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Toward Optimal Power Control and Transfer for Energy Harvesting Amplify-and-Forward Relay Networks
Keshav Singh,
Meng Lin Ku
,
Jia Chin Lin
, Tharmalingam Ratnarajah
通訊工程學系
研究成果
:
雜誌貢獻
›
期刊論文
›
同行評審
44
引文 斯高帕斯(Scopus)
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Keyphrases
Power Transfer
100%
Source Node
100%
Energy Harvesting
100%
Relay Node
100%
Power Control
100%
Optimal Power Control
100%
Amplify-and-forward Relay
100%
Energy Cooperation
33%
Control Structure
33%
Design Power
33%
Local Optimum
33%
Network Performance
33%
Quasi-static
33%
Auxiliary Variable
33%
Time Duration
33%
Optimum Solution
33%
Approximation Approach
33%
Successive Convex Approximation
33%
Battery Capacity
33%
Sum Rate
33%
Energy Harvesting System
33%
Battery Storage
33%
Energy Harvesting Nodes
33%
Finite Capacity
33%
Energy Causality
33%
Relay Position
33%
Dual Decomposition
33%
Energy Storage Battery
33%
Power Expenditure
33%
Sum-rate Performance
33%
Node Location
33%
Dedicated Channel
33%
Harvesting Intensity
33%
Energy Arrival
33%
Storage Constraints
33%
Energy Harvesting Relay
33%
Control Value
33%
Nonconvex Problem
33%
Computer Science
Forward Relay Network
100%
optimal power
100%
amplify-and-forward
100%
sum rate
100%
Approximation (Algorithm)
50%
Control Structure
50%
Network Performance
50%
Optimum Solution
50%
Battery Capacity
50%
Auxiliary Variable
50%
Computational Simulation
50%
Engineering
Energy Engineering
100%
Energy Harvesting
100%
Power Control
100%
Nodes
60%
Relay Node
60%
Source Node
60%
Control Structure
20%
Design Power
20%
Local Optimum
20%
Secondary Battery
20%
Optimum Solution
20%
Convex Problem
20%
Finite Time
20%
Battery Capacity
20%
Dedicated Channel
20%
Auxiliary Variable
20%
Chemical Engineering
Auxiliaries
100%