Open Access
E3S Web Conf.
Volume 252, 2021
2021 International Conference on Power Grid System and Green Energy (PGSGE 2021)
Article Number 03021
Number of page(s) 8
Section Energy Technology Research and Development and Green Energy-Saving Applications
Published online 23 April 2021
  1. W.M. Jang. Diversity order and coding gain of general-order rectangular QAM in MIMO relay with TAS/MRC in Nakagami-fading [J]. IEEE Trans. on Vehicular Technology, 2014, 63(7): 3157–3166. [Google Scholar]
  2. A. Sendonaris, E. Erkip, B. Aazhang. User cooperation diversity. Part I and II [J]. IEEE Trans. on Communications, 2003, 51(11): 1927–1948. [Google Scholar]
  3. J. Feng, R. Zhang, et al. Cooperative medium access control based on spectrum leasing [J]. IEEE Trans. on Vehicular Technology, 2014, 63(1):297–307. [Google Scholar]
  4. H. Qin, R. Zhang, et al. Distributed cooperative MAC for wireless networks based on network coding [C]. Wireless Communications and Networking Conference (WCNC), New Orleans, LA, 2015: 2050–2055. [Google Scholar]
  5. P. Liu, Z. Tao, et al. CoopMAC: a cooperative MAC for wireless LANs [J]. IEEE Journal on Selected Areas in Communications, 2007, 25(2): 340–354. [Google Scholar]
  6. S. Sayed, Y. Yang, H. Hu. CARD: cooperative access with relay’s data for multi-rate wireless Local Area Networks [C]. IEEE International Conference on Communications (ICC’09), Dresden, Germany, 2009:1–6. [Google Scholar]
  7. N. Li, N. Cheng, et al. Performance analysis of a cooperative MAC based on opportunistic relaying for ad hoc networks [C]. 2010 International Conference on Wireless Communications and Signal Processing (WCSP), Suzhou, China, 2010:1–6. [Google Scholar]
  8. S. Kumar, H. Lim, H. Kim. Hierarchical MAC protocol with multi-channel allocation for enhancing IEEE 802.11ah relay networks [C]. 2015 International Conference on Wireless Communications and Mobile Computing, Dubrovnik, Croatia, 2015: 1458–1463. [Google Scholar]
  9. N. Marchenko, C. Bettstetter. Cooperative ARQ with relay selection: an analytical framework using semi- Markov processes [J]. IEEE Trans. on Vehicular Technology, 2014, 63(1): 178–190. [Google Scholar]
  10. E. Molina, J. Matias, et al. Managing path diversity in layer 2 critical networks by using OpenFlow [C]. Pout IEEE Network and Service Management (CNSM), Barcelona, Spain. 2015: 394–397. [Google Scholar]
  11. E. Telatar. Capacity of multi-antenna Gaussian channels [J]. AT&T Bell Technical Memorandum, 1995. [Google Scholar]
  12. J.N. Laneman and G.W. Wornell. Distributed spacetime-coded protocols for exploiting cooperative diversity in wireless networks[J]. IEEE Trans. Inform Theory, 2003, 49: 2415–2425. [Google Scholar]
  13. Y. Zhao, R. ADVE, T.J. LIM. Outage probability at arbitrary SNR with cooperative diversity[J]. IEEE Communication Letters, 2005, 9(8):700–702. [Google Scholar]
  14. T.E. Hunter, S. Sanayei, A. Nosaratinia. Outage analysis of coded cooperation [J]. IEEE Trans. Information Theory, 2006, 52(2): 375–391. [Google Scholar]
  15. S. Nadarajah. On outage probability of selection cooperation [C]. Wireless Pers Commun, 2013, 71:1331–1337. [Google Scholar]
  16. G. Cheng, et al. Outage probability analysis of decode-and-forward relaying systems with energy harvesting [C]. 2018 4th International Conference on Big Data Computing and Communications (BIGCOM), 2018, 1: 28–33. [Google Scholar]

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