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Joint Beamforming and Aerial IRS Positioning Design for IRS-Assisted MISO System With Multiple Access Points
Tang Chao,
Carrson C. Fung
*
, Zi En Ni, Mykola Servetnyk
*
此作品的通信作者
電子研究所
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Keyphrases
Beamforming Design
100%
Positioning Design
100%
Joint Beamforming
100%
MISO System
100%
Multiple Access Points
100%
Intelligent Reflecting Surface
100%
Aerial Intelligent Reflecting Surface
100%
Generalized Benders Decomposition
85%
Access Point
57%
Design Problems
42%
User Pairing
42%
Aerial
28%
Semidefinite Programming
28%
Mixed-integer
28%
Computational Complexity
14%
Energy Efficiency
14%
Multiple Users
14%
Spectral Efficiency
14%
Point System
14%
Semidefinite Relaxation
14%
Communication Overhead
14%
Wireless Environment
14%
Optimization Techniques
14%
Original Problem
14%
Multiple Access
14%
Pairing Algorithm
14%
Time Complexity
14%
Beamforming Vector
14%
Joint Transmission
14%
Binary Variables
14%
Access Issues
14%
Mathematical Manipulation
14%
Convex Problem
14%
Alternating Direction
14%
Multiplier Method
14%
Link Removal
14%
Successive Convex Approximation
14%
6G Networks
14%
Optimality Guarantee
14%
Active Beamforming
14%
Passive Beamforming
14%
User Scenario
14%
Multiple IRSs
14%
Mixed-integer Semidefinite Programming
14%
Optimal Access
14%
SDP Method
14%
SDP Solvers
14%
Non-terrestrial Communications
14%
Engineering
Joints (Structural Components)
100%
Multiple Access
100%
Access Point
100%
Intelligent Reflecting Surface
100%
Beamforming
100%
Beamformer
75%
Design Problem
37%
Simulation Result
25%
Optimality
25%
Energy Efficiency
12%
Energy Conservation
12%
Wireless Communication
12%
Spectral Efficiency
12%
Optimization Technique
12%
Binary Variable
12%
Point System
12%
Convex Problem
12%
Joint Transmission
12%
Design Joint
12%
Computer Science
Access Point
100%
Multiple Access
100%
Reflecting Surface
100%
Design Problem
42%
Semidefinite Programming
28%
Energy Efficiency
14%
Wireless Communication
14%
Approximation (Algorithm)
14%
Time Complexity
14%
Communication Overhead
14%
Optimization Technique
14%
Spectral Efficiency
14%
Binary Variable
14%
Iterative Decomposition
14%