Multi-hop Fuzzy Routing for Wireless Sensor Network with Mobile Sink
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Authors
Mohsen Nejadkheirallah
- Allameh Mohaddes Noori Institute of Higher Education Noor, Iran.
Mohammad Mahdi tajari
- Department computer sciense, Mashhad Branch, Islamic Azazd University, mashhad, Iran.
Reza Sookhtsaraei
- Department of computer engineering and information technology, Payame Noor University, Iran.
Ali Yousefzadeh
- Allameh Mohaddes Noori Institute of Higher Education, Noor, Iran
Abstract
Using clustering methods in sensor networks improves their efficiency and management. Moreover, it
brings with it the main parameter in sensor networks i.e. decrease in energy consumption. To transfer data
to a sink in a network having many nodes, multi-hop methods have to be used. Also in many of the cases,
there is a mobile sink (or user) in a network environment. In this paper, using fuzzy logic we present a
routing method which divides the network into groups which are like clusters and has the ability of
supporting the mobile sink. This routing method has been compared with other routing and clustering
methods and the results show the efficiency of the mentioned method.
Share and Cite
ISRP Style
Mohsen Nejadkheirallah, Mohammad Mahdi tajari, Reza Sookhtsaraei, Ali Yousefzadeh, Multi-hop Fuzzy Routing for Wireless Sensor Network with Mobile Sink, Journal of Mathematics and Computer Science, 9 (2014), no. 1, 12-24
AMA Style
Nejadkheirallah Mohsen, tajari Mohammad Mahdi, Sookhtsaraei Reza, Yousefzadeh Ali, Multi-hop Fuzzy Routing for Wireless Sensor Network with Mobile Sink. J Math Comput SCI-JM. (2014); 9(1):12-24
Chicago/Turabian Style
Nejadkheirallah, Mohsen, tajari, Mohammad Mahdi, Sookhtsaraei, Reza, Yousefzadeh, Ali. "Multi-hop Fuzzy Routing for Wireless Sensor Network with Mobile Sink." Journal of Mathematics and Computer Science, 9, no. 1 (2014): 12-24
Keywords
- wireless sensor network
- multi-hop routing
- fuzzy logic
- mobile sink
- multi-sink.
MSC
References
-
[1]
S.-C. Liu, A lifetime-extending deployment strategy for multi-hop wireless sensor networks, in Proc. CNSR, (2006), 53–60.
-
[2]
, Wireless Sensor Network Designs, Hoboken, NJ: Wiley (2003)
-
[3]
T. S. Chen, C. Y. Chang, J. P. Sheu, Efficient path based multicast in wormhole-routed mesh networks, J. Syst. Archit., 46 (2000), 919–930
-
[4]
M. Younis, P. Munshi, G. Gupta, S. M. Elsharkawy, On Efficient Clustering of Wireless Sensor Networks, Second IEEE Workshop on Dependability and Security in Sensor Networks and Systems, (2006), 78-91.
-
[5]
W. R. Heizelman, A. Chandrakasan, H. Balakrishnan, Energy-Efficient Communication Protocol for Wireless Micro Sensor Networks, IEEE Proceedings of the Hawaii International Conference on System Sciences, (2000)
-
[6]
M. Chatterjee, S. K. Das, D. Turgut, WCA: a Weighted Clustering Algorithm for mobile Ad Hoc networks, Journal of Cluster Computing (Special Issue on Mobile Ad hoc Networks), 5 (2002), 193204
-
[7]
A. G. Delavar, J. Artin, M. M. Tajari, RCSDN : a Distributed Balanced Routing Algorithm with Optimized Cluster Distribution, IN 3rd International Conference on Signal Acquisition and Processing (ICSAP 2011). , (2011)
-
[8]
I. Gupta, D. Riordan, S. Sampalli, Cluster-head election using fuzzy logic for wireless sensor networks, in Communication Networks and Services Research Conference, 2005. Proceedings of the 3rd Annual, (2005), 255–260.
-
[9]
J. Kim, S. Park, Y. Han, T. Chung, CHEF: cluster head election mechanism using fuzzy logic in wireless sensor networks, in Proceedings of the ICACT, (2008), 654–65.
-
[10]
O. Younis, S. Fahmy, Distributed Clustering in Ad Hoc Sensor Networks: A Hybrid, Energy-Efficient Approach, Proc. IEEE INFOCOM, Hong Kong, Mar. 2004; an extended version appeared in IEEE Trans. Mobile Comp., 3 (2004), 366–79.
-
[11]
C. Intanagonwiwat, R. Govindan, D. Estrin, Directed Diffusion: A Scalable and Robust Communication Paradigm for Sensor Networks, Proc. ACM MobiCom , (2000), 56-67
-
[12]
M. Chen, T. Kwon, Y. Choi, Energy-Efficient Differentiated Directed Diffusion (EDDD) in Wireless Sensor Networks, Computer Comm., 29 (2006), 231-245
-
[13]
F. Ye, H. Luo, J. Cheng, S. Lu, L. Zhang, A Two-Tier Data Dissemination Model for Large-Scale Wireless Sensor Networks, Proc. ACM MobiCom ’02, (2002)
-
[14]
B. Zhang, H. Mouftah, Energy-Aware on-Demand Routing Protocols for Wireless Ad Hoc Networks, Wireless Networks, 12 (2006), 481-494
-
[15]
Z. Liu, D. Xiu, W. Guo, An Energy-Balanced Model for Data Transmission in Sensor Networks, Proc. 62nd IEEE Vehicular Technology Conf., (VTC-Fall) (2005)
-
[16]
A. Boukerche, I. Chatzigiannakis, S. Nikoletseas, A New Energy Efficient and Fault-Tolerant Protocol for Data Propagation in Smart Dust Networks Using Varying Transmission Range, Computer Comm., 29 (2006), 477-489
-
[17]
I. Haque, C. Assi, OLEAR: Optimal Localized Energy Aware Routing in Mobile Ad Hoc Networks, Proc. IEEE Int’l Conf. Comm. (ICC ’06), (2006), 3548-3553
-
[18]
S. Wu, K. Candan, Power-Aware Single- and Multipath Geographic Routing in Sensor Networks, Ad Hoc Networks, 5 (2007), 974-997
-
[19]
N. Wang, C. Chang, Probabilistic-Based Energy Aware Routing for Network Lifetime and Source Level Fairness in Wireless Sensor Networks, Proc. Int’l Conf. Systems and Networks Comm., (ICSNC) (2006)