A dynamic simulator for the ergonomics evaluation of powered torque tools for human assembly

Ay, Haluk; Luscher, Anthony F.; Sommerich, Carolyn M.

doi:10.1108/aa-12-2015-126

Cited by 2 publications

(1 citation statement)

References 33 publications

(69 reference statements)

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“…More specifically, the number of component parts is huge and their shapes are not regular; these assembly activities usually have a small space to operate and need to deal with lots of pipelines and cables (Zhou and Yin, 2010); they are mainly manual operations and need to handle single-piece or small-batch production; they are also characterized by long cycles and high mobility. Except for a few stages, which can be accomplished by using automatic equipment, most stages of assembly activities are carried out manually by assembly operators by referring to assembly process information (API) in the assembly scene (MacLaren, 1983; Ay et al , 2017). The assembly scene, API and assembly operator are the three major components of assembly activities.…”

Section: Introductionmentioning

confidence: 99%

Detection and estimation of mental fatigue in manual assembly process of complex products

Hong

Duan

Zhang

et al. 2017

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Purpose This paper aims to investigate an approach for mental fatigue detection and estimation of assembly operators in the manual assembly process of complex products, with the purpose of founding the basis for adaptive transfer and demonstration of assembly process information (API), and eventually making the manual assembly process smarter and more human-friendly. Design/methodology/approach The proposed approach detects and estimates the mental state of assembly operators by electroencephalography (EEG) signal recording and analysis in an engine assembly experiment. When the subjects perform assembly tasks, their EEG signal is recorded by a portable EEG recording system called Emotiv EPOC+ headset. The feature set of the EEG signal is then extracted by calculating its power spectrum density (PSD), followed by data dimension reduction based on principal component analysis (PCA). The dimension-reduced data are classified by using support vector machines (SVMs), and hence, the mental state of assembly operators can be estimated during the assembly process. Findings The experimental result shows that the proposed approach is able to estimate the mental state of assembly operators within an acceptable accuracy range, and the PCA-based dimension reduction method performs very well by representing the high-dimensional EEG feature set with just a few principal components. Originality/value This paper provides theoretical and experimental basis for the API transfer and demonstration based on human cognition. It provides a new idea to seek balance between the improvement of production efficiency and the sustainable utilization of human resources.

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Section: Introductionmentioning

confidence: 99%

Detection and estimation of mental fatigue in manual assembly process of complex products

Hong

Duan

Zhang

et al. 2017

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Continuous ergonomic risk perception for manual assembly operations using wearable multi-sensor posture estimation

Fang

Zheng

2021

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Purpose This paper aims to perform the real-time and accurate ergonomics analysis for the operator in the manual assembly, with the purpose of identifying potential ergonomic injuries when encountering labor-excessive and unreasonable assembly operations. Design/methodology/approach Instead of acquiring body data for ergonomic evaluation by arranging many observers around, this paper proposes a multi-sensor based wearable system to track worker’s posture for a continuous ergonomic assessment. Moreover, given the accurate neck postural data from the shop floor by the proposed wearable system, a continuous rapid upper limb assessment method with robustness to occasional posture changes, is proposed to evaluate the neck and upper back risk during the manual assembly operations. Findings The proposed method can retrieve human activity data during manual assembly operations, and experimental results illustrate that the proposed work is flexible and accurate for continuous ergonomic assessments in manual assembly operations. Originality/value Based on the proposed multi-sensor based wearable system for posture acquisition, a real-time and high-precision ergonomics analysis is achieved with the postural data arrived continuously, it can provide a more objective indicator to assess the ergonomics during manual assembly.

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A dynamic simulator for the ergonomics evaluation of powered torque tools for human assembly

Cited by 2 publications

References 33 publications

Detection and estimation of mental fatigue in manual assembly process of complex products

Detection and estimation of mental fatigue in manual assembly process of complex products

Continuous ergonomic risk perception for manual assembly operations using wearable multi-sensor posture estimation

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