Home /Research /Optimizing Makespan and Ergonomics in Integrating Collaborative Robots Into Manufacturing Processes
HRI

Optimizing Makespan and Ergonomics in Integrating Collaborative Robots Into Manufacturing Processes

Margaret Pearce, Bilge Mutlu, Julie Shah, Robert G. Radwin

Year
2018
Citations
172

Abstract

As collaborative robots begin to appear on factory floors, there is a need to consider how these robots can best help their human partners. In this paper, we propose an optimization framework that generates task assignments and schedules for a human-robot team with the goal of improving both time and ergonomics and demonstrate its use in six real-world manufacturing processes that are currently performed manually. Using the strain index method to quantify human physical stress, we create a set of solutions with assigned priorities on each goal. The resulting schedules provide engineers with insight into selecting the appropriate level of compromise and integrating the robot in a way that best fits the needs of an individual process.

Keywords

RobotFactory (object-oriented programming)Task (project management)Human–robot interactionProcess (computing)Job shop schedulingTask analysisSet (abstract data type)Computer scienceScheduling (production processes)

Related papers

Browse all HRI papers