Abstract
The paper presents a model of a two-way one-lane road with loading/unloading bays. The developed model is based on the theory of cellular automata. The model reflects the real behaviour of drivers described in the literature and observed in reality. A micro-simulator was developed to present the measurement results. The model was compared with the one-way two-lane road with loading/unloading bays model described in the literature.
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Kijewska, K., Johansen, B.G., Iwan, S.: Analysis of freight transport demand at Szczecin and Oslo area. Transp. Res. Proc. 14, 2900–2909 (2016)
Kijewska, K., Konicki, W., Iwan, S.: Freight transport pollution propagation at urban areas based on Szczecin example. Transp. Res. Proc. 14, 1543–1552 (2016)
Macioszek, E., Staniek, M., Sierpiński, G.: Analysis of trends in development of freight transport logistics using the example of Silesian Province (Poland) - a case study. Transp. Res. Procedia 27, 388–395 (2017)
Macioszek, E.: First and last mile delivery - problems and issues. In: Sierpiński, G. (ed.) AISC 631. Springer, Switzerland (2018). https://doi.org/10.1007/978-3-319-62316-0_12
Łapko, A., Ha̧cia, E.: The importance of the transport accessibility of coastal areas in the development of the Western Pomeranian region. Sci. J. Maritime Univ. Szczecin 51, 78–85 (2017)
Sierpiński, G., Celiński, I., Staniek, M.: The model of modal split organisation in wide urban areas using contemporary telematic systems. In: Proceedings of 3rd International Conference on Transportation Information and Safety. IEEE Explore Digital Library, pp. 277–283 (2015)
Sierpiński, G.: Model of incentives for changes of the modal split of traffic towards electric personal cars. In: Mikulski, J. (ed.) TST 2014. CCIS, vol. 471, pp. 450–460. Springer, Heidelberg (2014). https://doi.org/10.1007/978-3-662-45317-9_48
Macioszek, E.: The comparison of models for follow-up headway at roundabouts. In: Macioszek, E., Sierpiński, G. (eds.) Recent Advances in Traffic Engineering for Transport Networks and Systems. LNNS, vol. 21, pp. 16–26. Springer, Cham (2018). https://doi.org/10.1007/978-3-319-64084-6_2
Staniek, M., Sierpiński, G., Celiński, I.: Shaping environmental friendly behaviour in transport of goods - new tool and education. In: 8th ICERI 2015, Seville, Spain, pp. 118–123 (2015)
Małecki, K., Wa̧tróbski, J.: Cellular automaton to study the impact of changes in traffic rules in a roundabout: a preliminary approach. Appl. Sci. 7(7), 742 (2017)
Iwan, S., et al.: Analysis of the environmental impacts of unloading bays based on cellular automata simulation. Transp. Res. D: Transp. Env. 61(A), 104–117 (2018)
Iwan, S., Małecki, K.: Utilization of cellular automata for analysis of the efficiency of urban freight transport measures based on loading/unloading bays example. Transp. Res. Proc. 25, 1021–1035 (2017)
Fellendorf, M.: VISSIM: a microscopic simulation tool to evaluate actuated signal control including bus priority. In: Proceedings of the 64th Institute of Transportation Engineers Annual Meeting, Dallas, TX, USA, 16–19 October 1994, pp. 1–9, Technical Paper (1994)
Barcelo, J., Ferrer, J.L., Montero, L.: AIMSUN: advanced interactive microscopic simulator for urban networks. User‘s Manual, Departament d ‘Estadística i Investigacio Operativa, UPC (1997)
Krajzewicz, D., Erdmann, J., Behrisch, M., Bieker, L.: Recent development and applications of SUMO-simulation of urban mobility. Int. J. Adv. Syst. Meas. 5, 128–138 (2012)
Nagel, K., Schreckenberg, M.: A cellular automata model for freeway traffic. J. Phys. I(2), 2221–2229 (1992)
Biham, O., Middleton, A.A., Levine, D.: Self-organization and a dynamical transition in traffic-flow models. Phys. Rev. A 46(10), 6124 (1992)
Nagel, K., Wolf, D.E., Wagner, P., Simon, P.M.: Two-lane traffic rules for cellular automata: a systematic approach. Phys. Rev. E 58(2), 1425–1437 (1998)
Chowdhury, D., Schadschneider, A.: Self-organization of traffic jams in cities: effects of stochastic dynamics and signal periods. Phys. Rev. E 59, 1311–1314 (1999)
Chowdhury, D., Santen, L., Schadschneider, A.: Statistical physics of vehicular traffic and some related systems. Phys. Rep. 329, 199–329 (2000)
Małecki, K., Iwan, S.: Development of cellular automata for simulation of the crossroads model with a traffic detection system. In: Mikulski, J. (ed.) TST 2012. CCIS, vol. 329, pp. 276–283. Springer, Heidelberg (2012). https://doi.org/10.1007/978-3-642-34050-5_31
Hoogendoorn, S., Bovy, P.: State-of-the-art of vehicular traffic flow modelling. Proc. IMECH E Part I J. Syst Control Eng. 215(4), 283–303 (2001)
Nagel, K., Paczuski, M.: Emergent traffic jams. Phys. Rev. E 51(4), 2909–2918 (1995)
Schadschneider, A., Schreckenberg, M.: Traffic flow models with ‘slow-to-start’rules. Ann. Phys. 509(7), 541–551 (1997)
Chopard, B., Luthi, P.O., Queloz, P.: Cellular automata model of car traffic in a two-dimensional street network. J. Phys. A 29(10), 2325–2336 (1996)
Małecki, K.: Graph cellular automata with relation-based neighbourhoods of cells for complex systems modelling: a case of traffic simulation. Symmetry 9(12), 322 (2017)
Roche-Cerasi, I.: State of the art report. Urban logistics practices. Green Urban Distribution, Deliverable 2.1. SINTEF Teknologi og samfunn (2012)
Gatta, V., Marcucci, E.: Behavioural implications of non-linear effects on urban freight transport policies: the case of retailers and transport providers in Rome. Case Stud. Transp. Policy 4(1), 22–28 (2016)
Wolfram, S.: A New Kind of Science. Wolfram Media, Champaign (2002)
Mamei, M., Roli, A., Zambonelli, F.: Emergence and control of macro-spatial structures in perturbed cellular automata, and implications for pervasive computing systems. IEEE Trans. Syst. Man Cybern.-Part A: Syst. Hum. 35(3), 337–348 (2005)
Missoum, S., Gürdal, Z., Setoodeh, S.: Study of a new local update scheme for cellular automata in structural design. Struct. Multidiscip. Optim. 29(2), 103–112 (2005)
Wa̧s, J., Sirakoulis, G.C.: Cellular automata applications for research and industry. J. Comput. Sci. 11, 223–225 (2015)
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Małecki, K. (2018). Two-Way Road Cellular Automaton Model with Loading/Unloading Bays for Traffic Flow Simulation. In: Mauri, G., El Yacoubi, S., Dennunzio, A., Nishinari, K., Manzoni, L. (eds) Cellular Automata. ACRI 2018. Lecture Notes in Computer Science(), vol 11115. Springer, Cham. https://doi.org/10.1007/978-3-319-99813-8_20
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DOI: https://doi.org/10.1007/978-3-319-99813-8_20
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