增加的骨传导振动减少了自动驾驶汽车中的晕动病

IF 0.5 Q4 ERGONOMICS

International Journal of Human Factors and Ergonomics Pub Date : 2019-01-01 DOI:10.1504/ijhfe.2019.10026994

S. Salter, C. Diels, S. Kanarachos, C. D. Thake, Paul Herriotts, D. Depireux

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引用次数: 3

摘要

晕车在许多交通工具中都很常见;它影响了大多数在某个时间出现某些症状的人群。自动驾驶汽车(AV)提高了工作效率，但也增加了晕动病的发病率。对付晕动病有不同程度的缓解方法。骨传导振动(BCV)应用于头部是一个证明的晕动病缓解。目前尚不清楚振动程度是否重要。29名参与者佩戴BCV设备，在正常的城市驾驶中进行“凝视”非驾驶相关任务(NDRT)。高低振动设置是随机选择的，参与者之间的座位位置也是随机选择的。25名参与者成功地完成了实验。研究发现，当设备被应用于头部时，当高度敏感的参与者设置为高比低设置时，恶心的时间增加了1.6倍。BCV没有提高任务绩效。

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Increased bone conducted vibration reduces motion sickness in automated vehicles

Motion sickness is common within many forms of transport; it affects most of the population who experience some symptoms at some time. Automated vehicles (AV) offer productivity benefits but also increased incidence of motion sickness. There are mitigation methods with varying degrees of effectiveness to combating motion sickness. Bone conductive vibration (BCV) applied to the head is a proven motion sickness mitigation. It is not known if the level of vibration is important. Twenty-nine participants were subjected to normal urban driving whilst undertaking a 'gaze down' non-driving related task (NDRT) within an AV cabin whilst wearing the BCV device. High and low vibration settings were randomly chosen as were the seating positions in a between participants design. Twenty-five participants successfully completed the experiment. It was found that when the device is applied to the head, the time to nausea increased by up to a factor of 1.6 when set to high over low settings for highly susceptible participants. BCV did not improve task performance.

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来源期刊

International Journal of Human Factors and Ergonomics Social Sciences-Human Factors and Ergonomics

CiteScore

1.10

自引率

0.00%

发文量

期刊介绍： IJHFE publishes high quality international interdisciplinary peer-reviewed manuscripts covering ergonomics and human factors in the design, planning, development and management of technical and social systems for work or leisure, including technical systems, equipment, products and the organisation of work. Topics covered include Environmental and physical ergonomics Human-machine systems design/tool/equipment design Eliciting human requirements on technology Usability/comfort/pleasure/cognitive engineering of human-technology interfaces Anthropometrics/design for people with disabilities Design of critical systems/equipment for extreme environments Human performance measurement and modelling Humans in transportation systems/technologically complex systems Cognitive ergonomics, information processing, information/multimedia design, expert systems Acceptability and effectiveness of technology change Training design, organisational design and psychosocial factors Management of the complex participation of people in their environment Human-centred/goal-driven design of technical/organisational systems. Topics covered include: -Environmental and physical ergonomics -Human-machine systems design/tool/equipment design -Eliciting human requirements on technology -Usability/comfort/pleasure/cognitive engineering of human-technology interfaces -Anthropometrics/design for people with disabilities -Design of critical systems/equipment for extreme environments -Human performance measurement and modelling -Humans in transportation systems/technologically complex systems -Cognitive ergonomics, information processing, information/multimedia design, expert systems -Acceptability and effectiveness of technology change -Training design, organisational design and psychosocial factors -Management of the complex participation of people in their environment -Human-centred/goal-driven design of technical/organisational systems