International Journal of Computer Science and Business Informatics

The main function of Cognitive Radio Technology is to enable the Spectrum Utilization and detect the unused spectrum and sharing it without harmful interference to other users. Energy Consumption is a primary concern in the Wireless device Networks. The proposed solution is distributed Efficient Multi-Hop Clustering routing protocol which can consider not only for static mobile nodes but also in the Mobile Environment and used to reduce the packet loss during the cluster communication. The main function is to elect the cluster head according to the energy level, Connectivity and Stability and transfer the information from the source to the destination. The nodes in the clusters should be advertise the cluster head to other nodes. It improves the Connectivity between the Cluster head and also provide the active communication. The DEMC protocol function is to change according to the topology networks and the information stored in the radio networks. It mainly increase the chance of generating the communication link that leads to finds more reliable communication path for Data Transmission

Distributed Multi Hop Clustering Protocol, Cognitive radio, Mobile Wireless Sensor Networks, Handoff Information.

“Rendezvous Protocols Based on Message Passing in Cognitive Radio Networksâ€, Juncheng Jia and Qian Zhang.

“Maximizing Networking Lifetime in Wireless Sensor Networks with Regular Topologiesâ€, HuiTian, Hong Shen and Matthew Roughan

“A Novel Multihop Energy Efficient Heterogeneous Clustered Scheme for Wireless Sensor Networks†Dilip Kumar, Trilok C. Aseri and R. B. Patel

“Distributed Formation of Overlapping Multi-hop Clusters in Wireless Sensor Networks†Adel Youssef, Mohamed Younis, Moustafa Youssef, Ashok Agrawala

“Utilization and Fairness in Spectrum Assignment for Opportunistic Spectrum accessâ€, chunyi Peng, Haitao Zheng, Ben Y. Zhao.

“Call and Response: Experiments in Sampling the Environmentâ€, M. Rahimi, Y. Yu

“Data Storage Placement in Sensor Networksâ€, M. Rahimi, Y. Yu

“Data Pre-Forwarding for Opportunistic Data Collection in Wireless Sensor Networksâ€, Xiuchao Wu, Kenneth N. Brown.

“Mobile Relay Configuration in Data-intensive Wireless Sensor Networks†Fatme El-Moukaddem, Eric Torng, Guoliang Xing

“Novel Strategy for Data Dissemination to Mobile Sink Groups in Wireless Sensor Networksâ€, Soochang Park, Euisin Lee, Min-Sook Jin, and Sang-Ha Kim

“Ubiquitous Data Collection for Mobile Users in Wireless Sensor Networksâ€, Soochang Park, Euisin Lee, Min-Sook Jin, and Sang-Ha Kim.

“A Survey of Common Control Channel design in Cognitive Radio Networksâ€, Brandon F.Lo.

“J. Shin, D. Yang, and C. Kim, “A channel rendezvous scheme for cognitive radio networks,†IEEE Commun. Lett., vol. 14, no. 10, pp.954–956, 2010.

H. Liu, Z. Lin, X. Chu, and Y. Leung, “Jump-stay rendezvous algorithm for cognitive radio networks,†IEEE Trans. Parallel Distributed Syst.,vol. 23, no. 10, 2012.

Y. Zhang, Q. Li, G. Yu, and B. Wang, “Etch: efficient channel hopping for communication rendezvous in dynamic spectrum access networks,†in Proc. 2011 IEEE INFOCOM, pp. 2471–2479.

J. Zhao, H. Zheng, and G. Yang, “Distributed coordination in dynamic spectrum allocation networks,†in Proc. 2005 IEEE International Symp. New Frontiers Dynamic Spectrum Access Netw., pp. +259–268.

Adaptive Interference-Aware Multi-Channel Clustering Algorithm in a ZigBee Network in the

Presence of WLAN Interference Min Suk Kang∗, Jo Woon Chong∗, Hyesun Hyun∗, Su Min Kim∗, Byoung Hoon Jung∗, and Dan Keun Sung∗