Whole-body vibration biodynamics - A critical review: II. Biodynamic modelling

被引:0
|
作者
Rakheja S. [1 ,2 ]
Dewangan K.N. [3 ]
Dong R.G. [4 ]
Marcotte P. [5 ]
Pranesh A. [2 ]
机构
[1] College of Mechanical and Engineering Automation, Huaqiao University, Xiamen
[2] CONCAVE Research Center, Concordia University, Montreal
[3] Department of Agricultural Engineering, North Eastern Regional Institute of Science and Technology (NERIST), Nirjuli
[4] Engineering and Control Technology, National Institute for Occupational Safety and Health, Morgantown, 26505, WV
[5] IRSST, Montreal, H3A3C2, QC
来源
| 2020年 / 6卷 / 01期
关键词
Biodynamic models; Biodynamic response functions; Model parameters identification; Whole-body vibration;
D O I
10.1504/IJVP.2020.104494
中图分类号
学科分类号
摘要
Biodynamic models of seated body exposed to whole-body vibration are considered important for design of vibration control devices and anthropodynamic surrogates for efficient performance assessments of vibration isolators. In this second part, the reported biodynamic models of the seated body are briefly reviewed together with the different modelling approaches. The models are identified from target functions derived from the measured biodynamic responses, reviewed in the first part of this paper. Relationships between different target functions are discussed together with the merits and limitations of different modelling approaches. Further efforts are needed for developing representative target functions for deriving reliable models for designing engineering interventions and for predicting potential health and comfort effects. © 2020 Inderscience Enterprises Ltd.
引用
下载
收藏
页码:52 / 84
页数:32
相关论文
共 50 条
  • [21] Non-linear dual-axis biodynamic response to vertical whole-body vibration
    Nawayseh, N
    Griffin, MJ
    JOURNAL OF SOUND AND VIBRATION, 2003, 268 (03) : 503 - 523
  • [22] A Review Study on Biodynamic Response of Seated Occupants Exposed to Whole Body Vibration
    Singh, Amandeep
    Singh, Lakhwinder Pal
    Singh, Sarbjit
    Singh, Harwinder
    ADVANCES IN SOCIAL & OCCUPATIONAL ERGONOMICS, AHFE 2017, 2018, 605 : 241 - 249
  • [23] Biodynamic Characteristics of Upper Limb Reaching Movements of the Seated Human Under Whole-Body Vibration
    Kim, Heon-Jeong
    Martin, Bernard J.
    JOURNAL OF APPLIED BIOMECHANICS, 2013, 29 (01) : 12 - 22
  • [24] Whole-body vibration and occupational physical performance: a review
    Robert Savage
    Daniel Billing
    Alistair Furnell
    Kevin Netto
    Brad Aisbett
    International Archives of Occupational and Environmental Health, 2016, 89 : 181 - 197
  • [25] Whole-body vibration and occupational physical performance: a review
    Savage, Robert
    Billing, Daniel
    Furnell, Alistair
    Netto, Kevin
    Aisbett, Brad
    INTERNATIONAL ARCHIVES OF OCCUPATIONAL AND ENVIRONMENTAL HEALTH, 2016, 89 (02) : 181 - 197
  • [26] A review of studies of whole-body vibration perception thresholds
    Matsumoto, Yasunao
    Inst. Noise Control Eng. USA - Int. Congr. Expos. Noise Control Eng., INTER-NOISE, (2827-2834):
  • [27] The application of whole-body vibration in physiotherapy - A narrative review
    Stania, M.
    Juras, G.
    Slomka, K.
    Chmielewska, D.
    Krol, P.
    PHYSIOLOGY INTERNATIONAL, 2016, 103 (02) : 133 - 145
  • [28] Effects of whole-body vibration on driver drowsiness: A review
    Bhuiyan, Mohammed H. U.
    Fard, Mohamad
    Robinson, Stephen R.
    JOURNAL OF SAFETY RESEARCH, 2022, 81 : 175 - 189
  • [29] Effects of whole-body vibration on reproductive physiology in a rat model of whole-body vibration
    Krajnak, K.
    Waugh, S.
    Welcome, D.
    Xu, X. S.
    Warren, C.
    McKinney, W.
    Dong, R. G.
    JOURNAL OF TOXICOLOGY AND ENVIRONMENTAL HEALTH-PART A-CURRENT ISSUES, 2022, 85 (23): : 953 - 971
  • [30] Whole body vibration in sport: a critical review
    Costantino, C.
    Gimigliano, R.
    Olvirri, S.
    Gimigliano, F.
    JOURNAL OF SPORTS MEDICINE AND PHYSICAL FITNESS, 2014, 54 (06): : 757 - 764
12345