Learning Optimal Fronthauling and Decentralized Edge Computation in Fog Radio Access Networks
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[1] Lajos Hanzo,et al. Optimizing Wireless Systems Using Unsupervised and Reinforced-Unsupervised Deep Learning , 2020, IEEE Network.
[2] Tony Q. S. Quek,et al. A Deep Learning Approach to Universal Binary Visible Light Communication Transceiver , 2019, IEEE Transactions on Wireless Communications.
[3] Jun Zhang,et al. Cache Placement in Fog-RANs: From Centralized to Distributed Algorithms , 2017, IEEE Transactions on Wireless Communications.
[4] Woongsup Lee,et al. Deep Power Control: Transmit Power Control Scheme Based on Convolutional Neural Network , 2018, IEEE Communications Letters.
[5] Seok-Hwan Park,et al. Deep Learning Methods for Universal MISO Beamforming , 2020, IEEE Wireless Communications Letters.
[6] Shlomo Shamai,et al. Multi-Tenant C-RAN With Spectrum Pooling: Downlink Optimization Under Privacy Constraints , 2018, IEEE Transactions on Vehicular Technology.
[7] Jakob Hoydis,et al. An Introduction to Deep Learning for the Physical Layer , 2017, IEEE Transactions on Cognitive Communications and Networking.
[8] H. Vincent Poor,et al. Non-Orthogonal Multiple Access in Multi-Cell Networks: Theory, Performance, and Practical Challenges , 2016, IEEE Communications Magazine.
[9] Osvaldo Simeone,et al. Harnessing cloud and edge synergies: toward an information theory of fog radio access networks , 2016, IEEE Communications Magazine.
[10] Mehdi Bennis,et al. Wireless Network Intelligence at the Edge , 2018, Proceedings of the IEEE.
[11] Prabhu Babu,et al. Majorization-Minimization Algorithms in Signal Processing, Communications, and Machine Learning , 2017, IEEE Transactions on Signal Processing.
[12] Wei Yu,et al. Content-Centric Sparse Multicast Beamforming for Cache-Enabled Cloud RAN , 2015, IEEE Transactions on Wireless Communications.
[13] J. Zico Kolter,et al. OptNet: Differentiable Optimization as a Layer in Neural Networks , 2017, ICML.
[14] Paul de Kerret,et al. Team Deep Neural Networks for Interference Channels , 2018, 2018 IEEE International Conference on Communications Workshops (ICC Workshops).
[15] Shlomo Shamai,et al. Joint optimization of cloud and edge processing for fog radio access networks , 2016, 2016 IEEE International Symposium on Information Theory (ISIT).
[16] Kurt Hornik,et al. Multilayer feedforward networks are universal approximators , 1989, Neural Networks.
[17] Shlomo Shamai,et al. Fronthaul Compression for Cloud Radio Access Networks: Signal processing advances inspired by network information theory , 2014, IEEE Signal Processing Magazine.
[18] Sergey Ioffe,et al. Batch Normalization: Accelerating Deep Network Training by Reducing Internal Covariate Shift , 2015, ICML.
[19] Inkyu Lee,et al. Joint Design of Fronthauling and Hybrid Beamforming for Downlink C-RAN Systems , 2019, IEEE Transactions on Communications.
[20] Ying-Chang Liang,et al. Optimal beamforming for two-way multi-antenna relay channel with analogue network coding , 2008, IEEE Journal on Selected Areas in Communications.
[21] Kyoung-Jae Lee,et al. Joint Optimization for One and Two-Way MIMO AF Multiple-Relay Systems , 2010, IEEE Transactions on Wireless Communications.
[22] N. Sidiropoulos,et al. Learning to Optimize: Training Deep Neural Networks for Interference Management , 2017, IEEE Transactions on Signal Processing.
[23] Brendan J. Frey,et al. Factor graphs and the sum-product algorithm , 2001, IEEE Trans. Inf. Theory.
[24] Jimmy Ba,et al. Adam: A Method for Stochastic Optimization , 2014, ICLR.
[25] Mihaela van der Schaar,et al. Machine Learning in the Air , 2019, IEEE Journal on Selected Areas in Communications.
[26] Shlomo Shamai,et al. Joint Precoding and Multivariate Backhaul Compression for the Downlink of Cloud Radio Access Networks , 2013, IEEE Transactions on Signal Processing.
[27] Vera Kurková,et al. Kolmogorov's theorem and multilayer neural networks , 1992, Neural Networks.
[28] Tapani Raiko,et al. Techniques for Learning Binary Stochastic Feedforward Neural Networks , 2014, ICLR.
[29] Alexander J. Smola,et al. Deep Sets , 2017, 1703.06114.
[30] Paul de Kerret,et al. Learning to Cooperate in Decentralized Wireless Networks , 2018, 2018 52nd Asilomar Conference on Signals, Systems, and Computers.
[31] Ohyun Jo,et al. Intelligent Resource Allocation in Wireless Communications Systems , 2020, IEEE Communications Magazine.
[32] Tony Q. S. Quek,et al. Deep Learning for Distributed Optimization: Applications to Wireless Resource Management , 2019, IEEE Journal on Selected Areas in Communications.
[33] Yoshua Bengio,et al. Estimating or Propagating Gradients Through Stochastic Neurons for Conditional Computation , 2013, ArXiv.
[34] Dongning Guo,et al. Multi-Agent Deep Reinforcement Learning for Dynamic Power Allocation in Wireless Networks , 2018, IEEE Journal on Selected Areas in Communications.
[35] Gregory W. Wornell,et al. Cooperative diversity in wireless networks: Efficient protocols and outage behavior , 2004, IEEE Transactions on Information Theory.
[36] Marwan Krunz,et al. Distributed Optimization for Energy-Efficient Fog Computing in the Tactile Internet , 2018, IEEE Journal on Selected Areas in Communications.
[37] Neil E. Cotter,et al. The Stone-Weierstrass theorem and its application to neural networks , 1990, IEEE Trans. Neural Networks.
[38] Stephen P. Boyd,et al. Distributed Optimization and Statistical Learning via the Alternating Direction Method of Multipliers , 2011, Found. Trends Mach. Learn..
[39] Jian Sun,et al. Deep Residual Learning for Image Recognition , 2015, 2016 IEEE Conference on Computer Vision and Pattern Recognition (CVPR).
[40] Inkyu Lee,et al. Deep Learning Framework for Wireless Systems: Applications to Optical Wireless Communications , 2018, IEEE Communications Magazine.
[41] Gerhard Fettweis,et al. Framework for Link-Level Energy Efficiency Optimization with Informed Transmitter , 2011, IEEE Transactions on Wireless Communications.
[42] Shlomo Shamai,et al. Multivariate Fronthaul Quantization for Downlink C-RAN , 2015, IEEE Transactions on Signal Processing.