Goal Velocity Obstacles for Spatial Navigation of Multiple Autonomous Robots or Virtual Agents

May 3, 2013

I’ll be presenting the following work at the Twelfth International Conference on Autonomous Agents and Multiagent Systems in St. Paul, Minn. on May 7th and 8th:

We present the goal velocity obstacle for the spatial navigation of multiple autonomous robots or virtual agents, such as are found in mobile robotics, video games, and simulated environments, to planar goal regions in the two-dimensional workspace. Our approach uses the notion of velocity obstacles not only to compute collision-avoiding velocities with respect to other agents, but also to specify velocities that will direct an agent toward its spatial goal region. The goal velocity obstacle provides a unified formulation that allows for goals specified as points, line segments, and bounded, planar regions in two dimensions that may be static or moving. An agent may have multiple goal regions without requiring an explicit goal allocation algorithm that would choose a particular goal region to navigate toward in advance. We have applied our approach to experiments with hundreds of agents, demonstrating shorter path lengths and fewer collisions with only microseconds of additional computation per agent per time step than when using velocity-based methods that optimize on a single, preferred velocity toward the goal of each agent.

This work was in collaboration with Dinesh Manocha of the Department of Computer Science, University of North Carolina at Chapel Hill. It was supported in part by the Army Research Office under Contract W911NF-04-1-0088, by the National Science Foundation under Award 1000579 and Award 1117127, and by Intel Corporation.


Goal Velocity Obstacles for Spatial Navigation of Multiple Autonomous Robots or Virtual Agents
 from Jamie Snape on Vimeo.

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