BlackBox as a DTN device

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Preeti Nagrath
Sandhya Aneja
G. N. Purohit

Abstract

Disruption/Delay Tolerant Networks (DTNs) have been proposed as a solution for intermittent connectivity between two nodes that wants to communicate without having path at the time of communication. A bundle layer is added into DTN nodes to support the intermittent connectivity. The bundle layer provides storage capability within DTN nodes to store messages till intermediate node gets connected to the destination. Blackbox is used for recording, collecting and monitoring aircraft condition while in flight. Blackbox is a very important device to investigate air crash or mishappening. However, locating Blackbox may be painful effort in many cases. In this paper, we present Blackbox to work as a DTN Node in order to save efforts required for tracing Blackbox. We also discuss feasibility study of the proposal in terms of power requirement to transfer the data.

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How to Cite
Preeti Nagrath, Sandhya Aneja, & G. N. Purohit. (2015). BlackBox as a DTN device. International Journal of Next-Generation Computing, 6(1), 57–65. https://doi.org/10.47164/ijngc.v6i1.76

References

  1. Ali, M., Bhagavathula, R., and Pendse, R. 2004. Ecient data storage mechanisms for dap. In The 23rd Digital Avionics Systems Conference, DASC 04. Vol. 2. 11.A.3{11.1{7 Vol.2.
  2. Anantraman, V., Mikkelsen, T., and Ohno, L. 2002. Handheld computers for rural healthcare, experiences in a large scale implementation. In Proceedings of development by design.
  3. Cerf, V., Burleigh, S.and Hooke, A., Torgerson, L.and Durst, R., Scott, K., Fall, K., and Weiss, H. 2007. Delay-tolerant networking architecture. In http://tools.ietf.org/html/rfc4838.
  4. Cohen, B., Cassell, R., and Smith, A. 1999. Development of an aircraft performance risk assessment model. In Proceedings of18th Digital Avionics Systems Conference. Vol. 1/17 pp. vol.1. 5.A.2{1{5.A.2{8 vol.1.
  5. Doering, M., Rottmann, S., andWolf, L. 2011. Design and implementation of a low-power energy management module with emergency reserve for solar powered dtn-nodes. In Proceedings of the 3rd Extreme Conference on Communication: The Amazon Expedition. ExtremeCom '11.
  6. Dyment, D. and Rowell, D. 2012. How to survive a plane crash.
  7. Hasnain, S. 1979. The crash position indicator aviation safety. IEEE.
  8. Horvat, G., Sostaric, D., and Zagar, D. 2012. Power consumption and rf propagation analysis on zigbee xbee modules for atpc. In International Conference on Telecommunications and Signal Processing (TSP), IEEE. 222{226.
  9. Johari, R., Gupta, N., and Aneja, S. 2015. A dtn routing scheme for information connectivity of health centres in hilly state of north india. In International Journal of Distributed Sensor Networks.
  10. Laoutaris, N., Smaragdakis, G., Rodriguez, P., and Sundaram, R. 2009. Delay tolerant bulk data transfers on the internet. SIGMETRICS Perform. Eval. Rev. 37, 1, 229{238.
  11. Lee, J.-S., i Su, Y.-W., and Shen, C.-C. 2007. A comparative study of wireless protocols: Bluetooth, uwb, zigbee, and wi- . In Industrial Electronics Society, IECON 33rd Annual Conference of the IEEE. 46{51.
  12. Lilien, L., Gupta, A., and Yang, Y. 2007. Opportunistic networks for emergency applications and their standard implementation framework. In IEEE.
  13. Lu, Z. and Fan, J. 2010. Delay/disruption tolerant network and its application in military communications. In International Conference on Computer Design and Applications (ICCDA). Vol. 5. V5{231{V5{234.
  14. Mahmoud, K. 2013. Data collection and processing from distributed system of wireless sensors. In Masaryk University,Thesis.
  15. Medina, D.and Hoffmann, F., Rossetto, F., and Rokitansky, C. 2012. A geographic routing strategy for north atlantic inight internet access via airborne mesh networking. IEEE/ACM Transactions on Networking 20, 4 (Aug.), 1231{1244.
  16. Monroe, D. 1999. Wireless transducer data capture and retrieval system for aircraft.
  17. Natanzon, A., Winokur, A., and Bachmat, E. 2012. Black box replication: Breaking the latency limits.
  18. Pentland, A., Fletcher, R., and Hasson, A. 2004. Daknet: rethinking connectivity in developing nations. Computer,IEEE 37, 1 (Jan), 78{83.
  19. Peterson, M. L. 2014. The sigint on thirteen soviet shootdowns of u.s. reconnaissance aircraft.
  20. Sabeel, U.and Maqbool, S. C. N. 2013. Zigbee ieee 802.15.4 standard for building automation. In International Journal of Advanced Research in Computer Science and Software Engineering. ISSN: 2277 128X.
  21. Schoberg, P. R. 2003. Secure ground-based remote recording and archiving of aircraft "blackbox" data. In http://www.dtic.mil/dtic/tr/fulltext/u2/a418284.pdf.
  22. Shaji, N., Subbulakshmi, T., and Resington, M. 2013. Black box on earth - ight data recording at ground server stations. In Fifth International Conference on Advanced Computing (ICoAC). 400{404.
  23. Thanthry, N., Ali, M., and Pendse, R. 2005. Security, internet connectivity and aircraft data networks. In 39th Annual International Carnahan Conference on Security Technology, CCST '05. 251{255.
  24. Vasilakos, A. V., Zhang, Y., and Spyropoulos, T. 2011. Delay Tolerant Networks: Protocols and Applications, 1st ed. CRC Press, Inc., Boca Raton, FL, USA.
  25. Yanggratoke, R., Azfar, A., Marval, M., and Ahmed, S. 2011. Delay tolerant network on android phones:implementation issues and performancemeasurements. Journal of Communications 6, 6 (sep).