Operations management issues in design and control of hybrid human-robot collaborative manufacturing systems: a survey

Hashemi-Petroodi, S. Ehsan; Thevenin, Simon; Kovalev, Sergey; Dolgui, Alexandre

doi:10.1016/j.arcontrol.2020.04.009

Cited by 80 publications

(25 citation statements)

References 141 publications

(163 reference statements)

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“…Specifically, regarding fatigue, the optimization process and the management of adjusting robots' trajectories could facilitate the human operator's work. In this regard, to reduce worker's fatigue, elements such as the condition of stability, the possible constraints of the activities, and the presence of shared workspaces should be considered (Kim et al, 2018 ; Hashemi-Petroodi et al, 2020 ). The presence of co-bots in the industrial context could also be effective in terms of performance, allowing better use of resource skills and executive functions (Tsarouchi et al, 2016 ).…”

Section: Discussion: Neuroergonomics In the Organizationmentioning

confidence: 99%

“…The presence of co-bots in the industrial context could also be effective in terms of performance, allowing better use of resource skills and executive functions (Tsarouchi et al, 2016 ). Indeed, the advantages introduced by the inclusion of robots with characteristics such as strength, speed, precision, tirelessness, and repeatability will allow reduced cognitive load and effort for the workers performing their duties and allowing better use of intelligence, creativity, and learning (Hashemi-Petroodi et al, 2020 ).…”

Section: Discussion: Neuroergonomics In the Organizationmentioning

confidence: 99%

See 1 more Smart Citation

Human–Co-Bot Interaction and Neuroergonomics: Co-Botic vs. Robotic Systems

2021

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Section: Discussion: Neuroergonomics In the Organizationmentioning

confidence: 99%

Section: Discussion: Neuroergonomics In the Organizationmentioning

confidence: 99%

Human–Co-Bot Interaction and Neuroergonomics: Co-Botic vs. Robotic Systems

2021

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“…The job of operations management is to oversee the process of converting resources into goods and services. Hashemi-Petroodi et al [63] focused on the challenges of the interactions between machine robots and humans in order to find the effective contributions of operation management's methods to improve the working condition of hybrid manufacturing systems. Kozjek et al [64] research focused on investigating manufacturing data collected from a manufacturing system during various operations conducted in an engineer-to-order enterprise, and developed tools for scheduling of operations.…”

Section: Operations Managementmentioning

confidence: 99%

Investigation of Degradation and Upgradation Models for Flexible Unit Systems: A Systematic Literature Review

et al. 2021

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Research on flexible unit systems (FUS) with the context of descriptive, predictive, and prescriptive analysis have remarkably progressed in recent times, being now reinforced in the current Industry 4.0 era with the increased focus on integration of distributed and digitalized systems. In the existing literature, most of the work focused on the individual contributions of the above mentioned three analyses. Moreover, the current literature is unclear with respect to the integration of degradation and upgradation models for FUS. In this paper, a systematic literature review on degradation, residual life distribution, workload adjustment strategy, upgradation, and predictive maintenance as major performance measures to investigate the performance of the FUS has been considered. In order to identify the key issues and research gaps in the existing literature, the 59 most relevant papers from 2009 to 2020 have been sorted and analyzed. Finally, we identify promising research opportunities that could expand the scope and depth of FUS.

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“…The human-robot interaction requires a machine vision system that allows the robot to recognize the human movement and interpret it as an instruction for the execution of a certain task, as clarified in [1] and [2]. Some of these cooperative works lead to the need to develop algorithms that allow the interaction between both, making control over the force exerted by the manipulator at the point of contact with the human, as explained in [3], or using an intelligent support system in the execution of tasks performed by an operator, where human effort is minimized and the execution of the task is optimized, as shown in [4].…”

Section: Introductionmentioning

confidence: 99%

Tool delivery robot using convolutional neural network

Pinzón-Arenas

Moreno

2020

IJECE

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In the following article, it is presented a human-robot interaction system where algorithms were developed to control the movement of a manipulator in order to allow it to search and deliver, in the hand of the user, a desired tool with a certain orientation. A Convolutional Neural Network (CNN) was used to detect and recognize the user's hand, geometric analysis for the adjustment of the delivery status of the tool from any position of the robot and any orientation of the gripper, and a trajectory planning algorithm for the movement of the manipulator. It was possible to use the activations of a CNN developed in previous works for the detection of the position and orientation of the hand in the workspace and thus track it in real time, both in a simulated environment and in a real environment.

show abstract

Operations management issues in design and control of hybrid human-robot collaborative manufacturing systems: a survey

Cited by 80 publications

References 141 publications

Human–Co-Bot Interaction and Neuroergonomics: Co-Botic vs. Robotic Systems

Human–Co-Bot Interaction and Neuroergonomics: Co-Botic vs. Robotic Systems

Investigation of Degradation and Upgradation Models for Flexible Unit Systems: A Systematic Literature Review

Tool delivery robot using convolutional neural network

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