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http://dx.doi.org/10.12989/was.2011.14.6.517

Effect of low frequency motion on the performance of a dynamic manual tracking task  

Burton, Melissa D. (BMT Fluid Mechanics)
Kwok, Kenny C.S. (School of Engineering, University of Western Sydney)
Hitchcock, Peter A. (CLP Power Wind/Wave Tunnel Facility (WWTF), The Hong Kong University of Science and Technology (HKUST))
Publication Information
Wind and Structures / v.14, no.6, 2011 , pp. 517-536 More about this Journal
Abstract
The assessment of wind-induced motion plays an important role in the development and design of the majority of today's structures that push the limits of engineering knowledge. A vital part of the design is the prediction of wind-induced tall building motion and the assessment of its effects on occupant comfort. Little of the research that has led to the development of the various international standards for occupant comfort criteria have considered the effects of the low-frequency motion on task performance and interference with building occupants' daily activities. It has only recently become more widely recognized that it is no longer reasonable to assume that the level of motion that a tall building undergoes in a windstorm will fall below an occupants' level of perception and little is known about how this motion perception could also impact on task performance. Experimental research was conducted to evaluate the performance of individuals engaged in a manual tracking task while subjected to low level vibration in the frequency range of 0.125 Hz-0.50 Hz. The investigations were carried out under narrow-band random vibration with accelerations ranging from 2 milli-g to 30 milli-g (where 1 milli-g = 0.0098 $m/s^2$) and included a control condition. The frequencies and accelerations simulated are representative of the level of motion expected to occur in a tall building (heights in the range of 100 m -350 m) once every few months to once every few years. Performance of the test subjects with and without vibration was determined for 15 separate test conditions and evaluated in terms of time taken to complete a task and accuracy per trial. Overall, the performance under the vibration conditions did not vary significantly from that of the control condition, nor was there a statistically significant degradation or improvement trend in performance ability as a function of increasing frequency or acceleration.
Keywords
tall building; wind-induced motion; manual tracking task; occupant comfort;
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