Resource Allocation in OFDM Based Wireless Relay Networks ...

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5.6 Summary algorithm was shown by simulations. Through numerical results, we observed that at lower rate requirement, increasing the initial energy is more advantageous for network lifetime maximization. 95
Chapter 6 Resource Allocation in Cognitive Relay Networks This chapter is available in the printed version and it has been removed from electronic version for copyright reasons. 96
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Resource Allocation in OFDM Based W
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Dedications: To my family
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Acknowledgment I am greatly thankfu
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Contents 2.3.3 Proposed Low-Complex
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Abstract The combination of relay t
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List of Tables 3.1 Complexity compa
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List of Figures 4.1 System model fo
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List of Acronyms IEEE MU RS AWGN OW
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1.1 Overview of Relay Networks wire
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1.2 Overview of OFDM Figure 1.2: Th
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1.3 Basics of the Optimization Theo
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1.3 Basics of the Optimization Theo
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1.4 Resource Allocation Problem is
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1.5 Contribution and Organization o
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1.5 Contribution and Organization o
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2.1 Introduction allocated to a nod
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2.1 Introduction The main contribut
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2.2 System Model where h m,k denote
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2.3 Resource Allocation Schemes opt
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2.3 Resource Allocation Schemes ( )
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2.3 Resource Allocation Schemes and
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2.3 Resource Allocation Schemes tha
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2.3 Resource Allocation Schemes 2.3
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2.4 Generalization to Multiple Rela
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2.4 Generalization to Multiple Rela
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2.5 Simulation Results • OptSol/J
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2.5 Simulation Results 0.9 0.85 0.8
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2.6 Summary 2.6 2.4 2.2 2 Rate (bit
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2.6 Summary 2.4 2.2 2 1.8 N=4 N=3 N
Page 59 and 60: 3.1 Introduction A new technology c
Page 61 and 62: 3.1 Introduction • Broadcast Phas
Page 63 and 64: 3.2 System Model MU MU 3 8 A 1 2 7
Page 65 and 66: 3.4 Joint Resource Allocation Schem
Page 67 and 68: 3.4 Joint Resource Allocation Schem
Page 69 and 70: 3.5 Step-Wise Low-Complexity Resour
Page 71 and 72: 3.6 Simulation Results and SNR B m,
Page 73 and 74: 3.6 Simulation Results 3 2.5 2 Uppe
Page 75 and 76: 3.7 Summary 1.8 1.6 1.4 JntOpt SubO
Page 77 and 78: 4.1 Introduction • Non-orthogonal
Page 79 and 80: 4.3 Cooperative Non-Orthogonal Tran
Page 87 and 88: 4.4 Optimization under Orthogonal T
Page 89 and 90: 4.4 Optimization under Orthogonal T
Page 91 and 92: 4.5 Simulations Then, the over all
Page 93 and 94: 4.5 Simulations 40 30 20 Sum−ρ S
Page 95 and 96: 4.6 Summary 0.9 0.8 0.7 JPSC Pow EP
Page 97 and 98: Chapter 5 Lifetime Maximization in
Page 99 and 100: 5.1 Introduction Figure 5.2: Linear
Page 101 and 102: 5.2 System Model antenna that canno
Page 103 and 104: 5.4 Lifetime Maximization Scheme 5.
Page 105 and 106: 5.4 Lifetime Maximization Scheme wh
Page 107 and 108: 5.5 Simulation Results 150 OPT−SO
Page 109: 5.6 Summary Lifetime (S) 150 100 50
Page 113 and 114: 7. Conclusions were considered for
Page 115 and 116: Bibliography [12] A. Peled, and A.
Page 117 and 118: Bibliography [36] Z. Luo and S. Zha
Page 119 and 120: Bibliography [61] D. H. N. Nguyen,
Page 121 and 122: Bibliography [84] A. Goldsmith, S.
Page 123 and 124: Bibliography [105] Y. Li, W. Wang,
Page 125 and 126: Appendix A Derivations of Closed-Fo
Page 127: B. Derivations of the Optimal Power
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