Changpeng Ji, Xiaoqiu Nie, and Dian Liu


  1. [1] J. Mitola and G.Q. Maguire, Jr., Cognitive radio: Making software radios more personal, IEEE Personal Communications, 6(4), 1999, 13–18.
  2. [2] J. Mitola, Cognitive radio for flexible mobile multimedia communications, Mobile Multimedia Communications 1999(MoMuC99), San Diego, CA, 1999, 3–10.
  3. [3] K.-C. Chen and R. Prasad, Cognitive radio networks, 1st ed. (Chippenham, England: CPI Anthony Rowe, 2009).
  4. [4] S. Shakkottai, T.S. Rappaport, and P.C. Karlsson, Cross-layer design for wireless networks, IEEE Communications Magazine, 41(10), 2003, 74–80.
  5. [5] M.V. Schaar and N.S. Shankar, Cross-layer wireless multimedia transmission: Challenges, principles, and new paradigms, IEEE Wireless Communications, 12(4), 2005, 50–58.
  6. [6] M. Kaneko, P. Popovski, and K. Hayashi, PFS-based resource allocation algorithms for an OFDMA system with multiple relays, PIMRC 2008, Cannes, France, 2008.
  7. [7] R.W. Thomas, Cognitive networks, Doctoral Dissertation, Virginia Polytechnic and State University, Blacksburg, VA, 2007.
  8. [8] C. Fortuna and M. Mohorcic, Trends in the development of communication networks: Cognitive networks, Computer Networks, 53(9), 2009, 1354–1376.
  9. [9] L. Hongyan, The research of key technologies for cognitive radio networks, Doctoral Dissertation, University of Posts and Telecommunication, Beijing, China, 2009.
  10. [10] Q. Liu, S. Zhou, and G.B. Giannakis, Cross-layer modeling of adaptive wireless links for QoS support in multimedia networks, Quality of service in heterogeneous wired/wireless networks, MN, 2004, 68–75.
  11. [11] O.S. Shin and K.B. Lee, Packet scheduling over a shared wireless link for heterogeneous classes of traffic, Proc. of IEEE International Conf. on Communication, Seoul Nat. Univ., South Korea, 2004, 58–62.
  12. [12] IEEE 802.16 Working Group. FEC performance with ARQ and adaptive burst profile selection, 2001.
  13. [13] Cross-layer design for wireless communications – From principle to application, 1st ed. (Beijing: Posts and Telecom Press, 2010).
  14. [14] Y. Liu and X. Ji, Cross-layer packet scheduling scheme for supporting QoS of real-time services, Application Research of Computers, 28(5), 2011, 1810–1812.
  15. [15] C. Tian and D. Yuan, A novel cross-layer scheduling algorithm for IEEE802.16 WMAN, 2007 International workshop on cross layer design, IWCLD 2007, Jinan, China, 2007, 70–73.
  16. [16] R. Jain, D. Chiu, and W. Haweu, A quantitative measure of fairness and discrimination for resource allocation in shared computer system, Research Report, DEC-TR-301, Digital Equipment Corporation, 1984.
  17. [17] T. Chong, Cross-layer scheduling algorithm based on wireless networks (Jinan, China: Shandong University, 2009).
  18. [18] K. Hua, Y. Wang, W. Wang, and S. Wu, Cross layer design for QoS provisioning cooperative video transmission, IEEE COMSOC MMTC E-Letter, 6(9), 2011, 51–54.
  19. [19] K. Hua, S. Wu, W. Wang, and H. Wang, Cognitive cross-layer design with QoS provisioning for cooperative wireless networking, 44th Annual Simulation Symposium (ANSS2011 ), Boston, USA, 2011, 26–31.
  20. [20] Z. Ding and K.K. Leung, Cross-layer routing optimization for wireless networks with cooperative diversity, Proc. IEEE 19th International Symposium on Personal, Indoor and Mobile Radio Communications PIMRC 2008, Cannes, France, 2008, 1–5.
  21. [21] S. Haykin, Cognitive radio: Brain-empowered wireless communications, IEEE Journal on Selected Areas in Communications, 23(2), 2005, 201–220.
  22. [22] Q. Zhang, J. Jia, and J. Zhang, Cooperative relay to improve diversity in cognitive radio networks, Communications Magazine, IEEE, 47(2), 2009, 111–117.

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