Lecturer in Civil Engineering
Maeda, S., Taylor, M., Anderson, L. C., & McLaughlin, J. (2019, April). Determination of hand-transmitted vibration risk. Poster presented at Occupational Hygiene 2019
Hand-arm vibration syndrome (HAVS) is a debilitating industrial disease induced by exposure to vibrating machinery. As an irreversible condition, monitoring, controlling and r...
Taylor, M. (2019, April). Wearable technology and workplace epidemiology: a practical example from the field of hand-arm vibration. Poster presented at The 12th UK/Ireland 1-day Meeting on Occupational and Environmental Epidemiology
This work investigates the application of wearable technology for the collection of exposure data relevant to the study of Hand Arm Vibration Syndrome. Wearable technology des...
Maeda, S., Taylor, M., Anderson, L., & McLaughlin, J. (2018). Is it efffective to prevent HAVS by using tool vibration declaration values?. In The 26th Japan Conference on Human Response to Vibration Proceedings, 101-111
This study reports the results of an investigation into A(8) based on tool vibration declaration values evaluation effects of hand-transmitted vibration on temporary threshold...
Anderson, L., Taylor, M., Maeda, S., & McLaughlin, J. (2018). Assessing the relationship between the human response to vibration in the vibrotactile threshold shift with HAV exposure determined on the subject. In The 26th Japan Conference on Human Response to Vibration Proceedings, 86-100
Existing risk assessment methodologies are based on fixed tool vibration magnitude emission data (such as tool declaration data or a point in time (typically annually) tool me...