Main document
Personal website of
Agon Memedi
- Research Projects
current and finished research projects - Publications
papers in journals and conferences - Software
software and tools
Short Bio
Agon Memedi is a Researcher in the Telecommunication Networks Group (TKN) at TU Berlin. He received his Ph.D. (summa cum laude) in Computer Science from TU Berlin in 2023, M.Sc. in Computer Science from Paderborn University in 2015, and his B.Sc. in Computer Engineering from South East European University (SEEU) in 2011. His research focuses on the development of communication protocols and realistic simulation models for Vehicular Visible Light Communications (V-VLC). He is the author of Veins VLC, the V-VLC extension for the vehicular network simulation framework Veins. Agon has contributed in the organization of international conferences, such as IEEE VNC 2014, ACM MobiHoc 2016, and IEEE VNC 2019. He won the Best Paper Runner Up award in IEEE VNC 2018. For the 2019/2020 academic year, he was a Fulbright visiting scholar with the research group of Prof. Danijela Cabric in the Electrical and Computer Engineering Department at University of California, Los Angeles (UCLA).
Selected Publications (see full list)
Agon Memedi and Falko Dressler, "Vehicular Visible Light Communications: A Survey," IEEE Communications Surveys & Tutorials, vol. 23 (1), pp. 161–181, January 2021. [DOI, BibTeX, PDF and Details...]
Agon Memedi, Claas Tebruegge, Julien Jahneke and Falko Dressler, "Impact of Vehicle Type and Headlight Characteristics on Vehicular VLC Performance," Proceedings of 10th IEEE Vehicular Networking Conference (VNC 2018), Taipei, Taiwan, December 2018. Best Paper Runner Up Award [DOI, BibTeX, PDF and Details...]
Agon Memedi, Hsin-Mu Tsai and Falko Dressler, "Impact of Realistic Light Radiation Pattern on Vehicular Visible Light Communication," Proceedings of IEEE Global Communications Conference (GLOBECOM 2017), Singapore, Singapore, December 2017. [DOI, BibTeX, PDF and Details...]
Links
Extras
Featured Paper
- Age of Information-based Performance of Ultrasonic Communication
Channels for Nanosensor-to-Gateway Communication
We investigate the timely detection of abnormalities using nanosensors flowing in the blood vessels and reporting to external wearable devices. We develop analytic sol...
News
- May 25, 2023
Dominik Buse just defended his PhD - congratulations!
Dominik successfully defended his PhD on May 23, 2023. Hi... - May 23, 2023
Taylan Şahin just defended his PhD - congratulations!
Taylan Şahin successfully defended his PhD on May 23, 20... - May 22, 2023
New staff member: Ahmad Farhad Shams
We welcome to Ahmad Farhad Shams who joined our group in ... - May 22, 2023
New staff member: Jamshid Bacha
We welcome to Jamshid Bacha who joined our group in May 2... - May 15, 2023
New IEEE Trans. on Vehicular Technology article
Our article Centralized Model-Predictive Control with Hum...