shanyan's repositories
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.
wireless-tutorial
Code for the problem sheet of ELEC97094/ELEC97095. Note at https://www.notion.so/snowztail/Problem-Sheet-115771497bd84c33b939fa650a0910f2.
academicpages.github.io
Github Pages template for academic personal websites, forked from mmistakes/minimal-mistakes
awesome-autonomous-vehicles
Curated List of Self-Driving Cars and Autonomous Vehicles Resources
DeepIRS
A repository for the DeepIRS project codes
Full-Duplex-Steepest-Descent
Simulation code for Full-Duplex Steepest Descent implemented in the paper Elyes Balti and Brian L. Evans, "Adaptive Self-Interference Cancellation for Full-Duplex Wireless Communication Systems," 2021.
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
near-field-behavior
Simulation code for “Power Scaling Laws and Near-Field Behaviors of Massive MIMO and Intelligent Reflecting Surfaces” by Emil Björnson, Luca Sanguinetti, IEEE Open Journal of the Communications Society, 2020
NOMA-SWIPT_Gradient_Newton_methods
T. N. Do and B. An, "Optimal sum-throughput analysis for downlink cooperative SWIPT NOMA systems," 2018 2nd International Conference on Recent Advances in Signal Processing, Telecommunications & Computing (SigTelCom), Ho Chi Minh City, 2018, pp. 85-90, doi: 10.1109/SIGTELCOM.2018.8325811.
presentation_slides
This repository contains the slides to some of my YouTube presentations, as well as some slides and posters from conferences
quadrotor
Quadrotor control, path planning and trajectory optimization
RIS-Communication-Localization
This code creates the positional error bounds and calculates the spectral efficiency for a SISO system with a reconfigurable intelligent surface.
RIS-fading
Simulation code for “Rayleigh Fading Modeling and Channel Hardening for Reconfigurable Intelligent Surfaces, IEEE Wireless Communications Letters, to appear.
RIS-myths
Simulation code for “Reconfigurable Intelligent Surfaces: Three Myths and Two Critical Questions,” by Emil Björnson, Özgecan Özdogan, Erik G. Larsson, IEEE Communications Magazine, vol. 58, no. 12, pp. 90-96, December 2020.
RIS_Codes_Collection
A collection contains the codes for IRS(RIS) papers.
RIS_Rate_VS_Channel_Error
Simulation Codes for Figure 3 in Reconfigurable-Intelligent-Surface Empowered Wireless Communications: Challenges and Opportunities
Sleep_Scheduled-routing-in-Wireless-Sensor-Networks
In order to minimize energy consumption of sensor nodes in wireless sensor networks, this paper presents an Energy Efficient Sleep-Scheduled Tree-Based Routing Protocol (EESSTBRP) that modifies the chain formation in PEGASIS to create a set of paired and unpaired nodes in the network based on a distance and sensing range threshold. The paired nodes switch between active and sleep modes so as to remove redundant data and save battery power. To minimize energy consumption as nodes switching between the modes, this scheme considers the transitioning to be done based on a point of near depletion of the nodes’ residual energy. To further reduce energy consumption during transmission, this protocol utilizes prim’s minimum spanning tree mechanism to route data from the active nodes to the Base Station (BS). Simulation results show that this proposed mechanism can significantly improve network lifetime in comparison to PEGASIS
staeiou.github.io
Github pages
VisibleLightCommunication_byJakaSatria
This is a simple project of Visible Light Communication (VLC) based on Optical Wireless Communication with Matlab Books