Journal of Telecommunication, Switching Systems and Networks

Abstract

With the origination of keen city transmuting urban communities into computerized social orders, making the life of its residents simple in each feature, Intelligent Transport System turns into the essential segment among all. In any city versatility is a key concern; be it going to class, school and office or for some other reason residents use transport framework to go inside the city. Utilizing residents with an Intelligent Transport System can spare their time and make the city considerably more brilliant. Intelligent Transport System (ITS) expects to accomplish traffic productivity by limiting traffic issues. It advances clients with earlier data about traffic, nearby accommodation continuous running data, situate accessibility and so forth which diminishes travel time of workers just as improves their wellbeing and solace. This system means to accomplish traffic productivity by limiting traffic issues. It plans to decrease time of workers just as upgrades their wellbeing and solace. The utilization of ITS is broadly acknowledged and utilized in numerous nations today. The utilization isn't simply restricted to traffic clog control and data, yet additionally for street wellbeing and effective foundation use. In light of its unlimited conceivable outcomes, ITS has now turned into a multidisciplinary conjunctive field of work and in this way numerous associations around the globe have created answers for giving ITS applications to address the issue.

Keywords: Architecture, Automation, ITMS, Self-adaptive, Intelligent system

Cite this Article

Mansi, Shraddha Sharma. Intelligent Transport System: An Overview. Journal of Telecommunication, Switching Systems and Networks. 2019; 6(3): 19–23p.

NIKHIL MENON. “Automated Highway Systems And Their Impact On Intelligent Transport Systems Research” Seminar report, NIT Kerala 673 601, November 2010

TNO: Margriet Van Schijndel-de Nooij, Bastiaan Krosse, Thijs, van den Broek, Sander Maas, Ellen van Nunen, Han Zwijnenberg DLR: Anna Schieben, Henning Mosebach Frost & Sullivan: Nick Ford University Of Southampton: Mike McDonald, David Jeffery, Jinan Piao Tecnalia: Javier Sanchez ), “ Definition Of Necessary Vehicle And Infrastructure Systems For Automated Driving” , SMART 2010/0064 Version 1.2, june29, 2011

Yu Zhang, “Adapting Infrastructure For Automated Driving”, Centre for urban transportation research(CUTR). November 2013. South Florida

Boyraz P, John H, ”Active accident avoidance case study: Integrating drowsiness monitoring system with lateral control and speed regulation in passenger vehicles”, 2008 IEEE International Conference on Vehicular Electronics and Safety, Columbus, USA, pp.293-298,2008.

Brännström, M.; Sjöberg, J.; Coelingh, E. “A situation and threat assessment algorithm for arear-end collision avoidance system”, 2008 IEEE Intelligent Vehicles Symposium, pp.102-107,2008. Eindhoven, Netherlands

Dasgupta C. ”Application of GPS and infrared for car navigation in foggy condition to avoid accident”, 2010 Second International Conference on Computer Engineering and Applications, pp.238-241, 2010. Bali Island, Indonesia

Eidehall A, Pohl J, Gustafsson F and Ekmark J.,”Towards autonomous collision avoidance bysteering”, IEEE transaction on Intelligent transportation system, Vol.8, No.1,pp.84-94,2007.

Ertlmeier R., Spannaus P.,” Expanding design process of the airbag control unit ACU-connection of active and passive safety by using vehicle dynamics for rollover and side crash detection”, 2008 International Workshop on Intelligent Solutions in Embedded Systems, pp.1-9,2008.

Ferrara A. and Vecchio C., “Cruise control with collision avoidance for cars via sliding models” 2006 IEEE Conference on Computer Aided Control System Design, 2006 IEEE International Conference on Control Applications, 2006 IEEE International Symposium on Intelligent Control, pp.2808-2813, 2006, Munich, Germany

Ferrara A., “Automatic pre-crash collision avoidance in cars”, IEEE Intelligent Vehicles Symposium, University of Perma, Italy, pp.133-138, June,2004.

Hillenbrand Jorg, Kroschel K. “A study on the performance of uncooperative collision migration systems at intersection like traffic situations” IEEE conference on cybernetics and intelligent systems, pp. 1-6, June 2006. Bangkok, Thailand

Jones W. D., “Black boxes get green light”, IEEE Spectrum, pp.14-15, 41(12) December,2004.

Nagaraja N.S. “Elements of electronic navigation”, Second Edition, Mc Graw Hill publication, 2009.

Nedevschi Sergiu, Vatavu A., Oniga F. and Meinecke M.M ”Forward collision detection using a stereo vision system”, Proceedings of IEEE 4th international conference on intelligent computer and processing, pp.115-122,2008. Cluj-Napoca, Romania

Yang L and Wang F. Y., “Driving into intelligent spaces with pervasive communications” IEEE intelligent systems, Feb, 2007, 22(1), 12-15p.

Yang Sibo, Gechter Frank and Koukam A., “Application of reactive multi agent system to vehicle collision avoidance”, 20th IEEE international conference on tools with artificial intelligence, pp.197-204, 2008. Dayton, OH, USA