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access icon openaccess Experimental study of the human factors when riding an automated wheelchair: supervision and acceptability of the automated system

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References

    1. 1)
      • 1. Cabinet Office: ‘White paper on traffic safety in Japan’, 2006, p. 11.
        . , 11
    2. 2)
      • B. Balcik , B.M. Beamon , K. Smilowitz .
        2. Balcik, B., Beamon, B.M., Smilowitz, K.: ‘Last mile distribution in humanitarian relief’, J. Intell. Transp. Syst., 2008, 12, (2), pp. 5163.
        . J. Intell. Transp. Syst. , 2 , 51 - 63
    3. 3)
      • 3. Mineta Transportation Institute: ‘Using bicycles for the first and last mile of a commute’. Report No. S-09-02, 2009.
        .
    4. 4)
      • J. Chong , B. Qin , B. Bandyopadhyay .
        4. Chong, J., Qin, B., Bandyopadhyay, B., et al: ‘Automated personal vehicle for the first- and last-mile transportation services’. IEEE 5th Int. Conf. ProCybernetics and Intelligent Systems (CIS), 2008, vol. 2, issue 6, pp. 267272.
        . IEEE 5th Int. Conf. ProCybernetics and Intelligent Systems (CIS) , 267 - 272
    5. 5)
      • L. Song , T. Cherrett , F. McLeod .
        5. Song, L., Cherrett, T., McLeod, F., et al: ‘Addressing the last mile problem-transport impacts of collection and delivery points’, J. Transp. Res. Board, 2009, 2097, pp. 918.
        . J. Transp. Res. Board , 9 - 18
    6. 6)
      • K. Ping , Y. Wong .
        6. Ping, K., Wong, Y.: ‘Comparing pedestrians’ needs and behaviours in different land use environments’, J. Transp. Res. Board, 2013, 26, pp. 4350.
        . J. Transp. Res. Board , 43 - 50
    7. 7)
      • P. DeMaio .
        7. DeMaio, P.: ‘Bike-sharing: history, impacts, models of provision, and future’, J. Public Transp., 2009, 12, (4), pp. 4156.
        . J. Public Transp. , 4 , 41 - 56
    8. 8)
      • R.D. Jackson .
        8. Jackson, R.D.: ‘Robotics and its role in helping disabled people’, Eng. Sci. Educ. J., 1993, 2, (6), pp. 267272.
        . Eng. Sci. Educ. J. , 6 , 267 - 272
    9. 9)
      • J. Kuruparan .
        9. Kuruparan, J.: ‘Semiautomated low cost wheelchair for elderly and disabled people’. Proc. Int. Conf. Information and Automation, 2006, pp. 104108.
        . Proc. Int. Conf. Information and Automation , 104 - 108
    10. 10)
      • S. Tsugawa , S. Kato , N. Hashimoto .
        10. Tsugawa, S., Kato, S., Hashimoto, N., et al: ‘Elderly driver assistance systems with cooperation between vehicles: the concept and experiments’. Proc. Intelligent Vehicles Symp., 2007, pp. 668673.
        . Proc. Intelligent Vehicles Symp. , 668 - 673
    11. 11)
      • N. Hashimoto , K. Tomita , A. Boyali .
        11. Hashimoto, N., Tomita, K., Boyali, A., et al: ‘Surveillance of capability, acceptability, and usability of riding an autonomous wheelchair system in a public area’. Proc. Transportation Research Board Annual Meeting, 2016.
        . Proc. Transportation Research Board Annual Meeting
    12. 12)
      • E. May , R. Garrett , A. Ballantyne .
        12. May, E., Garrett, R., Ballantyne, A.: ‘Being mobile: electric mobility-scooters and their use by older people’, Ageing Soc., 2010, 30, (7), pp. 12191237.
        . Ageing Soc. , 7 , 1219 - 1237
    13. 13)
      • F. Sua , M. Bellb .
        13. Sua, F., Bellb, M.: ‘Transport for older people: characteristics and solutions’, Res. Transp. Econ., 2009, 25, (1), pp. 4655.
        . Res. Transp. Econ. , 1 , 46 - 55
    14. 14)
      • A. Boyali , N. Hashimoto .
        14. Boyali, A., Hashimoto, N.: ‘Block-sparse representation classification based gesture recognition approach for a robotic wheelchair’. Proc. Intelligent Vehicles Symp., 2014, pp. 11331138.
        . Proc. Intelligent Vehicles Symp. , 1133 - 1138
    15. 15)
      • N. Hashimoto , Y. Takinami , O. Matsumoto .
        15. Hashimoto, N., Takinami, Y., Matsumoto, O.: ‘An experimental study on vehicle behaviour to wheelchairs and standing-type vehicles at intersection’. Proc. Int. Conf. ITS Telecommunication, 2013, pp. 350355.
        . Proc. Int. Conf. ITS Telecommunication , 350 - 355
    16. 16)
      • R. Hoeger , A. Amditis , M. Kunert .
        16. Hoeger, R., Amditis, A., Kunert, M., et al: ‘Highly automated vehicles for intelligent transport: HAVEit approach’. Proc. 15th ITS World Congress, 2008.
        . Proc. 15th ITS World Congress
    17. 17)
      • S. Shladover .
        17. Shladover, S.: ‘Challenges to evaluation of CO2 impacts of intelligent transportation systems’. Proc. IEEE Integrated and Sustainable Transportation System, 2011, pp. 189194.
        . Proc. IEEE Integrated and Sustainable Transportation System , 189 - 194
    18. 18)
      • G. Fitch , R. Kiefer , J. Hankey .
        18. Fitch, G., Kiefer, R., Hankey, J., et al: ‘Toward developing an approach for alerting drivers to the direction of a crash threat’, Hum. Factors, 2007, 49, (4), pp. 710720.
        . Hum. Factors , 4 , 710 - 720
    19. 19)
      • M. Omae , N. Hashimoto , T. Sugamoto .
        19. Omae, M., Hashimoto, N., Sugamoto, T., et al: ‘Measurement of driver's reaction time to failure of steering controller during automatic driving’, Rev. Automot. Eng., 2005, 26, (2), pp. 213215.
        . Rev. Automot. Eng. , 2 , 213 - 215
    20. 20)
      • 20. Tsukuba Designated Zone Council. Available at http://www.rt-tsukuba.jp/council/ (in Japanese), accessed September 2017.
        .
    21. 21)
      • 21. US.DOT. Available at http://www.its.dot.gov/automated_vehicle/index.htm, accessed September 2017.
        .
    22. 22)
      • 22. ITS Japan. Available at http://www.its-jp.org/english/files/2015/04/SIP_Worlshop2015_leaflets_e_20150326.pdf, accessed September 2017.
        .
    23. 23)
      • N. Hashimoto , S. Kato , S. Tsugawa .
        23. Hashimoto, N., Kato, S., Tsugawa, S.: ‘Gap acceptance on car following for aerodynamic drag reduction -relationships among gap distance, vehicle types, and driver characteristics’, IEICE Trans. Fundam. Electron. Commun. Comput. Sci., 2015, 98, (1), pp. 267274.
        . IEICE Trans. Fundam. Electron. Commun. Comput. Sci. , 1 , 267 - 274
    24. 24)
      • I. Rezazadeh , M. Firoozabadi , H. Hu .
        24. Rezazadeh, I., Firoozabadi, M., Hu, H., et al: ‘Co-adaptive and affective human-machine interface for improving training performances of virtual myoelectric forearm prosthesis’, IEEE Trans. Affective Comput., 2012, 3, (3), pp. 285297.
        . IEEE Trans. Affective Comput. , 3 , 285 - 297
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