Undergraduate
Reducing Accuracy Loss from Radiation in Analog Memristive Chips for Image Recognition
This project aims to use analog memristive chips to perform more efficient image recognition. However, conductance drift due to radiation greatly decreases its accuracy. By using techniques to compensate for drift and noise, we are able to improve its accuracy drastically for applications in space where radiation can be a problem. Video Research poster View…
Quantum Filtering for Optimization and Tomography of Nonlocal States
QFOTONS is an investigation into reducing loss in photonic quantum systems for quantum communication, encryption and error correction. The approach is to improve upon quantum tomography schemes by reducing the number of measurements required to reconstruct a quantum state, saving time and compute power. QFOTONS demonstrates the improved tomography method using theoretical simulation in MATLAB…
PV System with Wind Loading Mitigation Features
Our project is the design of a light-weight, portable, solar PV system equipped with a battery that has a collapsing mechanism built in. This mechanism reduces the system’s profile, making it more streamlined in order to reduce the mechanical stress induced from high speed winds created by hurricanes, tornados and severe thunderstorms. Demo Day Zoom…
Psyche Rover Future Power
Our project involved designing a power system for a future hypothetical Psyche rover mission. Our goal was to create a reliable and economical power system solution for short duration scientific exploration missions on the surface of Psyche with potential for mission extension with its solar based generation system. Demo Day Zoom link: https://asu.zoom.us/j/86763236880 Video Research…
Psyche Robotic Explorer with AI Hazard Detection
Our team designed an autonomous rover to navigate the rugged surfaces of the asteroid Psyche. From our research, it is expected that a rover on Psyche will face harsh conditions such as craters, rocks, and uneven surfaces that could hinder proper data collection. The goal of our project was to design a rover that is…
Power Quality Logger and Protection
Our team has developed a power monitoring device for plug-in household items. The Power Quality Logger will allow any user to identify larger loads throughout the home and devices that are in need of repair or replacement. The device has been designed to upload and store power data including Voltage, Amperage, Frequency, THD, Power Factor,…
PoseiGuard
PoseiGuard is a wearable device intended for use by Freedivers. It measures the user’s SpO2 and heart rate levels, displays them on an LCD, and inflates a personal floatation device via a solenoid if the user’s vitals reach dangerous levels. Demo Day Zoom link: https://asu.zoom.us/j/82993294347 Video Research poster View the poster Sponsor Advisor Unknown person…
PCB Design and Readout for Real-Time Sensing System
This project introduces a portable and cost-effective real-time sensing system that interfaces with the Nanobiotronix biosensor chip. Designed for applications in healthcare and environmental monitoring, it measures electrical resistance across 32 sensing channels. The core of the system involves a transimpedance amplifier network and a microcontroller that translates analog signals into resistance values. A user-friendly…
Optically Controlled Reconfigurable Surfaces
Design and manufacture a control system for a reconfigurable intelligent surface. This control system needs to operate the RIS using light in order to minimize signal disruption. Demo Day Zoom link: https://asu.zoom.us/j/86005768482 Video Research poster View the poster Sponsor Advisor Georgios TrichopoulosAssociate ProfessorSchool of Electrical, Computer and Energy [email protected]
Open Source Integrated Circuit Design with Fabricated and packaged Silicon TinyChips plus Test/Characterization
Modern chip design is expensive and not very accessible to the general public. The goal of our capstone team is help make chip design more accessible by using and validating a cheap and/or open source workflow for chip design. Our work continues off the progress made by a previous capstone team by testing chips created…