A Uni-Protocol Framework for Rectification of Connectivity Error in MANETS
|International Journal of Computer Science and Engineering|
|© 2016 by SSRG - IJCSE Journal|
|Volume 3 Issue 6|
|Year of Publication : 2016|
|Authors : T.Ganesan, V.Raja Aravindh|
How to Cite?
T.Ganesan, V.Raja Aravindh, "A Uni-Protocol Framework for Rectification of Connectivity Error in MANETS," SSRG International Journal of Computer Science and Engineering , vol. 3, no. 6, pp. 5-10, 2016. Crossref, https://doi.org/10.14445/23488387/IJCSE-V3I6P102
A Wireless Sensor Network can get to be parceled because of hub disappointment, requiring the organization of extra hand-off hubs keeping in mind the end goal to restore system network. This presents an improvement issue including a trade between the quantity of extra hubs that are required and the expenses of traveling through the sensor field for the motivation behind hub position. This trade is application-subordinate, impacted for instance by the relative earnestness of system reclamation. We propose four heuristic calculations which incorporate system outline with way arranging, perceiving the effect of snags on versatility and correspondence. We direct an exact assessment of the four calculations on irregular availability and versatility maps, demonstrating their relative execution regarding hub and way costs, and evaluating their execution speeds. At long last, we analyze how the relative significance of the two goals impacts the decision of calculation.
Wireless Sensor Network, Network Repair, Path Planning, Exploration.
 Abbasi A.A., Younis M.F. and Baroudi U.A.(2013), ‘Recovering from a node failure in wireless sensor-actor networks with minimal topology Changes’, IEEE Trans. Veh. Technol., vol. 62, no. 1, pp. 256–271.
 Akkaya K., SenelF., Thimmapuram A. and Uludag S.(2010),‘Distributed recovery from network partitioning in movable sensor/actor networks via controlled mobility’, IEEE Trans. Comput., vol. 59, no. 2, pp. 258–271.
 Almasaeid H.M. and Kamal A.E.(2009), ‘On the minimum kconnectivity repair in wireless sensornetworks,” in Proc. IEEE Int. Conf. Commun.,Dresden, Germany, pp. 1-5.
 Basu P. and Redi J.(2004), ‘Movement control algorithms for realization of fault-tolerant ad hoc robot networks’, IEEE Netw., vol. 18, no. 4,pp. 36–44.
 Chung J.M.,Nam Y., Park K.and Cho H.J.(2012), ‘Exploration time reduction and sustainability enhancement of cooperative clustered multiple robot sensor networks’, IEEE Netw., vol. 26, no. 3, pp. 41–48.
 Dai F. and Wu J.(2004), ‘An extended localized algorithm for connected dominating set formation in ad hoc wireless networks’, IEEE Trans. Parallel Distrib. Syst., vol. 15, no. 10, pp. 908–920.
 Gaura E.I., Brusey J., Allen M., Wilkins R., Goldsmith D. and Rednic R.(2013) ,‘Edge mining the Internet of Things’, IEEE Sensors J.,vol. 13, no. 10, pp. 3816–3825.
 Kim Y. and Mesbahi M.(2006), ‘On maximizing the second smallest eigenvalue of a state-dependent graph Laplacian’, IEEE Trans. Autom. Control, vol. 51, no. 1, pp. 116–120.
 Liang Q., Cheng X., Huang S.C. and Chen D.(2014), ‘Opportunistic sensing in wireless sensor networks: Theory and application’, IEEE Trans. Comput., vol. 63, no. 8, pp. 2002–2010.
 Mi Z., Yang Y. and Liu G.(2011), ‘HERO: A hybrid connectivity restoration framework for mobile multi-agent networks’, in Proc. IEEE Int. Conf. Robot. Autom. (ICRA), Shanghai, China,pp. 1702–1707.
 Rashvand H.F., Abedi A., Alcaraz-CaleroJ.M.,Mitchell P.D. and Mukhopadhyay S.C.(2014), ‘Wireless sensor systems for space and extremeenvironments: A review’, IEEE Sensors J., vol. 14, no. 11,pp. 3955–3970.
 Sabattini L., SecchiC. and Fantuzzi C.(2013), ‘Collision avoidance using gyroscopic forces for cooperative Lagrangian dynamical systems’, in Proc. IEEE Int. Conf. Robot. Autom. (ICRA),pp. 953–958.
 Senturk I.F., Akkaya K. and Senel F.(2012), ‘An effective and scalable connectivity restoration heuristic for mobile sensor/actor networks’, inProc. IEEE Global Commun. Conf. (GLOBECOM), Anaheim, CA, USA, pp. 518–523.
 Zavlanos M.M. and Pappas G.J.(2008), ‘Distributed connectivity control of mobile networks’, IEEE Trans. Robot., vol. 24, no. 6, pp.1416–1428.
 Zhang F., Justh E.W. and Krishnaprasad P.S.(2004), ‘Boundary following using gyroscopic control’, in Proc. 43rd IEEE Conf. Decision Control, vol. 5, pp. 5204–5209.