6,144 research outputs found
Learning to Run challenge solutions: Adapting reinforcement learning methods for neuromusculoskeletal environments
In the NIPS 2017 Learning to Run challenge, participants were tasked with
building a controller for a musculoskeletal model to make it run as fast as
possible through an obstacle course. Top participants were invited to describe
their algorithms. In this work, we present eight solutions that used deep
reinforcement learning approaches, based on algorithms such as Deep
Deterministic Policy Gradient, Proximal Policy Optimization, and Trust Region
Policy Optimization. Many solutions use similar relaxations and heuristics,
such as reward shaping, frame skipping, discretization of the action space,
symmetry, and policy blending. However, each of the eight teams implemented
different modifications of the known algorithms.Comment: 27 pages, 17 figure
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