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Task Roadmaps: Speeding up Task Replanning

Fulltext:


Authors:


Publication Type:

Journal article

Venue:

Frontiers in Robotics and AI

DOI:

10.3389/frobt.2022.816355


Abstract

Modern industrial robots are increasingly deployed in dynamic environments, where unpredictable events are expected to impact the robot’s operation. Under these conditions, runtime task replanning is required to avoid failures and unnecessary stops, while keeping up productivity. Task replanning is a long-sighted complement to path replanning, which is mostly concerned with avoiding unexpected obstacles that can lead to potentially unsafe situations. This paper focuses on task replanning as a way to dynamically adjust the robot behaviour to the continuously evolving environment in which it is deployed. Analogously to probabilistic roadmaps used in path planning, we propose the concept of Task roadmaps as a method to replan tasks by leveraging an offline generated search space. A graph-based model of the robot application is converted to a task scheduling problem to be solved by a proposed Branch and Bound (B&B) approach and two benchmark approaches: Mixed Integer Linear Programming (MILP) and Planning Domain Definition Language (PDDL). The B&B approach is proposed to compute the task roadmap, which is then reused to replan for unforeseeable events. The optimality and efficiency of this replanning approach are demonstrated in a simulation-based experiment with a mobile manipulator in a kitting application. In this study, the proposed B&B Task Roadmap replanning approach is significantly faster than a MILP solver and a PDDL based planner.

Bibtex

@article{Lager6444,
author = {Anders Lager and Giacomo Spampinato and Alessandro Papadopoulos and Thomas Nolte},
title = {Task Roadmaps: Speeding up Task Replanning},
volume = {9},
pages = {1--14},
month = {April},
year = {2022},
journal = {Frontiers in Robotics and AI},
url = {http://www.es.mdh.se/publications/6444-}
}