Karl-Ludwig Besser's Projects
LaTeX beamer template for presentations with a clean and simple style
Collection of tools to work with and modernize BibTeX files.
This repository belongs to the publication "Bounds on the Secrecy Outage Probability for Dependent Fading Channels" (arXiv:2004.06644, DOI:10.1109/TCOMM.2020.3026654).
This repository belongs to the publication "Bounds on the Ergodic Secret-Key Capacity for Dependent Fading Channels".
Simple website that keeps track of conference dates and deadlines
This repository belongs to the publications "Copula-Based Bounds for Multi-User Communications" (Part I and II).
A LaTeX template for a basic DFG (Deutsche Forschungsgemeinschaft, German Research Foundation) grant proposal.
LaTeX Template for the CV for DFG Proposals (DFG form 53.200)
LaTeX Template for DFG Proposals
This repository belongs to the publication "Calculation of Bounds on the Ergodic Capacity for Fading Channels with Dependency Uncertainty" (IEEE ICC 2021).
This repository is accompanying the paper "Multi-User Frequency Assignment for Ultra-Reliable mmWave Two-Ray Channels" (WiOpt 2022, DOI:10.23919/WiOpt56218.2022.9930571)
LaTeX template for IEEE papers (including Bash script for easy setup)
Simple website that lists call for papers for special issues of IEEE journals
This repository is accompanying the paper "Securing Data in Multimode Fibers by Exploiting Mode-Dependent Light Propagation Effects" (S. Rothe, K.-L. Besser, D. Krause, R. Kuschmierz, N. Koukourakis, E. Jorswieck, J. Czarske. Research, vol. 6: 0065, Jan. 2023. DOI:10.34133/research.0065).
Python testbed for the Quadratic Multiple Knapsack Problem (QMKP)
A collection of reference datasets for the quadratic multiple knapsack problem (QMKP) to be used with QMKPy
Python implementation of the rearrangement algorithm to find bounds of functions of dependent risks, e.g., best- and worst-case value-at-risk (VaR).
This repository belongs to the publication "Reliability Bounds for Dependent Fading Wireless Channels".
Template for Python code with focus on accompanying a paper in order to allow reproducing the results
LaTeX template for the response to reviewer comments (scientific journal publications)
This repository is accompanying the papers "Artificial Fast Fading from Reconfigurable Surfaces Enables Ultra-Reliable Communications" (SPAWC 2021), "RIS-Assisted Statistical Channel Shaping for Ultra-High Reliability" (WSA 2021), and "Reconfigurable Intelligent Surface Phase Hopping for Ultra-Reliable Communications" (TWC, DOI:10.1109/TWC.2022.3172760).
LaTeX template for creating scientific posters
Different algorithms to calculate the secrecy capacity of a MIMO wiretap channel.
This repository belongs to the paper "Reliability and Latency Analysis for Wireless Communication Systems with a Secret-Key Budget" (K.-L. Besser, R. F. Schaefer, H. V. Poor, IEEE Transactions on Communications, vol. 72, no. 2, pp. 1033-1044, Feb. 2024).
This repository is accompanying the papers "Outage Probability Calculation for Two-Ray Ground Reflection Scenarios with Frequency Diversity" (K.-L. Besser, E. Jorswieck, J. Coon, Asilomar 2023). DOI:10.1109/IEEECONF59524.2023.10477068
Achieving Ultra-Reliability for a Two Ray Ground Reflection Scenario
This repository is accompanying the paper "Frequency Diversity for Ultra-Reliable and Secure Communications in Sub-THz Two-Ray Scenarios" (Karl-L. Besser, Eduard Jorswieck, and Justin Coon, IEEE ICC 2023. doi:10.1109/ICC45041.2023.10279098).
This repository belongs to the publications "On the Set of Joint Rayleigh Fading Distributions Achieving Positive Zero-Outage Capacities" (Asilomar 2020) and "On Fading Channel Dependency Structures with a Positive Zero-Outage Capacity" (IEEE TCOM).