A Case Study Of Whole-Body Vibration Exposures Associated With Ordinary Passenger And Recreational Vehicles - Introduction: Proceedings Of The First American Conference On Human Vibration
Measurements and analyses were conducted of whole-body vibration aboard seven commercially available passenger and/or recreational vehicles: sedan; sport-utility vehicle (SUV); pickup truck; moving truck; motorcycle; all-terrain vehicle (ATV); and boat. The purpose of the testing was to measure and...
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ftcdc:oai:example.org:cdc:8407 2023-05-15T18:40:47+02:00 A Case Study Of Whole-Body Vibration Exposures Associated With Ordinary Passenger And Recreational Vehicles - Introduction: Proceedings Of The First American Conference On Human Vibration Gibson, Robert G. Gibbons, Joel D. http://stacks.cdc.gov/view/cdc/8407/ unknown http://stacks.cdc.gov/view/cdc/8407/ NIOSH ftcdc 2017-04-11T13:11:04Z Measurements and analyses were conducted of whole-body vibration aboard seven commercially available passenger and/or recreational vehicles: sedan; sport-utility vehicle (SUV); pickup truck; moving truck; motorcycle; all-terrain vehicle (ATV); and boat. The purpose of the testing was to measure and assess whole-body vibration exposure in a range of typical vehicle environments in order to gain understanding of typical exposure levels characteristic of activities of daily living. Vehicle models tested (and model year) were: Ford Taurus (1995); Jeep Cherokee Sport (2000); Toyota Tundra SR5 (2002); Ford F-350 (1997); Harley-Davidson Electra Glide Classic (2004); Yamaha Kodiak 400 4x4; and Steiger Craft Model 21 Montauk. All vehicles were tested with their standard factory-installed seats and were operated under a range of normal operating conditions and speeds typical of intended vehicle use. Methods The measurement, processing, analysis, and exposure assessment methods follow the guidance of generally accepted, national and international consensus standards relevant to the evaluation of whole-body vibration, including ISO 2631-1 [1] and ANSI S3.18 [2]. Seats were instrumented with low-mass triaxial accelerometers mounted in seat pads. Accelerometers used in the test are specified to have flat frequency response over the frequency range of 0.5 to 80 Hz, and all accelerometers were recently calibrated traceable to the National Institute of Standards and Technology (NIST). Seat pads were installed following guidance in the relevant standards [1, 2], with sensitive axes of the accelerometers following the standard coordinate system with respect to the seated occupant. (The x-axis represents fore-aft motion; the y-axis represents side-to-side motion; and the z-axis represents vertical motion with respect to the occupant.) Vibration data processing and analysis, including filtering, sampling, frequency-weighting, averaging, summation, and determination of basic and additional metrics followed procedures in the relevant standards [1, 2]. Digitized time series data were acquired and stored using a PC-based data acquisition system. Whole-body vibration exposure analyses were conducted via post-processing. During data processing, recorded periods of seat acceleration that were identified and verified as resulting from occupant-induced motion rather than vehicle motion were excluded prior to exposure analysis. The basic evaluation metric for whole-body vibration is the frequency-weighted root-mean-square (r.m.s.) acceleration, aw. The primary additional evaluation metric is the fourth-power Other/Unknown Material Tundra CDC Stacks (Centers for Disease Control and Prevention) Davidson ENVELOPE(-44.766,-44.766,-60.766,-60.766) The ''Y'' ENVELOPE(-112.453,-112.453,57.591,57.591) |
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NIOSH A Case Study Of Whole-Body Vibration Exposures Associated With Ordinary Passenger And Recreational Vehicles - Introduction: Proceedings Of The First American Conference On Human Vibration |
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NIOSH |
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Measurements and analyses were conducted of whole-body vibration aboard seven commercially available passenger and/or recreational vehicles: sedan; sport-utility vehicle (SUV); pickup truck; moving truck; motorcycle; all-terrain vehicle (ATV); and boat. The purpose of the testing was to measure and assess whole-body vibration exposure in a range of typical vehicle environments in order to gain understanding of typical exposure levels characteristic of activities of daily living. Vehicle models tested (and model year) were: Ford Taurus (1995); Jeep Cherokee Sport (2000); Toyota Tundra SR5 (2002); Ford F-350 (1997); Harley-Davidson Electra Glide Classic (2004); Yamaha Kodiak 400 4x4; and Steiger Craft Model 21 Montauk. All vehicles were tested with their standard factory-installed seats and were operated under a range of normal operating conditions and speeds typical of intended vehicle use. Methods The measurement, processing, analysis, and exposure assessment methods follow the guidance of generally accepted, national and international consensus standards relevant to the evaluation of whole-body vibration, including ISO 2631-1 [1] and ANSI S3.18 [2]. Seats were instrumented with low-mass triaxial accelerometers mounted in seat pads. Accelerometers used in the test are specified to have flat frequency response over the frequency range of 0.5 to 80 Hz, and all accelerometers were recently calibrated traceable to the National Institute of Standards and Technology (NIST). Seat pads were installed following guidance in the relevant standards [1, 2], with sensitive axes of the accelerometers following the standard coordinate system with respect to the seated occupant. (The x-axis represents fore-aft motion; the y-axis represents side-to-side motion; and the z-axis represents vertical motion with respect to the occupant.) Vibration data processing and analysis, including filtering, sampling, frequency-weighting, averaging, summation, and determination of basic and additional metrics followed procedures in the relevant standards [1, 2]. Digitized time series data were acquired and stored using a PC-based data acquisition system. Whole-body vibration exposure analyses were conducted via post-processing. During data processing, recorded periods of seat acceleration that were identified and verified as resulting from occupant-induced motion rather than vehicle motion were excluded prior to exposure analysis. The basic evaluation metric for whole-body vibration is the frequency-weighted root-mean-square (r.m.s.) acceleration, aw. The primary additional evaluation metric is the fourth-power |
| author2 |
Gibson, Robert G. Gibbons, Joel D. |
| title |
A Case Study Of Whole-Body Vibration Exposures Associated With Ordinary Passenger And Recreational Vehicles - Introduction: Proceedings Of The First American Conference On Human Vibration |
| title_short |
A Case Study Of Whole-Body Vibration Exposures Associated With Ordinary Passenger And Recreational Vehicles - Introduction: Proceedings Of The First American Conference On Human Vibration |
| title_full |
A Case Study Of Whole-Body Vibration Exposures Associated With Ordinary Passenger And Recreational Vehicles - Introduction: Proceedings Of The First American Conference On Human Vibration |
| title_fullStr |
A Case Study Of Whole-Body Vibration Exposures Associated With Ordinary Passenger And Recreational Vehicles - Introduction: Proceedings Of The First American Conference On Human Vibration |
| title_full_unstemmed |
A Case Study Of Whole-Body Vibration Exposures Associated With Ordinary Passenger And Recreational Vehicles - Introduction: Proceedings Of The First American Conference On Human Vibration |
| title_sort |
case study of whole-body vibration exposures associated with ordinary passenger and recreational vehicles - introduction: proceedings of the first american conference on human vibration |
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http://stacks.cdc.gov/view/cdc/8407/ |
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ENVELOPE(-44.766,-44.766,-60.766,-60.766) ENVELOPE(-112.453,-112.453,57.591,57.591) |
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Davidson The ''Y'' |
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Davidson The ''Y'' |
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Tundra |
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Tundra |
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http://stacks.cdc.gov/view/cdc/8407/ |
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