Achieving reproducible results in reinforcement learning experiments can be notoriously difficult; with the added hardware artifacts of physical robots, this becomes an even more challenging feat. In this guest blog post, Oliver presents an overview of his experience as an early tester working with SenseAct to reproduce the UR-Reacher-2 experiment.
We introduce six reinforcement learning benchmark tasks based on three commercially available robots. These tasks are developed in SenseAct, a new open-source framework for implementing real-time reinforcement learning tasks. We furthermore provide benchmarking results from our evaluation of several state of the art learning algorithms for continuous control on these tasks.
Reinforcement learning research with physical robots faces substantial resistance due to the lack of benchmark tasks and supporting source code. In this work, we introduce several reinforcement learning tasks with multiple commercially available robots that present varying levels of learning difficulty, setup, and repeatability.
Today, Kindred announced the launch of SenseAct, the first open-source toolkit to set-up reinforcement learning tasks on physical robots. Kindred’s SenseAct was created to provide robotics developers and researchers with a consistent, learnable interface that efficiently controls for time delays, a factor that simulation environments aren’t hindered by.
Listen to The Engineering People Show’s podcast recording of an interviewing with our SVP of Engineering.
From Go to Dota 2 to the operation of commercial HVAC systems - reinforcement learning modeling and algorithms are changing how engineers see complicated dynamical systems as games, and learn strategies to play them well. Kindred is applying the revolutionary technology that powered AlphaGo to the creation of a new generation of intelligent robotics for material handling.
Today, Kindred announced that it has integrated its robotic solutions with Manhattan Associates’ market-leading Warehouse Management System (WMS).