The paper proposes SPLANNING, a novel approach for generating risk-aware motion plans in cluttered scenes represented as radiance fields using Gaussian basis functions.
Key highlights:
The paper first provides an overview of radiance fields and Gaussian Splatting. It then describes how to bound the probability of collision between a ball in R3 and a learned radiance field represented by Gaussian Splats. A closed-form upper-bound on the probability of collision is presented and leveraged as a computationally-tractable chance constraint for online trajectory optimization.
The proposed SPLANNING algorithm is evaluated in simulation and on a real-world robot manipulator. It is compared against state-of-the-art trajectory optimization methods, including SPARROWS, ARMTD, CHOMP, TrajOpt, MPOT, and cuRobo. The results show that SPLANNING outperforms these baselines in generating collision-free trajectories in highly cluttered environments.
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by Jonathan Mic... о arxiv.org 09-26-2024
https://arxiv.org/pdf/2409.16915.pdfГлибші Запити