Anatomical locations for capturing magnitude differences in foot-transmitted vibration exposure, determined using multiple correspondence analysis

Goggins, Katie A.; Oddson, Bruce E.; Lievers, W. Brent; Eger, Tammy R.

Affiliations

¹Bharti School of Engineering, Laurentian University, Sudbury, Canada

²Centre for Research in Occupational Safety and Health, Laurentian University, Sudbury, Canada

³Laurentian Research Institute in Aging, Laurentian University, Sudbury, Canada

⁴School of Human Kinetics, Laurentian University, Sudbury, Canada

Abstract and keywords

To facilitate research and safety studies, it is desirable to identify the minimum number of measurement points needed to characterize the biodynamic response of the foot to vibration exposure. In previous experiments, transmissibility measurements were taken at 24 anatomical locations on the foot when 21 participants were standing with their centre of pressure (COP) in a natural, forward and backward location. Multiple correspondence analysis was performed using the peak transmissibility magnitudes from these data in order to identify clusters of behaviour that might be used to reduce the total number of measurement locations. Peak transmissibility was analysed based on two magnitude thresholds: at 2.0 (100% amplification of the input signal), and at 2.5 (150% amplification). Results indicate that transmissibility measurements at the nail bed of the first phalange (T1P1), the head of first metatarsal (T1P3), the head of second metatarsal (M1), and the lateral malleolus (L4) may be sufficient to effectively measure foot-transmitted vibration across the range of COP locations analysed (natural, forward and backward). A reduced measurement set for capturing the biodynamic response to foot-transmitted vibration exposure will allow for more practical laboratory and field measurements, reducing equipment set-up and exposure times for participants/workers.

Keywords: Foot-transmitted vibration; standing vibration; vibration-induced white-foot; measurement locations; ergonomics

Links

DOI: 10.1080/1463922X.2020.1731623

WoS: 000519877500001

History

Received: 2019-09-05

Accepted: 2020-02-13

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Cited By (4)

Year	Entry
2021	Goggins KA, Oddson BE, Lievers WB, Eger TR. Identifying landmarks for foot-transmitted vibration measurement based on two data analysis methods. In: Proceedings of the 8th American Conference on Human Vibration. June 23-25, 2021; Online due to COVID-19.
2021	Goggins KA, Chadefaux D, Tarabini M, Arsenault M, Lievers WB, Eger T. Four degree-of-freedom lumped parameter model of the foot-ankle system exposed to vertical vibration from 10 to 60 Hz with varying centre of pressure conditions. Ergonomics. 2021;64(8):1002-1017.
2022	Rosmadi AF, Shaharudin SM, Rajoo M, Tarmizi RA, Samsudin MS. Mapping of students’ academic performance in online learning environment during pandemic using multiple correspondence analysis. Int J Inf Educ Technol. 2022.
2021	Vance B, Goggins KA, Godwin A, Oddson BE, Eger TR. Evaluation of the inter-rater and intra-rater reliability of a protocol for the measurement of foot-transmitted vibration. Theor Issues Egron Sci. 2021;22(2):218-235.