Accelerating db-A* for Kinodynamic Motion Planning Using Diffusion
By: Julius Franke , Akmaral Moldagalieva , Pia Hanfeld and more
Potential Business Impact:
Helps robots move faster and more smoothly.
We present a novel approach for generating motion primitives for kinodynamic motion planning using diffusion models. The motions generated by our approach are adapted to each problem instance by utilizing problem-specific parameters, allowing for finding solutions faster and of better quality. The diffusion models used in our approach are trained on randomly cut solution trajectories. These trajectories are created by solving randomly generated problem instances with a kinodynamic motion planner. Experimental results show significant improvements up to 30 percent in both computation time and solution quality across varying robot dynamics such as second-order unicycle or car with trailer.
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