Steven Samuel's Projects
Simulink models for half-bridge, full-bridge, and three-phase AC-DC converter
A python wrapper for Alpha Vantage API for financial data.
A Demo for using DJI Mobile SDK to create a Waypoint Mission App using Google Map.
Particle simulation of bifurcated artery in Ansys
Thermal and Structural Analysis of a Bolted Flange in Ansys
a simple calendar plugin for jquery and twitter bootstrap. works inline, in dropdowns, and in the responsive navbar!
Detect nearby cell towers with your Particle Electron Asset Tracker
Capstone project analyzing 311 service statistics from the Department of Housing Preservation and Development of New York City
Convert high resolution DEMs to DTM elevation points
A MATLAB spin-off of Neural Networks and Deep Learning from deeplearning.ai
Simple implementation of an encoder and limit switch to an Arduino
Aerodynamic analysis of a front wing using simscale/openfoam
Source files and published documents for the FEniCS tutorial.
The iconic font and CSS toolkit
Explore the geospatial features of the Google Maps API
Hands-On Machine Learning for Algorithmic Trading, published by Packt
Retesting functionality
Geotag your images with google maps marker through the Google Maps API
InDro Robotics Hackfest
A single-event calendar modal
Predicting cryptocurrency price using RNN-LSTM networks
Makani was a project to develop a commercial-scale airborne wind turbine, culminating in a flight test of the Makani M600 off the coast of Norway. All Makani software has now been open-sourced. This repository contains the working Makani flight simulator, controller (autopilot), visualizer, and command center flight monitoring tools. Additionally, almost all avionics firmware is also included, albeit potentially not in a buildable state, due to the removal of some third-party proprietary code. We hope that this code will be inspirational and useful to the kite-based windpower and wider communities.
Aerodynamic analysis of NACA12 airfoil using ANSYS Fluent
Numerical Methods for Partial Differential Equations (MATH F422 - BITS Pilani)