Robocode is a programming tank game for Java and .NET
Robocode is a programming game, where the goal is to develop a robot battle tank to battle against other tanks in Java or .NET. The robot battles are running in real-time and on-screen. The motto of Robocode is: Build the best, destroy the rest!
Calculation of camshafts - allows to define a camshaft profile on the set trajectory which should provide the given mechanism. The trajectory can be set graphically, co-ordinates or function.
The Teachingbox uses advanced machine learning techniques to relieve developers from the programming of hand-crafted sophisticated behaviors of autonomous agents (such as robots, game players etc...) In the current status we have implemented a well founded reinforcement learning core in Java with many popular usecases, environments, policies and learners. Obtaining the teachingbox: FOR USERS: If you want to download the latest releases, please visit: http://search.maven.org/#search|ga|1|teachingbox FOR DEVELOPERS: 1) If you use Apache Maven, just add the following dependency to your pom.xml: <dependency> <groupId>org.sf.teachingbox</groupId> <artifactId>teachingbox-core</artifactId> <version>1.2.0</version> </dependency> 2) If you want to check out the most recent source-code: svn checkout https://svn.code.sf.net/p/teachingbox/code/trunk teachingbox-trunk or browse files: https://sourceforge.net/p/teachingbox/code/HEAD/tree/trunk/
Robot simulator inspired by Sim.I.Am
PySimiam is a robot simulator, created to follow the course "Control of Mobile Robots" offered at Coursera. The simulator models an arbitrary number of mobile robots in a 2D environment, each controlled by a arbitrary algorithm.
VI for the OpenEEG Project
VI package to read, analyze and graph EEG signals
Random any number you want as many as you want
Random any number you want and how many as you want for free . Design for winning the lottery