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access icon free FCD data for on-street parking search time estimation

© The Institution of Engineering and Technology
Received 18/07/2017, Accepted 15/02/2018, Revised 24/01/2018, Published 20/02/2018

This study investigates the problem of estimating on-street parking search time employing floating car data (FCD). The parking search path is modelled as a spiral around the destination. Model calibration is based only on data detected by tracked vehicles. The proposed methodology can be used both in real time to support user information and off-line to assess transport plans. In order to demonstrate its effectiveness for advanced transport modelling in urban areas, the results of a real-size application to the city of Rome are presented.

Inspec keywords: traffic control

Other keywords: floating car data; FCD data; on-street parking search time estimation; advanced transport modelling

Subjects: Traffic engineering computing

References

    1. 1)
      • 5. Axhausen, K.W., Polak, J.W., Boltze, M., et al: ‘Effectiveness of the parking guidance information system in Frankfurt and Main’, Traffic Eng. Control, 1994, 35, (5), pp. 304310.
    2. 2)
      • 7. Salomon, I.: ‘Towards a behavioral approach to city-centre parking: the case of Jerusalem's CBD’, Cities, 1986, 3, (3), pp. 200208.
    3. 3)
      • 24. Kaplan, S., Bekhor, S.: ‘Exploring en-route parking type and parking-search route choice: decision making framework and survey design’. Int. Choice Modelling Conf., Leeds, UK, 2011.
    4. 4)
      • 10. Gantelet, E., Lefauconnier, A.: ‘The time looking for a parking space: strategies, associated nuisances and stakes of parking management in France’. Association for European Transport, Strasbourg, France, September 2006.
    5. 5)
      • 14. Van der Waerden, P., Borgers, A.W.J., Timmermans, H.J.P.: ‘Consumer response to the introduction of paid parking in a regional shopping center’. 88th Annual Meeting of the Transportation Research Board, Washington, 2009.
    6. 6)
      • 32. Lim, Y., Kim, H.: ‘A shortest path algorithm for real road network based on path overlap’, J. East. Asia Soc. Transp. Stud., 2005, 6, pp. 14261438.
    7. 7)
      • 12. Yu, S., Li, B., Zhang, Q., et al: ‘An optimal parking space search model based on fuzzy multiple attribute decision making’. Proc. of 10th World Congress on Intelligent Control and Automation, Beijing, China, 2012.
    8. 8)
      • 22. Benenson, I., Martens, K., Birfir, S.: ‘PARKAGENT: an agent-based model of parking in the city’, Comput. Environ. Urban Syst., 2008, 32, pp. 431439.
    9. 9)
      • 27. Cascetta, E.: ‘Transportation systems analysis. Models and applications’ (Springer, Berlin, 2009).
    10. 10)
      • 26. Belloche, S.: ‘On-street parking search time modelling and validation with survey-based data’, Transp. Res. Procedia, 2015, 6, pp. 313324.
    11. 11)
      • 2. Polak, J.W., Vythoulkas, P.: ‘An assessment of the state-of-the-art in the modelling of parking behaviour’. Report 752, Transport Studies Unit, Oxford University, United Kingdom, 1993.
    12. 12)
      • 17. Gallo, M., D'Acierno, L., Montella, B.: ‘A multiplayer model to simulate cruising for parking in urban areas’, Transp. Policy, 2011, 18, pp. 735744.
    13. 13)
      • 30. Cherkassky, B.V., Goldberg, A.V., Radzik, T.: ‘Shortest paths algorithms: theory and experimental evaluation’. Technical Report 93-1480, Computer Science Department, Stanford University, 1993.
    14. 14)
      • 28. Quddus, M.A., Ochieng, W.Y., Noland, R.B.: ‘Current map-matching algorithms for transport applications: state-of-the art and future research directions’, Transp. Res. C, Emerg. Technol., 2007, 15, pp. 312328.
    15. 15)
      • 29. Kim, T., Haghani, A., Kim, H.: ‘Algorithms for one-to-one time dependent shortest path on real networks’. Proc. of TRB Annual Meeting, Washington DC, USA, 2013.
    16. 16)
      • 25. Montini, L., Horni, A., Rieser-Schüssler, N., et al: ‘Searching for parking in GPS data’. 12th Swiss Transport Research Conf., Ascona, 2012.
    17. 17)
      • 9. Axhausen, K.W., Polak, J.: ‘Choice of parking: stated preference approach’, Transportation, 1991, 18, pp. 5981.
    18. 18)
      • 4. Thompson, R.G., Richardson, A.J.: ‘A parking search model’, Transp. Res. A, Policy Pract., 1998, 32, (3), pp. 159170.
    19. 19)
      • 18. Carrese, S., Gori, S., Picano, T.: ‘Relationship between parking location and traffic flows in urban areas’, in Bianco, L., Toth, P. (Ed.): ‘Advanced methods in transportation analysis. Transportation analysis’ (Springer, Berlin, 1996), pp. 183214.
    20. 20)
      • 23. Van der Waerden, P., Timmermans, H., Van Hove, L.: ‘GPS data and car drivers’ parking search behavior in the city of Turnhout, Belgium’. Proceeedings of GIS Ostrava 2014 – Geoinformatics for Intelligent Transportation, Ostrava, 2014.
    21. 21)
      • 6. Bradley, M., Layzell, A.: ‘Parking behavior in a suburban town-centre: an analysis of town surveys in Kingston-Upon-Thames’. Report 354, Transport Studies Unit, Oxford University, United Kingdom, 1986.
    22. 22)
      • 31. Zhan, F.B.: ‘Three fastest shortest path algorithms on real road networks: data structures and procedures’, J. Geogr. Inf. Decis. Anal., 1997, 1, (1), pp. 6982.
    23. 23)
      • 16. Horni, A., Montini, L., Waraich, R.A., et al: ‘An agent-based cellular automaton cruising-for-parking simulation’. Proc. 13th Int. Conf. on Travel Behaviour Research, Toronto, Canada, 2012.
    24. 24)
      • 3. Brooke, S., Ison, S., Quddus, M.: ‘On-street parking search review and future research direction’, Transp. Res. Rec., 1998, 2469, pp. 6575.
    25. 25)
      • 11. Hess, S., Polak, J.W.: ‘An analysis of parking behaviour using discrete choice models calibrated on SP datasets’. ERSA Conf. papers, European Regional Science Association, Vienna, Austria, 2004, p. 60.
    26. 26)
      • 21. Dieussaert, K., Aerts, K., Steenberghen, T., et al: ‘SUSTAPARK: an agent-based model for simulating parking search’. 12th AGILE Int. Conf. on Geographic Information Science, Hannover, Germany, 2009.
    27. 27)
      • 19. Young, W.: ‘PARKSIM/1: a simulation model of driver behaviour in parking lots’, Traffic Eng. Control, 1986, 27, (12), pp. 606613.
    28. 28)
      • 20. Young, W., Thompson, R.G.: ‘PARKSIM/1: a computer graphics approach for parking lot layouts’, Traffic Eng. Control, 1987, 28, (3), pp. 120123.
    29. 29)
      • 15. Leiser, D., Stern, E.: ‘Determinants of subjective time estimates in simulated urban driving’, Transp. Res. A, Policy Pract., 1988, 22, (3), pp. 175182.
    30. 30)
      • 8. Fletcher, D.: ‘A five-year study of effects of fines, gender, race, and age on illegal parking in spaces reserved for people with disabilities’, Rehabil. Psychol., 1995, 40, (3), pp. 203210.
    31. 31)
      • 1. ‘Google Maps. Information on parking difficulty’. Available at https://www.blog.google/products/maps/know-you-go-parking-difficulty-google-maps/, accessed December 2017.
    32. 32)
      • 13. Marsden, G.: ‘The evidence base for parking policies – a review’, Transp. Policy, 2006, 13, (6), pp. 447457.
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