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Development of the Driving Simulation System MOVIC-T4 and Its Validation Using Field Driving Data 被引量:2

Development of the Driving Simulation System MOVIC-T4 and Its Validation Using Field Driving Data
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摘要 Underground urban expressways are a possibility for solving many existing transportation-related problems, such as traffic congestion in high density areas and the division of neighborhoods due to elevated roadways. However, they may also pose high risks regarding traffic safety. Therefore, it is important for a pre-analysis of traffic safety to be made. This paper describes recent efforts to develop a driving simulation system, MOVIC-T4, for traffic safety analysis of underground urban expressways. In order to develop a small portable simulator, a small-sized motion-base with two-degrees-of-freedom is used to duplicate acceleration cueing together with a head-mounted-display (HMD) for the visual system. An overview of this system is given and the reliability of driving data obtained from the experiments using MOVIC-T4 is discussed through a validation study using field driving data. The results of validation indicate that the perceived speed distance headway, and physiological data in the simulator show the almost same trend as that in the real world, but larger decelerations tend to be produced in the simulator. Underground urban expressways are a possibility for solving many existing transportation-related problems, such as traffic congestion in high density areas and the division of neighborhoods due to elevated roadways. However, they may also pose high risks regarding traffic safety. Therefore, it is important for a pre-analysis of traffic safety to be made. This paper describes recent efforts to develop a driving simulation system, MOVIC-T4, for traffic safety analysis of underground urban expressways. In order to develop a small portable simulator, a small-sized motion-base with two-degrees-of-freedom is used to duplicate acceleration cueing together with a head-mounted-display (HMD) for the visual system. An overview of this system is given and the reliability of driving data obtained from the experiments using MOVIC-T4 is discussed through a validation study using field driving data. The results of validation indicate that the perceived speed distance headway, and physiological data in the simulator show the almost same trend as that in the real world, but larger decelerations tend to be produced in the simulator.
作者 Terumitsu Hirata Tetsuo Yai Tsuyoshi Takagawa
机构地区 Institute for Transport Policy Studies Department of Built Environment Trion Corporation
出处 《Tsinghua Science and Technology》 SCIE EI CAS 2007年第2期141-150,共10页 清华大学学报(自然科学版(英文版)
基金 Supported by Ministry of Land, Infrastructure and Transport, Japan Society of the Promotion of Science and Mitsui Sumitomo Insurance Welfare Foundation
关键词 driving simulation system motion-base head-mounted-display VALIDATION underground urban expressway driving simulation system motion-base head-mounted-display validation underground urban expressway
分类号 U491 [交通运输工程—交通运输规划与管理]
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参考文献10

  • 1Kato M.An analysis on traffic accidents of highway[].The Japanese Journal of Ergonomics.1980
  • 2NADS at University Iowa Website. http://www.nads- sc.uiowa.edu/ .
  • 3Hirata T,,Yamaguchi K,Yai T,Takagawa T.Development of driving simulation system MOVIC-T4 and its perform- ance evaluation[].The Journal of Japan Society of Traffic Engineers.2004
  • 4Recarte M A,Nunes L M.Perception of speed in an auto- mobile: Estimation and production[].Journal of Experimen- tal Psychology: Applied.1996
  • 5Hirata T,Yai T.An analysis of driver’s awareness level and support system while driving in long urban expressway tunnel[].Proceedings of the th Transportation Re- search Board Annual Meeting.2005
  • 6Godley A T,Triggs T J,Fildes B N.Driving simulator validation for speed research[].Accident Analysis and Pre- vention.2002
  • 7T?rnros J.Driving behaviour in a real and a simulated road tunnel—A validation study[].Accident Analysis and Preven- tion.1998
  • 8Blaauw G J.Driving experience and task demands in simulator and instrumented car: A validation study[].Human Factors.1982
  • 9Nishimura C.Traffic safety from a viewpoint of car driv- ers’ arousal level[].IATSS Review.1993
  • 10Hirata T,Yai T,Takagawa T.Development and calibration of a versatile driving simulation system “MOVIC-T4” for underground urban expressway traffic safety analysis[].Proceedings of the th Transportation Research Board Annual Meeting.2005

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  • 5熊有伦.机器人技术基础[M].武汉:华中科技大学出版社,2010.
  • 6KATZOURAKIS D I, ABBINK D A, HAPPEE R, et al. Steering force feedback for human machine interface automotive experiments [J]. IEEE Transactions on In- strumentation and Measurement, 2011, 60( 1 ) : 32 - 43.
  • 7HEYDINGER G J, SALAANI M K, GARROTT W R, et al. Vebicle dynamics modelling for the national ad vanced driving simulator[J]. Journal of Automobile Engineering, 2002, 216(D4): 307-318.
  • 8PRESAGIS. Vega Prime Solutions[EB/OL]. http: // www. presagis, com/solutions/military_groundvehicle_ simulation/. 2011.
  • 9COSSALTER V, LOT R, MASSARO M, et al. Devel- and validation of an advanced motorcycle riding or[J]. Journal of Automobile Engineering, 2011, 225:705 - 720.
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Tsinghua Science and Technology
2007年 第2期

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