Maksymilian Wojnar

Orcid: 0000-0003-4510-5976

According to our database1, Maksymilian Wojnar authored at least 17 papers between 2023 and 2026.

Collaborative distances:
  • Dijkstra number2 of five.
  • Erdős number3 of four.

Timeline

Legend:

Book  In proceedings  Article  PhD thesis  Dataset  Other 

Links

Online presence:

On csauthors.net:

Bibliography

2026
Even faster simulations with flow matching: A study of zero degree calorimeter responses.
Comput. Phys. Commun., 2026

Indoor positioning with Wi-Fi Location: A survey of IEEE 802.11mc/az/bk fine timing measurement research.
Comput. Commun., 2026

2025
Fast Simulation of the Zero Degree Calorimeter Responses with Generative Neural Networks.
Comput. Softw. Big Sci., December, 2025

Coordinated Spatial Reuse Scheduling With Machine Learning in IEEE 802.11 MAPC Networks.
IEEE J. Sel. Areas Commun., November, 2025

Performance Evaluation of Multi-Armed Bandit Algorithms for Wi-Fi Channel Access.
CoRR, November, 2025

Learning-Based Channel Access in Wi-Fi: A Multi-Armed Bandit Approach.
CoRR, November, 2025

Deep Reinforcement Learning-Based Scheduling for Wi-Fi Multi-Access Point Coordination.
CoRR, July, 2025

IEEE 802.11bn Multi-AP Coordinated Spatial Reuse With Hierarchical Multi-Armed Bandits.
IEEE Commun. Lett., March, 2025

Towards Specialized Wireless Networks Using an ML-Driven Radio Interface.
CoRR, February, 2025

Version v2.0.0 - Reinforced-lib: Rapid prototyping of reinforcement learning solutions.
SoftwareX, 2025

Toward Specialized Wireless Networks Using an ML-Driven Radio Interface.
IEEE Access, 2025

Improving Robustness of Indoor Positioning by Tuning IEEE 802.11 Fine Timing Measurement Parameters.
IEEE Access, 2025

2024
IEEE 802.11bn Multi-AP Coordinated Spatial Reuse with Hierarchical Multi-Armed Bandits.
Dataset, December, 2024

Reinforced-lib: Rapid prototyping of reinforcement learning solutions.
SoftwareX, 2024

Applying generative neural networks for fast simulations of the ALICE (CERN) experiment.
CoRR, 2024

Using ranging for collision-immune IEEE 802.11 rate selection with statistical learning.
Comput. Commun., 2024

2023
FTMRate: Collision-Immune Distance-based Data Rate Selection for IEEE 802.11 Networks.
Proceedings of the 24th IEEE International Symposium on a World of Wireless, 2023


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