Pinned Repositories
Channel-Estimation-for-Intelligent-Reflecting-Surface-Assisted-Multiuser-Communications
D2DRelayAssistedCellularNetworks
This is the code base for the paper "Stability of Device-to-Device Relay-Assisted Cellular Networks"
Deep-Reinforcement-Learning-for-5G-Networks
Code for my publication: Deep Reinforcement Learning for 5G Networks: Joint Beamforming, Power Control, and Interference Coordination. Paper under review.
Energy-Ef-cient-Data-Collection-in-UAV-Enabled-Wireless-Sensor-Network
Energy Efficient Data Collection in UAV Enabled Wireless Sensor Network in matlab
Energy-Efficient-Wireless-Communications-with-Distributed-Reconfigurable-Intelligent-Surfaces
Framework-of-Robust-Transmission-Design-for-IRS-Aided-MISO-Communications
Simulation code for “A Framework of Robust Transmission Design for IRS-Aided MISO Communications With Imperfect Cascaded Channels,” by G. Zhou, C. Pan, H. Ren, K. Wang and A. Nallanathan, IEEE Transactions on Signal Processing, vol. 68, pp. 5092-5106, 2020.
HRRIS_for_MEC
Matlab codes for paper 'K. -H. Ngo, N. T. Nguyen, T. Q. Dinh, T. -M. Hoang and M. Juntti, "Low-Latency and Secure Computation Offloading Assisted by Hybrid % Relay-Reflecting Intelligent Surface," in Proc. Int. Conf. Advanced Technologies for Communications (ATC), Hanoi, Vietnam, 2021, pp. 306-311.'
Reinforcement_Learning_Team_Q_learnig_MARL_Multi_Agent_UAV_Spectrum_task
A solution for Dynamic Spectrum Management in Mission-Critical UAV Networks using Team Q learning as a Multi-Agent Reinforcement Learning Approach
Scheduling-of-Energy-Harvesting-for-MIMO-Wireless-Powered-Communication-Networks
This repository contains simulation codes of the article: I. Pehlivan and S. C. Ergen, "Scheduling of Energy Harvesting for MIMO Wireless Powered Communication Networks," in IEEE Communications Letters, vol. 23, no. 1, pp. 152-155, Jan. 2019.
The-many-to-many-scenario-for-D2D-data-rate-maximize
TVT:(1)Joint Subcarrier Assignment with Power Allocation for Sum Rate Maximization of D2D Communications in Wireless Cellular Networks
pengpengliu1994's Repositories
pengpengliu1994/Scheduling-of-Energy-Harvesting-for-MIMO-Wireless-Powered-Communication-Networks
This repository contains simulation codes of the article: I. Pehlivan and S. C. Ergen, "Scheduling of Energy Harvesting for MIMO Wireless Powered Communication Networks," in IEEE Communications Letters, vol. 23, no. 1, pp. 152-155, Jan. 2019.
pengpengliu1994/HRRIS_for_MEC
Matlab codes for paper 'K. -H. Ngo, N. T. Nguyen, T. Q. Dinh, T. -M. Hoang and M. Juntti, "Low-Latency and Secure Computation Offloading Assisted by Hybrid % Relay-Reflecting Intelligent Surface," in Proc. Int. Conf. Advanced Technologies for Communications (ATC), Hanoi, Vietnam, 2021, pp. 306-311.'
pengpengliu1994/Reinforcement_Learning_Team_Q_learnig_MARL_Multi_Agent_UAV_Spectrum_task
A solution for Dynamic Spectrum Management in Mission-Critical UAV Networks using Team Q learning as a Multi-Agent Reinforcement Learning Approach
pengpengliu1994/The-many-to-many-scenario-for-D2D-data-rate-maximize
TVT:(1)Joint Subcarrier Assignment with Power Allocation for Sum Rate Maximization of D2D Communications in Wireless Cellular Networks
pengpengliu1994/Channel-Estimation-for-Intelligent-Reflecting-Surface-Assisted-Multiuser-Communications
pengpengliu1994/D2DRelayAssistedCellularNetworks
This is the code base for the paper "Stability of Device-to-Device Relay-Assisted Cellular Networks"
pengpengliu1994/Deep-Reinforcement-Learning-for-5G-Networks
Code for my publication: Deep Reinforcement Learning for 5G Networks: Joint Beamforming, Power Control, and Interference Coordination. Paper under review.
pengpengliu1994/Energy-Ef-cient-Data-Collection-in-UAV-Enabled-Wireless-Sensor-Network
Energy Efficient Data Collection in UAV Enabled Wireless Sensor Network in matlab
pengpengliu1994/Energy-Efficient-Wireless-Communications-with-Distributed-Reconfigurable-Intelligent-Surfaces
pengpengliu1994/Framework-of-Robust-Transmission-Design-for-IRS-Aided-MISO-Communications
Simulation code for “A Framework of Robust Transmission Design for IRS-Aided MISO Communications With Imperfect Cascaded Channels,” by G. Zhou, C. Pan, H. Ren, K. Wang and A. Nallanathan, IEEE Transactions on Signal Processing, vol. 68, pp. 5092-5106, 2020.
pengpengliu1994/Intelligent-reflecting-surface-aided-multi-user-mmWave-communications-for-coverage-enhancement
PIMRC paper Reproducible codes
pengpengliu1994/irs-aided-swipt-joint-waveform-active-and-passive-beamforming-design-under-nonlinear-harvester-model
This paper investigated the R-E tradeoff of a single user employing practical receiving strategies in an IRS-aided multi-carrier MISO SWIPT system.
pengpengliu1994/IRS_Enhanced-Wireless-Network_Joint-Active-and-Passive-BeamformingDesign_Qingqing-Wu-and-Rui-Zhang
paper simulation "Intelligent Reflecting Surface Enhanced Wireless Network_Joint Active and Passive BeamformingDesign" Qingqing Wu and Rui Zhang
pengpengliu1994/IRSdiagnosis
MATLAB codes for implementing the diagnostic techniques in "Diagnosis of Intelligent Reflecting Surface in Millimeter-wave Communication Systems". Original article available at https://arxiv.org/abs/2101.03792
pengpengliu1994/Matlab_SIMO
pengpengliu1994/Matrix-Calibration-Based-Cascaded-Channel-Estimation
Simulation Codes for Matrix-Calibration-Based Cascaded Channel Estimation for Reconfigurable Intelligent Surface Assisted Multiuser MIMO
pengpengliu1994/MIMO_SingleRIS
pengpengliu1994/Multi-RIS
Multi-RIS-aided Wireless Systems: Statistical Characterization and Performance Analysis
pengpengliu1994/Optimization-for-wireless-communications
pengpengliu1994/reproduced-papers
MATLAB Codes for Reproduced Papers
pengpengliu1994/RIS-fading
Simulation code for “Rayleigh Fading Modeling and Channel Hardening for Reconfigurable Intelligent Surfaces, IEEE Wireless Communications Letters, to appear.
pengpengliu1994/Secure-Full-Duplex-Multiuser-Systems
pengpengliu1994/Secure-Wireless-Communication-in-RIS-Aided-MISO-System-With-Hardware-Impairments
pengpengliu1994/WSR-maximization-for-RIS-system
This repository contains the source codes for the paper ``Weighted Sum-Rate Maximization for Reconfigurable Intelligent Surface Aided Wireless Networks'' in IEEE Transactions on Wireless Communications.