A dynamic spectrum access network based on cognitive radio
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H. I. Tour. The green agenda: Building a sustainable future. Leadership Summit and Government Mobile Forum of 2010 Mobile World Congress, Barcelona, Spain, Feb. 15, 2010.
A. Ghasemi and E. S. Sousa. Spectrum sesning in Cogntive Radio networks: requirements, challenges and design trade-offs. IEEE Communications Magazine, 46(2008)4, 32–39.
FCC. ET Docket No03-322 Notice of Proposed Rule Making and Order. Dec. 2003.
I. F. Akyildiz, W. Lee, M. C. Vuran, and S. Mohanty. Next generation/dynamic spectrum access/cognitive radio wireless networks: A survey. Computer Networks, 50(2006)13, 2127–2159.
J. Mitola III. Cognitive radio for flexible mobile multimedia communication. Proceeding of the IEEE International Workshop on MoMuC, CA, USA, Nov. 1999, 3–10.
T. A. Weiss, J. Hillenbrand, A. Krohn, and F. K. Jondral. Efficient signaling of spectral resources in spectrum pooling systems. Proceeding of the 10th Symposium on Communications and Vehicular Techndogy, Netherlands, 2003.
T. A. Weiss and F. K. Jondral. Spectrum pooling: an innovative strategy for the enhancement of spectrum efficiency. IEEE Radio Communication Magazine, 42 (2004)3, 8–14.
R.W. Brodersen, A. Wolisz, D. Cabric, S. M. Mishra, and D. Willkomm. Corvus: a cognitive radio approach for usage of virtual unlicensed spectrum. Berkeley Wireless Research Center (BWRC) White paper, 2004.
D. Cabric, S. M. Mishra, D. Willkomm, R. Brodersen, and A. Wolisz. A Cognitive radio approach for usage of virtual unlicensed spectrum. Proceeding of the 14th IST Mobile and Wireless Communications Summit, Dresden, Germany, Jun. 2005.
S. M. Mishra, D. Cabric, C. Chang, D. Willkomm, B. Schewick, A. Wolisz, and R. W. Brodersen. A real time cognitive radio testbed for physical and link layer experiments. Proceeding of the IEEE DySPAN, Baltimore, MD, USA, Nov. 2005, 562–567.
D. Willkomm, J. Gross, and A. Wolisz. Reliable link maintenance in cognitive radio systems. Proceeding of the IEEE DySPAN, Baltimore, MD, USA, Nov. 2005, 371–378.
M. M. Buddhikot, P. Kolody, S. Miller, K. Ryan, and J. Evans. DIMSUMNet: new directions in wireless networking using coordinated dynamic spectrum access. Proceeding of the IEEE WoWMoM 2005, Italy, Jun. 2005. 78–85.
D. Grandblaise, C. Kloeck, K. Moessner, et al.. Techno-economic of collaborative based secondary spectrum usage-E2R research project outcomes overview. Proceeding of the IEEE DySPAN, Baltimore, MD, USA, Nov. 2005, 318–327.
T. C. Claucy III. Dynamic Spectrum Access in Cognitive Networks. [Ph.D. Dissertation]. University of Maryland, College Park, 2006.
FCC. ET Docket No03-289 Establishment of interference temperature metric to quantify and manage interference and to expand available unlicensed operation in certain fixed mobile and satellite frequency bands. Dec. 2003.
XGWorking Group. The XG Vision. RFC v2.0. http://www.ir.bbn.com/~ramanath/pdf/rfc-vision.pdf .
XG Working Group. The XG architecture framework. RFC v1.0. http://www.autonomic-communication.org/web/bodies/DARPA_XG_rfc_policylang.pdf .
M. McHenry, E. Livsics, T. Nguyen, and N. Majumdar. XG Dynamic Spectrum Access Field Test Results. IEEE Communications Magazine, 45(2007)6, 51–57.
F. W. Seelig. A description of the August 2006 XG demonstrations at Fort A.P. Hill. IEEE Symposium on New Frontiers in DySPAN, Dublin, Apr. 2007, 1–12.
P. Anker. Cognitive Radio, the market and the regulator. slides for IEEE Symposium on New Frontiers in DySPAN, Singapore, 2010, 1–23. http://www.telecomabc.com/specials/dsa/resources/anker_dyspan2010-pres.pdf .
IEEE P1900 Working Group [EB/OL]. http://grouper.ieee.org/groups/scc41/index.html .
IEEE 802.16s License-Exempt (LE) Task Group [EB/OL]. http://www.ieee802.org/16/le/ .
IEEE 802.22 Working Group on Wireless Regional Area Networks. http://www.ieee802.org/22/ .
C. Cordeiro, K. Challapali, D. Birru, et al.. IEEE 802.22: the first worldwide wireless standard based on cogntive radio. Proceeding of the IEEE DySPAN, Baltimore, MD, USA, Nov. 2005, 328–337.
C. R. Stevenson, G. Chouinard, Z. Lei, and W. Hu. IEEE 802.22: The first cognitive radio wireless regional area network standard. IEEE Communications Magazine, 47(2009)1, 130–138.
H. Arslan. Cognitive Radio, Software Defined Radio, and Adaptive Wireless Systems. Netherlands, Springer, 2007.
Tevfik Ycek, and Hseyin Arslan. A survey of spectrum sensing algorithms for cognitive radio applications. IEEE Communications Surveys and Tutorials, 11 (2009)1, 116–130.
Federal Communications Commission. Notice of proposed rulemaking FCC04-113: Unlicensed operation in the TV broadcast bands (ET Docket No.04-186). http://www.naic.edu/phil/rfi/fccactions/FCC-04-113A1.pdf , May 2004.
A. Ghasemi and E. S. Sousa. Spectrum sensing in cognitive radio networks: Requirements, challenges and design trade-offs. IEEE Communications Magazine, 46(2008)4, 32–39.
Steve Shellhammer. Numerical Spectrum Sensing Requirements. IEEE 802.22-06/0088R0, http://www.ieee802.org/22/Meetingdocuments/2006July/22-06-0088-00-0000-Numerical-Spectrum-Sensing-Requirements.doc .
Rahul Tandra and Anant Sahai. Fundamental limits on detection in low SNR under noise uncertainty. International Conference on Wireless Networks, Communications and Mobile Computing, Hawaii, USA, 2005, Vol. 1, 464–469.
Z. Quan, S. Chi, and A. H. Sayed. Optimal linear cooperation for spectrum sensing in cognitive radio networks. IEEE Journal of Selected Topics in Signal Processing, 2(2008)1, 28–40.
Parthapratim De and Ying-Chang Liang. Blind spectrum sensing algorithms for cognitive radio networks. IEEE Transactions on Vehicular Technology, 57(2008)5, 2834–2842.
S. J. Shellhammer. Spectrum sensing in IEEE 802.22. http://www.eurasip.org/Proceedings/Ext/CIP2008/papers/1569094657.pdf .
H. Urkowitz. Energy detection of unknown deterministic signals. Proceeding of the IEEE, 55(1967)4, 523–531.
D. Cabric, A. Tkachenko, R. Broadersen. Experimental study of spectrum sensing based on energy detection and network cooperation. In Proceedings of Workshop on Technology and Policy for Accessing Spectrum (TAPAS), Aug. 2006.
Fadel F. Digham, Mohamed-Slim Alouini, and Marvin K. Simon. On the energy detection of unknown signals over fading channels. IEEE Transactions on Communications, 55(2007)1, 21–24.
Z. Ye, G. Memik, and J. Grosspietsch. Energy detection using estimated noise variance for spectrum sensing in cognitive radio networks. IEEE Wireless Communications and Networking Conference (WCNC), Las Vegas, USA, 2008, 711–716.
Y. Zeng and Y. Liang. Spectrum-sensing algorithms for cognitive radio based on statistical covariances. IEEE Transactions on Vehicular Technology, 58(2009)4, 1804–1815.
Y. Zeng and Y. Liang. Eigenvalue-based spectrum sensing algorithms for cognitive radio. IEEE Transactions on Communications, 57(2009)6, 1784–1793.
Y. Qi, W. Wang, T. Peng, and R. Qian. Spectrum sensing combining time and frequency domain in multipath fading channels. Third International Conference on Communications and Networking in China (CHINACOM), Hangzhou, China, 2008, 142–146.
W. A. Gardner. Measurement of spectral correlation. IEEE Transactions on Acoustics, Speech and Signal Processing, 34(1986)5, 1111–1123.
A. V. Dandawate and G. B. Giannakis. Statistical tests for presence of cyclostationarity. IEEE Transactions on Signal Processing, 42(1994)9, 2355–2369.
M. Oner and F. Jondral. On the extraction of the channel allocation information in spectrum pooling systems. IEEE Journal on Selected Areas Communications, 25(2007)3, 558–565.
L. Jarmo, K. Visa, H. Anu, and H. V. Poor. Spectrum sensing in cognitive radios based on multiple cyclic frequencies. 2007 2nd International Conference on Cognitive Radio Oriented Wireless Networks and Communication (CROWNCOM), Orlando, USA, 2007, 37–43.
H. Chen, W. Gao, and D. G. Daut. Signature based spectrum sensing algorithms for IEEE 802.22 WRAN. IEEE ICC, 2007, 6487–6492.
H. Chen, W. Gao, and D. G. Daut. Spectrum sensing using cyclostationary properties and application to IEEE 802.22 WRAN. IEEE GLOBECOM, Washington, D.C., US, 2007, 3133–3138.
H. Chen, W. Gao, and D. G. Daut. Spectrum Sensing for wireless microphone signals. IEEE 5th Annual Communications Society Conference on SECON Workshops, San Francisco, USA, 2008, 1–5.
H. Chen, W. Gao, and D. G. Daut. Spectrum sensing for OFDM systems employing pilot tones and application to DVB-T OFDM. IEEE International Conferene on Communications, ICC’08, Beijing, China, 2008, 3421–3426.
S. Chaudhari, V. Koivunen, and H. V. Poor. Autocorrelation-based decentralized sequential detection of OFDM signals in cognitive radios. IEEE Transactions on Signal Processing, 57(2009)7, 2690–2700.
Sheng-Yuan Tu, Kwang-Cheng Chen, and R. Prasad. Spectrum sensing of OFDMA systems for cognitive radio networks. IEEE Transactions on Vehicular Technology, 58(2009)7, 3410–3425.
B. Farhang-Boroujeny. Filter bank spectrum sensing for cognitive radios. IEEE Transactions on Signal Processing, 56(2008)5, 1801–1811.
H. Tang. Some physical layer issues of wide-band cognitive radio systems. First IEEE International Symposium on DySPAN, Baltimore, MD, USA, Nov. 2005, 151–159
C. Carlos, G. Monisha, C. Dave, and C. Kiran. Spectrum sensing for dynamic spectrum access of TV bands. 2nd International Conference on CrownCom, Orlando, USA, 2007, 225–233.
A. Hoang, Y. Liang, and Y. Zeng. Adaptive joint scheduling of spectrum sensing and data transmission in cognitive radio networks. IEEE Transactions on Communications, 58(2010)1, 235–246.
A. Pandharipande and J.-P. M. G. Linnartz. Performance analysis of primary user detection in a multiple antenna cognitive radio. Proceedings of International Corference on Communications, Scotland, UK, 2007, 6482–6486.
X. Chen, W. Xu, and Z. He, X. Tao. Spectral correlation-based multi-antenna spectrum sensing technique. IEEE Wireless Communications and Networking Conference (WCNC), 2008, 735–740.
R. Zhang, T. Lim, Y. Liang, and Y. Zeng. Multi-antenna based spectrum sensing for cognitive radios: A GLRT approach. IEEE Transactions on Communications, 58(2010)1, 84–88.
P. Wang, J. Fang, N. Han, and H. Li. Multi-antenna assisted spectrum sensing for cognitive radio. IEEE Transactions on Vehicular Technology, 59(2010)4, 1791–1800.
S. Kim, J. Lee, H. Wang, and D. Hong. Sensing performance of energy detector with correlated multiple antennas. IEEE Signal Processing Letters, 16(2009)8, 671–674.
E. Peh and Y. Liang. Optimization for cooperative sensing in cognitive radio networks. IEEE Wireless Communications and Networking Conference, Kowloon, Hong Kong, China, 2007, 27–32.
W. Zhang, R. K. Mallik, and K. B. Letaief. Cooperative spectrum sensing optimization in cognitive radio networks. IEEE International Conferene on Communications, Hong Kong, China, 2008, 3411–3415.
Z. Quan, S. Cui, and A. H. Sayed. An optimal strategy for cooperative spectrum sensing in cognitive radio networks. IEEE Global Telecommunications Conference, Washington, USA, Nov. 2007, 2947–2951.
C. Sun, W. Zhang, and K. B. Letaief. Cooperative spectrum sensing for cognitive radios under bandwidth constraints. IEEE Wireless Communications and Networking Conference, Hong Kong, China, 2007, 1–5.
J. Ma, G. Zhao, and Ye Li. Soft combination and detection for cooperative spectrum sensing in cognitive radio networks. IEEE Transactions on Wireless Communications, 7(2008)11, Part:2, 4502–4507.
H. Su and X. Zhang. Cross-layer based opportunistic MAC protocols for QoS provisionings over cognitive radio wireless networks. IEEE Journal on Selected Area in Communications, 26(2008)1, 118–129.
H. Su and X. Zhang. Cognitive radio based multi-channel MAC protocols for wireless ad hoc networks. IEEE Global Telecommunications Conference, Washington, USA, Nov. 2007, 4857–4861.
H. Kim and K. Shin. Efficient discovery of spectrum opportunities with MAC-layer sensing in cognitive radio networks. IEEE Transactions on Mobile Computer, 7(2008)5, 533–545.
Wei Wang and Xin Liu. List-coloring based channel allocation for open-spectrum wireless networks. The 62nd IEEE Vehicular Technology Conference, Dallas, USA, 2005, 690–694.
L. L. Cao and H. T. Zhen. Distributed spectrum allocation via local bargaining. Second Annual IEEE Communications Society Conference on Sensor and Ad Hoc Communications and Networks, Santa Clara, CA, 2005, 475–486.
L. L. Cao and H. T. Zheng. Distributed rule-regulated spectrum sharing. IEEE Journal on Selected Area in Communications, 26(2008)1, 130–145.
R. Gibbons. A Primer in Game Theory. New York, Prentice Hall, 1992, 1–267.
Zhu Ji and K. J. R. Liu. Dynamic spectrum sharing: A game theoretical overview. IEEE Communications Magazine, 45(2007)5, 88–94.
Y. Zhao, S. Mao, J. O. Neel, and J. H. Reed. Performance evaluation of cognitive radios: metrics. utility functions, and methodology. Proceeding of the IEEE, 97(2009)4, 642–659.
A. Attar and M. R. Nakhai. Cognitive radio game for secondary spectrum access problem. IEEE Transactions on Wireless Communications, 8(2009)4, 2121–2131.
J. Huang and V. Krishnamurthy. Transmission control in cognitive radio as a Markovian dynamic game: Structural result on randomized threshold policies. IEEE Transactions on Communications, 58(2010)1, 301–310.
M. Maskery, V. Krishnamurthy, and Q. Zhao. Decentralized dynamic spectrum access for cognitive radios: cooperative design of a non-cooperative game. IEEE Transactions on Communications, 57(2009)2, 459–469.
R. Etkin, A. Parekh, and D. Tse. Spectrum sharing for unlicensed bands. IEEE Journal on Selected Area in Communications, 25(2007)3, 517–528.
M. Felegyhazi and M. Cagalj. Efficient MAC in cognitive radio systems: A game-theoretic approach. IEEE Transactions on Wireless Communications, 8 (2009)4, 1984–1995.
B. Wang, Y. Wu, Z. Ji, et al.. Game theoretical mechanism design methods. IEEE Signal Processing Magazine, 25(2008)6, 74–84.
Y. Wu, B. Wang, K. J. R. Liu, et al.. Repeated open spectrum sharing game with cheat-proof strategies. IEEE Transactions on Wireless Communications, 8 (2009)4, 1922–1933.
P. Klemperer. Auctions: Theory and Practice. Princeton, USA, Princeton University Press, 2004, 120–180.
J. Huang and A. B. Randall. Auction-based spectrum sharing. Journal of Mobile Networks and Applications, 11(2006)3, 405–418.
Y. Wu, B. Wang, K. J. R. Liu, et al.. A multi-winner cognitive spectrum auction framework with collusion-resistant mechanisms. IEEE International Symposium on Dynamic Spectrurn Access Network, Chicago, USA, 2008, 1–9.
H. B. Chang and K. C. Chen. Auction based spectrum management for cognitive radio networks. IEEE Transactions on Vehicular Technology, 59(2010)4, 1923–1935.
A. T. Hoang and Y. Liang. Dynamic spectrum allocation with second-price auctions: when time is money. International Conference on Cognitine Radio Oriented Wireless Networks and Communications, Singapore, May 2008, 1–6.
Z. Ji and K. J. R. Liu. Multi-stage pricing game for collusion-resistant dynamic spectrum allocation. IEEE Journal on Selected Area in Communications, 26(2008)1, 182–191.
S. Gandhi, C. Buragohain, L. Cao, et al.. Towards real-time dynamic spectrum auctions. Computer Networks: The International Journal of Computer and Telecommunications Networking, 52(2008)4, 879–897.
D. Niyato and E. Hossain. Competitive pricing for spectrum sharing in cognitive radio networks: dynamic game, inefficiency of Nash equilibrium, and collusion. IEEE Journal on Selected Area in Communications, 26(2008)1, 192–202.
D. Niyato and E. Hossain. Competitive spectrum sharing in cognitive radio networks: a dynamic game approach. IEEE Transactions on Communications, 7 (2008)7, 2651–2660.
D. Niyato and E. Hossain. Competitive pricing in heterogeneous wireless access networks: issues and approach. IEEE Network, 22(2008)6, 4–11.
S. Y. Lien, C. C. Tseng, and K. C. Chen. Carrier sensing based multiple access protocols for cognitive radio networks. IEEE International Conference on Communications, Beijing, China, May 19–23, 2008, 3208–3214.
J. Jia, Q. Zhang, and X. Shen. HC-MAC: a hardware-constrained cognitive MAC for efficient spectrum management. IEEE Journal on Selected Area in Communications, 26(2008)1, 106–117.
L. Ma, C. C. Shen, B. Ryu. Single-radio adaptive channel algorithm for spectrum agile wireless ad hoc networks. IEEE Symposium on New Frontiers in Dynamic Spectrum Access Networks, Dublin, Ireland, Apr. 17–20, 2007, 547–558.
L. Ma, X. Han, and C. C. Shen. Dynamic open spectrum sharing for wireless ad hoc networks. First IEEE Symposium on New Frontiers in Dynamic Spectrum Access Networks, Baltimore, MD, USA, Nov. 8–11, 2005, 203–213.
S. J. Yoo, H. Nan, and T. I. Hyon. DCR-MAC: Distributed cognitive radio MAC protocol for wireless ad hoc networks. Wireless Communications and Mobile Computing, 9(2009)5, 631–653.
C. Cordeiro, K. Challapali, D. Birru, and S. Shankar. IEEE 802.22: The first world-wide wireless standard based on cognitive radio. First IEEE Symposium on New Frontiers in Dynamic Spectrum Access Networks, Baltimore, MD, USA, Nov. 8–11, 2005, 328–337.
C. Cordeiro, K. Challapali, and M. Ghosh. Cognitive PHY and MAC layers for dynamic spectrum access and sharing of TV bands. IEEE International Work shop on Technology and Policy for Accessing Spectrum, Boston, MA, USA, Aug. 5, 2006, 222.
C. Cordeiro and K. Challapali. C-MAC: a cognitive MAC protocol for multi-channel wireless networks. IEEE Symposium on New Frontiers in Dynamic Spectrum Access Networks, Dublin, Ireland, Apr. 17–20, 2007, 147–157.
C. Zhou and C. Chigan. A game theoretic DSA-driven MAC framework for cognitive radio networks. IEEE International Conference on Communications, Beijing, China, May 19–23, 2008, 4165–4169.
T. Chen, H. Zhang, G. M. Maggio, and I. Chlamtac. CogMesh: a clusterbased cognitive radio network. IEEE Symposium on New Frontiers in Dynamic Spectrum Access Networks, Dublin, Ireland, Apr. 17–20, 2007, 168–178.
B. Hamdaouli and K. G. Shin. OS-MAC: an efficient MAC protocol for spectrum-agile wireless networks. IEEE Transactions on Mobile Computer, 7(2008)8, 15–930.
Q. Zhao, L. Tong, A. Swami, and Y. Chen. Decentralized cognitive MAC for opportunistic spectrum access in ad hoc networks: a POMDP framework. IEEE Journal on Selected Area in Communications, 25(2007)3, 589–600.
Y. R. Kondareddy and P. Agrawal. Synchronized MAC protocol for multihop cognitive radio networks. IEEE International Conference on Communications Workshops, Beijing, China, May 19–23, 2008, 3198–3202.
Y. X. Chen, Q. Zhao, and A. Swami. Joint design and separation principle for opportunistic spectrum access in the presence of sensing errors. IEEE Transactions on Information Theory, 54(2008)5, 2053–2071.
Q. Zhao, B. Krishnamachari, and K. Liu. On myopic sensing for multi-channel opportunistic access: structure, optimality, and performance. IEEE Transactions on Wireless Communicationss, 7(2008)12, 5431–5440.
S. H. A. Ahmad, M. Y. Liu, T. Javidi, Q. Zhao, and B. Krishnamachari. Optimality of myopic sensing in multichannel opportunistic access. IEEE Transactions on Information Theory, 55(2009)9, 4040–4050.
Y. X. Chen, Q. Zhao, and A. Swami. Distributed spectrum sensing and access in cognitive radio networks with energy constraint. IEEE Transactions on Signal Processing, 57(2009)2, 783–797.
A. T. Hoang, Y. C. Liang, D. T. C. Wong, Y. H. Zeng, and R. Zhang. Opportunistic spectrum access for energy-constrained cognitive radios. IEEE Transactions on Wireless Communications, 8(2009)3, 1206–1211.
H. Khalife, N. Malouch, and S. Fdida. Multihop cognitive radio networks: to route or not to route. IEEE Network, 23(2009)4, 20–25.
R. W. Brodersen, A. Wolisz, D. Cabric, et al.. CORVUS: A cognitive radio approach for virtual unlicensed spectrum. Berkeley Wireless Research Center (BWRC), White Paper, July 2004, 1–21.
R. Hincapie, J. Tang, G. Xue, and R. Bustamante. QoS routing in wireless mesh networks with cognitive radios. IEEE Global Telecommunications Conference, New Orleans, USA, 2008, 1–5.
A. C. Talay and D. T. Altilar. ROPCORN: Routing protocol for cognitive radio ad hoc networks. International Conference on Ultra Modern Telecommunications & Workshops, St. Petersburg, Russia, 2009, 1–6.
Z. Song, B. Shen, Z. Zhou, and K. S. Kwak. Improved ant routing algorithm in cognitive radio networks. International Symposium on Communications and Information Technology, Inchen, Korea, 2009, 110–114.
G. Cheng, W. Liu, Y. Li, and W. Cheng. Joint on-demand routing and spectrum assignment in cognitive radio networks. IEEE International Conference on Communications, Glasgow, UK, 2007, 6499–6503.
W. Jiang, H. Cui and J. Chen. Spectrum-aware Cluster-based routing protocol for multiple-hop cognitive wireless network. IEEE International Conference on Communications Technology and Applications, Bejjing, China, 2009, 288–294.
W. Feng, J. Cao, C. Zhang, and C. Liu. Joint optimization of spectrum handoff scheduling and routing in multi-hop multi-radio cognitive networks. 29th IEEE International Conference on Distributed Computing Systems, Montreal, Canada, 2009, 85–92.
L. Ding, T. Melodia, S. N. Batalama, J. D. Martyjas, and M. J. Medley. Cross-layer routing and dynamic spectrum allocation in cognitive radio Ad Hoc networks. IEEE Transactions on Vehicular Technology, 59(2010)4, 1969–1979.
K. Yang and X. Wang. Cross-layer network planning for multi-radio multi-channel cognitive wireless networks. IEEE Transactions on Communications, 56 (2008)10, 1705–1714.
Y. T. Hou, Y. Shi, H. D. Sherali. Spectrum sharing for multi-hop networking with cognitive radios. IEEE Journal on Selected Area in Communications, 26(2008)1, 146–155.
C. Xin and B. X. Shen. A novel layered graph model for topology formation and routing in dynamic spectrum access networks. First IEEE International Symposiumon on New Frontiers in Dynamic Spectrum Access Network, Baltimore, MD, USA, Nov. 2005, 308–317.
M. Pan, R. Huang, and Y. Fang. Cost design for opportunistic multi-hop routing in cognitive radio networks. IEEE Military Communications Conference, San Diego, USA, 2008, 1–7.
F. Javadi and A. Jamalipour. Ulti-path routing for a cognitive wireless mesh network. IEEE Radio and Wireless Symposium, Long Beach, USA, 2009, 232–235.
B. Zhang, Y. Takizawa, A. Hasagawa, A. Yamaguchi, and S. Obana. Tree-based routing protocol for cognitive wireless access networks. IEEE Wireless Communications and Networking Conference, Hong Kong, China, 2007, 4204–4208.
G. Zhu, I. F. Akyildiz, and G. Kuo. STOD-RP: A spectrum-tree based on-demand routing protocol for multi-hop cognitive radio networks. IEEE Global Telecommunications Conference, LA, USA, 2008, 1–5.
X. Xiang and Q. Wu. Traffic driven based load balancing routing scheme in CogMesh network. International Conference on Apperceiving Computing and Intelligence Analysis, Chengdu, China, 2009, 198–202.
Q. Wang and H. T. Zheng. Route and spectrum selection in dynamic spectrum networks. 3rd IEEE Consumer Communications and Networking Conference, Las Vegas, USA, 2006, 625–629.
D. J. C. MacKay. Information Theory, Inference, and Learning Algorithms. Cambridge, UK: Cambridge University Press, 2003, 589–594.
M. Luby. LT codes. Proceeding of the 43rd Annual IEEE Symposium on Foundations of Computer Science, Vancouver, Canada, Nov. 16–19, 2002, 271–282.
V. T. Raisinghani and S. Iyer. Cross-layer design optimizations in wireless protocol stacks. Computer Communications, 27(2004)8, 720–724.
G. Xylomenos and G. C. Polyzos. Internet protocol performance over networks with wireless links. IEEE Network, 13(1999)4, 55–63.
S. Shakkottai, T. S. Rappaport, and P. C. Karlsson. Cross-layer design for wireless networks. IEEE Communications Magazine, 41(2003)10, 74–80.