STOMP: Stochastic trajectory optimization for motion planning
University of Southern California · Willow Wood (United States)
Abstract
We present a new approach to motion planning using a stochastic trajectory optimization framework. The approach relies on generating noisy trajectories to explore the space around an initial (possibly infeasible) trajectory, which are then combined to produced an updated trajectory with lower cost. A cost function based on a combination of obstacle and smoothness cost is optimized in each iteration. No gradient information is required for the particular optimization algorithm that we use and so general costs for which derivatives may not be available (e.g. costs corresponding to constraints and motor torques) can be included in the cost function. We demonstrate the approach both in simulation and on a mobile…
Citation impact
- FWCI
- 18.05
- Percentile
- 100%
- References
- 27
Authors
5Topics & keywords
- Trajectory
- Computer science
- Mathematical optimization
- Maxima and minima
- Trajectory optimization
- Smoothness
- Stochastic optimization
- Function (biology)
- Sustainable cities and communities