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The decision-making framework for assembly tasks planning in human–robot collaborated manufacturing system

Weibo Ren, Xiaonan Yang, Yan Yan, Yaoguang Hu

2022International Journal of Computer Integrated Manufacturing20 citationsDOI

Abstract

A human–robot collaborative assembly system is a new production paradigm, which has been successfully applied in practical production to effectively combine human flexibility and robot productivity. This paper proposes the task planning problem for human and robot collaboration and considers the whole process from assembly task decomposition, assembly to human and robot, and operations scheduling in hybrid assembly systems. The decision-making framework for the task planning problem is first introduced from five steps: data input, task decomposition, resource evaluation, operation allocation and scheduling, and collaborative assembly implementation. The task decomposition process is performed based on the hierarchical task analysis approach. The assembly operation allocation and scheduling are then considered in an integrated way, and the joint optimization model is developed considering the assembly operation sequence and the collaboration of humans and robots. Triple objectives are considered not only to minimize the competition time and total production costs but also to improve the automation degree of the hybrid system. The improved heuristic algorithm is developed to address the joint optimization problem. Finally, the application of this decision-making framework is described and verified based on two industrial cases. Computational results are presented to show the performance and feasibility of the proposed methodology.

Topics & Concepts

Scheduling (production processes)RobotAutomationTask (project management)Computer scienceIndustrial engineeringFlexibility (engineering)Production planningJob shop schedulingDistributed computingEngineeringArtificial intelligenceSystems engineeringProduction (economics)Operations managementEmbedded systemMacroeconomicsEconomicsRouting (electronic design automation)Mechanical engineeringMathematicsStatisticsAdvanced Manufacturing and Logistics OptimizationManufacturing Process and OptimizationRobot Manipulation and Learning
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