Pinned Repositories
arduino-at86rf233
Simple Arduino driver for the AT86RF233 802.15.4 radio module
behavior3editor
An awesome online visual editor for Behavior3 (Behavior Trees Visual Editor)
behavior3js
Moved to behavior3 organization!
blockly
The web-based visual programming editor.
EvolutionChamber
FunctionDotNet
Parses strings representing math functions and dynamically constructs functions to evaluate multi-dimensional functions
JFlapToCode
This repo translates JFlap files to HLSM stub code
MagneticFieldLocalization
UnityUtilities
TAZI
A visual based programming environment for Gadgetron
MichaelMGonzalez's Repositories
MichaelMGonzalez/JFlapToCode
This repo translates JFlap files to HLSM stub code
MichaelMGonzalez/FunctionDotNet
Parses strings representing math functions and dynamically constructs functions to evaluate multi-dimensional functions
MichaelMGonzalez/MagneticFieldLocalization
MichaelMGonzalez/UnityUtilities
MichaelMGonzalez/arduino-at86rf233
Simple Arduino driver for the AT86RF233 802.15.4 radio module
MichaelMGonzalez/behavior3editor
An awesome online visual editor for Behavior3 (Behavior Trees Visual Editor)
MichaelMGonzalez/behavior3js
Moved to behavior3 organization!
MichaelMGonzalez/blockly
The web-based visual programming editor.
MichaelMGonzalez/EvolutionChamber
MichaelMGonzalez/CSE101FinalPrep
A windows form app to help me practice algorithms
MichaelMGonzalez/gadgetron-software-libraries
MichaelMGonzalez/GDSWebsite
MichaelMGonzalez/Gif2Png
MichaelMGonzalez/IPRangeScanner
This project is intended to be a simple windows application to check a definable IP-Address range for accessable html content
MichaelMGonzalez/MMLToArduino
MMLToArduino hopes to make the process of adding complex sound effects and songs to piezo elements on Arduino projects much easier with little overhead
MichaelMGonzalez/PiMobile
The first Raspberry Pi Gadgetron robot prototype
MichaelMGonzalez/Templates
Template for making Jinja Templates
MichaelMGonzalez/VRGrapher
The VRGrapher aims to make visualizing 3d mathematical models easy. By leveraging Google Cardboard virtual reality technology, users will be able to rotate their heads naturally around two variable functions and 3d vector parametrized surfaces. This unique perspective will give students a new tool to their calculus education.