Steppability-informed Quadrupedal Contact Planning through Deep Visual Search Heuristics
Keywords: Quadruped, Navigation, Perception, Steppability, Contact Planning
TL;DR: In this work, we introduce a semantic segmentation-based steppability heuristic into our interleaved graph search and trajectory optimization-based contact planner.
Abstract: In this work, we introduce a method for predicting environment steppability – the ability for a legged robot platform to place a foothold at a particular location in the local environment – in the image space. This novel environment representation captures this critical geometric property of the local terrain while allowing us to exploit the computational benefits of sensing and planning in the image space. We adapt a primitive shapes-based synthetic data generation scheme to create geometrically rich and diverse simulation scenes and extract ground truth semantic information in order to train a steppability model. We then integrate this steppability model into an existing interleaved graph search and trajectory optimization-based footstep planner to demonstrate how this steppability paradigm can inform footstep planning in complex, unknown environments. We analyze the steppability model performance to demonstrate its validity, and we deploy the perception-informed footstep planner both in offline and online settings to experimentally verify planning performance.
Submission Number: 12
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