter aerodynamics, jet propulsion, rocket propulsion, advanced propulsion, properties of the space environment, and many others.

male student adjusts a plane that he is testing

Autonomous Systems & Control

The department has a long history of excellence in the areas of flight dynamics and control systems. It was one of the first engineering departments in the nation to offer courses in automatic control, flight dynamics, and simulation.

man explains a computer simulation of a shock wave impinging on an airplane wing surface

Computation

Computation plays a fundamental role in the design, analysis and operation of modern Aerospace systems. Applications include flight software, embedded computing for on-board control, optimization of structural, aerodynamic and propulsion systems, etc.

Model Based Systems Engineering Lab

The Model-Based Systems Engineering (MBSE) Lab provides forward thinking industry tools to fill some critical skills gaps between engineering graduates and industry requirements. Program projects undertake research that leverages digital modeling to improve operational and financial efficiencies in engineering design and development.

Students working inside the Large Vacuum Test Facility inside the Plasmadynamics and Electric Propulsion Laboratory (PEPL)

Space Systems

A subset of faculty members in Aerodynamics and Propulsion and Dynamics and Controls develop spacecraft and advanced spacecraft subsystems such as propulsion and control systems. Experimental and computational studies center around spacecraft electric propulsion (EP) systems, such as Hall thrusters.

Structures & Materials

Structural mechanics is the study of the mechanical behavior of solids and structures. This specialization covers theory, computations, experiments and implementation issues, as well as the study of specific cutting edge aerospace vehicles.

Sustainable Aviation

Sustainable aviation is a multi-disciplinary field that seeks solutions to improve the environmental and societal impacts of air transportation. This specialization covers highly efficient aircraft designs, novel propulsion systems, green aircraft technologies, and energy-optimized flight operations to reduce aircraft energy consumption, noise, and emissions.

GET INVOLVED

Be a part of research that pushes the boundaries of aerospace engineering.

student on University of Michigan Solar Car Team's checking the fit of fairings

MS Degree with Thesis - on campus only

Applicants for the MS with thesis program must have a research advisor. It is intended to be completed on campus. Candidates for the MS with thesis degree are required to complete a minimum of 24 hours of graded course work and 8 hours of thesis credit, selected in the following ways:

AE 590 (Departmental Seminar) must be taken every semester
At least 12 hours must be in the 500-level courses, and at least 8 of these 12 hours must be in Aerospace Engineering (may include up to 4 hours of 599 research credit).
None may be counted towards the MS with Thesis degree.
Up to 4 hours may be counted towards the MS Non-thesis degree.
16 hours must be AE designated courses (i.e. AE 4XX or AE 5XX). Of these 16 hours, 8 hours may be thesis credit (i.e. 599).
All students in the MS with Thesis option must complete a breadth requirement by taking one course from two of the three areas listed among the Aerospace Engineering Breadth Requirements . The courses listed among Aerospace Engineering Breadth Requirements cover fundamental concepts and are prerequisites for more advanced courses.
Graduate students are expected to exhibit competence in applied mathematics. MS students may meet this requirement by taking a minimum of 3-4 hours of courses listed among Mathematics Requirements .
A master's thesis for a minimum of 8 hours credit in AE 599 must be submitted. Only 8 hours of credit in AE 599 counts towards the MS degree even if the student registers for more AE 599 hours during the program.
Students should seek out faculty members with research interests similar to their own and explore possible thesis topics as early as possible. In many cases, faculty members will advise students to read various articles or to take specific courses in order to obtain the necessary background for conducting research in their areas of interest. Recommended courses for various areas of research are also listed in the Suggested Program Tracts .
The MS with Thesis Check List needs to be completed in consultation with your advisor to plan your program. A DARS Audit is an unofficial audit of progress toward the undergraduate student degree that reflects courses currently in progress.

All MS degree candidates must complete Check Lists with their advisors to plan their programs.

An interview with a graduate: Ambar Sarup, BS '21, MEng Dec. '22

Ambar Sarup is originally from Mussoorie, Uttarakhand, India. He earned a B.S. in '21 and an MEng in December '22. Recently, he relocated to Vero Beach, Florida to start a job at Piper Aircraft.

Why did you choose an MEng rather than an MS?

Although similar in many ways, I chose the MEng in Aerospace Systems Engineering because it allowed me the flexibility to follow the path that I wanted to take. In addition to the two superbly taught systems engineering classes, the final practicum at the end of the program was an excellent way to work on solving pressing issues in industry using a multi-disciplinary approach. Additionally, I was able to take other classes including on design for six sigma, reliability engineering, and business for engineering applications, all concepts that are becoming increasingly relevant in engineering.

Graduate Contacts

Ioannis Chasiotis Director of Graduate Studies [email protected]

Jenna Russell Graduate Programs Coordinator [email protected]

Dung Quach Wisdom Graduate Programs Advisor [email protected]

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MAE 298 SEMINAR: Mission Architecture Requirements for Safe Human Expeditions to Mars

Abstract: Planning is underway at NASA for returning humans to the Moon, followed by human missions to Mars. This talk highlights integrated risks to the crew on long-duration expeditions to Mars and specific technologies, engineering solutions, mission architectures and advanced reconnaissance needed to reduce the risk to the crew during their journey to Mars. Some of the technologies and mission architecture requirements discussed in this talk include: 1) fast Mars transit, where the round trip duration of Mars missions is limited approximately to one year to minimize the overall flight risks; 2) improved radiation monitoring and shielding techniques, to predict and reduce the harmful impacts of galactic cosmic radiation on the crew; 3) optimizing the timing of Mars missions based on the variability of solar cycle and its impact on radiation dose to the crew; 4) Human-System Integration Architecture design requirements to mitigate risks associated with spacecraft management and anomaly resolution during exploration missions with increased Earth independence; 5) future Mars reconnaissance missions needed in advance of the first human landing on Mars to ensure astronaut safety and mission success such as high resolution mapping of the Martian terrain, surface weather on Mars and real-time space weather forecasting on Mars.

Bio: Azita Valinia was named the deputy director of the NASA Office of JPL Management and Oversight at the agency’s Jet Propulsion Laboratory (JPL) in July 2023. In this role, she leads oversight of NASA’s largest contract, the Caltech/JPL FFRDC on behalf of NASA headquarters. She brings over 20 years of experience in NASA program management spanning areas in Earth and space sciences research, technology development, engineering and space science mission management. She is certified by the NASA Federal Acquisition Certification for Program/Project Managers at the senior expert level. Prior to this appointment, Valinia served as the chief scientist of NASA Engineering and Safety Center. In this role, she built bridges between NASA’s science, engineering and technology communities. She led several technical interdisciplinary assessments for the agency developing strategies and recommendations designed to help enable NASA’s Moon to Mars objectives, while ensuring safe human expeditions to the Moon, Mars and beyond. Since joining NASA in 2000, Valinia has served in various leadership roles at NASA. These include deputy director of the Astrophysics Flight Projects Division at NASA Goddard Space Flight Center (GSFC), overseeing a portfolio of over 20 space science flight missions in operation including the Hubble Space Telescope. As the associate director for R&D at the Sciences and Exploration Directorate at GSFC, she was responsible for the strategic development and implementation of the organization’s science and technology development portfolio as well as future advanced mission concept formulations. Valinia led the technical assessment teams that laid out NASA’s decadal Earth science technology investment strategy (in 2006 and 2016). Both strategies informed the deliberations and recommendations of the National Academy of Sciences' Earth science decadal surveys committees (in 2007 and 2017). Together with the engineering directorate leadership at GSFC, Valinia created two high-impact interdisciplinary programs, the Science-Engineering Collaboration Program and the Research Engineering Program, fostering strong collaborations between the science and engineering directorates at GSFC. She served on the NASA Headquarters Task Force that recommended and implemented the Science Innovation Fund program at NASA. Valinia earned a bachelor's degree in physics from the University of Houston and a doctorate in physics from the University of Texas at Austin. She has authored or co-authored over 60 articles in technical journals encompassing topics in astrophysics, Earth and planetary sciences research as well as mission concept formulation, technology development, engineering management and human space flight. She is the recipient of NASA’s Outstanding Leadership Medal, and NASA’s Silver Snoopy Award for her outstanding contributions related to human space flight safety.

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8 Apr MRSEC/MSE Special Seminar: Designing New Electronic Phases Intransition-Metal Oxide Thin Films
9 Apr MRSEC/MSE Special Seminar: Low-Dimensional Quantum Materials Design Through Atomically Precise Film Synthesis
11 Apr MSE 298 Seminar: Adaptive Materials Through Bioinspired Design and Additive Manufacturing
12 Apr EECS Seminar: Physical Layer Security for Dual-function Radar-Communication Systems
12 Apr MAE 298 SEMINAR: Mission Architecture Requirements for Safe Human Expeditions to Mars

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Faculty promotions 2024.

Join the College of Engineering in congratulating our five newly promoted faculty members.

Prof. Austin Ball (CEE) Promoted to Associate Professor of Practice

Austin Ball joined the Civil and Environmental Engineering Department in 2018 as an assistant professor of practice after 15 years in the industry, working as a professional engineer for the state of Colorado, Idaho and Utah. He received a master’s in civil and environmental engineering from Utah State University with an emphasis in structures in 2005. Ball’s thesis focused on the modal analysis of a multi-span reverse curve steel girder bridge using computer modeling.

As a professor of practice, Ball teaches career practicality and provides valuable real-world insights into the engineering field. His primary goal is to provide guidance and assistance to students as they navigate their individual paths toward fulfilling and successful careers

Dr. Matt Harris (MAE) Promoted to Associate Professor with Tenure

Matt Harris joined USU’s Mechanical and Aerospace Engineering Department in 2019. He holds a Ph.D. and a master’s in aerospace engineering from the University of Texas at Austin and Texas A&M respectively.

Harris is an accomplished researcher and engineer. He has published more than fifty 50 journal publications and conference proceedings, as well as a book in 2023 titled “Optimal Spacecraft Guidance.” Harris also holds three patents and is funded by numerous organizations including the United States Office of Naval Research, NASA and the U.S. Air Force Research Laboratory. To date, he has earned over $2 million in research funding as both PI and Co-PI.

Dr. Jeffery Horsburgh (CEE) Promoted to Full Professor

Jeff Horsburgh is an Associate Professor in Civil and Environmental Engineering and at the Utah Water Research Laboratory at Utah State University specializing in watershed hydrology, surface water quality and human dimensions of water use. He joined the CEE faculty in 2009. Horsburgh holds a Ph.D. and a master’s in civil and environmental engineering and a bachelor’s degree in environmental engineering, all from USU.

Horsburgh has published research since 2005 and has published more than 50 peer-reviewed publications. He has earned funding from organizations such as the National Science Foundation and states including Utah, Idaho, Washington and Delaware.

Dr. Jeffery Horsburgh (CEE) Promoted to Full Professor

Dr. Hailei Wang (MAE) Promoted to Associate Professor with Tenure

Prior to joining USU in August 2018, Hailei Wang worked at Oregon State University as a research faculty for ten years. He has broad research expertise in various thermal energy systems. Before going back to graduate school, Wang worked eight years in a natural gas research institute as a mechanical and process engineer.

Wang received his Ph.D. in mechanical engineering from Oregon State University in 2006 and his master’s from Texas Tech University in 2002. He holds an undergraduate degree in mechanical engineering from Southwestern Petroleum University in China. He currently runs the Energy Technology & Innovation lab, specializing in developing clean and efficient energy systems and novel thermal transport processes in energy conversion and storage.

Dr. Zhen Zhang (ECE) Promoted to Associate Professor with Tenure

Zhen Zhang joined the USU Electrical and Computer Engineering Department in 2017. His research focuses on the modeling and verification of concurrent and stochastic systems, ranging from distributed protocols and asynchronous circuits to cyber-physical and synthetic biological systems. Zhang has a wide variety of experience with topics including principles of cyber-physical systems, formal methods, stochastic verification and much more.

Zhang graduated with a Ph.D. in computer engineering from the University of Utah in 2016 and a master’s in computer science from the University of Manchester in 2010. He also received his undergraduate degree in electronic and electrical engineering from the Dublin Institute of Technology. To date, he has published nearly 30 papers and has created several formal models for fault-tolerant links routing protocol for a two-by-two Network-on-Chip mesh in the process-algebraic language LNT .

Dr. Zhen Zhang (ECE) Promoted to Associate Professor with Tenure

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List of Aerospace Engineering Dissertation Topics and Ideas
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Mechanical & Aerospace Engineering Theses & Dissertations
Theses/Dissertations from 2023 PDF. Thesis: Switching Methods for Three-Dimensional Rotational Dynamics Using Modified Rodrigues Parameters, Matthew Jarrett Banks PDF. Dissertation: Studies of Flowfields and Dynamic Stability Characteristics of a Quadrotor, Engin Baris PDF. Thesis: Development, Experimental Validation, and Progressive Failure Modeling of an Ultra-Thin High Stiffness Deployable ...
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1. Nanomaterials in Aerospace: Exploring the use of nanomaterials to enhance structural properties and create stronger, lighter, and more durable materials. 2. Bio-Inspired Materials: Research materials inspired by nature, such as biomimetic composites, to improve structural design and performance. 3.
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2. Stability and Control of Aircraft: Understand the delicate balance that keeps aircraft stable in the skies. 3. High-Speed Flight Aerodynamics: Explore the challenges faced when breaking the sound barrier and the realm of supersonic flight. 4.
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2020 Dissertation Titles. Biomimetics and Bio-inspiration for Moderate Reynolds Number Airfoils and Aircraft, P.I: Geoff Spedding, Professor. Design and testing of anisotropic, porous substrates for passive turbulence control, P.I: Mitul Luhar, Assistant Professor. Development and Characterization of Transparent Metal/Ceramic and Ceramic ...
Department of Aerospace Engineering
Student thesis: Doctoral Thesis › Engineering Doctorate (EngD) File. Aircraft active inceptor dynamics under vibration loads Author: Yap, E. J. H., 30 May 2023. ... Automating "design for manufacture" of aerospace composite components Author: Kucera, J., 21 Jun 2022.
Aerospace Engineering
Theses/Project Reports from 2021. PDF. Simulation of a Configurable Hybrid Aircraft, Brandon Bartlett. PDF. Comparing Radiation Shielding Potential of Liquid Propellants to Water for Application in Space, John Czaplewski. PDF. Cultivating Creativity in Aerospace Systems Engineering to Manage Complexity, Kenneth Lucas Dodd. PDF.
Dissertations and Theses
Dissertations and Theses - Aerospace Engineering | IDEALS. University of Illinois Urbana-Champaign. Academic Units. College of Engineering. Dept. of Aerospace Engineering.
Research topics
Research topics can be generally divided in two main areas: Space Aeronautics I conduct research in the following lines of reaserch Low-Thrust trajectory optimization Commercial aircraft trajectory optimization Flight Plan Optmization Conflict detection and resolution Meteorological uncertainty and Air Traffic Management (ATM) Robust flight planning Avoidance of storms Artificial Intelligence ...
Mechanical and Aerospace Engineering Masters Theses
Hybrid manufacturing processes for fusion welding and friction stir welding of aerospace grade aluminum alloys, Megan Alexandra Gegesky. PDF. Design and fabrication of a system for the additive manufacturing of transparent glass, Luke John Gilbert. PDF. Characterization of electric solid propellant pulsed microthrusters, Matthew Scott Glascock. PDF
Aerospace undergrad thesis topic ideas : r/AerospaceEngineering
I just wrote a short paper about the effect of tubercles (little bumps on the leading edge of humpback whales flippers) on turbine blades and the wind farming industry as a whole. Might be a good thesis topic. To get an idea of the topic: Blades/wings with tubercle leading edges work in a way similar to vortex generators.
Frontiers in Aerospace Engineering
Enabling Technologies for Advanced Air Mobility. Krishna Kalyanam. Zhaodan Kong. Kelly Cohen. Rajkumar S Pant. Jay Wilhelm. 13,653 views. 7 articles. Explores aerospace applications for civil and commercial aviation, as well as new and futuristic aerospace technologies to facilitate the new generation of optimized and efficient air travel.
71 Aerospace Essay Topic Ideas & Examples
Aviation and Aerospace Future Technology. Aerospace refers to the earth's atmosphere and the space beyond it. Technology in both aviation and aerospace has proved to be of great advantage to mankind over the years. We will write. a custom essay specifically for you by our professional experts. 809 writers online.
Aerospace Engineering Research Resources: Dissertations & Theses
Aerospace Engineering dissertations and theses granted from 1985 to 1999 were assigned Q.629.1Ta, followed by the 2-number year, followed by starting letters from the author's last name. (Example: A 1991 thesis by M. Doyle would be Q.629.1Ta91D).
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(2023) Greenbaum, Eric Ryan; Datta, Anubhav; Aerospace Engineering; Digital Repository at the University of Maryland; University of Maryland (College Park, Md.) Show more This thesis develops a fundamental understanding of the flight dynamics and stability of a coaxial helicopter hovering on Mars.
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Sample Project/Thesis Proposal. AE295A - Master's Project Proposal Presented to Dr. Nikos Mourtos ... Aerospace Engineering. Contact Us. Phone: 408-924-3965 Fax: 408-924-3818 Email: [email protected]. Visit Office. Location: ENG 272 One Washington Square San Jose, CA 95192-0179 Hours:
Thesis
The thesis is the most important part of your graduate education. While the course work lays the foundation by providing analytical methods and tools, it is the thesis that provides to you the opportunity to use this knowledge in a new, original and creative manner. During your thesis research you will be able to consolidate what you have ...
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Aerospace Engineering Topics. Aerospace engineering deals with the design, formation, and maintenance of aircraft, spacecraft, etc. It studies flight safety, fuel consumption, etc. Here are some aerospace engineering topics for you. How the design of planes can help them weather the storms more efficiently. Current techniques on flight plan ...
Theoretical Fluid Dynamics and Turbulence Group
The Pennsylvania State University, University Park, PA. Ph.D. Aerospace Engineering, Dec 2009, Dissertation: The Prediction of Broadband Shock-Associated Noise using Reynolds Averaged Navier-Stokes Computational Fluid Dynamics. The Pennsylvania State University, University Park, PA. M.S. Aerospace Engineering, May 2006, Thesis: The Aerodynamics ...
Mechanical and Aerospace Engineering Master's Theses
Mechanical and Aerospace Engineering Master's Theses All master's theses completed through the Graduate College of Western Michigan University since 2012 have been entered into ScholarWorks. Some may be embargoed or restricted by the authors and may be only available from on-campus computers.
MSAE Project & Thesis Reports: 2020
Spring 2020. Rushikesh Badgujar. X-69 CargoSat space-plane for LEO deliveries [pdf] Advisor: Dr. Nikos J. Mourtos. Aldrich D'silva. Development of an autonomous quadcopter with collision avoidance and localization capabilities using vision sensors [pdf] Advisor: Dr. Sean Swei. Esuyawkal Engdaw.
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Research Areas. Michigan Aerospace remains a leader in aerospace research and education, covering an expansive array of topics from unmanned air and space vehicles to commercial airliners. The ever-evolving topics in aerospace encompass the traditional areas of gas dynamics, flight dynamics, control, structures and materials while probing ...
MS Degree with Thesis
It is intended to be completed on campus. Candidates for the MS with thesis degree are required to complete a minimum of 24 hours of graded course work and 8 hours of thesis credit, selected in the following ways: AE 590 (Departmental Seminar)must be taken every semester. At least 12 hours must be in the 500-level courses, and at least 8 of ...
MAE 298 SEMINAR: Mission Architecture ...
Abstract: Planning is underway at NASA for returning humans to the Moon, followed by human missions to Mars.This talk highlights integrated risks to the crew on long-duration expeditions to Mars and specific technologies, engineering solutions, mission architectures and advanced reconnaissance needed to reduce the risk to the crew during their journey to Mars.
School of Engineering and Applied Science's first Lightning Talk
Environmental and water resources engineering student Md. Arafat Ali took home first place in the Lightning Talk Competition pitching a nanomaterial to remove carcinogenic forever chemicals from water supplies. He was also a finalist last year for UB's Three Minute Thesis Competition, a similar competition that he attributes his success to.
Faculty Promotions 2024
Jeff Horsburgh is an Associate Professor in Civil and Environmental Engineering and at the Utah Water Research Laboratory at Utah State University specializing in watershed hydrology, surface water quality and human dimensions of water use. He joined the CEE faculty in 2009. Horsburgh holds a Ph.D. and a master's in civil and environmental ...

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25+ Research Ideas in Aerospace Engineering for High School Students

How should you go about pursuing research in engineering as a high schooler?

Topic 1: Aircraft Design and Aerodynamics

Topic 2: Spacecraft and Satellite Systems

Topic 3: Materials and Structures in Aerospace

Topic 4: Avionics and Control Systems

Topic 5: Propulsion and Energy Systems

Topic 6: Aerospace Safety and Reliability

Topic 7: Aerospace Environmental Impact

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A consideration of geometry in very-low Earth orbit satellites

Acoustic Flow Perception in Bats and Applications in Navigation

Active Thermal Management in FRP Composites via Embedded Vascular Networks

Adaptive Compliant Structures for Fluid Flow Control: A ‘catastrophic’ approach

Adaptive Sampling in Particle Image Velocimetry

Additive Manufacturing of Soft, Functional Structures for Next-Generation Soft Robotics

A design approach for super-efficient Wrapped Tow Reinforced Hierarchical Space Frames

Advanced numerical methods for modelling impact in composite materials

Aerial Manipulators for Contact-based Interaction

Aeroacoustic Characteristics of Static and Dynamic Stall

Aerodynamic noise control using surface treatments

Aeroelastic Tailoring of a Composite Wing with Adaptive Control Surfaces for Optimal Aircraft Performance

Aeroelastic Tailoring of Composite Aircraft Wings with Uncertainty Quantification for Robust and Reliable Design

Aircraft active inceptor dynamics under vibration loads

Alginate based composite scaffold for biomedical engineering applications

A Model-Based Framework for Early-Stage Analysis of Spacecraft

A multi-scale reinforced natural composite sandwich panel concept for vibroacoustic applications

An adaptive shell model with variable-kinematics for the analysis of laminated structures

Analysis and Design of Buckling Resistant Thin-Walled Structures via Computationally Efficient 3D Stress Analysis

Analysis and design of composite panels with Stringer run-outs

Analysis and tailoring of stiffened panels with asymmetries via extended modal nudging

An Efficient Numerical Framework for Capturing Localised 3D Stress Fields in Laminated Composites

An experimental-modelling pitch link formulation for an induced ice damaged blade and its usage in vibration-based rotorcraft-blade health monitoring

An improved constraint stabilisation technique for Udwadia-Kalaba Formulation

An improved description of the bonding and consolidation for overmoulded thermoplastic composite ribbed plates

An investigation into the use of a pendulum support rig for aerodynamic modelling

A numerical study of a nacre-inspired ballistic armour system

A single camera optical system for the measurement of helicopter blade track and elastic deflection

A spacetime framework for aerodynamics of complex motions

A Touchy Subject: Development and Exploration of Tactile Sensing for Perception and Manipulation

Automated Dry Fibre Placement and Infusion Process Development for Complex Geometries

Automating “design for manufacture” of aerospace composite components

Autonomous and objective characterisation of composite precursors in manufacturing

Bayesian learning for control in multimodal dynamical systems

Behaviour of pseudo-ductile thin-ply angle-ply laminates under different loading conditions

Bifurcation analysis of a semiconductor laser subject to phase conjugate feedback

Bioinspired Nonlinear Structures: Elastic Instabilities and Sound Production

Bio-inspired path planning for unmanned air vehicles in urban environments

Bistable Structures for Morphing Applications Using Anisotropic Shells

Cellulose Composite Fibres for Potential Engineering and Bio-medical Applications

Cellulose Nanocrystal Reinforced Electrospun Composite Nanofibres

Cellulose nanocrystals-based nanomaterials with aligned microstructures for sustainable energy storage technologies