Related papers: Deep Learning Methods for Universal MISO Beamforming

Deep Learning Methods for Universal MISO Beamforming

URL: http://arxiv.org/abs/2007.00841v2
Date: Thu, 9 Jul 2020 02:01:53 GMT
Title: Deep Learning Methods for Universal MISO Beamforming
Authors: Junbeom Kim, Hoon Lee, Seung-Eun Hong and Seok-Hwan Park
Abstract summary: This letter studies deep learning approaches to optimize beamforming vectors in downlink multi-user multi-antenna systems. We exploit the sum power budget as side information so that deep neural networks (DNNs) can effectively learn the impact of the power constraint in the beamforming optimization.
Score: 19.747638780327257
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: This letter studies deep learning (DL) approaches to optimize beamforming vectors in downlink multi-user multi-antenna systems that can be universally applied to arbitrarily given transmit power limitation at a base station. We exploit the sum power budget as side information so that deep neural networks (DNNs) can effectively learn the impact of the power constraint in the beamforming optimization. Consequently, a single training process is sufficient for the proposed universal DL approach, whereas conventional methods need to train multiple DNNs for all possible power budget levels. Numerical results demonstrate the effectiveness of the proposed DL methods over existing schemes.

Related papers

Deep Learning and Image Super-Resolution-Guided Beam and Power Allocation for mmWave Networks [80.37827344656048]
We develop a deep learning (DL)-guided hybrid beam and power allocation approach for millimeter-wave (mmWave) networks. We exploit the synergy of supervised learning and super-resolution technology to enable low-overhead beam- and power allocation.
arXiv Detail & Related papers (2023-05-08T05:40:54Z)
Deep Learning Methods for Joint Optimization of Beamforming and Fronthaul Quantization in Cloud Radio Access Networks [12.838832724944615]
Cooperative beamforming across points (APs) and fronthaulization strategies are essential for cloud radio network (C-RAN) systems. Non-dimensional quantity problem is stemmed from per-AP power and fronthaul capacity constraints. We investigate a deep learning optimization module is where well-trained deep neural network (DNN) Numerical results validate the advantages of the proposed learning solution.
arXiv Detail & Related papers (2021-07-06T10:27:43Z)
Deep Transform and Metric Learning Networks [30.753361147185995]
We propose a novel Deep DL approach where each DL layer can be formulated and solved as a combination of one linear layer and a Recurrent Neural Network. Our proposed work unveils new insights between the Neural Networks and Deep DL, and provides a novel, efficient and competitive approach to jointly learn the deep transforms and metrics.
arXiv Detail & Related papers (2021-04-21T03:10:15Z)
Learning Robust Beamforming for MISO Downlink Systems [14.429561340880074]
A base station identifies efficient multi-antenna transmission strategies only with imperfect channel state information (CSI) and its features. We propose a robust training algorithm where a deep neural network (DNN) is optimized to fit to real-world propagation environment.
arXiv Detail & Related papers (2021-03-02T09:56:35Z)
Chance-Constrained Control with Lexicographic Deep Reinforcement Learning [77.34726150561087]
This paper proposes a lexicographic Deep Reinforcement Learning (DeepRL)-based approach to chance-constrained Markov Decision Processes. A lexicographic version of the well-known DeepRL algorithm DQN is also proposed and validated via simulations.
arXiv Detail & Related papers (2020-10-19T13:09:14Z)
Adaptive Serverless Learning [114.36410688552579]
We propose a novel adaptive decentralized training approach, which can compute the learning rate from data dynamically. Our theoretical results reveal that the proposed algorithm can achieve linear speedup with respect to the number of workers. To reduce the communication-efficient overhead, we further propose a communication-efficient adaptive decentralized training approach.
arXiv Detail & Related papers (2020-08-24T13:23:02Z)
Deep Multi-Task Learning for Cooperative NOMA: System Design and Principles [52.79089414630366]
We develop a novel deep cooperative NOMA scheme, drawing upon the recent advances in deep learning (DL) We develop a novel hybrid-cascaded deep neural network (DNN) architecture such that the entire system can be optimized in a holistic manner.
arXiv Detail & Related papers (2020-07-27T12:38:37Z)
Optimization-driven Deep Reinforcement Learning for Robust Beamforming in IRS-assisted Wireless Communications [54.610318402371185]
Intelligent reflecting surface (IRS) is a promising technology to assist downlink information transmissions from a multi-antenna access point (AP) to a receiver. We minimize the AP's transmit power by a joint optimization of the AP's active beamforming and the IRS's passive beamforming. We propose a deep reinforcement learning (DRL) approach that can adapt the beamforming strategies from past experiences.
arXiv Detail & Related papers (2020-05-25T01:42:55Z)
Model-Driven Beamforming Neural Networks [47.754731555563836]
This article introduces general data- and model-driven beamforming neural networks (BNNs) It presents various possible learning strategies, and also discusses complexity reduction for the DL-based BNNs. We also offer enhancement methods such as training-set augmentation and transfer learning in order to improve the generality of BNNs.
arXiv Detail & Related papers (2020-01-15T12:50:09Z)

This list is automatically generated from the titles and abstracts of the papers in this site.