Alapfogalmak
SPLANNING is a real-time, receding-horizon trajectory optimization algorithm that generates collision-free trajectories for robotic manipulators by leveraging a normalized 3D Gaussian Splat representation of the environment.
Kivonat
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:
- Derives a method for rigorously upper-bounding the probability of collision between a robot and a radiance field.
- Introduces a normalized reformulation of Gaussian Splatting that enables efficient computation of the collision bound.
- Presents a method to optimize trajectories while avoiding collisions with a scene represented by a Normalized 3D Gaussian Splat.
- Experiments demonstrate that SPLANNING outperforms state-of-the-art methods in generating collision-free trajectories in highly cluttered environments.
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.
Statisztikák
"The robot operates in a three-dimensional workspace, denoted Ws ⊂R3, such that Ws ⊂W where W denotes the world frame."
"The robot's jth joint has position and velocity limits given by qj(t) ∈[q−
j,lim, q+
j,lim] and ˙qj(t) ∈[ ˙q−
j,lim, ˙q+
j,lim] for all t ∈T, respectively."
Idézetek
"SPLANNING enforces safety by ensuring the probability of collision between the robot and the scene is below a given risk threshold."
"SPLANNING achieves higher precision and recall than either Splat-Nav∗or CATNIPS∗."