Channel Estimation for Millimeter Wave Massive MIMO System: Proposed Hybrid Optimization with Heuristic-Enabled Precoding and Combining

Rao, Y. Srinivasa; Madhu, R.

doi:10.1093/comjnl/bxaa170

Cited by 4 publications

(2 citation statements)

References 39 publications

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“…The proposed “channel estimation in mmWave massive MIMO communication system” was “implemented in MATLAB 2020a using data Deep MIMO. Here, the performance of the proposed model was compared over the conventional models” in terms of several measures like NMSE and spectral efficiency over other heuristic‐algorithms like Dragonfly Algorithm (DA), 46 “Deer Hunting Optimization Algorithm (DHOA), 47 Gray Wolf Optimization (GWO)” 48 and HHO‐D‐LSTM 42 and other channel estimation models like Convolutional Neural Network (CNN), 49 DNN, 39 LSTM 41 and D‐LSTM 39 , 41 . The simulation constraints for designing the mmWave massive MIMO communication system are given in Table 2.…”

Section: Resultsmentioning

confidence: 99%

Intelligent channel estimation in millimeter wave massive MIMO communication system using hybrid deep learning with heuristic improvement

Suneetha

Satyanarayana

2023

Int J Communication

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The major goal of millimeter wave (mmWave) multiple-input multiple-output (MIMO) systems is to get effective channel state information (CSI). Most of the recent works use nuclear norm theory for recovering the low-rank scheme of channels. Some suboptimal solutions to the rank minimization problem can occur while addressing the nuclear norm-based convex problem, which degrades the accuracy of channel estimation. Some works recover the channel with the assumption of the mmWave channel using an over-complete dictionary. On the other hand, the accuracy of available CSI may openly influence the efficiency of mmWave communications. The main intention of this paper is to develop an enhanced channel estimation model with an optimized hybrid deep learning model. Here, the integration of deep neural network (DNN) and long short-term memory (LSTM) form the hybrid deep learning model termed optimized D-LSTM, which is modified by the opposition searched explorationbased Harris hawks optimization (OE-HHO). The input to the proposed hybrid deep learning is taken as the correlation among the received signal vectors and the measurement matrix for predicting the beam space channel amplitude.Finally, the successful channel estimation is observed by deep hybrid learning by the experimental outcomes, which also demonstrate that the proposed channel estimation model overwhelms the conventional models in terms of Normalized Mean-Squared Error (NMSE) and spectral efficiency. The experimental results show that the designed OE-HHO method obtains 9.2%, 8.9%, 8.65%, and 0.47% progressed than DA, DHOA, GWO, and HHO, respectively. Therefore, higher efficiency is observed by OE-HHO based mmWave MIMO communication system.

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Section: Resultsmentioning

confidence: 99%

Intelligent channel estimation in millimeter wave massive MIMO communication system using hybrid deep learning with heuristic improvement

Suneetha

Satyanarayana

2023

Int J Communication

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“…An alternative method for sensitively estimating the frequency of mmWave channels [18]; SWOMP is an extension of the OMP method and stands for simultaneous weighted orthogonal matching pursuit. Nevertheless, it is interesting to note that current approaches for estimating the compressed sensing (CS) channel do not supply global optimality, instead estimating the dominating beamspace channel entries greedily and sequentially [19].…”

Section: Related Workmentioning

confidence: 99%

Metaheuristic hybrid deep learning-based channel estimation and precoding for millimeter-wave massive MIMO system

Shailender,

Khera,

Singh

2024

Preprint

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In mm-wave massive MIMO systems, the inefficiency of the digital or analogue precoders necessitates that each antenna has its own radio frequency chain. From this standpoint, a method of hybrid precoding that is economically viable has been devised. Digital beamformers are used for controlling antenna elements using short-dimensional precoding. From this standpoint, a method of hybrid precoding that is economically viable has been devised. During the channel estimation phase, we propose using deep recurrent convolutional neural networks (Deep RCNNs). Salp Swarm Algorithm (SSA) and Tuna Swarm Optimization (TSO) algorithms are combined in a hybrid meta-heuristic algorithm to improve Deep RCNN's channel estimation efficiency. O-BiLSTM, or optimised bidirectional long short-term memory, is utilised by hybrid precoding in order to execute the optimal precode across the anticipated channel. In relation to spectral efficiency and normalised mean square error (NMSE), the enhanced channel estimation approach surpasses the existing schemes through the implementation of Deep RCNN. The spectrum efficacy of the O-BiLSTM hybrid precoder design method is observed to be superior when compared to alternative approaches.

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Deep Learning Based CS Channel Estimation in MIMO System

Hou

Wang

2022

2022 IEEE 8th International Conference on Computer and Communications (ICCC)

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Channel Estimation for Millimeter Wave Massive MIMO System: Proposed Hybrid Optimization with Heuristic-Enabled Precoding and Combining

Cited by 4 publications

References 39 publications

Intelligent channel estimation in millimeter wave massive MIMO communication system using hybrid deep learning with heuristic improvement

Intelligent channel estimation in millimeter wave massive MIMO communication system using hybrid deep learning with heuristic improvement

Metaheuristic hybrid deep learning-based channel estimation and precoding for millimeter-wave massive MIMO system

Deep Learning Based CS Channel Estimation in MIMO System

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