Circuits for Low-Powered Robotics Applications
Published:
As Team Lead for this interdisciplinary research project, I am coordinating efforts between an experimental materials scientist and computational physicist to develop novel circuit designs for low-power applications. The project integrates concepts from robotics, physics, and neuroscience.
Project Scope
- Literature Review: Comprehensive analysis of existing technologies
- Experimental Design: Development of novel testing methodologies
- Data Collection: Ongoing systematic data gathering and analysis
- Interdisciplinary Collaboration: Coordination between materials science and computational physics team members
Research Areas
- Energy-efficient computing architectures
- Neuromorphic circuit design
Team Structure
- Team Lead: Lawson Fuller (Computational Physicist)
- Experimental Materials Scientist: Specialized in novel neuromorphic materials
- Computational Physicist: Focused on simulation and modeling
Current Status
Data collection is currently in progress, with promising preliminary results indicating potential for significant energy and time savings in targeted applications.
This project represents a unique intersection of multiple scientific disciplines, aiming to create practical solutions for the growing demand for mobile, quick, and energy-efficient edge computing systems.