Manufacturing Process Design Based on Mental and Physical Workload Analysis

被引:5
|
作者
Ma, QingGuo [1 ]
Sun, XiaoLi [1 ]
Fu, HuiJian [1 ]
Zhao, DaChun [2 ]
Guo, JunFeng [3 ]
机构
[1] Zhejiang Univ, Dept Management Sci & Engn, Hangzhou 310003, Zhejiang, Peoples R China
[2] Hangzhou Zhengheng Elect Co Ltd, Hangzhou, Peoples R China
[3] Hangzhou Huali Measuring Appliance Co Ltd, Hangzhou, Peoples R China
来源
ADVANCED RESEARCH ON MECHANICAL ENGINEERING, INDUSTRY AND MANUFACTURING ENGINEERING III | 2013年 / 345卷
关键词
Neuro-Industrial Engineering (Neuro-IE); Industrial Engineering; mental workload; physical workload; electroencephalography; electromyography; EEG;
D O I
10.4028/www.scientific.net/AMM.345.482
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
Human factor is an important issue in industrial engineering system. Mental and physical states in the manufacturing process greatly influence worker's performance. In this study, EEG data were recorded to analyze mental workload and EMG data to analyze physical workload when a worker was tasks in the production line. Video camera was used to record the manufacturing process simultaneously. We could detect the time periods within which the worker's mental workload or physical workload was at a high level. By tracking the operating process through the video, we were able to find the potential problems leading to high workload, and thus optimize the design of manufacturing process or machine in order to decrease mental and physical workload and improve production efficiency.
引用
收藏
页码:482 / +
页数:2
相关论文
共 50 条
  • [41] Workload-based change propagation analysis in engineering design
    Tang, Dun-Bing
    Yin, Lei-Lei
    Wang, Qi
    Ullah, Inayat
    Zhu, Hai-Hua
    Leng, Sheng
    CONCURRENT ENGINEERING-RESEARCH AND APPLICATIONS, 2016, 24 (01): : 17 - 34
  • [42] Relationship between Mental Workload and Photoplethysmography in the Effect of Physical Performance
    Koca, Elif Isikci
    Duru, Dilek Goksel
    2017 MEDICAL TECHNOLOGIES NATIONAL CONGRESS (TIPTEKNO), 2017,
  • [43] Development of a Wearable System Module for Monitoring Physical and Mental Workload
    Kim, Sinbae
    Nakamura, Hiromi
    Yoshida, Toshihiko
    Kishimoto, Masamichi
    Imai, Yohsuke
    Matsuki, Noriaki
    Ishikawa, Takuji
    Yamaguchi, Takami
    TELEMEDICINE JOURNAL AND E-HEALTH, 2008, 14 (09): : 939 - 945
  • [44] EFFECTS OF INTERACTION BETWEEN PHYSICAL AND MENTAL WORKLOAD ON HUMAN PERFORMANCE
    Basahel, A. M.
    Young, M. S.
    Ajovalasit, M.
    CONTEMPORARY ERGONOMICS AND HUMAN FACTORS 2010, 2010, : 598 - 601
  • [45] PHYSICAL, MENTAL, EMOTIONAL, AND SUBJECTIVE WORKLOAD COMPONENTS IN TRAIN DRIVERS
    MYRTEK, M
    DEUTSCHMANNJANICKE, E
    STROHMAIER, H
    ZIMMERMANN, W
    LAWERENZ, S
    BRUGNER, G
    MULLER, W
    ERGONOMICS, 1994, 37 (07) : 1195 - 1203
  • [46] Design and Implementation of Mental Workload Calculation System for Drivers
    Pei Y.
    Jin X.
    Song Z.
    Liu L.
    Qiche Gongcheng/Automotive Engineering, 2019, 41 (11): : 1265 - 1272
  • [47] Analysis and Prediction Cost of Manufacturing Process Based on Process Mining
    Thi Bich Hong Tu
    Song, Minseok
    2016 INTERNATIONAL CONFERENCE ON INDUSTRIAL ENGINEERING, MANAGEMENT SCIENCE AND APPLICATIONS (ICIMSA), 2016,
  • [48] Brain Lattice: Concept Lattice Based Causal Analysis of Changes in Mental Workload
    Oyama, Katsunori
    Takeuchi, Atsushi
    Chang, Carl K.
    2013 IEEE INTERNATIONAL MULTI-DISCIPLINARY CONFERENCE ON COGNITIVE METHODS IN SITUATION AWARENESS AND DECISION SUPPORT (COGSIMA), 2013, : 59 - 66
  • [49] Combining Time and Physical Workload Analysis on Cold Press Working Group for Operator Management in Manufacturing Company
    Suryoputro, Muhammad Ragil
    Ginanjar, Tresna Candra
    Sari, Amarria Dila
    2018 3RD INTERNATIONAL CONFERENCE ON DESIGN AND MANUFACTURING ENGINEERING (ICDME 2018), 2018, 221
  • [50] Workload balancing and loop layout in the design of a flexible manufacturing system
    Potts, CN
    Whitehead, JD
    EUROPEAN JOURNAL OF OPERATIONAL RESEARCH, 2001, 129 (02) : 326 - 336
12345