Exploring the intersection of physics, computation, and finance through innovative solutions
Status: Active Development | Language: C++ | Domain: Quantitative Finance
The SEP Engine is our flagship proprietary framework that quantifies data coherence and stability in real-time. It represents a novel approach to understanding market dynamics through the lens of thermodynamic principles and information theory.
Core algorithms are described in the SEP patent portfolio (patent pending).
Repository links are currently private. Contact for access.
Type: Mathematical Research | Status: Ongoing
Exploring pattern stability through Riemann surfaces and complex analysis. This research prototype investigates how mathematical patterns evolve and stabilize over time, with applications to market dynamics.
Technologies: Python, NumPy, Matplotlib, Complex Analysis
View on GitHub (private)Type: Machine Learning | Status: Complete
Neural network model for optimizing battery charging cycles, developed during my time working on hardware projects. Demonstrates application of ML to real-world engineering problems.
Technologies: Python, TensorFlow, Embedded Systems
View on GitHub (private)Type: Engineering | Status: Complete
Developed automation solutions for Mark Rober's engineering projects. Implemented precise control algorithms for mechanical systems with real-time feedback loops.
Technologies: C++, Arduino, Control Theory, PID Controllers
Private repository - available upon request
Type: Physics Research | Status: Active
Experimental framework exploring recursive spiral geometries and dielectric fluids. Includes impedance analysis, uniformity statistics, and transient response modeling for electrical networks.
Technologies: Python, NetworkX, NumPy, Circuit Analysis
View ResearchCollection of utilities for financial data analysis and backtesting strategies. Includes implementations of various technical indicators and risk metrics.
Technologies: Python, Pandas, NumPy
Coming SoonOptimized algorithms and data structures for computational physics and numerical analysis. Focus on cache-efficient implementations.
Technologies: C++, SIMD, OpenMP
Coming SoonCustom physics modifications for MX Bikes simulation, improving realism through better suspension and tire models.
Technologies: C++, Game Physics, Simulation
Community ReleaseDesigned the BRB3100EV electric vehicle from concept to production in just four months, including programming Curtis controllers for PWM tuning.
Collaborated with Mark Rober on early CrunchLabs projects.
Developed a vision system for Laser Etch production lines, designed components for the DAISY iPhone recycler, and contributed concepts for MacBook recycling strategy.
Collaborated on viral engineering projects including GlitterBomb 2.0 and the domino robot Guinness World Record.
Various academic projects in mechanical engineering, including:
I'm always open to discussing new projects, research collaborations, or consulting opportunities.
Get In Touch