undergraduate thesis topics for electrical engineering

100+ Electrical Engineering Research Topics Examples

Electrical engineering comprises the comprehension of electricity and how it works. The main task of electrical engineers is to improve the distribution of energy to different electrical devices. Electrical engineers utilize their skills and knowledge to solve different technical issues. Electrical engineers’ tasks are working with the airline navigation system, GPS, systems for power generation, and transmissions like the wind farmhouses and similar projects. Working on different energies also comes in the domain of electrical engineers such as hydro-energy, turbine, fuel cell, gas, geothermal energy, solar energy, and wind energy. Electrical engineers use various passive components such as inductors, capacitors, and resistors, and so on while working on electrical devices and systems.

Students need to get different ideas for the research in electrical engineering on the latest ideas during the academic career of engineering. If you have been looking for an article that includes interesting research paper topics for electrical engineering students at a single site, you have come to the right place.

Electrical Engineering Theses and Dissertations

Theses/dissertations from 2023 2023.

On the Performance Enhancement of Beamspace MIMO and Non-orthogonal Multiple Access for Future Cellular Networks , Sinasi Cetinkaya

Enhancing Smart Grid Security and Reliability through Graph Signal Processing and Energy Data Analytics , Md Abul Hasnat

Fabric-Based Organic Electrochemical Transistor Towards Wearable pH Sensing Electronics , Nestor Osvaldo Marquez Rios

Novel Systems Engineering Framework Analysis of Photovoltaic Models and Equations , Peter R. Michael

Deep Learning Enhancement and Privacy-Preserving Deep Learning: A Data-Centric Approach , Hung S. Nguyen

Cyber-Physical Multi-Robot Systems in a Smart Factory: A Networked AI Agents Approach , Zixiang Nie

Multiple Access Techniques Enabling Diverse Wireless Services , Mehmet Mert Şahin

Deep Reinforcement Learning Based Optimization Techniques for Energy and Socioeconomic Systems , Salman Sadiq Shuvo

Process Automation and Robotics Engineering for Industrial Processing Systems , Drake Stimpson

Theses/Dissertations from 2022 2022

Stability and Interaction Analysis of Inverter-Based Resources in Power Grids , Li Bao

Healthcare IoT System and Network Design , Halil Ibrahim Deniz

Video Anomaly Detection: Practical Challenges for Learning Algorithms , Keval Doshi

Data-Driven State Estimation for Improved Wide Area Situational Awareness in Smart Grids , Md Jakir Hossain

Deep Learning and Feature Engineering for Human Activity Recognition: Exploiting Novel Rich Learning Representations and Sub-transfer Learning to Boost Practical Performance , Ria Kanjilal

Assistive Technologies for Independent Navigation for People with Blindness , Howard Kaplan

Diagnosis of Neurodegenerative Diseases Using Higher Order Statistical Analysis of Electroencephalography Signals , Seyed Alireza Khoshnevis

Accelerating Multiparametric MRI for Adaptive Radiotherapy , Shraddha Pandey

A Model-Based Fault Diagnosis in Dynamic Systems via Asynchronous Motors System Identification or Testing, and Control Engineering Observers , Kenelt Pierre

Improving Wireless Networking from the Learning and Security Perspectives , Zhe Qu

Improving Robustness of Deep Learning Models and Privacy-Preserving Image Denoising , Hadi Zanddizari

Theses/Dissertations from 2021 2021

A Method for Compact Representation of Heterogenous and Multivariate Time Series for Robust Classification and Visualization , Alla Abdella

Dynamical System and Parameter Identification for Power Systems , Abdullah Abdulrahman Alassaf

Phasor Domain Modeling of Type-III Wind Turbines , Mohammed Alqahtani

An Automated Framework for Connected Speech Evaluation of Neurodegenerative Disease: A Case Study in Parkinson's Disease , Sai Bharadwaj Appakaya

Investigation of CoO ATO for Solar Cells and Infrared Sheaths , Manopriya Devisetty Subramanyam

Thermal Management of Lithium-ion Batteries Using Supercapacitors , Sanskruta Dhotre

Effect of Se Composition in CdSe 1-X T eX /CdTe Solar Cells , Sheikh Tawsif Elahi

Microencapsulation of Thermochromic Materials for Thermal Storage and Energy Efficiency of Buildings , Abdullatif Hakami

Piezoelectrically-Transduced ZnO-on-Diamond Resonators with Enhanced Signal-to-Noise Ratio and Power-handling Capability for Sensing and Wireless Communication Applications , Xu Han

Preparation and Characterization of Single Layer Conducting Polymer Electrochromic and Touchchromic Devices , Sharan Kumar Indrakar

Security Attacks and Defenses in Cyber Systems: From an AI Perspective , Zhengping Luo

Power System Optimization Methods: Convex Relaxation and Benders Decomposition , Minyue Ma

Metal Oxide Sensor Array Test Bed Prototype for Diagnostic Breath Analysis , Tiffany C. Miller

Packaging of Active RF Beamforming IC Utilizing Additive Manufacturing , Ryan Murphy

Adaptive Network Slicing in Fog RAN for IoT with Heterogeneous Latency and Computing Requirements: A Deep Reinforcement Learning Approach , Almuthanna Nassar

Development of a Bipolar Radiofrequency Ablation Device for Renal Denervation , Noel Perez

Copper Electrodeposition Assisted by Hydrogen Evolution for Wearable Electronics: Interconnections and Fiber Metallization , Sabrina M. Rosa Ortiz

Theory and Application of Dielectric Rod Antennas and Arrays , Gabriel Saffold

Advanced Organic Polymers for the Nanoscale Fabrication of Fiber-based Electronics Using the Electrospinning Technique , William Serrano Garcia

Transparent Planar Micro-Electrode Array for In-Vitro Electric Field Mediated Gene Delivery , Raj Himatlal Shah

High Speed Switching for Plasma Based Electroporation , Shivangi Sharma

Development of Small-Scale Power Supplies for Wearable Medical Diagnostic Devices , Donny Stiner

Novel Approach to Integrate CAN Based Vehicle Sensors with GPS Using Adaptive Filters to Improve Localization Precision in Connected Vehicles from a Systems Engineering Perspective , Abhijit Vasili

Modeling, Control and Analysis of Inverter-Based Generators in the Power Grids , Yangkun Xu

Fiber-Based Supercapacitor for Wearable Electronics , Rohit Lallansingh Yadav

Modeling, Identification, and Stability Analysis of Inverter-Based Resources Integrated Systems , Miao Zhang

Data-Oriented Approaches towards Mobile, Network and Secure Systems , Shangqing Zhao

Strategies in Botnet Detection and Privacy Preserving Machine Learning , Di Zhuang

Theses/Dissertations from 2020 2020

Architecture design and optimization of Edge-enabled Smart Grids , Adetola B. Adeniran

Multimodal Data Fusion and Attack Detection in Recommender Systems , Mehmet Aktukmak

Artificial Intelligence Towards the Wireless Channel Modeling Communications in 5G , Saud Mobark Aldossari

Enhancement of 5G Network Performance Using Non-Orthogonal Multiple Access (NOMA) , Faeik Tayseer Al Rabee

Investigation of Machine Learning Algorithms for Intrusion Detection System in Cybersecurity , Mohmmed Alrowaily

Comprehensive Optimization Models for Voltage Regulation in PV-rich Multi-phase Distribution Systems , Ibrahim Alsaleh

Design and Implementation of Solid/Solid Phononic Crystal Structures in Lateral Extensional Thin-film Piezoelectric on Silicon Micromechanical Resonators , Abdulrahman Alsolami

Analysis of Computational Modeling Methods as Applied to Single-Crystal Organohalide Perovskites , Jon M. Bebeau

Development of a Monolithic Implantable Neural Interface from Cubic Silicon Carbide and Evaluation of Its MRI Compatibility , Mohammad Beygi

Performance Enhancement Techniques for Next-Generation Multi-Service Communication and Medical Cyber-Physical Systems , Ali Fatih Demir

Microfluidically Reconfigurable Millimeter-Wave Switches, Antenna Arrays and Filters with Fast-Actuation Using Movable Metallized Plates and Integrated Actuation , Enrique J. Gonzalez Carvajal

Multilayered Transmission Lines, Antennas and Phased Arrays with Structurally Integrated Control Electronics Using Additive Manufacturing , Merve Kacar

Cost Eﬃcient Algorithms and Methods for Spectral Eﬃciency in Future Radio Access , Murat Karabacak

Design of DeLRo Autonomous Delivery Robot and AI Based Localization , Tolga Karakurt

Theory, Fabrication, and Characterization of Perovskite Phototransistor , Fatemeh Khorramshahi

Modeling and Control of Renewable Energy in Grids and Microgrids , Yin Li

Next-Generation Self-Organizing Communications Networks: Synergistic Application of Machine Learning and User-Centric Technologies , Chetana V. Murudkar

Reliability Analysis of Power Grids and its Interdependent Infrastructures: An Interaction Graph-based Approach , Upama Nakarmi

Algorithms Enabling Communications in the Presence of Adjacent Channel Interference , Berker Peköz

Electrospun Nanofibrous Membrane Based Glucose Sensor with Integration of Potentiostat Circuit , Kavyashree Puttananjegowda

Service Provisioning and Security Design in Software Defined Networks , Mohamed Rahouti

Reading and Programming Spintronic Devices for Biomimetic Applications and Fault-tolerant Memory Design , Kawsher Ahmed Roxy

Implementation of SR Flip-Flop Based PUF on FPGA for Hardware Security , Sai Praneeth Sagi

Trauma Detection Personal Locator Beacon System , Sakshi Sharma

Network Function Virtualization In Fog Networks , Nazli Siasi

Socially Aware Network User Mobility Analysis and Novel Approaches on Aerial Mobile Wireless Network Deployment , Ismail Uluturk

Spatial Stereo Sound Source Localization Optimization and CNN Based Source Feature Recognition , Cong Xu

Hybrid RF Acoustic Resonators and Arrays with Integrated Capacitive and Piezoelectric Transducers , Adnan Zaman

Theses/Dissertations from 2019 2019

Fabrication and Characterization of Electrical Energy Storage and Harvesting Energy Devices Using Gel Electrolytes , Belqasem Aljafari

Phasor Measurement Unit Data-Based Steady State and Dynamic Model Estimation , Anas Almunif

Cross Layer-based Intrusion Detection System Using Machine Learning for MANETs , Amar Amouri

Power Conditioning System on a Micro-Grid System , Tamoghna Banerjee

Thermal Response in a Field Oriented Controlled Three-phase Induction Motor , Niyem Mawenbe Bawana

Design and Development of a Wireless EEG System Integrated into a Football Helmet , Akshay V. Dunakhe

Machine Learning, Game Theory Algorithms, and Medium Access Protocols for 5G and Internet-of-Thing (IoT) Networks , Mohamed Elkourdi

Improving Stability by Enhancing Critical Fault Clearing Time , Ammara M. Ghani

RF Power Circuit Designs for Wi-Fi Applications , Krishna Manasa Gollapudi

Enhancing Secrecy and Capacity of Wireless Systems Using Directive Communications , Mohammed A. Hafez

Statistical Anomaly Detection and Mitigation of Cyber Attacks for Intelligent Transportation Systems , Ammar Haydari

Absorber and Window Study – CdSexTe1-x/CdTe Thin Film Solar Cells , Chih-An Hsu

Methods and Algorithms to Enhance the Security, Increase the Throughput, and Decrease the Synchronization Delay in 5G Networks , Asim Mazin

Piezoelectric ZnO Nanowires as a Tunable Interface Material for Opto-Electronic Applications , Anand Kumar Santhanakrishna

Security Framework for the Internet of Things Leveraging Network Telescopes and Machine Learning , Farooq Israr Ahmed Shaikh

Diversity and Network Coded 5G Wireless Network Infrastructure for Ultra-Reliable Communications , Nabeel Ibrahim Sulieman

The Design of Passive Networks with Full-Wave Component Models , Eric Valentino

CubeSat Constellation Design for Intersatellite Linking , Michael T. White

Theses/Dissertations from 2018 2018

Design of Micro-Scale Energy Harvesting Systems for Low Power Applications Using Enhanced Power Management System , Majdi M. Ababneh

A Study on the Adaptability of Immune System Principles to Wireless Sensor Network and IoT Security , Vishwa Alaparthy

Validation of Results of Smart Grid Protection through Self-Healing , Felipe Framil Assumpção

A Novel Framework to Determine Physiological Signals From Blood Flow Dynamics , Prashanth Chetlur Adithya

The Effect of Processing Conditions on the Energetic Diagram of CdTe Thin Films Studied by Photoluminescence , Shamara P. Collins

Physical Electronic Properties of Self-Assembled 2D and 3D Surface Mounted Metal-Organic Frameworks , Radwan Elzein

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A List of Interesting Thesis Topic Ideas on Electrical Engineering

Engineering projects are defining the skyline and landscape of different cities around the world. These projects are also at the center of transformational development across continents. All these opportunities present a rich collection of thesis ideas on electrical engineering. There are multiple areas to be covered depending on your specialization and interest.

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Before looking at the best and fresh topics for your thesis in electrical engineering, let us look what makes a good thesis topic.

This means that it is specific with clear boundaries on the scope of your paper. It clearly states the area of coverage, for example, electricity transmission, distribution, safety, maintenance, etc. The field of electric engineering is expansive and thus requires the writer to narrow down to a single topic.

With extensive studies in different areas, your topic must capture the attention of the reader. The aim is to set it apart from the others in the same area. A reader will only be interested if there is new information to be gotten from your paper.

A fresh idea means that it is making a contribution to the world of academics. Do not pick a topic that has been studied time and again. This is only allowed in cases where you are providing a unique angle to the topic. Otherwise, look for new challenges or immerging issues in electrical engineering and write about them.

Some of the latest ideas include

Enhancing efficiency in electrical devices
Using different types of inverters for critical functions
The electronic band structure of semiconductors
Green electric power generation
The future of electricity transmission
Adapting technology to improve efficiency in electricity transmission
Are hybrid cars the future of vehicle electronics?
Enhancing the adaptability of Field Programmable Devices
Modern hardware for future software
Engineering for medical equipment
Overcoming the threat of natural disasters in electric engineering projects
Tapping into the potential of the ocean in electric generation
Reducing carbon footprints in electricity generation

Sometimes you are not sure whether you have chosen the best topic for your thesis on electrical engineering. These doubts are likely to affect your writing process. The best solution is to approach your supervisor for guidance. The supervisor understands your strengths and weaknesses and is better placed to offer directions. He also has interacted with a number of academic materials and has experience on how to prepare a compelling paper.

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Home > USC Columbia > Engineering and Computing, College of > Electrical Engineering > Electrical Engineering Theses and Dissertations

Electrical Engineering Theses and Dissertations

Theses/dissertations from 2023 2023.

Robust Deep Learning Models For Multi-label Image Classification In Limited And Free Annotation Scenarios , Rabab Ezzeldin Rabie Abdelfattah

Analysis, Measurement, and Modeling of Millimeter Wave Channels for Aviation Applications , Zeenat Afroze

Physics-Based and Behavioral Models for Fuel Cells , Charles Chima Anyim

Simulation-based Optimization Of A Dc Microgrid: With Machine-learning-based Models And Hybrid Meta-heuristic Algorithms , Tyler Van Deese

Novel Structures and Thin Film Techniques for Reconfigurable RF Technologies With Improved Signal Integrity , Jinqun Ge

Suitability of Quantized DEVS-LIM Methods for Simulation of Power Systems , Navid Gholizadeh

Novel Approach To In-situ Mocvd Oxide/dielectric Deposition For Iii-nitride-based Heterojunction Field Effect Transistors , Samiul Hasan

Quantized State Simulation of Electrical Power Systems , Joseph Micah Hood

Circularly-shifted Chirps For Triple Functionality: Communications, Radar, And Computation , Safi Shams Muhtasimul Hoque

Optimization of Ultrawide Bandgap Semiconductor Materials for Heterostructure Field Effect Transistors (HFETs) , Mohi Uddin Jewel

Design And Fabrication Of High-resolution Epitaxial 4h-sic Metal Insulator Semiconductor Detectors , Omerfaruk Karadavut

Deep Learning Based Fault Diagnosis and Prognosis for Bearing , Guangxing Niu

High-Performance Wide Bandgap Semiconductor Power Modules Enabled by Advanced Two-Phase Mini-Channel Cooling , Bo Tian

Magnetic Softness Tuned Superparamagnetic Nanoparticles for Highly Efficient Cancer Theranostics , Jie Wang

Probabilistic Cable Aging Diagnosis And Prognosis With Reflectometry And Capacitance Methods , Xuan Wang

Robustness Of Convolutional Neural Networks: Analysis And Applications , Xin Zhang

Theses/Dissertations from 2022 2022

MIMO Antenna Systems for Wireless Handheld Devices , Ahmed H. Abdelgawwad

Applications of Laser Liftoff Technique for Wide Bandgap Power and Flexible Electronics , Md Didarul Alam

Non-intrusive Microwave Surface Wave Technique For Cable Damage and Aging Detection , Ahmed Shah Arman

Pulse Width Modulation-Based Voltage Balancing and Circulating Current Control for Modular Multilevel Converters , Md Multan Biswas

Networked Digital Predictive Control for Modular DC-DC Converters , Castulo Aaron De la O Pérez

Development of Micro-Sized Algan Deep Ultraviolet Light Emitting Diodes and Monolithic Photonic Integrated Circuits , Richard Speight Floyd III

Distributed Interdigital Capacitor (IDC) Sensing for Cable Insulation Aging and Degradation Detection , Md Nazmul Al Imran

Epitaxial 4H-SiC Radiation Detectors for Harsh Environment Applications , Joshua W. Kleppinger

Growth, Characterization and Evaluation of CdZnTeSe Single Crystals for Room Temperature Radiation Detectors , Ritwik Nag

Automated Contingency Management for Water Recycling System , Shijie Tang

Closed Form Implicitly Integrated Models for Computationally Efficient Simulation of Power Electronics , Andrew Wunderlich

Theses/Dissertations from 2021 2021

Real Time Simulation and Hardware in the Loop Methods for Power Electronics Power Distribution Systems , Michele Difronzo

Time-Domain Measurement of Magnetization Dynamics in Ferrofluids , Brian Egenriether

Increased Detectivity and Low Temperature Performance Analysis of Sub-20μm Micropixel Array A1GaN UV Photodiodes , Samia Islam

Operating Strategies and Disturbance Characterization for DC Microgrids , Miles Leonard-Albert

Real-Time Probabilistic Solvers for Digital Twins of Power Electronic Systems , Matthew Aaron Milton

Ultrawide Bandgap Algan-Channel Metal Oxide Semiconductor Heterostructure Field Effect Transistors With High- K Gate Dielectrics , Md Abu Shahab Mollah

Temperature Dependence of Electroluminescence and Current-Voltage Characteristics of Arrays of Deep Ultraviolet Algan Micropixel Led , Dhruvinkumar Prakashchandra Patel

Robust Adaptive Model Predictive Control of Nonlinear Sample-Data Systems , Lixing Yang

Theses/Dissertations from 2020 2020

Methods for Dynamic Stabilization, Performance Improvement, and Load Power Sharing In DC Power Distribution Systems , Hessamaldin Abdollahi

Data-Driven Modeling Through Power Hardware in the Loop Experiments: A PV Micro-Inverter Example , Hayder Dawood Abbood Almukhtar

Novel Multi-User Chirp Signaling Schemes for Future Aviation Communication Applications , Nozhan Hosseini

The Hybridization of a Graphene and Silicon Carbide Schottky Optoelectronic Device by the Incorporation of a Lead Sulfide Quantum Dot Film , Joshua Letton

Channel Modeling and Tropospheric Effects on Millimeter Wave Communications for Aviation Applications , Jinwen Liu

30 GHz Path Loss Modeling and Performance Evaluation for Noncoherent M-ary Frequency Shift Keying in the 30 GHz Band , Mohanad Razak Mohsen

Room Temperature Semiconductor Radiation Detectors Based on CdZnTe and CdZnTeSe , Mohsin Sajjad

Optimization of Vehicle to Grid System in a Power System With Unit Commitment , Charles Uko

Design of High Efficiency Wireless Power Thansfer System With Nonlinear Resonator , Yibing Zhang

Theses/Dissertations from 2019 2019

DC Bus Stabilization and Dynamic Performance Improvement of a Multi-Converter System , Silvia Arrua

Fabrication and Characterization of Thin Films for Heterojunction Solar Cells and Radiation Detectors , Towhid A. Chowdhury

Low Frequency Injection as a Method of Low-Level DC Microgrid Communication , Matthew Davidson

Modeling and Loss Analysis of SiC Power Semiconductor Devices for Switching Converter Applications , Soheila Eskandari

Path Loss Models for Two Small Airport Indoor Environments at 31 GHz , Alexander L. Grant

Wireless RF Induced Energy Absorption and Heating of Lanthanum-Nickel Alloy in the Near-Field , Michael Dillon Lindsay

Fractional Order and Virtual Variable Sampling Design of Repetitive Control for Power Converters , Zhichao Liu

Curbside Antenna to Vehicle Path Loss Measurements and Modeling in Three Frequency Bands , Patrick Murphy

Finite Element Electromagnetic (EM) Analyses of Induction Heating of Thermoplastic Composites , Ankit Patel

Constrained Consensus in Continuous-Time Multi-Agent Systems , Zheqing Zhou

Theses/Dissertations from 2018 2018

Study Of 4H-SiC And ALxGA1-xN Based Heterojunction Devices For Ultraviolet Detection Applications , Venkata Surya Naga Raju Chava

Photovoltaic Inverter Control to Sustain High Quality of Service , Yan Chen

Novel Wideband EBG Structures For Isolation Improvement Between Cosite Antennas , Paul John Czeresko III

High Resolution Radiation Detectors Based On 4H-SiC N-Type Epitaxial Layers And Pixilated CdZnTe Single Crystal Devices , Cihan Oner

Ku-Band AG Channel Modeling , Albert Smith

Quantifying Time Retarded Electromagnetic Fields and Their Applications in Transmission Lines , Brandon Thomas Gore

Structurally Integrated Reconfigurable Wideband Array For Conformal Applications , Michael Damon Wright

Multifunction Radio Frequency Composite Structures , David L. Zeppettella

Theses/Dissertations from 2017 2017

Dynamic Model and Control of Quadrotor in the Presence of Uncertainties , Courage Agho

Ultra High-Speed Signaling and Return on Technology Investment (ROTI) for the Electrical Interconnects Sector , Azniza Abd Aziz

High Quality Low Offcut 4h-Sic Epitaxy and Integrated Growth of Epitaxial Graphene for Hybrid Graphene/Sic Devices , Anusha Balachandran

Cable Health Monitoring System Built Into Power Converter Using Time Domain Reflectometry , Hossein Baninajar

Low Bandwidth Communication for Networked Power Hardware-In-The-Loop Simulation , Sean Borgsteede

Fault Protection In DC Microgrids Based On Autonomous Operation Of All Components , Qiu Deng

Distributed Optimization Method for Intelligent Control of DC Microgrids , Yuanyuan Fan

Three Segment Adaptive Power Electronic Compensator for Non-periodic Currents , Amin Ghaderi

Study of Mos2 and Graphene-Based Heterojunctions for Electronic and Sensing Applications , Ifat Jahangir

Evaluation Of Multicarrier Air Interfaces In The Presence Of Interference For L-Band And C-Band Air-Ground Communications , Hosseinali Jamal

Analysis and Design of a Highly Compact Ellipse-Shaped Ultra-Wideband Bandpass Filter (Uwb-Bpf) with a Notched Band , Xuetan Liu

Study of Ultra Wide Band Gap AlxGa1-xN Field Effect Transistors For Power Electronic Applications , Sakib Mohammed Muhtadi

Growth and Characterization of Anisotropic GaSe Semiconductor for Radiation Detection and THz Applications , Haseeb Nazir

Physical Characterization of Electrodeposited PCB Copper Foil Surfaces , Blessing Kolawole Ojo

Wideband Low Side Lobe Aperture Coupled Patch Phased Array Antennas , Dhruva Poduval

Software Modelling For Real World Faults On AC Transmission Protective Systems Analysis And Effects , Iandale Tualla

Improved N-Type 4h-Sic Epitaxial Layer Radiation Detectors and Noise Analysis of Front-End Readout Electronics , Khai V. Nguyen

Integrating Nano-Patterned Ferromagnetic and Ferroelectric Materials For Smart Tunable Microwave Applications , Tengxing Wang

An Application of Dempster-Shafer Fusion Theory to Lithium-ion Battery Prognostics and Health Management , John Weddington

A Lebesgue Sampling based Diagnosis and Prognosis Methodology with Application to Lithium-ion Batteries , Wuzhao Yan

Theses/Dissertations from 2016 2016

Positive Feedforward Control Design For Stabilization Of A Single-Bus DC Power Distribution System Using An Improved Impedance Identification Technique , Silvia Arrúa

Simulation Of GaN Based MIS Varactor , Bojidha Babu

High Gain Pattern Reconfigurable Antenna Arrays for Portable and Body-Centric Wireless Applications , Nowrin Hasan Chamok

An Improved Ship Design Tool for Comparing Performance of Multiple Ship Designs across User-Defined Missions , Helder Jose de Almeida Pais

Estimating Local Average Power In A Line-Of-Sight Indoor Channel: Spatial Sampling And Processing , Israt Jahan Disha

Time-Domain Measurement Of Ultrafast Magnetization Dynamics In Magnetic Nanoparticles , Brian Egenriether

Finite Control Set Model Predictive Control Of Direct Matrix Converter And Dual-Output Power Converters , Ozan Gulbudak

Distributed Optimization And Control Of Islanded Microgrids , Md Rishad Hossain

Engineering Model Of III-Nitride Power Heterostructure Field Effect Transistor On Silicon Substrate , Mohammad Mirwazul Islam

A Comparison Of FPGA Implementation Of Latency-Based Solvers For Power Electronic System Real-Time Simulation , Matthew Aaron Milton

Investigation Of Wide Bandgap Semiconductor Devices For Radiation Detection Applications , Rahmi Orhon Pak

Modeling and Loss Analysis of Wide Bandgap Power Semiconductor Devices , Kang Peng

Miniaturized RF Components With A Novel Tunable Engineered Substrate For Wireless Communication Systems , Yujia Peng

Wireless Channel Modeling For Networks On Chips , William Rayess

Comparative Analysis Of Current Control Methods For Modular Multilevel Converters , Jordan D. Rogers

Applications Of Impedance Identification To Electric Ship System Control And Power Hardware-In-The-Loop Simulation , Jonathan Siegers

System Level Analysis And Design For Wireless Inter-Chip Interconnection Communication Systems By Applying Advanced Wireless Communication Technologies , Xin Zheng

Theses/Dissertations from 2015 2015

Design, Fabrication, and Characterization of Pseudomorphic and Quasi-Pseudomorphic AlGaN Based Deep Ultraviolet Light Emitting Diodes Over Sapphire , Fatima Asif

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Senior Thesis

For an A.B. degree, a research thesis is strongly encouraged but not required; a thesis is necessary to be considered for High or Highest Honors. Additionally, a thesis will be particularly useful for students interested in pursuing graduate engineering research.

In the S.B. degree programs, every student completes a design thesis as part of the required senior capstone design course (ES 100hf). During the year-long course students design and prototype a solution to an engineering problem of their own choice.

The guide below provides an overview of the requirement for an A.B. thesis in Electrical Engineering:

Engineering A.B. Thesis Guide

Some recent thesis examples across all of SEAS can be found on the Harvard DASH (Digital Access to Scholarship at Harvard) repository .

Electrical Engineering Senior thesis examples:

Built a power conversation circuit to drive a >500 V load for in -flight system using a small form factor lithium ion battery

Engineering A.B. Thesis Extensions and Late Submissions

Thesis extensions will only be granted in extraordinary circumstances, such as hospitalization or grave family emergency. An extension may only be granted by the DUS (who may consult with thesis advisor, resident dean, and readers). For joint concentrators, the other concentration should also support the extension. To request an extension, please email your ADUS or DUS, ideally several business days in advance. Please note that any extension must be able to fall within our normal grading, feedback, and degree recommendation deadline, so extensions of more than a few days are usually impossible.

Late submissions of thesis work will not be accepted. A thesis is required for joint concentrators, and a late submission will prevent a student from fulfilling this requirement. Please plan ahead and submit your thesis by the required deadline.

Senior Thesis Submission Information for A.B. Programs

Senior A.B. theses are submitted to SEAS and made accessible via the Harvard University Archives and optionally via DASH (Digital Access to Scholarship at Harvard), Harvard's open-access repository for scholarly work.

In addition to submitting to the department and thesis advisors & readers, each SEAS senior thesis writer will use an online submission system to submit an electronic copy of their senior thesis to SEAS; this electronic copy will be kept at SEAS as a non-circulating backup. Please note that the thesis won't be published until close to or after the degree date. During this submission process, the student will also have the option to make the electronic copy publicly available via DASH. Basic document information (e.g., author name, thesis title, degree date, abstract) will also be collected via the submission system; this document information will be available in HOLLIS , the Harvard Library catalog, and DASH (though the thesis itself will be available in DASH only if the student opts to allow this). Students can also make code or data for senior thesis work available. They can do this by posting the data to the Harvard Dataverse or including the code as a supplementary file in the DASH repository when submitting their thesis in the SEAS online submission system.

Whether or not a student opts to make the thesis available through DASH, SEAS will provide an electronic record copy of the thesis to the Harvard University Archives. The Archives may make this record copy of the thesis accessible to researchers in the Archives reading room via a secure workstation or by providing a paper copy for use only in the reading room. Per University policy , for a period of five years after the acceptance of a thesis, the Archives will require an author’s written permission before permitting researchers to create or request a copy of any thesis in whole or in part. Students who wish to place additional restrictions on the record copy in the Archives must contact the Archives directly, independent of the online submission system.

Students interested in commercializing ideas in their theses may wish to consult Dr. Fawwaz Habbal , Senior Lecturer on Applied Physics, about patent protection. See Harvard's policy for information about ownership of software written as part of academic work.

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Undergraduate Research

The Ohio State University is one of the largest and most extensive research universities in the world. Researchers at Ohio State are leaders in a variety of fields that touch our daily lives and shape our future. Undergraduates are a part of OSU's exciting community of discovery, creativity and innovation.

Why research?

As an undergraduate, research exposes you to a very different side of engineering, one where you work to solve open-ended problems that no one knows the answers to yet, and in some cases where understanding and defining the problem is the primary goal of the research. Research also gives you the opportunity to work closely with faculty and more advanced students to get more exposure to the next step in your career in engineering.

What would I be doing?

The research opportunities for undergraduate ECE students are diverse and challenging. Under the direction of a faculty member, students work on a research problem that may involve laboratory work, computer programming, data analysis, and literature searching. Research projects prepare students for future graduate studies and/or the corporate world in ways regular curriculum alone cannot achieve. View some example ECE undergraduate research projects .

How do I find a research project?

Ask the professor teaching your favorite class if there are any research opportunities on the class’s topic. You can also browse the faculty webpages for topics that are interesting to you and contact those faculty to set up appointments to discuss possible research projects. If you have multiple topics/classes that interest you, but don’t know which faculty to contact, you can make an appointment with the ECE department’s undergraduate honors and research coordinator, Prof. Bradley Clymer ( [email protected] ). Prof. Clymer can help you identify faculty who regularly advise undergraduate research on the various topics that interest you.

Opportunities for honors students

Students with a university honors designation (cumulative GPA of 3.4 or higher) can develop their research project into an Honors Thesis during their senior year under the supervision of a faculty advisor. Students who complete the requirements for the thesis project will graduate with Distinction in Electrical & Computer Engineering . Visit the Honors section to learn more.

What are the benefits?

Participation in undergraduate research benefits students educationally, professionally, and personally. Benefits include:

Working closely with a faculty mentor
Sharpening problem-solving skills and applying concepts learned in coursework to real life problems
Exploring and preparing for future careers
Developing marketable skills
Enhancing professional communication skills

Get Involved

ECE students who are interested in being involved in an undergraduate research project can do so in a few easy steps.

Students should be in good academic standing.
Students should explore the various research areas ECE faculty members are involved in, chose an area of interest, and identify a particular professor as a potential research advisor.
Think about how much time per week that you have to complete research.
Contact the professor(s) directly and inquire about the available research opportunities, including the possibilities of joining an on-going research project, or perhaps even starting a new one. Indicate an area of research that you would like to work on. This will give the faculty member a better idea of what projects you may be available for.

Prof. Bradley Clymer gives an annual seminar in early September on ECE Undergraduate Research that addresses when to begin research, how to find a research advisor, and some different scenarios that ECE students can use for undergraduate research. This seminar is recorded and the video and slides are posted on a special Carmen site for ECE Undergraduate Research. To get access to this Carmen site, email Prof. Clymer at [email protected] .

View some example abstracts of current senior honors thesis projects .

If you have additional questions about undergraduate research projects, please contact Professor Clymer.

Additional Resources:

OSU Undergraduate Research Office

Electrical & Electronic Engineering: Theses

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Theses in the Library

There is a selection of Electrical & Electronic Engineering related theses in the library. They are shelved in subject and date order in cabinets in the library. Folders listing titles and authors are held at the Library Desk. Browse through these to find topics of interest to you. Alternatively, follow the guidelines in the video below to search for listings of titles and subject areas on the library catalogue.

Please note: Theses are for library use only.

DART-Europe

DART-Europe was founded in 2005 as a partnership of national and university libraries and consortia to improve global access to European research theses. The DART-Europe E-theses Portal is managed by UCL Library Services .

The DART-Europe partners help to provide researchers with a single European Portal for the discovery of Electronic Theses and Dissertations. Free access to 825,310 open access research theses from 619 Universities in 28 European countries.

EthOS - British Library

undergraduate thesis topics for electrical engineering

EThOS is the UK’s national thesis service which aims to maximise the visibility and availability of the UK’s doctoral research theses. It demonstrates the quality of UK research, and supports the UK Government’s open access principle that publications resulting from publicly-funded research should be made freely available for all researchers, providing opportunities for further research.

Research @THEA

Research@THEA

Research@THEA is a free electronic resource where you can search the collections of the Technological Universities (TU) research output in a single search. Alternatively you can opt to search the research from a single TU using the individual site details.

Open Access Theses & Dissertations

OATD.org aims to be the best possible resource for finding open access graduate theses and dissertations published around the world

Digital Commons Network

The Digital Commons Network brings together free, full-text scholarly articles from hundreds of universities and colleges worldwide. Curated by university librarians and their supporting institutions, the Network includes a growing collection of peer-reviewed journal articles, book chapters, dissertations, working papers, conference proceedings, and other original scholarly work.

BASE , one of the world's most voluminous search engines especially for academic web resources, is operated by Bielefeld University Library . BASE provides more than 240 million documents, including dissertations and theses from more than 8,000 content providers. You can access the full texts of about 60% of the indexed documents for free (Open Access).

With PQDT Open, you can read the full text of open access dissertations and theses free of charge (primarily North American in content).

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Electrical and Electronic Engineering - Theses

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Item No Preview Available A Multifunctional Smart Field-Programmable Radio Frequency Surface Li, Tianzhi ( 2023-04 ) Wireless communication technology has completely transformed the way we communicate and access information. It operates on the principles of electromagnetic wave propagation, as described by Maxwell's equations. The scope of wireless communication is vast and includes satellite communication, handheld device communication, and Internet of Things (IoT), which have revolutionized fields of industry, healthcare, transportation, education, and entertainment. As demand for faster and more reliable communication continues to grow, a range of wireless communication standards has been developed, including WiFi, BLE, cellular networks, near-field communication (NFC), and ZigBee, each operating at a unique frequency range. Antennas that can operate across multiple communication standards have remained a challenge due to the interdependent factors of antenna geometry, size, and RF characteristics. As the number of devices with wireless connectivity increases dramatically, the spectrum resource is getting limited, which results in congestion and reduced performance. Reconfigurable antennas have been intensively studied in the last few decades to mitigate this challenge. Although reconfigurability in operating frequency, radiation pattern and polarization have been implemented, limitations including lack of programmability, pattern diversity, and self-adaptive capability against environmental interference exist. To address these limitations, we proposed a new concept called Field-programmable RF surface (FPRFS), which allows for the control of current flow on the surface to achieve desired antenna characteristics and impedance matching capabilities. This work starts with the theoretical analysis and creates the mathematical model for the FPRFS in antenna, impedance matching network, and filter applications. Our research demonstrated the reconfigurability of FPRFS antennas in operating frequency, radiation pattern, and polarization reconfigurability with radiation gain and efficiency levels that are comparable to those of conventional fixed patch antennas and enhanced immunity to surrounding obstacles. We developed a software algorithm for the FPRFS that enables it to automatically optimize its configuration in real-time, thereby adapting to changing load impedance or environmental interferences.

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Electrical and Computer Engineering: Dissertations/Theses

Finding uw dissertations & theses.

To locate dissertations and theses written at the University of Washington:

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ResearchWorks at the University of Washington More than 6600 full-text dissertations produced at the University of Washington; full coverage from 1997-2008; sporadic coverage prior to 1997. [UW restricted]
UW Libraries Search Search by author's name or browse EE dissertations & theses by typing in "thesis electrical engineering." EE dissertations & theses are shelved on the 4th floor of the Engineering Library under the call number TK7 ThXXXXX.
Guide to Finding Dissertations & Theses

Finding Non-UW Dissertations & Theses

DSpace@MIT Contains over 25,000 dissertations & theses written at the Massachusetts Institute of Technology (MIT).
UC Berkeley EECS Electrical Engineering and Computer Science dissertations written at the University of California Berkeley. Many are available in full-text.
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Electrical and Electronic Engineering Theses

Permanent uri for this collection.

This collection is made up of doctoral and master theses by research, which have been received in accordance with university regulations.

For more information, please visit the UCD Library Theses Information guide .

Recent Submissions

Publication RF Amplification and Filtering Techniques for Cellular Receivers ( University College Dublin. School of Electrical and Electronic Engineering, 2021 ) Bozorg, Amir The usage of various wireless standards, such as Bluetooth, Wi-Fi, GPS, and 4G/5G cellular, has been continually increasing. In order to utilize the frequency bands efficiently and to support new communication standards with lower power consumption, lower occupied volume and at reduced costs, multimode transceivers, software defined radios (SDRs), cognitive radios, etc., have been actively investigated. Broadband behavior of a wireless receiver is typically defined by its front-end low-noise amplifier (LNA), whose design must consider trade-offs between input matching, noise figure (NF), gain, bandwidth, linearity, and voltage headroom in a given process technology. Moreover, monolithic RF wireless receivers have been trending toward high intermediatefrequency (IF) or superhetrodyne radios thanks to recent breakthroughs in silicon integration of band-pass channel-select filters. The main motivation is to avoid the common issues in the currently predominant zero/low-IF receivers, such as poor 2nd-order nonlinearity, sensitivity to 1/f (i.e. flicker) noise and time-variant dc offsets, especially in the fine CMOS technology. To avoid interferers and blockers at the susceptible image frequencies that the high-IF entails, band-pass filters (BPF) with high quality (Q) factor components for sharp transfer-function transition characteristics are now required. In addition, integrated low-pass filters (LPF) with strong rejection of out-of-band frequency components are essential building blocks in a variety of applications, such as telecommunications, video signal processing, anti-aliasing filtering, etc. Attention is drawn toward structures featuring low noise, small area, high in-/out-of-band linearity performance, and low-power consumption. This thesis comprises three main parts. In the first part (Chapters 2 and 3), we focus on the design and implementation of several innovative wideband low-noise (transconductance) amplifiers [LN(T)A] for wireless cellular applications. In the first design, we introduce new approaches to reduce the noise figure of the noise-cancellation LNAs without sacrificing the power consumption budget, which leads to NF of 2 dB without adding extra power consumption. The proposed LNAs also have the capability to be used in current-mode receivers, especially in discrete-time receivers, as in the form of low noise transconductance amplifier (LNTA). In the second design, two different two-fold noise cancellation approaches are proposed, which not only improve the noise performance of the design, but also achieve high linearity (IIP3=+4.25 dBm). The proposed LN(T)As are implemented in TSMC 28-nm LP CMOS technology to prove that they are suitable for applications such as sub-6 GHz 5G receivers. The second objective of this dissertation research is to invent a novel method of band-pass filtering, which leads to achieving very sharp and selective band-pass filtering with high linearity and low input referred (IRN) noise (Chapter 4). This technique improves the noise and linearity performance without adding extra clock phases. Hence, the duty cycle of the clock phases stays constant, despite the sophisticated improvements. Moreover, due to its sharp filtering, it can filter out high blockers of near channels and can increase the receiver’s blocker tolerance. With the same total capacitor size and clock duty cycle as in a 1st-order complex charge-sharing band-pass filter (CS BPF), the proposed design achieves 20 dB better out-of-band filtering compared to the prior-art 1st-order CS BPF and 10 dB better out-of-band filtering compared to the conventional 2nd-order C-CS BPF. Finally, the stop-band rejection of the discrete-time infinite-impulse response (IIR) lowpass filter is improved by applying a novel technique to enhance the anti-aliasing filtering (Chapter 5). The aim is to introduce a 4th-order charge rotating (CR) discrete-time (DT) LPF, which achieves the record of stop-band rejection of 120 dB by using a novel pseudolinear interpolation technique while keeping the sampling frequency and the capacitor values constant. 96
Publication Frequency Control of Virtual Power Plants ( University College Dublin. School of Electrical and Electronic Engineering, 2022 ) Zhong, Weilin ; 0000-0001-6737-4873 The Virtual Power Plant (VPP) concept refers to the aggregation of Distributed Energy Resources (DERs) such as solar and wind power plants, Energy Storage Systems (ESSs), flexible loads, and communication networks, all coordinated to operate as a single generating unit. Using as starting point a comprehensive literature review of the VPP concept and its frequency regulation technologies, the thesis proposes a variety of frequency control and state estimation approaches of VPPs, as follows. First, the thesis studies the impact of coordinated frequency control of VPPs on power system transients, in which ESSs are utilized to provide fast frequency regulation. The thesis also proposes a simple yet effective coordinated control of DERs and ESSs able to integrate the total active power output of the DERs, and, thus, to improve the overall power system dynamic performance. The impact of topology on the primary frequency regulation of VPPs is also investigated. With this regard, two types of VPPs topologies are considered, that is, a topology where the DERs that compose the VPP are scattered all-over the transmission grid; and a topology where the DERs are all connected to the same distribution system that is connected to the rest of the transmission grid through a single bus. Next, the thesis proposes a control scheme to improve the dynamic response of power systems through the automatic regulators of converter-based DERs. In this scheme, both active and reactive power control of DERs are varied to regulate both frequency and voltage, as opposed to current practice where frequency and voltage controllers are decoupled. To properly compare the proposed control with conventional schemes, the thesis also defines a metric that captures the combined effect of frequency/voltage response at any given bus of the network. Finally, the thesis presents an on-line estimation method to track the equivalent, time-varying inertia as well as the fast frequency control droop gain provided by VPPs. The proposed method relies on the estimation of the rate of change of the active and reactive power at the point of connection of the VPP with the rest of the grid. It provides, as a byproduct, an estimation of the VPP’s internal equivalent reactance based on the voltage and reactive power variations at the point of connection. Throughout the thesis, the proposed techniques are duly validated through time domain simulations and Monte Carlo simulations, based on real-world network models that include stochastic processes as well as communication delays. 150
Publication Low-Complexity Digital Predistortion for 5G Massive MIMO and Handset Transmitters ( University College Dublin. School of Electrical and Electronic Engineering, 2022 ) Wang, Xiaoyu The demand for new wireless communication systems to support high mobility and low latency necessitates a rethink of the architecture of wireless communication systems as well as the design of their key components. This thesis presents several novel techniques to solve the major challenges in digital predistortion (DPD) for millimeter wave multi-input multi-output (MIMO) and handset transmitters to lower the hardware cost and computational complexity of the fifth generation (5G) communication systems. The first part of the thesis focuses on the architecture of the MIMO DPD solution for 5G transmitters. To extract DPD model coefficients, a feedback data acquisition path is required. In conventional single-input single-output (SISO) systems, the output is usually acquired directly from the power amplifier (PA) with a coupler. In massive MIMO systems, the number of RF chains is large. Using dedicated feedback paths for each PA separately is not feasible. To lower the hardware cost, a novel data acquisition scheme is proposed to obtain the output signals in far field over the air (OTA) using a single antenna and feedback loop, and then reconstruct the output of each PA. Simulation and experimental results demonstrate that the proposed OTA data acquisition can accurately reconstruct the output of each PA in the MIMO systems and the DPD solutions derived from the reconstructed data can successfully linearize the nonlinear MIMO transmitters. In the multi-user scenario, the nonlinearity of the transmitters varies with the movement of user equipments (UEs), and the DPD model coefficients need to be updated accordingly. To meet the requirement of high mobility, the complexity of the system update must be low. In the second part of the thesis, we present a new DPD system, where DPD model can be updated fast and accurately without capturing PA output or applying costly model extraction algorithms. In the proposed method, nonlinear characteristics of the PA are encoded into low-dimensional PA features using feature extraction algorithms. To identify DPD model coefficients, PA features are extracted first and the DPD model coefficients are then generated directly by DPD generator with PA features. Experimental results show that the proposed DPD solution can linearize PA with very low complexity compared to that using the conventional solutions. Finally, the focus shifts to handset transmitters. Conventionally, DPD is usually deployed for high power base stations. With the continuously increasing bandwidth, DPD may also be required for handset PAs in 5G communication systems. Different from the models used for base stations, DPD model for handset PAs must have very low complexity because of the stringent power budget limit. At the same time, the tolerance for load mismatch must also be considered. The third part of the thesis analyzes the characteristics of handset PAs with load mismatch and introduces a low-complexity DPD model based on magnitude-selective affine (MSA) function. Experimental results demonstrate that the extended MSA (EMSA) model shows better linearization performance while keeping much lower complexity than the conventional DPD models. 9
Publication Circularly Polarized Antennas for 5G Millimetre-Wave Communications ( University College Dublin. School of Electrical and Electronic Engineering, 2022 ) Sadeghi-Marasht, Samaneh The need of a higher data rate, lower latency, and cost efficiency led to the fifth-generation (5G) emerging as a new communication standard. This generation includes many unused frequencies with high available bandwidth channels that can provide higher capacities such as millimeter-wave (mm-wave) bands. One of the main challenges of working at high frequencies of this generation is path loss that needs to be addressed. To overcome this issue, a high gain antenna with a small size is required. Consequently, the first major question arises: how to effectively increase the gain and efficiency of the antenna at a high frequency with a small size. Importantly, it is vital to transport as much as data is possible without any sensitivity to the alignment of the transmitter or receiver antenna that can be satisfied by using circularly polarized (CP) radiating waves. Thus, the second research question emerges: how to provide high gain small size antenna with CP at high frequencies. To address the first two major research questions in this thesis we designed a miniature dual-band CP antenna that works at 28 GHz and 38 GHz with high gain. This antenna can be implemented in mobile devices, unmanned aerial vehicles (UAVs), and base stations (BSs) because of the small sizes of 11 × 14 × 0.508 mm3. For getting a deep insight into the structure and the design procedures of the dual-band antenna, characteristic mode analysis (CMA) is employed. Note that the CMA is not sensitive to the feeding position and the material in this analysis is not lossy. Therefore, after using CMA, the optimization is conducted in the full-wave simulation as the feeding is added to the structure, and the material is lossy. The single CP antenna covered the bands of 27-28.4 GHz and 34.7-40 GHz, with a maximum gain of 6.3 dBiC and 5.51 dBiC at 28 GHz and 38 GHz, respectively, whereas the radiation efficiency is 94% and 96% with the ARBW of 2.5% and 1.5%. A phased antenna array is then constructed to provide a higher gain for this designed dual-band antenna. In a phased antenna array we consider four designed single element antennas close to each other to create a 2 × 2 antenna array with high gain at 28 GHz and 38 GHz. For a 4 × 4 antenna array, an electromagnetic band-gap (EBG) is used to reduce the mutual coupling between elements in the array. The radiating signals will be sent to different users with circular polarization via electronic beamforming. The position of each antenna element is also optimized to provide the constructive radiating wave towards our desired directions. The array was able to steer the beam between -26.5 to 29.5 degrees for the lower band and -29.5 to 35.5 degrees for the higher band with the maximum gain of 12.8 dBiC and 11.5 dBiC, respectively. Another method to enhance the gain is implementing a lens structure in front of the radiating antenna. Here, a significant challenge is to maintain the CP of the incoming CP wave while the gain is increased. Therefore, the third research question is how to design a lens with the capability of enhancing the gain and keeping the CP when the lens is fed by a CP antenna source. Concerning the third major research question, in this thesis, we designed a CP lens structure. First, a multi-layer lens with a thickness of 2.03 mm was designed, and then a one-layer lens structure with a thickness of just 0.508 mm was made. The lens was located in front of different radiating antennas. These lens structures resulted in significant gain enhancement for various feeding antennas working at 28 GHz. The unit cell of the one-layer lens can provide a broad phase shift compared to the multi-layer counterpart. The proposed lens structures not only increased the gain of the incoming CP wave but also kept its polarization to overcome the issues of reflectivity, absorption, inclement weather, and mis 16
Publication Contributions to the theory and development of low-jitter bang-bang integrated frequency synthesizers ( University College Dublin. School of Electrical and Electronic Engineering, 2022 ) Avallone, Luca The advent of next-generation wireless standards demands ever-increasing data-rate communication systems. It mainly involves a higher carrier frequency to take advantage of wider bandwidth channels and more complex modulation schemes to pack more information into each symbol. In this context, the bottleneck is represented by the frequency synthesizer used to generate the local oscillator signal for the transceiver, which has to operate under stringent low output jitter requirements. Such performance must be provided at low power dissipation and area consumption in order to meet the requirements of low-cost and high integration level of the modern communication systems. The digital phase locked loop architecture can meet the required jitter performance while synthesizing fractional-N frequencies. Such PLLs offer significant advantages over their traditional analog counterpart in terms of area occupation, flexibility and scalability in advanced deep sub-µm CMOS technologies. The digital PLL topology based on a bang-bang phase detector, denoted bang-bang PLL, which is a single bit digital phase detector, leads to a less complex and more power-efficient architecture, but, on the other hand, it also introduces a hard nonlinearity in the loop, making the analysis of the bang-bang topology more challenging than in the multi-bit case. A comprehensive phase noise analysis of bang-bang digital PLLs is presented which overcomes the limitations of previous models and it is valid in all cases where physical noise sources (i.e. reference and DCO) are dominant with respect to quantization errors. In particular, (i) input-referred jitter is estimated by means of a linear time-domain analysis derived from a nonlinear DPLL model, and (ii) phase noise spectra are predicted using a discrete-time domain model that accounts for time-variant effects that arise from the intrinsic multirate nature of the DPLL. The possibility of accurately determining the DPLL jitter and phase noise spectra, enabled by the novel analysis presented in this thesis, is key to significantly speeding up the design-space exploration phase, since it allows one to perform quick and precise parametric sweeps. However, even when designed properly, bang-bang PLLs are affected by the unavoidable bang-bang phase detector quantization noise, which is added on top of the intrinsic reference and DCO phase noise. The quantization noise can be appreciated in the PLL's output spectrum as increased in band noise with respect to the analog counterpart, that, in fact, still achieves superior performance in terms of jitter-power. This results in worse integrated jitter performance for the same intrinsic levels of reference and oscillator phase noise. To overcome the binary phase detector quantization noise in DPLLs, state-of-the-art works rely on a multi-bit time-to-digital converter to digitize the PLL phase error with a physical resolution below the input jitter, leading to increased design complexity, with an associated area and power penalty. In order to overcome the ultimate limit of the bang-bang PLL, a digital PLL based on a bang-bang phase detector with adaptively optimized noise shaping has been fabricated in a 28nm CMOS process. The prototype occupies a core area of 0.21 mm2 and draws 10.8 mW power from a 0.9 V supply. The integrated jitter is 69.52 fs and 80.72 fs for the integer-N and the fractional-N case, respectively. Achieving a jitter-power figure-of-merit of -251.5 dB in fractional-N mode, the proposed system effectively bridges the gap to analog implementations. The first chapter of this work is introductory, and is intended to give some background information needed to underpin the remaining part of the thesis. The following chapters, 2, 3 and 4, collect the results achieved during the PhD activity, and each of them is associated with a publication. In the last chapter, conclusions are drawn and the open points are discussed in order to be considered for future work. 222
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Undergraduate thesis

Undergraduate Thesis

UNSW Engineering students are required to complete an undergraduate thesis project during the 4th year of their study. Students can choose from a variety of projects, with research and industry thesis options available. The standard thesis is 4 UoC (Unit of Credit) per term starting T1, T2 or T3.

You’ll enrol Thesis A, Thesis B and Thesis C and complete the thesis across three consecutive terms. Once Thesis A is taken, Thesis B and Thesis C must be taken consecutively in the two terms that follow.

Your school may also offer the option to complete a practice thesis. You’ll enrol in Thesis A and Thesis B, each worth 6 UoC over two consecutive terms.

For further information or questions, please contact your Undergraduate Thesis Coordinator .

All undergraduate students enrolled in the dual degree with Biomedical Engineering (regardless of undergraduate major), must enrol in 12 UoC of thesis courses with the Graduate School of Biomedical Engineering.

Students will complete their thesis over three terms (4+4+4) or over two terms (4+8). A summary of the assessment is as follows:

BIOM4951 Thesis A : It is intended that Thesis A cover the scoping, planning, and completing preparations for the project.

BIOM4952 Thesis B : The primary intention behind Thesis B is to ensure students stay on track with their projects and project work as they progress through the year.

BIOM4953 Thesis C : Thesis C continues the project work. The key deliverable is the Written Report, alongside a poster presentation.

Before commencing Thesis A

You must nominate 3 different supervisors to work with.

Please follow the below instructions in order to view the projects available and to find a supervisor.

The instructions to view the projects are as follows:

You must complete this process and have a project allocated BEFORE starting BIOM4951. If you are planning on doing a project with industry, this requires an industry supervisor and a supervisor from GSBmE. Please contact me [email protected] .

Go the Moodle course Selection of Biomedical Thesis Project
Self-enrol as a student using the key Student50
The projects are listed under Thesis Database
Contact the supervisor directly if you have any questions
When ready, follow the instructions on the Moodle page for nominating your three supervisors. Project selection opens midway through the previous term (e.g. for Thesis commencing in T2, selection opens in Week 6 of T1). Selection closes on the last day of exams of previous term.

Undergraduate students are required to complete at least 12 UOC of thesis courses. The table below shows the default Thesis course sequence for your stream and any additional options you may have. The following sections provide more information about each of these sequences.

Research thesis (CEIC4951/2/3)

Research thesis consists of three courses worth 4 units of credit each – CEIC4951 Research thesis A, CEIC4952 Research Thesis B & CEIC4953 Research Thesis C. Undergraduate students may commence Research Thesis once they have completed at least 126 UOC from a School of Chemical Engineering discipline stream and their 3rd year core.

You must identify a supervisor and project prior to commencing CEIC4951. To find out more about Research Thesis courses, the projects available and how to find a supervisor, please join the Research Thesis Projects page on Moodle (enrolment key co3shyh).

These courses are normally taken over three consecutive terms. However, students that make excellent progress in Thesis A, may be allowed to take Thesis B and Thesis C in the same term.
High performing students may be permitted to take CEIC9005 (or CEIC4005) in lieu of their regular Research Thesis courses. Contact the course coordinator for more information.

Product Design Project Thesis (CEIC4007/8)

Product Design Project Thesis consists of two courses both worth 6 UOC – CEIC4007 Product Design Project Thesis A and CEIC4008 Product Design Project Thesis B. Undergraduate students may commence Research Thesis once they have completed at least 126 UOC from a School of Chemical Engineering discipline stream. CEIC6711 Complex Fluids Microstructure and Rheology is a co-requisite course.

You do not need to secure a supervisor before commencing Product Design Project Thesis A.

Research Thesis Extension (CEIC4954)

Research Thesis Extension ( CEIC4954 ) aims to provide you with an opportunity to go extend your thesis project by exploring your research problem in more breath &/or depth. The work you do in this course builds on the work completed in CEIC4951, CEIC4952 and CEIC4953. This course is especially relevant for undergraduate students considering a research career in fields related to chemical engineering and food science. The activities in this course are designed to introduce you to the ways in which research is practiced and communicated in a higher degree environment.

CEIC4954 is considered a practice elective in the Chemical Engineering stream (CEICAH) and a discipline elective in all other streams.

Students enrolled in an undergraduate degree within the School of Civil and Environmental Engineering need to complete a thesis as part of their program. Students have the option of taking one of the following course combinations to complete their thesis requirement:

CVEN4951 / 4952 / 4953 (Research Thesis A/B/C)

Students must complete the Thesis Application Form to be registered for the course. This combination of courses are worth 12UOC in total, and will take 3 terms to complete (or 2 with prior approval from the supervisor). A minimum WAM of 70 is required for entry.

CVEN4961 / 4962 / 4963 (Higher Honours Thesis A/B/C)

Students must complete the Thesis Application Form to be registered for the course. This combination of courses are worth worth 24UOC in total and requires students to have a minimum WAM of 80.

Note: If you choose to undertake the Research Thesis option (CVEN4951/4952/4953 or CVEN4961/4962/4963) you must also complete CVEN4701 prior to finishing your studies.

CVEN4050 / 4051 (Thesis A/B)

Students are able to enrol themselves into this course directly via myUNSW, it has no minimum WAM requirement, and does not require students to find a supervisor.

If you would like to register for Research Thesis subjects in Summer, you must first obtain approval from your supervisor prior to Summer enrolment. Please check the course notes for more information.

Thesis Submissions

As of Summer 2024, students will need to submit their Thesis submissions via Moodle instead of the School’s intranet.

For the list of topics and available supervisors, you can visit: Find a Supervisor or Project

UNSW Bachelor of Computer Science (Honours) and Bachelor of Engineering (Honours) students can find a guide to getting started with Thesis A on the  CSE Thesis Topics Moodle site . Use cse-44747437 to enter the site as a student.

On this site, you will find the Thesis Topic Database. You can look through the topics or visit the academic supervisors' profile pages to find a topic you would like to work on. Once you have chosen your topic(s), you will then need to contact the relevant Supervisor for confirmation.

On this site, you can also find the course outlines of Thesis A, Thesis B and Thesis C, and the detailed instructions about finding a supervisor.

Final year students in Mechanical Engineering and Postgraduate coursework students are required to undertake a three-term, year long project. These projects are usually open-ended research or design projects, where the student works with an academic supervisor to find an answer to an engineering question. Students are required to manage and plan their projects over the three terms. The Thesis course can be started in any term and is generally completed in the final three terms of the degree.

If taking a Research Thesis (individual project), enrol in Research Thesis A (MMAN4951) , Research Thesis B (MMAN4952) and Research Thesis C (MMAN4953) .

For Research thesis, you will first need to find a supervisor and get their approval. An approved application is required to undertake Research and to gain permission to enrol. The deadline to enrol in MMAN4951/MMAN9451 is Friday Week 1, but get in early to get the project and supervisor you want.

For information on available projects and the enrolment process, please see our Sharepoint site , or contact Professor Tracie Barber .

If you’re an Electrical Engineering student and planning to take Thesis course, you will need to find a supervisor and get their approval prior to enrolling to the course. The deadline to find a supervisor and enrol into the course is Friday week 1. Please follow the procedure below to look for potential supervisors, their topics and enrol into the course

Go to: https://moodle.telt.unsw.edu.au/course/view.php?id=20890
Enrol yourself as student using the enrolment key: EETTPstudent
Login to Moodle course: 'EET School Thesis/Project'
View research profiles of prospective supervisors and topics in 'Research Topics' section.
Contact potential supervisor to discuss the possibility of working with them.. You must get their written permission to sign up on a topic before you can proceed to next step.
a. Go to ‘Select Supervisor’, find the supervisor and click action box to become a member
b. Go to ‘Register Topic,’ ‘Add Entry’ and enter your details and topic title.
Enrol into Thesis course on myUNSW.

Research Thesis

Research Thesis is a compulsory pathway in the Mining Engineering (Hons) degree, Engineering (Hons) – Petroleum Engineering [Main Stream], and an optional pathway for high WAM students doing Petroleum Engineering. This thesis allows a student to work closely with a particular supervisor, learn particular skills – like programming or laboratory work, conduct research and write up their findings. To take this stream, you will need to first enrol in MERE4951 Research Thesis A.

MERE4951 Research Thesis A

In this course you will be required to find a supervisor and topic to work on. You can find a list of our research strengths here:

https://www.unsw.edu.au/engineering//our-schools/minerals-and-energy-resources-engineering/our-research

You can also find an individual academic and ask them about topics that they work on. Academics from our school are available here:

https://www.unsw.edu.au/engineering/ourschools/minerals-and-energy-resources-engineering/about-us/our-people

Once you enrol, make sure you have access to the Microsoft Team (the link is on the Moodle page), which is filled with information and has active forums for asking questions:

MERE4952 & MERE9453 Research Thesis B & C

These two units (4UoC each) can be taken in the same term or separately. Thesis B involves submitting a video/audio reflection of the work so far and an interim report. Thesis C involves writing your thesis and recording and submitting a scientific presentation of your results./engineering/our-schools/minerals-and-energy-resources-engineering/our-researchengineering/our-schools/minerals-and-energy-resources-engineering/our-research

All undergrad thesis sudents can find a list of thesis topics will posted on the Thesis A Moodle site . The student key to access the site will be sent out by the thesis co-ordinator to all students who will be taking thesis the following term. You should review the list and discuss the topics with the relevant supervisor to get an idea of what it entails.

Once both the supervisor and student have agreed on the topic, a Thesis Nomination Form should be completed. This is submitted to the Thesis Coordinator and uploaded to the SOLA 4951 Moodle site prior to the student commencing work on their topic. All students must have chosen a supervisor by 9am Monday week 1 of term.

You can develop your own thesis topic, if you can find a supervisor from within the School. This will require you to attach a one page description of the thesis topic and signed by the supervisor to the Thesis Nomination Form.

The School also encourages students who wish to do an industry-led thesis topic. In this case the mentor from industry would be the student’s co-supervisor, however an academic staff member from the School must act as the supervisor of the thesis.

For an industry-led thesis, you must obtain approval from an academic of the School to supervise the topic. You should submit a signed letter from the industry representative and academic supervisor with a brief outline of the project with a Thesis Nomination Form.

All information needed for the deliverables of thesis A can be found in the course outline which is available on the SOLA4951 Moodle site.

Undergraduate Thesis FAQs

The Engineering thesis will be taken for the duration of three terms - as Thesis A, Thesis B and Thesis C.

Each course will carry 4 Units of Credit (UoC) for a total of 12 UoC. The total UoC requirement remains unchanged from current.

Students will have two options to take Thesis from 2019:

Option 1 - Standard: (4 UoC per term starting T1, T2 or T3) : Students enrol in Thesis A, Thesis B and thesis C and complete the Thesis across three consecutive terms. Total of 12 UoC. Note than once Thesis A is taken, Thesis B and Thesis C must be taken consecutively in the two terms that follow.
Option 2: (4+8: 4 UoC in one term and 8 UoC in the following term) : Students who demonstrate satisfactory progress in Thesis A may apply to their School to take a 4+8 UoC structure where both Thesis B and C are taken in the next single term of that year. Total of 12 UoC. This option is subject to having demonstrated satisfactory progress in Thesis A.

Students who do not maintain satisfactory performance in Option 2 will revert to Option 1 and take Thesis across three terms.

Thesis A, Thesis B and Thesis C will run in every term (T1, T2 and T3).

Yes, it’s possible to start your thesis in any term, however once Thesis A is taken, Thesis B and Thesis C must be completed in each term consecutively afterward.

Depending on the thesis course you take, your topic may be provided to you or you will need to develop one.

If you need to develop one, most schools have a website that lists available topics and the staff willing to supervise those topics. You may wish to select a topic based on areas of engineering interest, extracurricular interests (such as the  ChallENG Projects ), or preference for working with a particular academic in your field.  You can even come up with your own in consultation with your thesis supervisor. Take a look!

The process is different for each school, so review the information above.

If you still have questions, contact your school’s postgraduate thesis coordinator .

Doing thesis in industry is a great opportunity and worth pursuing. Some students are able to arrange a thesis project that follows on from an industrial training placement.

Students wanting to take an industry-based project still need to take the Research Thesis courses for their specialisation. You need to arrange a UNSW academic as a co-supervisor and apply for permission to take thesis offsite.

Please check with your school’s Undergraduate Thesis Coordinator for further details.

Yes, there are a number of Humanitarian Engineering Thesis Supervisors within UNSW Engineering who can potentially supervise a thesis.

Students who demonstrate satisfactory progress in Thesis A may apply to their School to take a 4+8 UoC structure where both Thesis B and C are taken in the next single term of that year.

The 4+8 UoC option is intended for high performing students to finish their thesis project in two terms. Students enrolled in this structure will take Thesis A in the first term and then, provided that satisfactory progress has been reached, will take Thesis B and C in the term following Thesis A.

Yes. In addition to the Thesis, you can enrol in up to two additional courses per term. You should enrol in these courses when annual enrolment opens. Overloading is possible but will require program authority approval.

If progress is deemed as unsatisfactory at the end of Thesis A, the student will move to the default Thesis option: Thesis A, B and C (4 UoC).

Yes, you’ll still be able to enrol in up to two additional courses. Given the increased workload of having to do Thesis B and C together, two courses per term would be the maximum recommended by the Faculty.

An enrolment continued (EC) grade will appear against your Thesis A/Thesis B subjects until you’ve completed your thesis. At this time your final grade will appear against your Thesis C. Around a week after you have received your final mark, a roll back process will be run so that the EC grades previously against Thesis A and Thesis B will be updated to reflect your overall Thesis mark.

Information on honours calculations are available on the  Bachelor of Engineering (Honours) program rules page.

It’s possible to take leave and then continue your thesis on your return. Talk to your supervisor about your situation and the dates involved so that you can work out a suitable plan together.

Most schools have a Moodle, intranet, or web page with detailed information about their thesis program. That should be your next port of call – check your school’s section above for access instructions.

Schools often run information sessions during the year. These will be advertised via email, on social media and/or during class. Keep an eye out for these events.

If you have questions related to enrolment or progression, contact the Nucleus .

Finally, each school has an Undergraduate Thesis Coordinator who can answer specific questions related to your personal circumstances.

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Electrical & Computer Engineering Theses & Dissertations

Theses and dissertations published by graduate students in the Department of Electrical and Computer 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

Dissertation: An Advanced Simulation Architecture for Testing Autonomous and Connected Vehicles Enabled by Virtual Reality , Defu Cui

Thesis: OpenSim-Based Musculoskeletal Modeling: Foundation for Interactive Obstetric Simulator , Bahador Dodge

Dissertation: Framework for Implementing Advanced Radar Plotting Aid Capability for Small Maritime Vessels , Jason Stark Harris

Thesis: Generation Of Plasma with a Rotating Electric Field , Franklin Price Mosely

Dissertation: Deep-Learning-Based Classification of Digitally Modulated Signals , John A. Snoap

Dissertation: Wearable Sensor Gait Analysis for Fall Detection Using Deep Learning Methods , Haben Girmay Yhdego

Dissertation: Towards a Robust Defense: A Multifaceted Approach to the Detection and Mitigation of Neural Backdoor Attacks through Feature Space Exploration and Analysis , Liuwan Zhu

Theses/Dissertations from 2022 2022

Dissertation: A Preventive Medicine Framework for Wearable Abiotic Glucose Detection System , Saikat Banerjee

Dissertation: Development of High Quantum Efficiency Strained Superlattice Spin Polarized Photocathodes Via Metal Organic Chemical Vapor Deposition , Benjamin Belfore

Dissertation: Optimization of 8-Plate Multi-Resonant Coupling Structure Using Class-E 2 Based Capacitive-Wireless Power Transfer System , Yashwanth C. Bezawada

Dissertation: Detection, Tracking, and Classification of Aircraft and Birds from Multirotor Small Unmanned Aircraft Systems , Chester Valentine Dolph

Thesis: Emotion Detection Using an Ensemble Model Trained with Physiological Signals and Inferred Arousal-Valence States , Matthew Nathanael Gray

Thesis: Fabrication of NMOS Logic Gates , Samantha Hahn

Dissertation: Cyber Resilience Analytics For Cyber-Physical Systems , Md Ariful Haque

Thesis: Integrative Physiology-Coupled Pilot-Centered Flight Simulation , Shawn C. Harrison

Thesis: Frequency Agile OFDM System for Radio Communication in High Frequency Bands , Erin E. Hill

Dissertation: Applied Deep Learning: Case Studies in Computer Vision and Natural Language Processing , Md Reshad Ul Hoque

Dissertation: Development and Validation of a Three-Dimensional Optical Imaging System for Chest Wall Deformity Measurement , Nahom Kidane

Thesis: Machine Learning Classification of Digitally Modulated Signals , James A. Latshaw

Dissertation: E-Beam Irradiation Beamline at Jefferson Lab for Wastewater Treatment , Xi Li

Thesis: Chen-Fliess Series for Linear Distributed Systems , Natalie T. Pham

Dissertation: Recrystallization of Cu(In,Ga)Se 2 Semiconductor Thin Films Via Metal Halides Treatment , Deewakar Poudel

Dissertation: Fabrication of Nb 3 Sn by Magnetron Sputtering for Superconducting Radiofrequency Application , Md Nizam Sayeed

Thesis: Development of a Fuzzy Logic Model-Less Aircraft Controller , Christopher M. Scott

Thesis: Design and Analysis of Electrical Power and Communication Systems for 3U SeaLion CubeSat Mission , Joseph D. Siciliano

Theses/Dissertations from 2021 2021

Dissertation: Enhancing Thermal Stability of Perovskite Solar Cells with a Polymer Through Grain Boundary Passivation , Tanzila Tasnim Ava

Dissertation: Specification, Control, and Applications of Z-Source Circuit Breakers for the Protection of DC Power Networks , Sagar Bhatta

Dissertation: Protection and Disturbance Mitigation of Next Generation Shipboard Power Systems , Marounfa Djibo

Dissertation: Wiener-Fliess Composition of Formal Power Series: Additive Static Feedback and Shuffle Rational Series , Subbarao Venkatesh Guggilam

Dissertation: Deep Learning Approaches for Seagrass Detection in Multispectral Imagery , Kazi Aminul Islam

Thesis: Security Improvements for the Automatic Identification System , Robert E. Litts

Dissertation: Electrostatic Design and Characterization of a 200 keV Photogun and Wien Spin Rotator , Gabriel G. Palacios Serrano

Dissertation: Commissioning & Characterization of Magnetized Gridded Thermionic Electron Source , Mark Stefani

Dissertation: Towards Characterizing Adversarial Opportunity and Behavior in Critical Infrastructure Network , Md Sharif Ullah

Dissertation: Joint Linear and Nonlinear Computation with Data Encryption for Efficient Privacy-Preserving Deep Learning , Qiao Zhang

Theses/Dissertations from 2020 2020

Thesis: Deposition and Characterization of Indium Nitride and Aluminum Nitride Thin Films by Reactive Sputtering , Sushma Swaraj Atluri

Dissertation: A Novel Non-Enzymatic Glucose Biofuel Cell with Mobile Glucose Sensing , Ankit Baingane

Thesis: Hardware Development for the Generation of Large-Volume High Pressure Plasma By Spatiotemporal Control of Space Charge , Nikhil Boothpur

Dissertation: Secure Mobile Computing by Using Convolutional and Capsule Deep Neural Networks , Rui Ning

Dissertation: Topology Control, Scheduling, and Spectrum Sensing in 5G Networks , Prosanta Paul

Dissertation: Longitudinal Brain Tumor Tracking, Tumor Grading, and Patient Survival Prediction Using MRI , Linmin Pei

Dissertation: Model-Based Approach for Diffuse Glioma Classification, Grading, and Patient Survival Prediction , Zeina A. Shboul

Dissertation: Diagnostic Studies of Non-Thermal Atmospheric Pressure Nanosecond Plasma Jets , Shutong Song

Thesis: Highly Transmissive Scalable Colored Coatings for Architectural Photovoltaic Panels , Akbar Ali Syed

Dissertation: Deep Cellular Recurrent Neural Architecture for Efficient Multidimensional Time-Series Data Processing , Lasitha S. Vidyaratne

Dissertation: Virtual SATCOM, Long Range Broadband Digital Communications , Dennis George Watson

Dissertation: Comprehensive Designs of Innovate Secure Hardware Devices against Machine Learning Attacks and Power Analysis Attacks , Yiming Wen

Theses/Dissertations from 2019 2019

Thesis: Pulse Power Effects on Transient Plasma Ignition for Combustion , David Wayne Alderman II

Thesis: Demonstration of Visible and Near Infrared Raman Spectrometers and Improved Matched Filter Model for Analysis of Combined Raman Signals , Alexander Matthew Atkinson

Dissertation: Laser-Spark Multicharged Ion Implantation System ‒ Application in Ion Implantation and Neural Deposition of Carbon in Nickel (111) , Oguzhan Balki

Thesis: Radio Frequency Toolbox for Drone Detection and Classification , Abdulkabir Bello

Thesis: Computational Analysis of Antipode Algorithms for the Output Feedback Hopf Algebra , Lance Berlin

Thesis: Solid State Polyaniline Supercapacitors Based on Electrodes Fabricated with Electropolymerization , Jonathan R. Blincoe

Thesis: Design, Implementation, and Analysis of Electrical System Architecture for CubeSat to Ground Communications , Anthony G. Cappiello

Thesis: A Design of Inductive Coupling Wireless Power Transfer System for Electric Vehicle Applications , Sarika Reddy Daida

Dissertation: A Multi-Agent Systems Approach for Analysis of Stepping Stone Attacks , Marco Antonio Gamarra

Dissertation: Using Feature Extraction From Deep Convolutional Neural Networks for Pathological Image Analysis and Its Visual Interpretability , Wei-Wen Hsu

Dissertation: Enhanced Sensing Performance of Novel Nanostructured ZnO Gas Sensors in Ethanol Vapor Concentration Detection Applications , Pengtao Lin

Dissertation: Performance of Cognitive Radio Networks with Unknown Dynamic Primary User Signals , Sara L. MacDonald

Dissertation: Effect of Grain Size and Interface Engineering on the Photovoltaic Performance and Stability of Perovskite Solar Cells , Abdullah Al Mamun

Dissertation: A Laser Ion Source for Thin Film Deposition: Characterization of Source and Growth Conditions , Md Mahmudur Rahman

Thesis: Cyber Security- A New Secured Password Generation Algorithm with Graphical Authentication and Alphanumeric Passwords Along With Encryption , Akash Rao

Dissertation: MIMO Radar Waveform Design and Sparse Reconstruction for Extended Target Detection in Clutter , Christopher Alan Rogers

Dissertation: On Analytic Nonlinear Input-output Systems: Expanded Global Convergence and System Interconnections , Irina M. Winter Arboleda

Theses/Dissertations from 2018 2018

Dissertation: Deep Recurrent Learning for Efficient Image Recognition Using Small Data , Mahbubul Alam

Thesis: Characterization of Language Cortex Activity During Speech Production and Perception , Hassan Baker

Dissertation: Coexistence and Secure Communication in Wireless Networks , Saygin Bakşi

Thesis: Model-Less Fuzzy Logic Control for the NASA Modeling and Control for Agile Aircraft Development Program , Keith A. Benjamin

Thesis: Non-Destructive Evaluation for Composite Material , Desalegn Temesgen Delelegn

Thesis: Improved Thermal Stability of Cesium-Doped Perovskite Films With PMMA for Solar Cell Application , Christine M. Gausin

Thesis: A Dual Resonant Transformer and a Dielectric Antenna for Picosecond Pulse Radiation , Khiem Huynh

Thesis: A Novel Power Sharing Control Method for Distributed Generators in DC Networks , Christina James

Thesis: IDPAL - Input Decoupled Partially Adiabatic Logic: Implementation and Examination , Kevin A. Johnson

Thesis: New Method of Nickel Oxide as Hole Transport Layer and Characteristics of Nickel Oxide Based Perovskite Solar Cell , Loi Nguyen

Dissertation: Non-Invasive Picosecond Pulse System for Electrostimulation , Ross Aaron Petrella

Dissertation: Optimization of Top Contact for Cu(In,Ga)Se2 Solar Cells , Grace Cherukara Rajan

Dissertation: Generation of Large-Volume Diffuse Plasma by an External Ionization Wave From a Single-Electrode Plasma Jet , Seyed Hamid Razavi Barzoki

Dissertation: 3D Bioprinting Systems for the Study of Mammary Development and Tumorigenesis , John Reid

Dissertation: Development of a Laser-Spark Multicharged Ion System – Application in Shallow Implantation of Sic by Boron and Barium , Md. Haider Ali Shaim

Thesis: Learn-To-Fly Control System Design , Alexander Brent Streit

Theses/Dissertations from 2017 2017

Thesis: Diffusion Modeling of Impurities Through the Molybdenum Back Contact of CIGS Solar Cells , Chinedum John Akwari

Dissertation: Study of Modified Deposition Process for Cu(In,Ga)Se2 Solar Cell Back Contact , Tasnuva Ashrafee

Thesis: Virtual Substrate Synthesis for Low-Cost High Efficiency III-V , Sean J. Babcock

Dissertation: Speech Based Machine Learning Models for Emotional State Recognition and PTSD Detection , Debrup Banerjee

Thesis: Study of a High-Efficient Wide-Bandgap DC-DC Power Converter for Solar Power Integration , Yashwanth Bezawada

Thesis: Modification of Deposition Process Parameters for Uniform Indium Layer Deposition , Isaac Butt

Dissertation: Enhancement of Thermoelectric Properties of ALD Synthesized PbTe and PbSe by Phonon Engineering , Xin Chen

Thesis: A Correlational Study of SansEC Sensors’ Electric Field Distribution on Lightning Attachment , Kayla M. Farrow

Thesis: Recurrent Neural Networks and Matrix Methods for Cognitive Radio Spectrum Prediction and Security , Alexander M. Glandon

Thesis: A Study of the Sensitivity of Energy Conversion Efficiency to Load Variation in Class-E Resonant Power Inverter , Richard Samuel Jennings

Thesis: Investigation of Low Cost Substrate Approaches for III-V Solar Cells , Marlene Lydia Lichty

Thesis: Deposition of Silicon Thin Films by Ion Beam Assisted Deposition , Tejaswini Miryala

Dissertation: Low Temperature Plasma for the Treatment of Epithelial Cancer Cells , Soheila Mohades

Dissertation: The Efficacy of Programming Energy Controlled Switching in Resistive Random Access Memory (RRAM) , David Malien Nminibapiel

Dissertation: Computational Modeling for Abnormal Brain Tissue Segmentation, Brain Tumor Tracking, and Grading , Syed Mohammad Shamin Reza

Theses/Dissertations from 2016 2016

Thesis: Microbubble Generation By Piezoelectric Transducers For Biomedical Studies , Mohammed Alkhazal

Thesis: Carbon and Boron Nitride Nanotube Fabricated Supercapacitors , Derek Christian Demuth

Dissertation: Simulation, Measurement, and Emulation of Photovoltaic Modules Using High Frequency and High Power Density Power Electronic Circuits , Yunas Erkaya

Thesis: Analysis and Implementation of Communications Systems for Small Satellite Missions , Jason S. Harris

Thesis: IDPAL - Input Decoupled Partially Adiabatic Logic Family: Theory and Implementation of Side-Channel Attack Resistant Circuits , Matthew Edward McAllister

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Electrical Engineering Theses and Dissertations

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Electrical Engineering Theses and Dissertations

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