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Model-Driven Beamforming Neural Networks

Xia, W, Zheng, G, Wong, K-K, Zhu, H

2020UCL Discovery (University College London)17 citationsOpen Access PDF

Abstract

Beamforming is evidently a core technology in recent generations of mobile communication networks. Nevertheless, an iterative process is typically required to optimize the parameters, making it ill-placed for real-time implementation due to high complexity and computational delay. Heuristic solutions such as zero-forcing are simpler but at the expense of performance loss. Alternatively, DL is well understood to be a generalizing technique that can deliver promising results for a wide range of applications at much lower complexity if it is sufficiently trained. As a consequence, DL may present itself as an attractive solution to beamforming. To exploit DL, this article introduces general data-and model-driven BNNs, presents various possible learning strategies, and also discusses complexity reduction for DL-based BNNs. We also offer enhancement methods such as training-set augmentation and transfer learning in order to improve the generality of BNNs, accompanied by computer simulation results and testbed results showing the performance of such BNN solutions.

Topics & Concepts

Computer scienceGeneralityTestbedBeamformingComputational complexity theoryHeuristicExploitSet (abstract data type)Process (computing)Computer engineeringArtificial intelligenceDistributed computingAlgorithmTelecommunicationsProgramming languageComputer networkPsychologyComputer securityPsychotherapistOperating systemMillimeter-Wave Propagation and ModelingSpeech and Audio ProcessingIndoor and Outdoor Localization Technologies
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