Abstract is missing.
- Building a spectrum map for future cognitive radio technologyYun Li, Trung Tran Quang, Yoshihiro Kawahara, Tohru Asami, Masanori Kusunoki. 1-6 [doi]
- On the efficiency of distributed spectrum sensing in ad-hoc cognitive radio networksIoannis Glaropoulos, Viktória Fodor. 7-12 [doi]
- Impact of mobility on spectrum sensing in cognitive radio networksAlexander W. Min, Kang G. Shin. 13-18 [doi]
- Understanding cross-band interference in unsynchronized spectrum accessWei Hou, Lei Yang, Lin Zhang, Xiuming Shan, Heather Zheng. 19-24 [doi]
- Interference management via rate splitting and HARQ over time-varying fading channelsMarco Levorato, Osvaldo Simeone, Urbashi Mitra. 25-30 [doi]
- On the performance of cognitive access with periodic spectrum sensingXin Li, Qianchuan Zhao, Xiaohong Guan, Lang Tong. 31-36 [doi]
- Connectivity of cognitive radio networks: proximity vs. opportunityWei Ren, Qing Zhao, Ananthram Swami. 37-42 [doi]
- Revenue maximization and distributed power allocation in cognitive radio networksShaolei Ren, Mihaela van der Schaar. 43-48 [doi]
- Online market driven spectrum scheduling and auctionPing Xu, Xiang-Yang Li. 49-54 [doi]
- A multipath routing and spectrum access (MRSA) framework for cognitive radio systems in multi-radio mesh networksXiaofei Wang, Ted Taekyoung Kwon, Yanghee Choi. 55-60 [doi]
- Wireless spectrum prediction model based on time series analysis methodJinzhao Su, Wei Wu. 61-66 [doi]
- Correlation-based spectrum sensing in cognitive radioWenfang Xia, Shu Wang, Wei Liu, Wenqing Cheng. 67-72 [doi]
- RACON: a routing protocol for mobile cognitive radio networksA. Cagatay Talay, D. Turgay Altilar. 73-78 [doi]
- Achievable throughput of multiple access spectrum systems based on cognitive relayWei Wang, Baochun Li, Li Yu. 79-84 [doi]
- Test bed design for detect and avoid of ultra wideband devicesGianmarco Baldini, Janie Baños, Xiaochen Chen. 85-90 [doi]