A distributed control architecture for collaborative multi-robot task allocation
Published in Humanoid Robotics (Humanoids), 2017 IEEE-RAS 17th International Conference on, 2017
Recommended citation: Janelle Blankenburg, Santosh Balajee Banisetty, Seyed P. Hoseini, Luke Fraser, David Feil-Seifer, Monica Nicolescu, and Mircea Nicolescu. "A Distributed Control Architecture for Collaborative Multi-Robot Task Allocation." In International Conference on Humanoid Robots, Birmingham, UK, Nov 2017. doi: 10.1109/HUMANOIDS.2017.8246931. https://rrl.cse.unr.edu/media/documents/2018/humanoids_1.pdf
This paper addresses the problem of task allocation for multi-robot systems that perform tasks with complex, hierarchical representations which contain different types of ordering constraints and multiple paths of execution. We propose a distributed multi-robot control architecture that addresses the above challenges and makes the following contributions: i) it allows for on-line, dynamic allocation of robots to various steps of the task, ii) it ensures that the collaborative robot system will obey all of the task constraints and iii) it allows for opportunistic, flexible task execution given different environmental conditions. This architecture uses a distributed messaging system to allow the robots to communicate. Each robot uses its own state and team member states to keep track of the progress on a given task and identify which subtasks to perform next using an activation spreading mechanism. We demonstrate the proposed architecture on a team of two humanoid robots (a PR2 and a Baxter) performing hierarchical tasks.