AI Chat AI Image Generator AI Video Text to Speech

Probabilistic Collision Constraint for Motion Planning in Dynamic Environments

04/04/2021
by   Antony Thomas, et al.
0

Online generation of collision free trajectories is of prime importance for autonomous navigation. Dynamic environments, robot motion and sensing uncertainties adds further challenges to collision avoidance systems. This paper presents an approach for collision avoidance in dynamic environments, incorporating robot and obstacle state uncertainties. We derive a tight upper bound for collision probability between robot and obstacle and formulate it as a motion planning constraint which is solvable in real time. The proposed approach is tested in simulation considering mobile robots as well as quadrotors to demonstrate that successful collision avoidance is achieved in real time application. We also provide a comparison of our approach with several state-of-the-art methods.

READ FULL TEXT

Related Research

research
10/12/2021

Exact and Bounded Collision Probability for Motion Planning under Gaussian Uncertainty

Computing collision-free trajectories is of prime importance for safe na...
0 Antony Thomas, et al.
research
04/28/2022

Simultaneous Control and Trajectory Estimation for Collision Avoidance of Autonomous Robotic Spacecraft Systems

We propose factor graph optimization for simultaneous planning, control,...
0 Matthew King-Smith, et al.
research
10/01/2022

RDA: An Accelerated Collision-free Motion Planner for Autonomous Navigation in Cluttered Environments

Motion planning is challenging for autonomous systems in multi-obstacle ...
0 Ruihua Han, et al.
research
11/02/2018

Toward Verifiable Real-Time Obstacle Motion Prediction for Dynamic Collision Avoidance

Next generation Unmanned Aerial Vehicles (UAVs) must reliably avoid movi...
0 Vincent Kurtz, et al.
research
01/27/2021

An Integrated Localisation, Motion Planning and Obstacle Avoidance Algorithm in Belief Space

As robots are being increasingly used in close proximity to humans and o...
0 Antony Thomas, et al.
research
09/16/2023

Distributionally Robust CVaR-Based Safety Filtering for Motion Planning in Uncertain Environments

Safety is a core challenge of autonomous robot motion planning, especial...
0 Sleiman Safaoui, et al.
research
02/26/2019

Efficient Probabilistic Collision Detection for Non-Gaussian Noise Distributions

We present algorithms to compute tight upper bounds of collision probabi...
0 Jae Sung Park, et al.

Please sign up or login with your details

Forgot password? Click here to reset

Out of credits

Refill your membership to continue using DeepAI

Stripe
Paypal