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Joint AoD, AoA, and channel estimation for MIMO-OFDM systems
Chih Yu Chen
*
, Wen-Rong Wu
*
此作品的通信作者
電信工程研究所
研究成果
:
Article
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同行評審
24
引文 斯高帕斯(Scopus)
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Engineering
Channel Estimation
100%
Orthogonal Frequency Division Multiplexing
100%
Angle-of-Arrival
100%
Multiple-Input Multiple-Output
100%
Angle Joint
100%
Departure Angle
100%
Beamforming
100%
Cramr-Rao Lower Bound
75%
Channel Response
25%
Simulation Result
25%
Maximum Likelihood
25%
Communication System
25%
Wireless Communication
25%
Compressive Sensing
25%
Channel Impulse Response
25%
Millimeter Wave
25%
Maximum a Posteriori
25%
Antenna Arrays
25%
Spectral Efficiency
25%
Sensing Mechanisms
25%
Sparsity
25%
Estimation Scheme
25%
Enabling Technology
25%
Keyphrases
Orthogonal Frequency Division multiplexing System
100%
Channel Estimation
100%
MIMO-OFDM
100%
Joint Angle
100%
Angle of Arrival Estimation
100%
Angle of Departure
100%
Cramer-Rao Lower Bound
50%
Angle of Arrival
33%
Beamforming Scheme
33%
Beamforming
33%
Transmit Beamforming
33%
Wireless Channel
16%
Channel Response
16%
Pilot-aided
16%
Channel Impulse Response
16%
Antenna Array
16%
Spectral Efficiency
16%
Estimation Scheme
16%
Maximum Likelihood Method
16%
Millimeter Wave Communication
16%
Maximum a Posteriori Estimation
16%
Data Detection
16%
Wireless Communication Systems
16%
Compressive Sensing Technique
16%
OFDM Symbol
16%
Bayesian CRB
16%
Ideal Channel
16%
New Joint
16%
Future Wireless Communication
16%
Sparsity Property
16%
Computer Science
Channel Estimation
100%
Orthogonal Frequency Division Multiplexing
100%
multiple-input-multiple-output
100%
Rao Lower Bound
100%
Wireless Channel
33%
Channel Response
33%
Sparsity
33%
Estimation Scheme
33%
Maximum Likelihood Method
33%
Channel Impulse Response
33%
array antenna
33%
Spectral Efficiency
33%
Data Detection
33%
wireless communication system
33%
Compressive Sensing
33%