Abstract
Resource allocation for orthogonal frequency-division multiple access (OFDMA) systems is a challenging issue for next-generation wireless communications. In OFDMA systems, adaptive resource allocations can considerably improve the system performance [1]. Previous research works mainly focused on OFDMA systems for unicast transmissions, wherein each subcarrier is assigned to one user exclusively [1–4]. However, many emerging wireless applications, such as mobile TV and video conference, take the form of multicast transmissions.
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References
Y.W. Cheong, R.S. Cheng, K.B. Lataief, R.D. Murch, Multiuser OFDM with adaptive subcarrier, bit, and power allocation. IEEE J. Select. Areas Commun 17(10), 1747–1758 (1999)
I. Kim, I.S. Park, Y.H. Lee, Use of linear programming for dynamic subcarrier and bit allocation in multiuser OFDM. IEEE Trans. Veh. Technol. 55(4), 1195–1207 (2006)
Z. Mao, X. Wang, Efficient optimal and suboptimal radio resource allocation in OFDMA system. IEEE Trans. Wirel. Commun. 7(2), 440–445 (2008)
I.C. Wong, B. Evans, Optimal resource allocation in the OFDMA downlink with imperfect channel knowledge. IEEE Trans. Commun. 57(1), 232–241 (2009)
J. Liu, W. Chen, Z. Cao, K.B. Letaief, Dynamic power and sub-carrier allocation for OFDMA-based wireless multicast systems. Proceedings of IEEE International Conference on Communications 2008, Beijing, China, 2008, pp 2607–2611
A.Y. Panah, R.W. Heath, Single-user and multicast OFDM power loading with nonregenerative relaying. IEEE Trans. Veh. Technol. 58(9), 4890–4902 (2009)
D.T. Ngo, C. Tellambura, H.H. Nguyen, Efficient resource allocation for OFDMA multicast systems with fairness consideration. Proceedings of IEEE Radio and Wireless Symposium 2009, 2009, pp. 392–395
C. Suh, J. Mo, Resource allocation for multicast services in multicarrier wireless communications. IEEE Trans. Wirel. Commun. 7(1), 27–31 (2008)
H. Kwon, B.G. Lee, Cooperative power allocation for broadcast/multicast services in cellular OFDM systems. IEEE Trans. Commun. 57(10), 3092–3102 (2009)
B. Özbek, R.D. Le, H. Khanfir, Performance evaluation of multicast MISO-OFDM systems. Ann. Telecommun. 63(5), 295–305 (2008)
M. Senel, V. Kapnadak, D. Love, Spatial multiplexing with opportunistic scheduling for multiuser MIMO-OFDM systems, in Global Telecommunications Conference, 2006. GLOBECOM ‘06. IEEE, Nov 2006, pp. 1–5
W.-C. Pao, W.-T. Lou, Y.-F. Chen, D.-C. Chang, Resource allocation for multiple input multiple output-orthogonal frequency division multiplexing-based space division multiple access systems. IET Commun. 8(18), 3424–3434 (2014)
Z. Hu, G. Zhu, Y. Xia, G. Liu, Multiuser subcarrier and bit allocation for mimo-ofdm systems with perfect and partial channel information, in Wireless Communications and Networking Conference, 2004. WCNC. 2004 IEEE, vol. 2, March 2004, pp. 1188–1193
M. Moretti, A. Perez-Neira, Efficient margin adaptive scheduling for MIMO-OFDMA systems. IEEE Trans. Wirel. Commun. 12(1), 278–287 (2013)
L. Goldfeld, V. Lyandres, D. Wulich, Minimum ber power loading for ofdm in fading channel. IEEE Trans. Commun. 50(11), 1729–1733 (2002)
N. Wang, S. Blostein, Approximate minimum ber power allocation for mimo spatial multiplexing systems. IEEE Trans. Commun. 55(1), 180–187 (2007)
L. Song, Relay selection for two-way relaying with amplify and forward protocols. IEEE Trans. Veh. Technol. 60(4), 1954–1959 (2011)
D. Feng, C. Jiang, G. Lim, L.J. Cimini, G. Feng, G. Li, A survey of energy-efficient wireless communications. IEEE Commun. Surv. Tutor 15(1), 167–178 (2012)., First Quarter 2013
Evolved Universal Terrestrial Radio Access (E-UTRA); LTE physical layer; General description, 3GPP, TS36.201, Mar. 2015
C. Xiong, G. Li, Y. Liu, Y. Chen, S. Xu, Energy-efficient design for downlink ofdma with delay-sensitive traffic. IEEE Trans. Wirel. Commun 12(6), 3085–3095 (2013)
Z. Ren, S. Chen, B. Hu, W. Ma, Energy-efficient resource allocation in downlink ofdm wireless systems with proportional rate constraints. IEEE Trans. Veh. Technol 63(5), 2139–2150 (2014)
C. Xiong, G. Li, S. Zhang, Y. Chen, S. Xu, Energy- and spectral-efficiency tradeoff in downlink ofdma networks. IEEE Trans. Wirel. Commun 10(11), 3874–3886 (2011)
L. Venturino, A. Zappone, C. Risi, S. Buzzi, Energyefficient scheduling and power allocation in downlink ofdma networks with base station coordination. IEEE Trans. Wirel. Commun. 14(1), 1–14 (2015)
C. Xiong, G. Li, S. Zhang, Y. Chen, S. Xu, Energy-efficient resource allocation in ofdma networks. IEEE Trans. Commun 60(12), 3767–3778 (2012)
G. Miao, N. Himayat, G. Li, S. Talwar, Low-complexity energy-efficient scheduling for uplink ofdma. IEEE Trans. Commun 60(1), 112–120 (2012)
H. Ye, G. Lim, L. Cimini, Z. Tan, Energy-efficient resource allocation in uplink ofdma systems under qos constraints, in Military Communications Conference, MILCOM 2013, IEEE, Nov 2013, pp. 424–428
H. Ye, G. Lim, L. Cimini, Energy-efficient scheduling and resource allocation in uplink ofdma systems. IEEE Commun. Lett 19(3), 439–442 (Mar. 2015)
L. Peng, S. Gong, L. Dan, Y. Xiao, Energy-efficient proportional resource allocation in uplink ofdma systems, in Vehicular Technology Conference (VTC Spring), 2015 IEEE 81st, May 2015, pp. 1–6
J.G. Proakis, Digital Communication, 4th edn. (McGrawHill, New York, 2001)
S. Boyd, L. Vandenberghe, Convex Optimization (Cambridge University Press, Cambridge, 2004)
B.T. Polyak, Introduction to Optimization (Optimization Software, Publications Division, New York, 1987)
D.P. Bertsekas, Nonlinear Programming (Athena Scientific, Massachusetts, 1999)
Universal Mobile Telecommunications System (UMTS), Deployment Aspects (3GPP TR 25.943 version 7.0.0 Release 7), 2007, 3rd Generation Partnership Project Std
W.C. Jakes, Multipath Interference. Microwave Mobile Communications (IEEE Press, New York, 1994)
V. Lau, Y. Liu, T.-A. Chen, On the design of mimo block-fading channels with feedback-link capacity constraint. IEEE Trans. Commun. 52(1), 62–70 (Jan 2004)
D. Tse, Fundamentals of Wireless Communication (Cambridge university press, Cambridge, 2005)
J. Choi, Optimal Combining and Detection: Statistical Signal Processing for Communications 880 (Cambridge University Press, Cambridge/New York, 2010)
R.A. Horn, C.R. Johnson, Matrix Analysis (Cambridge university press, Cambridge/New York, 2012)
J. Xu, S. jin Lee, W.-S. Kang, J.-S. Seo, Adaptive resource allocation for mimo-ofdm based wireless multicast systems. IEEE Trans. Broadcast. 56(1), 98–102 (2010)
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Chen, C., Cheng, X. (2020). Resource Allocation for OFDMA Systems. In: Resource Allocation for OFDMA Systems. Wireless Networks. Springer, Cham. https://doi.org/10.1007/978-3-030-19392-8_4
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DOI: https://doi.org/10.1007/978-3-030-19392-8_4
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