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Distributed Fronthaul-Constrained Joint Transmission Design and Selection Using Augmented Consensus-based Dual Decomposition
Mykola Servetnyk,
Carrson C. Fung
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*
此作品的通信作者
電子研究所
電機工程學系
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引文 斯高帕斯(Scopus)
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Keyphrases
Comp
100%
Coordinated multipoint
100%
Joint Transmission
100%
Transmission Design
100%
Fronthaul
100%
Dual Decomposition
100%
Consensus-based
100%
Constrained Joint
100%
User-centric
66%
Synchronization Accuracy
66%
Network Synchronization
66%
Novel Technique
33%
System Performance
33%
Transmission Nodes
33%
User Equipment
33%
Optimization Problem
33%
Signaling Overhead
33%
Analytical Results
33%
Control Communication
33%
Spectral Efficiency
33%
Distributed Algorithms
33%
Result-oriented
33%
Operating Cost
33%
Frequency Reuse
33%
Convergence Rate
33%
Approximation Methods
33%
Communication Overhead
33%
Inter-cell Interference
33%
Practical Implementation
33%
Control Signal
33%
Existing Algorithms
33%
Design Problems
33%
Coordinated multi-point System
33%
Non-orthogonal multiple Access
33%
Massive MIMO Systems
33%
Nonconvex Problem
33%
Cell-free
33%
Transmission Requirements
33%
Network Complexity
33%
Distributed Design
33%
User Capacity
33%
Successive Convex Approximation
33%
Distributed Cooperative Optimization
33%
Coupled Constraints
33%
Spectral Graph Theory
33%
Uniform Coverage
33%
Cell-free Massive MIMO
33%
Coherent Joint Transmission
33%
Associated Control
33%
Distributed Feature Selection
33%
Non-coherent Transmission
33%
Spectrum Underlay
33%
Limited Fronthaul Capacity
33%
Fronthaul Constraint
33%
Underlay Transmission
33%
Computer Science
Massive MIMO
100%
Synchronization Network
100%
Systems Performance
50%
Optimization Problem
50%
Approximation (Algorithm)
50%
Communication Overhead
50%
MIMO Systems
50%
Graph Theory
50%
Distributed Algorithm
50%
intercell interference
50%
Design Problem
50%
Spectral Efficiency
50%
Frequency Reuse
50%
Operational Cost
50%
Noma
50%
Engineering
Joint Transmission
100%
Free Cell
33%
Massive MIMO
33%
Simulation Result
16%
Nodes
16%
Optimisation Problem
16%
Analytical Result
16%
Systems Performance
16%
Operational Cost
16%
Frequency Reuse
16%
Spectral Efficiency
16%
Design Problem
16%
Rate of Convergence
16%
Point Transmission
16%
Spectrum Underlay
16%
Noma
16%