2024
Design of Spacecraft Thermal Control System
Devsign of thermal control system for the SPOT satellite, optimizing radiator sizing for thermal rejection and heater power for 60-70% duty cycles. The system ensures equipment temperatures remain between -10°C and 25°C under extreme space conditions, based on satellite life and orbit analysis.
Design of Spacecraft Thermal Control System
Devsign of thermal control system for the SPOT satellite, optimizing radiator sizing for thermal rejection and heater power for 60-70% duty cycles. The system ensures equipment temperatures remain between -10°C and 25°C under extreme space conditions, based on satellite life and orbit analysis.
Optimized BJT Low Noise Amplifier Design
Optimized BJT Low Noise Amplifier design achieving significant gain and noise figure improvements at 5 GHz. Performance evaluation includes input/output matching and overall efficiency at specified frequency.
Optimized BJT Low Noise Amplifier Design
Optimized BJT Low Noise Amplifier design achieving significant gain and noise figure improvements at 5 GHz. Performance evaluation includes input/output matching and overall efficiency at specified frequency.
Space Radiation Effects on MATS Satellite Imaging Systems
Investigation of radiation-induced Single Event Upsets (SEUs) in MATS satellite CCD imagery through anomaly detection and correlation with SPENVIS particle flux models, enabling better understanding of space radiation effects on imaging sensors.
Space Radiation Effects on MATS Satellite Imaging Systems
Investigation of radiation-induced Single Event Upsets (SEUs) in MATS satellite CCD imagery through anomaly detection and correlation with SPENVIS particle flux models, enabling better understanding of space radiation effects on imaging sensors.
Orbital Analysis of MATS Satellite
Evaluation of pass durations, solar angle variations, eclipse events, and geomagnetic storm effects for the MATS satellite using TLE propagation. Simulation to estimate the number of Starlink satellites in line-of-sight visibility.
Orbital Analysis of MATS Satellite
Evaluation of pass durations, solar angle variations, eclipse events, and geomagnetic storm effects for the MATS satellite using TLE propagation. Simulation to estimate the number of Starlink satellites in line-of-sight visibility.
Design and Validation of a Half-Width Microstrip Leaky-Wave Antenna
Design and validation of a half-width microstrip leaky-wave antenna at 5 GHz, assessing radiation performance and impedance matching. Measurement and analysis of directivity, beamwidth, and bandwidth characteristics.
Design and Validation of a Half-Width Microstrip Leaky-Wave Antenna
Design and validation of a half-width microstrip leaky-wave antenna at 5 GHz, assessing radiation performance and impedance matching. Measurement and analysis of directivity, beamwidth, and bandwidth characteristics.
2023
Optimal Orbit Transfer of Spacecraft under Constant Thrust
Developed a code using pseudo-spectral methods for optimal spacecraft orbit transfer. Applied advanced discretization techniques to optimize fuel efficiency, minimize flight time, and meet mission-specific constraints.
Optimal Orbit Transfer of Spacecraft under Constant Thrust
Developed a code using pseudo-spectral methods for optimal spacecraft orbit transfer. Applied advanced discretization techniques to optimize fuel efficiency, minimize flight time, and meet mission-specific constraints.
Design of Supersonic Aircraft
Design and analysis of a transatlantic aircraft, focusing on mission specifications, powerplant data, and historical performance. Estimation of aircraft weight, powerplant selection, and constraints such as thrust-loading, wing loading, and take-off distance, followed by detailed designs of the wing, fuselage, tail, and engine.
Design of Supersonic Aircraft
Design and analysis of a transatlantic aircraft, focusing on mission specifications, powerplant data, and historical performance. Estimation of aircraft weight, powerplant selection, and constraints such as thrust-loading, wing loading, and take-off distance, followed by detailed designs of the wing, fuselage, tail, and engine.
Attitude Control of Bias-Momentum Geosynchronous Spacecraft
Study of bias-momentum geosynchronous spacecraft control for precise attitude control for ground station pointing under orbital deviations. Simulation of SSP perturbations, derivation of guidance commands, and roll-actuated control with pulse-width pulse-frequency modulated thruster activation.
Attitude Control of Bias-Momentum Geosynchronous Spacecraft
Study of bias-momentum geosynchronous spacecraft control for precise attitude control for ground station pointing under orbital deviations. Simulation of SSP perturbations, derivation of guidance commands, and roll-actuated control with pulse-width pulse-frequency modulated thruster activation.
Analysis of Modulation Trade-offs, Synchronization, and Phase Correction
Evaluation of inter-symbol interference, bandwidth trade-offs, and pulse characteristics in QPSK modulation using root-raised cosine shaping. Analysis of signal synchronization and phase correction based on pilot signal performance in time-varying channels.
Analysis of Modulation Trade-offs, Synchronization, and Phase Correction
Evaluation of inter-symbol interference, bandwidth trade-offs, and pulse characteristics in QPSK modulation using root-raised cosine shaping. Analysis of signal synchronization and phase correction based on pilot signal performance in time-varying channels.
Data-Driven Compression of Multi-Channel Images
Comparing data-driven methods (SVD, FFT, AE, CNN-AE, CNN-HAE) for constructing low-order representations of multi-channel images, optimizing compression efficiency and reconstruction quality, while evaluating compression compactness, accuracy, and orthogonality.
Data-Driven Compression of Multi-Channel Images
Comparing data-driven methods (SVD, FFT, AE, CNN-AE, CNN-HAE) for constructing low-order representations of multi-channel images, optimizing compression efficiency and reconstruction quality, while evaluating compression compactness, accuracy, and orthogonality.
2022
Sandbox Simulation of The Evolution of Trust
A Python implementation of the iterated prisoner's dilemma, inspired by the online game 'Evolution of Trust' by Nick Case, focusing on modeling interactions, strategies, and trust dynamics through object-oriented design.
Sandbox Simulation of The Evolution of Trust
A Python implementation of the iterated prisoner's dilemma, inspired by the online game 'Evolution of Trust' by Nick Case, focusing on modeling interactions, strategies, and trust dynamics through object-oriented design.
Design of Production System Operations through Systems Engineering
Systems Architecture design to optimize production operations, including stakeholder analysis and development of key performance metrics. MBSE implementation to create logical system architecture, enhancing subsystem integration and reducing lifecycle costs.
Design of Production System Operations through Systems Engineering
Systems Architecture design to optimize production operations, including stakeholder analysis and development of key performance metrics. MBSE implementation to create logical system architecture, enhancing subsystem integration and reducing lifecycle costs.
Characterizing and Modeling Time Series Data
This project focuses on characterizing and modeling time series data using ARMA models in R. It involves forecasting future values while evaluating model performance through ACF/PACF plots and residual analysis to ensure prediction accuracy and reliability.
Characterizing and Modeling Time Series Data
This project focuses on characterizing and modeling time series data using ARMA models in R. It involves forecasting future values while evaluating model performance through ACF/PACF plots and residual analysis to ensure prediction accuracy and reliability.
Semi-Empirical Dynamic Stall Models
Use of semi-empirical models for predicting dynamic stall, focusing on the ONERA and Snel Models to address limitations in current computational methods. Evaluation of model strengths and weaknesses, and identification of areas for further research.
Semi-Empirical Dynamic Stall Models
Use of semi-empirical models for predicting dynamic stall, focusing on the ONERA and Snel Models to address limitations in current computational methods. Evaluation of model strengths and weaknesses, and identification of areas for further research.
2021
Multi-Robot Complete Coverage Planning with Multi-Agent Systems
Developed and evaluated multi-robot coverage planning strategies for autonomous cleaning robots. Implemented the DARP algorithm and compared deployment methods based on coverage efficiency and performance.
Multi-Robot Complete Coverage Planning with Multi-Agent Systems
Developed and evaluated multi-robot coverage planning strategies for autonomous cleaning robots. Implemented the DARP algorithm and compared deployment methods based on coverage efficiency and performance.
2020
Numerical Methods Implementation for Engineering Applications
Developed C implementations of numerical methods for root finding, linear algebra, integration, and differential equations. Applications include solving engineering problems like simulation a qubit flip by solving the Landau-Lifshitz-Gilbert (LLG) Equation.
Numerical Methods Implementation for Engineering Applications
Developed C implementations of numerical methods for root finding, linear algebra, integration, and differential equations. Applications include solving engineering problems like simulation a qubit flip by solving the Landau-Lifshitz-Gilbert (LLG) Equation.