MD-UTS: Um Modelo para Desenvolvimento de Sistemas Ubíquos de Transporte
Resumo
O uso da computação móvel e ubíqua tem sido estimulada pela grande difusão dos dispositivos móveis, redes sem fio e sistemas de localização. Nesse contexto, diversas aplicações estão surgindo em diferentes áreas, como educação, entretenimento, comércio e transportes. Esse artigo propõe o MDUTS, um modelo para o desenvolvimento de sistemas ubíquos de transporte. O modelo permite o gerenciamento de diferentes tipos de veículos, criando um registro histórico do seu movimento. O modelo fornece informações através de web services que podem ser utilizadas por diferentes aplicações. O artigo também descreve duas aplicações integradas com um simulador de transporte urbano. Os resultados demonstram a viabilidade do modelo, facilitando a construção de aplicações para o sistema de transporte.
Referências
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Fielding, R. T. (2000). Architectural Styles and the Design of Network-based Software Architectures. PhD thesis, University of California, Irvine.
Fowler, K. (2009). Sensor survey results. Instrumentation Measurement Magazine, IEEE, 12(1):39 –44.
Franco, L. K., Rosa, J. H., Barbosa, J. L., Costa, C. A., and Yamin, A. C. (2011). Mucs: A model for ubiquitous commerce support. Electronic Commerce Research and Applications, 10(2):237 – 246. Special Issue on Electronic Auctions: Strategies and Methods.
Hightower, J. and Borriello, G. (2001). Location systems for ubiquitous computing. Computer, 34(8):57 –66.
Houda, M., Khemaja, M., Oliveira, K., and Abed, M. (2010). A public transportation ontology to support user travel planning. In Research Challenges in Information Science (RCIS), 2010 Fourth International Conference on, pages 127 –136.
Kwon, O., Shin, S., Shin, S., and Kim, W. (2010). Design of u-health system with the use of smart phone and sensor network. In Ubiquitous Information Technologies and Applications (CUTE), 2010 Proceedings of the 5th International Conference on, pages 1 –6.
Lee, E., Ryu, K., and Paik, I. (2008). A concept for ubiquitous transportation systems and related development methodology. In Intelligent Transportation Systems, 2008. ITSC 2008. 11th International IEEE Conference on, pages 37 –42.
Miles, J. and Walker, A. (2006). The potential application of articial intelligence in transport. Intelligent Transport Systems, IEE Proceedings, 153(3):183 –198.
Noy, N. F. and McGuinness, D. L. (2001). Ontology Development 101: A Guide to Creating Your First Ontology. Online.
Oh, J. and Oh, S. (2011). Some aspects of the ubiquitous services on the u-city implementation. In Mobile IT Convergence (ICMIC), 2011 International Conference on, pages 78 –81.
Oliveira, R. R., Noguez, F. C., Costa, C. A., Barbosa, J. L., and Prado, M. P. (2013). Swtrack: An intelligent model for cargo tracking based on off-the-shelf mobile devices. Expert Systems with Applications, 40(6):2023–2031.
Passos, L. S. and Rossetti, R. J. F. (2009). Intelligent transportation systems: a ubiquitous perspective. In 14th Portuguese Conference on Articial Intelligence, pages 27–38.
Rusconi, G., Brugnoli, M., Dosso, P., Kretzschmar, K., Bougia, P., Fotiadis, D., Salgado, L., Jaureguizar, F., and De Feo, M. (2007). I-way, intelligent co-operative system for road safety. In Intelligent Vehicles Symposium, 2007 IEEE, pages 1056 –1061.
Satyanarayanan, M. (2001). Pervasive computing: vision and challenges. Personal Communications, IEEE, 8(4):10 –17.
Silva, J. M., Rosa, J. H., Barbosa, J. L., Barbosa, D. N., and Palazzo, L. A. (2010). Content distribution in trail-aware environments. Journal of the Brazilian Computer Society, 16:163–176.
SIMTUR (2011). Simtur sistema inteligente de monitoramento de tráfego urbano. Disponível em: http://projeto.unisinos.br/simtur/. Acesso em: 19 janeiro 2013.
SPTrans (2009). Sistemas informatizados para a gestão do transporte coletivo do município de são paulo. Disponível em: [link]. Acesso em: 19 janeiro 2013.
Sussman, J. S. (2005). Perspectives on Intelligent Transportation Systems (ITS). Springer Verlag NY.
Toulminet, G., Boussuge, J., and Laurgeau, C. (2008). Comparative synthesis of the 3 main european projects dealing with cooperative systems (cvis, safespot and coopers) and description of coopers demonstration site 4. In Intelligent Transportation Systems, 2008. ITSC 2008. 11th International IEEE Conference on, pages 809 –814.
Vieira, V., Caldas, L., and Salgado, A. (2011). Towards an ubiquitous and context senIn Ubi-Media Computing (U-Media), 2011 4th sitive public transportation system. International Conference on, pages 174 –179.
Wang, J., Ding, Z., and Jiang, C. (2005). An ontology-based public transport query system. In Semantics, Knowledge and Grid, 2005. SKG ’05. First International Conference on, page 62.
Weiser, M. (1991). The Computer for the Twenty-First Century. Scientic American, 265(3):94–104.
Barbosa, J. L. V., Hahn, R. M., Barbosa, D. N. F., and Saccol, A. I. d. C. Z. (2011). A ubiquitous learning model focused on learner interaction. Int. J. Learn. Technol., 6(1):62–83.
Dey, A. K., Abowd, G. D., and Salber, D. (2001). A conceptual framework and a toolkit for supporting the rapid prototyping of context-aware applications. Hum.-Comput. Interact., 16(2):97–166.
Ernst, T., Nebehaj, V., and Srasen, R. (2009). Cvis: Calm proof of concept preliminary results. In Intelligent Transport Systems Telecommunications,(ITST),2009 9th International Conference on, pages 80 –85.
Ferris, B., Watkins, K., and Borning, A. (2010). Location-aware tools for improving public transit usability. Pervasive Computing, IEEE, 9(1):13 –19.
Fielding, R. T. (2000). Architectural Styles and the Design of Network-based Software Architectures. PhD thesis, University of California, Irvine.
Fowler, K. (2009). Sensor survey results. Instrumentation Measurement Magazine, IEEE, 12(1):39 –44.
Franco, L. K., Rosa, J. H., Barbosa, J. L., Costa, C. A., and Yamin, A. C. (2011). Mucs: A model for ubiquitous commerce support. Electronic Commerce Research and Applications, 10(2):237 – 246. Special Issue on Electronic Auctions: Strategies and Methods.
Hightower, J. and Borriello, G. (2001). Location systems for ubiquitous computing. Computer, 34(8):57 –66.
Houda, M., Khemaja, M., Oliveira, K., and Abed, M. (2010). A public transportation ontology to support user travel planning. In Research Challenges in Information Science (RCIS), 2010 Fourth International Conference on, pages 127 –136.
Kwon, O., Shin, S., Shin, S., and Kim, W. (2010). Design of u-health system with the use of smart phone and sensor network. In Ubiquitous Information Technologies and Applications (CUTE), 2010 Proceedings of the 5th International Conference on, pages 1 –6.
Lee, E., Ryu, K., and Paik, I. (2008). A concept for ubiquitous transportation systems and related development methodology. In Intelligent Transportation Systems, 2008. ITSC 2008. 11th International IEEE Conference on, pages 37 –42.
Miles, J. and Walker, A. (2006). The potential application of articial intelligence in transport. Intelligent Transport Systems, IEE Proceedings, 153(3):183 –198.
Noy, N. F. and McGuinness, D. L. (2001). Ontology Development 101: A Guide to Creating Your First Ontology. Online.
Oh, J. and Oh, S. (2011). Some aspects of the ubiquitous services on the u-city implementation. In Mobile IT Convergence (ICMIC), 2011 International Conference on, pages 78 –81.
Oliveira, R. R., Noguez, F. C., Costa, C. A., Barbosa, J. L., and Prado, M. P. (2013). Swtrack: An intelligent model for cargo tracking based on off-the-shelf mobile devices. Expert Systems with Applications, 40(6):2023–2031.
Passos, L. S. and Rossetti, R. J. F. (2009). Intelligent transportation systems: a ubiquitous perspective. In 14th Portuguese Conference on Articial Intelligence, pages 27–38.
Rusconi, G., Brugnoli, M., Dosso, P., Kretzschmar, K., Bougia, P., Fotiadis, D., Salgado, L., Jaureguizar, F., and De Feo, M. (2007). I-way, intelligent co-operative system for road safety. In Intelligent Vehicles Symposium, 2007 IEEE, pages 1056 –1061.
Satyanarayanan, M. (2001). Pervasive computing: vision and challenges. Personal Communications, IEEE, 8(4):10 –17.
Silva, J. M., Rosa, J. H., Barbosa, J. L., Barbosa, D. N., and Palazzo, L. A. (2010). Content distribution in trail-aware environments. Journal of the Brazilian Computer Society, 16:163–176.
SIMTUR (2011). Simtur sistema inteligente de monitoramento de tráfego urbano. Disponível em: http://projeto.unisinos.br/simtur/. Acesso em: 19 janeiro 2013.
SPTrans (2009). Sistemas informatizados para a gestão do transporte coletivo do município de são paulo. Disponível em: [link]. Acesso em: 19 janeiro 2013.
Sussman, J. S. (2005). Perspectives on Intelligent Transportation Systems (ITS). Springer Verlag NY.
Toulminet, G., Boussuge, J., and Laurgeau, C. (2008). Comparative synthesis of the 3 main european projects dealing with cooperative systems (cvis, safespot and coopers) and description of coopers demonstration site 4. In Intelligent Transportation Systems, 2008. ITSC 2008. 11th International IEEE Conference on, pages 809 –814.
Vieira, V., Caldas, L., and Salgado, A. (2011). Towards an ubiquitous and context senIn Ubi-Media Computing (U-Media), 2011 4th sitive public transportation system. International Conference on, pages 174 –179.
Wang, J., Ding, Z., and Jiang, C. (2005). An ontology-based public transport query system. In Semantics, Knowledge and Grid, 2005. SKG ’05. First International Conference on, page 62.
Weiser, M. (1991). The Computer for the Twenty-First Century. Scientic American, 265(3):94–104.
Publicado
22/05/2013
Como Citar
FELTES, Luiz Henrique; BARBOSA, Jorge Luis Victória.
MD-UTS: Um Modelo para Desenvolvimento de Sistemas Ubíquos de Transporte. In: SIMPÓSIO BRASILEIRO DE SISTEMAS DE INFORMAÇÃO (SBSI), 9. , 2013, João Pessoa.
Anais [...].
Porto Alegre: Sociedade Brasileira de Computação,
2013
.
p. 649-660.
DOI: https://doi.org/10.5753/sbsi.2013.5729.
