Study on the Display Positions for the Haptic Rotary Device-Based Integrated In-Vehicle Infotainment Interface
Integrated multimodal systems is one promising direction to improve human-vehicle interaction. In order to create intelligent human-vehicle interfaces and reduce visual load during secondary tasks, combining a haptic rotary device and a graphic display will provide one practical solution. However, i...
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| Veröffentlicht in: | IEEE transactions on intelligent transportation systems 2014-06, Vol.15 (3), p.1234-1245 |
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| container_title | IEEE transactions on intelligent transportation systems |
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| creator | Renran Tian Lingxi Li Rajput, Vikram S. Witt, Gerald J. Duffy, Vincent G. Yaobin Chen |
| description | Integrated multimodal systems is one promising direction to improve human-vehicle interaction. In order to create intelligent human-vehicle interfaces and reduce visual load during secondary tasks, combining a haptic rotary device and a graphic display will provide one practical solution. However, in literature, the proper display position for the haptic rotary device is not fully investigated. In this paper, one experimental infotainment system is studied (including a haptic rotary control device and a graphic display) to evaluate the proper display position. Measurements used include task completion time, reaction to road events, lane/velocity keeping during secondary tasks, and user preference. Three display positions are considered: high mounted position, cluster position, and center stack position. The results show that, with increased on-road and off-road visual loads, the cluster display position can reduce lane position deviation significantly compared to high mounted and center stack positions. In addition, the high mounted and cluster display positions are better toward two different road events, including strong wind gust and extreme deceleration of the lead car. |
| doi_str_mv | 10.1109/TITS.2014.2298464 |
| format | Article |
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In order to create intelligent human-vehicle interfaces and reduce visual load during secondary tasks, combining a haptic rotary device and a graphic display will provide one practical solution. However, in literature, the proper display position for the haptic rotary device is not fully investigated. In this paper, one experimental infotainment system is studied (including a haptic rotary control device and a graphic display) to evaluate the proper display position. Measurements used include task completion time, reaction to road events, lane/velocity keeping during secondary tasks, and user preference. Three display positions are considered: high mounted position, cluster position, and center stack position. The results show that, with increased on-road and off-road visual loads, the cluster display position can reduce lane position deviation significantly compared to high mounted and center stack positions. 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In order to create intelligent human-vehicle interfaces and reduce visual load during secondary tasks, combining a haptic rotary device and a graphic display will provide one practical solution. However, in literature, the proper display position for the haptic rotary device is not fully investigated. In this paper, one experimental infotainment system is studied (including a haptic rotary control device and a graphic display) to evaluate the proper display position. Measurements used include task completion time, reaction to road events, lane/velocity keeping during secondary tasks, and user preference. Three display positions are considered: high mounted position, cluster position, and center stack position. The results show that, with increased on-road and off-road visual loads, the cluster display position can reduce lane position deviation significantly compared to high mounted and center stack positions. In addition, the high mounted and cluster display positions are better toward two different road events, including strong wind gust and extreme deceleration of the lead car.</description><subject>Data collection</subject><subject>Haptic interfaces</subject><subject>Haptic rotary device</subject><subject>human-vehicle interaction</subject><subject>in-vehicle infotainment interfaces</subject><subject>multimodality</subject><subject>performance and preference</subject><subject>Roads</subject><subject>Safety</subject><subject>Vehicles</subject><subject>Visualization</subject><issn>1524-9050</issn><issn>1558-0016</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2014</creationdate><recordtype>article</recordtype><sourceid>RIE</sourceid><recordid>eNo9kE9PAjEQxRujiYh-AONlE8-L_d_tUUGFhEQj6HVT2lkpgV1siwnf3l0gnuZl5vdmMg-hW4IHhGD9MJ_MZwOKCR9Qqgsu-RnqESGKHGMizztNea6xwJfoKsZV2-WCkB6qZ2nn9llTZ2kJ2cjH7drss_cm-uSbOmZVEw6Tsdkmb7OPJpmwz0bw6y3kTyaCyyZ1gu9g0kHmX7D0dg2trFrW1xuo0wEJlbFwjS4qs45wc6p99PnyPB-O8-nb62T4OM0t1SzlrMLMKkWZcZXRktKCkYWzmlq10NqCWyhliCKGMVoAN0YKbCsHQknpgDvWR_fHvdvQ_OwgpnLV7ELdniyJ4BJjhVXRUuRI2dDEGKAqt8Fv2gdLgssu1rKLtexiLU-xtp67o8cDwD8vFcNaSPYHO0x0tw</recordid><startdate>20140601</startdate><enddate>20140601</enddate><creator>Renran Tian</creator><creator>Lingxi Li</creator><creator>Rajput, Vikram S.</creator><creator>Witt, Gerald J.</creator><creator>Duffy, Vincent G.</creator><creator>Yaobin Chen</creator><general>IEEE</general><general>The Institute of Electrical and Electronics Engineers, Inc. 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In order to create intelligent human-vehicle interfaces and reduce visual load during secondary tasks, combining a haptic rotary device and a graphic display will provide one practical solution. However, in literature, the proper display position for the haptic rotary device is not fully investigated. In this paper, one experimental infotainment system is studied (including a haptic rotary control device and a graphic display) to evaluate the proper display position. Measurements used include task completion time, reaction to road events, lane/velocity keeping during secondary tasks, and user preference. Three display positions are considered: high mounted position, cluster position, and center stack position. The results show that, with increased on-road and off-road visual loads, the cluster display position can reduce lane position deviation significantly compared to high mounted and center stack positions. 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| subjects | Data collection Haptic interfaces Haptic rotary device human-vehicle interaction in-vehicle infotainment interfaces multimodality performance and preference Roads Safety Vehicles Visualization |
| title | Study on the Display Positions for the Haptic Rotary Device-Based Integrated In-Vehicle Infotainment Interface |
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