ABSTRACT
In this paper we study a novel distributed rendezvous protocol for cognitive radio networks (CRNs), which is based on a grid quorum system, hence we call it the gQ-RDV protocol. A paper tackles with an asymmetric channel view problem rarely investigated due to its complexity. Hence, the objective of the paper is twofold. Different grid-based quorum arrangements are proposed and investigated in order to find the best approach to ensure a very high probability of nodes' rendezvous, while having a different number of available channels in the list. Second, we propose channel mapping methods based on a grid quorum and sub-grids dealing with the asymmetric channel view. Each node visits channels according to its channel map and without exchange of any information, which reduces signaling overhead.
- C.Cormio and K.R.Chowdhury. An adaptive multiple rendezvous control channel for cognitive radio wireless ad hoc networks. In Pervasive Computing and Communications Workshops (PERCOM WS), 2010.Google ScholarCross Ref
- Ch.M.Chao, J.P.Sheu, and IC.Chou. An adaptive quorum-based energy conserving protocol for IEEE 802.11 ad hoc networks. IEEE Transaction on Mobile Computing, 5:560--570, 2006. Google ScholarDigital Library
- C.M.Chao, H.C.Tsai, and K.J.Huang. A new channel hopping mac protocol for mobile ad hoc networks. In Wireless Communications and Signal Processing (WCSP), December 2009.Google ScholarCross Ref
- C.M.Chao and Y.Z.Wang. A multiple rendezvous multichannel mac protocol for underwater sensor networks. In WCNC, 2010.Google ScholarCross Ref
- E.K.Lee, S.Y.Oh, and M.Gerla. Randomized channel hopping scheme for anti-jamming communication. In Wireless Days, Venice, Italy, 2010.Google ScholarCross Ref
- F.Hou, L.X.Cai, X.Shen, and J. Huang. Asynchronous multichannel mac design with difference-set-based hopping sequences. IEEE Transactions on Vehicular Technology, 60:1728 -- 1739, 2011.Google Scholar
- J. Hall. Combinatorial Theory chapter 1. John Wiley and Sons, 1986.Google Scholar
- H.Liu, Z.Lin, X.Chu, and Y.W.Leung. Ring-walk based channel-hopping algorithms with guaranteed rendezvous for cognitive radio networks. In International Workshop on Wireless Sensor, Actuator and Robot Networks (WiSARN2010-FALL), in conjunction with IEEE/ACM CPSCom, 2010. Google ScholarDigital Library
- I.F.Akyildiz, W.Y.Lee, M.C.Vuran, and S.Mohanty. Next generation/dynamic spectrum access/cognitive radio wireless networks: A survey. Elsevier, 50:2127--2159, 2006. Google ScholarDigital Library
- J.R.Jiang, Y.C.Tseng, C.S.Hsu, and T.H.Lai. Quorum-based asynchronous power-saving protocols for IEEE 802.11 ad hoc networks. In Parallel Processing, 2003. Google ScholarDigital Library
- K.Bian, J.M.Park, and R.Chen. A quorum-based framework for establishing control channels in dynamic spectrum access networks. In 15th annual international conference on Mobile computing and networking (MobiCom), 2009. Google ScholarDigital Library
- M.D.Silvius, F.Ge, A.Young, A.B.MacKenzie, and C.W.Bostian. Smart radio: spectrum access for first responders. In Wireless Sensing and Processing III (SPIE), 2008.Google ScholarCross Ref
- M.Maekawa. A N algorithm for mutual exclusion in decentralized systems. ACM Trans. Comput. Syst., 3:145--159, 1985. Google ScholarDigital Library
- M.Singhal and N.G.Shivaratri. Advanced concepts in operating systems. TMH, 1994. Google ScholarDigital Library
- N.C.Thesis, R.W.Thomas, and L.A.DaSilva. Rendezvous for cognitive radios. IEEE Transactions on Mobile Computing, 10:216--227, 2010. Google ScholarDigital Library
- S.Romaszko and P.Mahönen. Grid-based channel mapping in cognitive radio ad hoc networks. In PIMRC, 2011.Google ScholarCross Ref
- W.S.Luk and T.T.Wong. Two new quorum based algorithms for distributed mutual exclusion. In 17th International Conference on Distributed Computing Systems, 1997. Google ScholarDigital Library
- Y.C.Tseng, C.S.Hsu, and T.Y.Hsieh. Power-saving protocols for IEEE 802.11-based multi-hop ad hoc networks. In Infocom, 2002.Google Scholar
- Z.Lin, H.Liu, X.Chu, and Y.W.Leung. Jump-stay based channel-hopping algorithm with guaranteed rendezvous for cognitive radio networks. In Infocom, 2011.Google ScholarCross Ref
- Z.T.Chou, Y.H.Lin, and R.H.Jan. Optimal fully adaptive power management protocols for asynchronous multi-hop ad hoc wireless networks. In 11th IEEE Singapore International Conference on Communication Systems (ICCS), 2008.Google ScholarCross Ref
Index Terms
- Quorum-based channel allocation with asymmetric channel view in cognitive radio networks
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