Paper Submission: 27 January 2020
Author Notification: 7 to 10 days
Journal Publication: January 2020
Ashwini D. Karanjawane , Atul W. Rohankar, S. D. Mali, A. A. Agarkar
Paper wireless sensor networks is a growing class of highly dynamic, complex network environment on top of which a wide range of applications, such as habitat monitoring, object tracking, precision agriculture, building monitoring and military systems are built. The real time applications often generate urgent data and one-time event notifications that need to be communicated reliably. The successful delivery of such information has a direct effect on the overall performance of the system. Reliable communication is important for sensor networks. Urgent data transmission has been a serious problem for Wireless sensor networks. WSN face difficulties in handling urgent data like congestion and reliability due to their unique requirements and constraints. Various protocols for congestion avoidance and reliability achievement for WSN have been proposed recently. Few of them have also worked on congestion elimination. These protocols try to minimize the problem using different mechanism. This paper explores these mechanisms and tries to find their features and limitations which directed us for our research.
 I. Khemapech, et al., "A survey of wireless sensor networks technology," in 6th Annual Postgraduate Symposium on the Convergence of Telecommunications, Networking and Broadcasting, 2005.
 K. S. Chonggang Wang1, Bo Li, and Weiwen Tang, "Issues of Transport Control Protocols for Wireless Sensor Networks," University of Arkansas, Fayetteville, AR, USA,.
 C.-Y. Wan, et al., "PSFQ: a reliable transport protocol for wireless sensor networks," in Proceedings of the 1st ACM international workshop on Wireless sensor networks and applications, 2002, pp. 1-11.
 F. Stann and J. Heidemann, "RMST: reliable data transport in sensor networks," in Sensor Network Protocols and Applications, 2003. Proceedings of the First IEEE. 2003 IEEE International Workshop on, 2003, pp. 102-112.
 S. B. E. a. A. T. C. C.-Y. Wan, "CODA: Congestion detection and avoidance in sensor networks," in Proceedings of ACM Sensys’03, November 5-7, 2003 2003.
 K. S. C. Wang, and B. Li, "SenTCP: A hop-by-hop congestion control protocol for wireless sensor networks," in Proceedings of IEEE INFOCOM 2005 (Poster Paper), Mar. 2005.
 K. S. C. Wang, V. Lawrence, B. Li, and Y. Hu, "Priority-based congestion control in wireless sensor networks," in in Proc. IEEE International Conference on Sensor Networks,Ubiquitous, and Trustworthy Computing (SUTC’06), pp. 22–31.
 O. B. A. Y. Sankarasubramaniam, and I. F. Akyidiz, "ESRT: Event-to-sink reliable transport in wireless sensor networks," in Proceedings of ACM Mobihoc’03, June 1-3, 2003.
 V. A. K. Sundaresan, H. Y. Hseeh, and R. Sivakumar, "ATP: a reliable transport protocol for ad-hoc networks," in in Proceedings of the ACM Symposium on Mobile Ad Hoc Networking and Computing (MobiHoc ’03), pp. 64–75.
 Y. G. Iyer, et al., "STCP: a generic transport layer protocol for wireless sensor networks," in Computer Communications and Networks, 2005. ICCCN 2005. Proceedings. 14th International Conference on, 2005, pp. 449-454.
 S. Kim, et al., "Flush: a reliable bulk transport protocol for multihop wireless networks," in Proceedings of the 5th international conference on Embedded networked sensor systems, Sydney, Australia, 2007, pp. 351-365.
 M. M. A. a. C. S. Hong, "CRRT: congestion-aware and rate-controlled reliable transport in wireless sensor networks," in IEICE Transactions on Communications, pp. 184–199.
 F. J. E. Giancoli, and A. Pedroza, "CTCP: reliable transport control protocol for Sensor networks," in Proceedings of the International Conference on Intelligent Sensors, Sensor Networks and Information Processing (ISSNIP ’08), pp. 493– 498, December 2008.
 Y. Z. a. M. R. Lyu, "PORT: a price-oriented reliable transport protocol for wireless sensor network," in Proceedings of 16th IEEE International Symposium on Software Reliability Engineering, pp. 117–126, 2005.
 N. T. a. W. Wang, "ART: an asymmetric and reliable transport mechanism for wireless sensor networks," International Journal of Sensor Networks, vol. vol. 2, pp. 188–200, 2007.
 J. P. a. R. Govindan, "RCRT: rate-controlled reliable transport for wireless sensor networks," in Proceedings of the 5th International Conference on Embedded Networked Sensor Systems, pp. 305–319, 2007.
 X. G. H. Zhou, and C.Wu, "Reliable transport with memory consideration in wireless sensor networks," in Proceedings of the IEEE International Conference on Communications (ICC ’08), pp. 2819–2824, May 2008.
 L. Lulu, et al., "A Novel Reliable Transmission Protocol for Urgent Information in Wireless Sensor Networks," in Global Telecommunications Conference (GLOBECOM 2010), 2010 IEEE, 2010, pp. 1-6.
 T. Kawai, et al., "A fast and reliable transmission mechanism of urgent information in sensor networks," Proceedings of the 3rd International Conference on Networked Sensing Systems (INSS 2006), 2006.
 M. Balakrishnan, et al., "Service preemptions for guaranteed emergency medium access in Wireless Sensor Networks," in Military Communications Conference, 2008. MILCOM 2008. IEEE, 2008, pp. 1-7.
 R. Haji, et al., "Towards an adaptive QoS-oriented and secure framework for wireless sensor networks in emergency situations," in Multimedia Computing and Systems (ICMCS), 2012 International Conference on, 2012, pp. 1007-1011.
 S. S. a. D. Kumar, "An approach to optimize adaptive Routing Framework to provide QOS in Wireless Sensor Networks," in proceeding of International Journal of wireless Networks and Communication, vol. 1(1), pp. 55-692009.
 K. Ishibashi and M. Yano, "A Proposal of Forwarding Method for Urgent Messages on an Ubiquitous Wireless Sensor Network," in Information and Telecommunication Technologies, 2005. APSITT 2005 Proceedings. 6th Asia-Pacific Symposium on, 2005, pp. 293-298.
 A. W. R. A D Karanjawane, S D Mali, A A Agarkar, "Designing Path Assured Data Transfer Protocol for Wireless Sensor Network," In proceeding of International Journal of Engineering Research and Technology(IJERT), vol. 2, pp. 1151-1160, 2013.
Department of E&TC, Sinhgad College of Engineering, Pune, India, firstname.lastname@example.org
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