参考文献

[1]Federal Communications Commission. ET docker No 03-222 notice of proposed rule making and order[R],FCC,2003.

[2]IEEE. PAR Form,802.22-PAR-pdf[S/OL]. http://grouper.IEEE.org/groups802/22.

[3]IEICE. Software defined radio technical conference and product exposition[C/OL]. Florida: Orlando,2006,13-17. http://www.sdrforum.org/pages/sdr06/sdr06_papers.html.

[4]HAYKIN S. Cognitive radio: brain-empowered wireless communications[J]. IEEE Journal on Selected Areas in Communications,2003,23(2): 201-220.

[5]WEISS T,JONDRAL F. Spectrum pooling: an innovative strategy for the enhancement of spectrum efficiency[J]. IEEE Communications Magazine,2004,42(3): 8-14.

[6]KOTARO W,KOJI I,RYUJI K. Performance of cognitive radio technologies in the presence of primary radio systems[C]. IEEE 18th International Symposium on Personal,Indoor and Mobile Radio Communications,2007.

[7]JOSEPH M. Cognitive radio: An integrated agent architecture for software defined radio[D]. Dept. of Teleinformatics,Royal Institute of Technology (KTH),Stockholm,Sweden,2000.

[8]ZHU X,ZHU W,CHAMPAGNE B. Spectrum sensing based on fractional lower order moments for cognitive radios in alpha-stable distributed noise[J]. Signal Processing,2015,111:94-105.

[9]GAO R,LI Z,QI P,et al. A robust cooperative spectrum sensing method in cognitive radio network[J]. IEEE Communications Letters,2014,18(11): 1987-1990.

[10]DING G ,WANG J,WU Q. Robust spectrum sensing with crowd sensors[J]. IEEE Transactions on Communications,2014,62(9):3129-3143.

[11]GUO C,CHEN S,FENG C. Correlation-statistics-based spectrum sensing exploiting energy and polarization for dual-polarized cognitive radios[J]. IEEE Transactions on Wireless Communications,2015,14(3):1533-1554.

[12]LI B,ERYILMAZ A. Distributed channel probing for efficient transmission scheduling in wireless networks[J]. IEEE Transactions on Mobile Computing,2015,14(6): 1176-1188.

[13]HAN W,HUANG C,LI J.Correlation-based spectrum sensing with oversampling in cognitive radio[J]. IEEE Journal on Selected Areas in Communications,2015,33(5):788-802.

[14]SHIN D H,BAGCHI S,WANG C C. Distributed online channel assignment toward optimal monitoring in multi-channel wireless networks[C]. Proceedings of IEEE INFOCOM,Mini-conference,2012.

[15]SHIN D H,HE S,ZHANG J. Joint sensing task and subband allocation for large-scale spectrum profiling[C]. Proceedings of IEEE INFOCOM,2015,433-441.

[16]陈龙彪，李石坚，潘纲. 智能手机：普适感知与应用[J].计算机学报，2015,38(2): 423-438.

[17]TOH C K,VASSILIOU V,GUICHAL G,et al. March: a medium access control protocol for muitihop wireless Ad Hoc networks[C]. Proceedings of IEEE MILCOM,Los Angeles,2000.

[18]BHARGHAVAN V. Performance analysis of a medium access protocol of wireless packet networks[C]. IEEE Performance and Dependability Symposium 98,Raleigh,NC,1998.

[19]ENG J,HAAS Z J. Dual Busy Tone Multiple Access (DBTMA): a new medium access control for packet radio networks[C]. IEEE ICUPC’98,1998.

[20]HAAS Z J,DENG J. Dual Busy Tone Multiple Access (DBTMA)- performance evaluation[C]. IEEE VTC’99,1999.

[21]SO J,VAIDYA N. A multi-channel MAC protocol for Ad Hoc wireless networks[R]. Dept. of electrical and Computer Engineering,University of Illinois,USA,Technical Report,January 2003.

[22]MURTHY S,GARCIALUNAACEVES J J. An efficient routing protocol for wireless networks[J]. ACM Mobile Networks and Applications Journal,Special Issue on Routing in Mobile Communication Networks,1996,1(2):183-197.

[23]GAROUS V. Simulating network traffic in multi-hop wireless Ad Hoc networks based on DSDV (Destination Sequenced Distance Vector) protocol using NS (Network Simulator) package[EB/OL]. University of Waterloo,Fall 2001. http://www.cst.uwaterloo.ca/ ~garousi/ downloads/7 50-proj-rep.

[24]PERKINS C E,BHAGWAT P. Highly dynamic Destination- Sequenced Distance-Vector (DSDV) routing for mobile computers[C]. Proceedings of ACM SIGCOMM,London,England,1994,234-244.

[25]CLAUSEN T,JACQUET P. Optimized link state routing protocol[EB]. Internet Draft draft-ietf-manet-olsr-11. 2003.

[26]CHIANG C C,GERLA M,ZHANG L. Adaptive shared tree multicast in mobile wireless networks[C]. Proceedings of IEEE GLOBECOM,1998.

[27]JOHNSON D B,MALTZ D A,BROCH J. DSR: The dynamic source routing protocol for multi-hop wireless Ad Hoc networks[M]. Ad Hoc Networking,edited by Charles E. Perkins,2001.

[28]LEUNG R,LIU J. MP-DSR: a QoS-aware multi-path dynamic source routing protocol for wireless ad-hoc networks[C]. 26th Annual IEEE Conference on Local Computer Networks,2001,132-141.

[29]BROCH J,JOHNSON D,MALTZ D. The dynamic source protocol for mobile Ad Hoc networks[EB/OL]. IETE Internet Draft,1999. http://www.ietf.Org/internetdrafts/draft-ietf-manet-dsr-03.

[30]WIBERG B. Porting AODV-UU implementation to ns-2 and enabling trace-based simulation[M]. Department of Computer Systems,University of Uppsala,December 2002.

[31]PERKINGS C,BELDINGROYER E,DAS S. Ad Hoc On-Demand Distance Vector (AODV) routing. txt,IETF Internet Draft[EB/OL]. 2003. http://www.ietf.org/internetdrafts/draft-ietf-manet-dsr-03.

[32]PARK V D,CORSON M S. Temporally-Ordered Routing Algorithm (TORA) version l:functional specification[EB/OL]. 1997. http://wwwl.tools.ietf.org/html/draft-ietf-manet-tora-spec-00.

[33]CHAE Y,ZEGURA E W. Service-specific ABR routing algorithms[C]. 7th International Conference on Computer Communications and Networks,Lafayette,LA,USA ,1998,752-759.

[34]KO Y,VAIDYA N H. Location-Aided Routing (LAR) in mobile Ad Hoc networks[J]. Wireless Networks. Hingham,MA,USA,2000,307-321.

[35]HAAS Z J,PEARLMAN M R. The Zone Routing Protocol (ZRP) for Ad Hoc networks,internet draft[EB/OL]. http://www.ics.uci.edu/~atm/ adhoc/paper-collection/haas-draf-ietf-manet-zone-zrp-00.

[36]HASS Z J,PEARLMAN M R,SAMAR P. Zone Routing Protocol (ZRP)[EB/OL]. Internet Draft draft-ietf-manet-zone-zrp-04.txt,Jul. 2002.

[37]HAYKIN S. Cognitive radio: brain-empowered wireless communications[J]. IEEE Journal on Selected Areas in Communications,2005,23(2):201-220.

[38]AKYILDIZ I,LEE W,VURAN M,MOHANTY S. Next generation/ dynamic spectrum access/cognitive radio wireless networks: a survey[J]. Elsevier Computer Networks,2006,50(1):2127-2159.

[39]DEVROYE M,MITRAN P,TAROHK V. Limits on communications in a cognitive radio channel[J]. IEEE Communications Magazine,2006,44(6): 44-49.

[40]CABRIC D,MISHRA S,BRODERSEN R. Implementation issues in spectrum sensing for cognitive radios[C]. Proceedings. of 38th Asilomar Conference on Signals,Systems and Computers,2004.

[41]ZHAO Q,TONG L,SWAMI A. Decentralized cognitive MAC for dynamic spectrum access[C]. IEEE 1st International Symposium on New Frontiers in Dynamic Spectrum Access networks,2005.

[42]ZHAO Q,SADLER B. A survey of dynamic spectrum access[J]. IEEE Signal Processing Magazine,2007,24(3): 79-89.

[43]XING Y P,CHANDRAMOULI R,MANGOLD S,etc. Dynamic spectrum access in open spectrum wireless networks[J]. IEEE Journal on Selected Areas in Communications,2006,24(3): 626-637.

[44]CHOU C T,SAI S N,etc. What and how much to gain by spectrum agility?[J]. IEEE Journal on Selected Areas in Communications,2007,25(3): 576-588.

[45]SU H,ZHANG X. Opportunistic MAC protocols for cognitive radio based wireless networks[J]. Proceedings of 41st Conference on Information Sciences and Systems (CISS 2007),John Hopkings University,USA,2007.

[46]SU H,ZHANG X. Cross-layer based opportunistic MAC protocols for QoS provisionings over cognitive radio wireless networks[J]. IEEE Journal on Selected Areas Communications,2008,26(1): 118-129.

[47]SU H,ZHANG X. Channel-hopping based single transceiver MAC for cognitive radio networks[C]. Proceedings of 42st Conference on Information Sciences and Systems (CISS 2008),John Hopkings University,USA,2008.

[48]HUNG S,CHENG Y. An opportunistic cognitive MAC protocol for coexistence with WLAN[C]. ICC,2008,4059-4063.

[49]ZHENG H T,PENG C Y. Collaboration and fairness in opportunistic spectrum access[C]. ICC,2005,3132-3136.

[50]KANODIA V,SABHARWAL A,KNIGHTLY E. MOAR: a multi-channel opportunistic auto-rate media access protocol for Ad Hoc networks[C]. 1st International Conference on Broadband Networks,2004,600-601.

[51]HOVEN N,SAHAI A. Power scaling for cognitive radio[C]. International Conferenceon Wireless Networks,Communications and Mobile Computing,2005,250-255.

[52]TANG H Y. Some physical layer issues of wide-band cognitive radio systems[M]. New Frontiers in Dynamic Spectrum Access Networks,2005,151-159.

[53]MITRAN P,DEVROYE N,TAROKH V. On compound channels with side information at the transmitter[J]. IEEE Transactions on Information Theory,2006,52(4): 1745-1755.

[54]RAMAN C,YATES R D,MANDAYAM N B. Scheduling variable rate links via a spectrum srever[C]. Proceedings of IEEE DySPAN,2005,110-118.

[55]THOPPIAN M. MAC-layer scheduling in cognitive radio based multi-hopwireless networks[C]. WowMoM,2006,191-202.

[56]PENG C,ZHENG H,ZHAO B Y. Utilization and fairness in spectrum assignment for opportunistic spectrum access[C]. ACM mobile networks and applications,2006.

[57]CAO L,ZHENG H. Distributed spectrum allocation via local bargaining[C]. Proceedings of IEEE Sensor and Ad Hoc Communications and Networks,2005,475-486.

[58]ZHENG H,CAO L. Device-centric spectrum management[C]. Proceedings of IEEE DySPAN,2005,56-65.

[59]NEEL J,BUEHRER R M,REED B H,GILLES R P. Game theoretic analysis of a network of cognitive radios[C]. The 45th Midwest Symposium on Circuits and Systems,2002,409-412.

[60]NEEL J,MENON R,REED H H,MACKENZIE A B. Using game theory to analyze physical layer cognitive radio of algorithms[R]. Technology Report with Bradley Dept of EE,Virginia Tech,2006.

[61]NEEL J. Analysis and design of cognitive radio networks and distributed radio resource management algorithms[D]. Virginia Polytechnic Institute and State University,2006,32-38.

[62]KIM H,KANGSHIN G. Adaptive MAC-layer sensing of spectrum availability in cognitive radio networks[R]. Real-Time Computing laboratory Department of Electrical Engineering and computer Science University of Michigan,2006.

[63]NIE N,COMANICIU C. Adaptive channel allocation spectrum etiquette for cognitive radio networks[C]. IEEE 1st International Symposium on New Frontiers in Dynamic Spectrum Access Networks,2005,269-278.

[64]IEEE. IEEE 802.11s[EB/OL]. http://www.802wirelessworld.com/.

[65]RANIWALA A,CHIUEH T C. Architecture and algorithms for an IEEE 802.11-based multi-channel wireless mesh network[C]. Proceedings of IEEE INFOCOM,2005,2223-2234.

[66]ZHANG B,TAKIZAWA Y,HASAGAWA A. Tree-based routing protocol for cognitive wireless access networks[C]. Proceedings of IEEE WCNC ,2007,4207- 4211.

[67]WANG Q,ZHENG H. Route and spectrum selection in dynamic spectrum networks[C]. Proceedings of IEEE CCNC,2007,625-629.

[68]KHALLIFE H,AHUJA S,MALOUCH N. Probabilistic path selection in opportunistic cognitive radio networks[C]. Proceedings of IEEE GLOBECOM,2008,1-5.

[69]SHI Y,HOUTHOMAS Y. A distributed optimization algorithm for multi-hop cognitive radio networks[C]. Proceedings of IEEE INFOCOM,2008,1966-1973.