Desktop version

Home arrow Engineering arrow Broadband Wireless Communications for Railway Applications: For Onboard Internet Access and Other Applications

References

  • 1. Gianosvaldo Fadin. ICT Standardisation on Board of Trains, an overview of current and upcoming standardss. In CENELEC-ACRI Workshop: Information and Communication Technology On Trains, Prague, Czech Republic, October 2011.
  • 2. G. M. Shafiullah, A. Gyasi-Agyei, and P. Wolfs. Survey of Wireless Communications Applications in the Railway Industry. In The 2nd International Conference on Wireless Broadband and Ultra Wideband Communications (AusWireless 2007), Sydney, Australia, August 2007.
  • 3. Marion BERBINEAU, Mohamed KASSAB, Christophe GRANSART, Martine WAHL, Yann COCHERIL, Emile MASSON, Divitha SEETHARAMDOO, David SANZ, Hassan GHAN- NOUM, and Oriane GATIN. Le vehicule connecte dans les transports publics: technologies existantes et perspectives. REE. Revue de l’electricite et de l’electronique, (4):60-67, 2014.
  • 4. ERRAC. Strategic rail research and innovation agenda - A step change in rail research and innovation. Technical report, ERRAC, November 2014.
  • 5. Shift2Rail Joint Undertaking, Multi-Annual Action Plan. Technical report, November 2015.
  • 6. Bo Ai, Xiang Cheng, Thomas Kurner, Zhang-Dui Zhong, Ke Guan, Rui-Si He, Lei Xiong, David W Matolak, David G Michelson, and Cesar Briso-Rodriguez. Challenges toward wireless communications for high-speed railway. Intelligent Transportation Systems, IEEE Transactions on, 15(5):2143-2158, 2014.
  • 7. Daniel T Fokum and Victor S Frost. A survey on methods for broadband internet access on trains. Communications Surveys & Tutorials, IEEE, 12(2):171-185, 2010.
  • 8. R. He, Z. Zhong, B. Ai, L. Xiong, and H. Wei. A novel path loss model for high-speed railway viaduct scenarios. In 7th WiCOM, pages 1-4, Beijing, China, 2011.
  • 9. TS Rappaport, JN Murdock, DG Michelson, and R Shapiro. An open-source archiving system. Vehicular Technology Magazine, IEEE, 6(2):24-32, 2011.
  • 10. Qiong Wu, David W Matolak, and Indranil Sen. 5-ghz-band vehicle-to-vehicle channels: models for multiple values of channel bandwidth. Vehicular Technology, IEEE Transactions on, 59(5):2620-2625, 2010.
  • 11. Kyle N Sivertsen, Anthony Liou, and David G Michelson. Depth and rate of fading on fixed wireless channels between 200 MHz and 2 GHz in suburban macrocell environments. Antennas and Propagation, IEEE Transactions on, 58(10):3353-3362, 2010.
  • 12. RS Thoma, M Landmann, and A Richter. Rimaxa maximum likelihood framework for parameter estimation in multidimensional channel sounding. In Proceedings of the International Symposium on Antennas and Propagation (ISAP04), pages 53-56. Citeseer, 2004.
  • 13. http://www.roll2rail.eu/.
  • 14. Martine Wahl. Survey of railway embedded network solutions. Towards the use of Industrial Ethernet technologies. Les collections de l INRETS, March 2010. ISBN 2-85782-682-8.
  • 15. Gianosvaldo Fadin and Paolo Umiliacchi. New standard for multimedia applications on board trains enables improved interoperability. In 9th World Congress on Railway Research, Lille, France, May 2011.
  • 16. J. Smith, S. Russel, and M. Looi. Security as a safety issue in rail communications. In 8th Australian Workshop on Safety Critical Systems and Software (SCS03), pages 79-88, Canberra, Australia, 2003.
  • 17. Jean-Louis Boulanger. Maitrise du SIL et gestion des certificats - Domaine ferroviaire. Technical report, Dossier Techniques de l’ingenieur, 2011.
  • 18. Marina Aguado, Oscar Onandi, Purification Agustin, Marivi Higuero, and Eduardo Taquet. WiMAX on rails. IEEE Vehicular Technology Magazine, 3(3):47-56, 2008.
  • 19. Kamal Deep Singh, Priyanka Rawat, and Jean-Marie Bonnin. Cognitive radio for vehicular ad hoc networks (CR-VANETs): approaches and challenges. EURASIP Journal on Wireless Communications and Networking, 2014(1):1-22, 2014.
  • 20. Jong-Hyouk Lee, Keshav Dev Singh, Jean-Marie Bonnin, and Sangheon Pack. Mobile data offloading: a host-based distributed mobility management approach. Internet Computing, IEEE, 18(1):20-29, 2014.
  • 21. Marina Aguado. Broadband Communication Architecture for Train to Ground Communication Services: the WEWBRA Architecture and the RMPA Handover. PhD thesis, Faculty of Engineering of Bilbao, June 2009.
  • 22. Jerome Billion and Didier Van den Abeele. ICOM: A Communication Framework for Interoperable European Railways. In 7th International Conference on Intelligent Transportation Systems Telecommunications (ITST), pages 1-6, Nice, France, June 2007. IEEE.
  • 23. R. Shingler, G. Fadin, and P. Umiliacchi. From RCM to predictive maintenance: The InteGRail approach. In 4th IET International Conference on Railway Condition Monitoring, pages 1-5, June 2008.
  • 24. G. Bianchi, N. Blefari-melazzi, E. Grazioni, S. Salsano, and V. Sangregorio. Internet access on fast trains: 802.11-based on-board wireless distribution network alternatives. In ISTMobile & Wireless Communications Summit, pages 15-18, Aveiro, Portugal, June 2003.
  • 25. A. Bocquet and C. Gransart. Benefits of multimodel architecture-based development for railway applications. In World Congress on Railway Research, Seoul, Korea, May 2008.
  • 26. Ritesh Kumar, Pravin Angolkar, Debabrata Das, and Ramakrishnan Ramalingam. SWiFT: A Novel Architecture for Seamless Wireless Internet for Fast Trains. In IEEE Vehicular Technology Conference (VTC Spring), pages 3011-3015, Singapore, May 2008.
  • 27. Luc Verstrepen, Wout Joseph, Emmeric Tanghe, Jan Van Ooteghem, Bart Lannoo, Mario Pick- avet, Luc Martens, and Piet Demeester. Making a well-founded choice of the wireless technology for train-to-wayside data services. In 9th Conference on Telecommunications Internet and Media Techno Economics (CTTE), pages 1-7, June 2010.
  • 28. Yiqing Zhou, Zhengang Pan, Jinlong Hu, Jinglin Shi, and Xinwei Mo. Broadband wireless communications on high speed trains. In Wireless and Optical Communications Conference (WOCC), 2011 20th Annual, pages 1-6. IEEE, 2011.
  • 29. Daan Pareit, Walter Van Brussel, Wim Torfs, and Peter De Cleyn. QoS-enabled Internet-on-train network architecture: inter-working by MMP-SCTP versus MIP. In 7th International Conference on Intelligent Transportation Systems Telecommunications (ITST), pages 1-6, Sophia- Antipolis, France, June 2007.
  • 30. Pablo Rodriguez, Rajv Chakravorty, Julian Chesterfield, Ian Pratt, and Suman Banerjee. MAR: A Commuter Router Infrastructure for the Mobile Internet. In 2nd International Conference on Mobile Systems, applications, and services (MobiSys), pages 217-230, June 2004.
  • 31. G. Barbu. E-TRAIN Broadband Communication with Moving Trains - Technology state of the art. Technical report, UIC E-TRAIN project, June 2010.
  • 32. Sajjad Karim, Shoaib Khan, Ahmed Qureshi, and Imran Daud. Turning need into demand for Wi-Fi broadband internet access on trains. International Journal of Computer Applications, 53(4), 2012.
  • 33. Filip De Greve, Bart Lannoo, Liesbeth Peters, Tom Van Leeuwen, Frederic Van Quickenborne, Didier Colle, Filip De Turck, Ingrid Moerman, Mario Pickavet, Bart Dhoedt, et al. Famous: A network architecture for delivering multimedia services to fast moving users. Wireless Personal Communications, 33(3-4):281-304, 2005.
  • 34. Gerhard Fettweis and Ralf Irmer. WIGWAM: System concept development for 1 Gbit/s air interface. In 14th Wireless World Research Forum (WWRF’05), July 2005.
  • 35. Filip De Greve, Frederic Van Quickenborne, Filip De Turck, Ingrid Moerman, and Piet Demeester. Cost-effective ethernet routing schemes for dynamic environments. In Global Telecommunications Conference, 2005. GLOBECOM’05. IEEE, volume 2, pages 6-pp. IEEE, 2005.
  • 36. Filip De Greve, Frederic Van Quickenborne, Filip De Turck, Ingrid Moerman, and Piet Demeester. A new carrier grade aggregation network model for delivering broadband services to fast moving users. International Journal of Communication Systems, 20(3):335-364, 2007.
  • 37. Bart Jooris, Piet Verhoeve, Frederik Vermeulen, and Ingrid Moerman. Mobile Communication and service continuity in a train scenario. In Symposium of the IEEE/CVT, Enschede, Netherlands, November 2005.
  • 38. Bart Lannoo, Didier Colle, Mario Pickavet, and Piet Demeester. Radio-over-fiber-based solution to provide broadband internet access to train passengers. IEEE Communications Magazine, 45(2):56-62, 2007.
  • 39. Frederic Van Quickenborne, Filip De Greve, Filip De Turck, and Piet Demeester. Managing ethernet aggregation networks for fast moving users. Communications Magazine, IEEE, 44(10):78-85, 2006.
  • 40. Stijn Verstichel, Filip De Turck, Bart Dhoedt, Piet M. Demeester, and Frederik Vermeulen. On the design of a Train Communication Management platform. In Symposium on Communications and Vehicular Technology, pages 29-34, Liege, Belgium, 2006. November.
  • 41. IEEE standard method for CBTC performance and functional requirements.
  • 42. http://www.etsi.org/technologies-clusters/technologies/digital-mobile-radio/private-mobile- radio.
  • 43. IEEE Standard for Information technology - Telecommunications and information exchange between systems - Local and metropolitan area networks - specific requirements Part 11: Wireless LAN Medium Access Control (MAC) and Physical Layer (PHY) specifications Amendment 6: Wireless Access in Vehicular Environments.
  • 44. Li Zhu, F Richard Yu, and Bing Ning. A seamless handoff scheme for train-ground communication systems in cbtc. In Vehicular Technology Conference Fall (VTC 2010-Fall), 2010 IEEE 72nd, pages 1-5. IEEE, 2010.
  • 45. Li Zhu, F Richard Yu, Bin Ning, and Tao Tang. Cross-layer design for video transmissions in metro passenger information systems. Vehicular Technology, IEEE Transactions on, 60(3):1171-1181, 2011.
  • 46. R. Y. Kim. IEEE 802.1p based WAVE Protocol for Railroad Applications. IOSR Journal of Engineering, 6(1):16-19, January 2016.
  • 47. Simon F. Ruesche, Jan Steuer, and Klaus Jobmann. A Packet-Switched Approach to a Train Control System. IEEE Vehicular Technology magazine, pages 37-48, September 2008.
  • 48. Almudena Diaz Zayas, Cesar A Garcia Perez, and Pedro Merino Gomez. Third-generation partnership project standards: for delivery of critical communications for railways. Vehicular Technology Magazine, IEEE, 9(2):58-68, 2014.
  • 49. Hao Feng, Zhiguo Jiang, Fengying Xie, Ping Yang, Jun Shi, and Long Chen. Automatic fastener classification and defect detection in vision-based railway inspection systems. Instrumentation and Measurement, IEEE Transactions on, 63(4):877-888, 2014.
  • 50. Maria Molodova, Zili Li, Alfredo Nunez, and Rolf Dollevoet. Automatic detection of squats in railway infrastructure. Intelligent Transportation Systems, IEEE Transactions on, 15(5):1980- 1990, 2014.
  • 51. Hassan Ghannoum and David Sanz. Internet Onboard: technical analysis. In 5th International Workshop on Communication Technologies for Vehicles, Nets4cars/Nets4trains, Lille, France, May 2013.
  • 52. http://mobilesociety.typepad.com/mobile_life/2007/07/hsdpa-internet-.html.
  • 53. H. Philippe, H. Ghannoum, N. Haziza, and M. Berbineau. Railway user needs for high speed trains. Technical report, Deliverable D2.1 - CORRIDOR Research project, 2014.
  • 54. ITU-T. Series G: Transmission Systems and Media, Digital Systems and Networks - Quality of Service and performance, End-user multimedia QoS categories ITU-T. Technical report, ITU, 2002.
 
Source
< Prev   CONTENTS   Source   Next >