Practice

Entrepreneurship

Co-founder and Chief Scientific Officer of Hyperion Technologies (Turkey’s first R&D company specialized in optical wireless communication technologies), February 2017 – …

Granted Patents

[P3] US Patent 10768194B2 “System and Method for Speed Estimation, Detection and Ranging Using Visible Light in Vehicles”, Granted on: Sept 8, 2020, Inventors: H. Abuella, S. Ekin, and M. Uysal
[P2] US Patent 10204519B2 “Communication Between Vehicles of A Platoon”, Granted on: February 12, 2019, Inventors: M. Uysal, S. Erkucuk, O. Narmanlioglu.
[P1] US Patent 10020882B2 “Adaptive Multiple Input Multiple Output (MIMO) Optical Orthogonal Frequency Division Multiplexing (O-OFDM) Based Visible Light Communication”, Granted on: July 10, 2018, Inventors: M. Uysal, O. Narmanlioglu, T. Baykas, R. C. Kizilirmak

Standard Contributions

[S-10] H. B. Eldeeb, M. Uysal, S. M. Mana, P. Hellwig, and V. Jungnickel, “Channel Modelling for LC in TGbb: Validation of Ray Tracing Models by Measurements,” doc.: IEEE 802.11-12/1234r0, August 2020.
[S-9] M. Uysal, F. Miramirkhani, and T. Baykas, “IEEE 802.11bb Channel Model for Conference Room Environment”, doc.: IEEE 11-18-1365-00-00bb, July 2018.
[S-8] M. Uysal, F. Miramirkhani, T. Baykas, K. Qaraqe, and M. Abdallah, “IEEE 802.11bb Reference Channel Models for Gas Pipelines”, doc: IEEE 11-18-1239-01-00bb, July 2018.
[S-7] M. Uysal, F. Miramirkhani, T. Baykas, K. Qaraqe, and M. Abdallah, “IEEE 802.11bb Reference Channel Models for Underwater Environments”, doc: IEEE 11-18-1238-01-00bb, July 2018.
[S-6] M. Uysal, F. Miramirkhani, T. Baykas, E. Kinav, and O. Rustu, “IEEE 802.11bb Reference Channel Models for Vehicular Communications”, doc: IEEE 11-18-1237-01-00bb, July 2018.
[S-5] M. Uysal, F. Miramirkhani, T. Baykas, N. Serafimovski, and V. Jungnickel, “IEEE 802.11bb Reference Channel Models for Indoor Environments”, doc: IEEE 11-18-1236-01-00bb, July 2018.
[S-4] M. Uysal, O. Narmanlioglu, T. Baykas and R. C. Kizilirmak, “Adaptive MIMO OFDM PHY Proposal for IEEE802.15.7r1“, doc: IEEE 802.15.7r1/2016/8r2, January 2016.
[S-3] M. Uysal, R. C. Kizilirmak, M. Abdallah, O. Narmanlioglu, K. Qaraqe and T. Baykas, “PHY proposal with relaying support for IEEE 802.15.7r1“, doc: IEEE 802.15.7r1/2016/20r1, January 2016.
[S-2] M. Kashef, M. Abdallah, K. Qaraqe and M. Uysal, “Coordinated Interference Management for IEEE802.15.7r1“, doc: IEEE802.15.7r1/2016/22r1, January 2016.
[S-1] M. Uysal, T. Baykas, F. Miramirkhani, N. Serafimovski, and V. Jungnickel, “TG7r1 Channel Model Document for High-Rate PD Communications”, doc: IEEE 802.15.7r1/2015/746r1, September 2015.
Note: Channel impulse responses (CIRs) discussed in the above document were selected as “IEEE 802.15.7r1 Reference Channel Models”. These channel models allow a fair comparison of different physical layer proposals submitted to TG7r1 in response to the Call for Proposals. They are available for public use. A zip file with instructions can be found here. Further information on channel modeling method can be found in the following documents:
– M. Uysal, F. Miramirkhani, T. Baykas, N. Serafimovski, and V. Jungnickel, “LiFi Channel Models: Office, Home and Manufacturing Cell”, doc: IEEE 802.15.7r1/2015/685r0, September 2015.
– M. Uysal and F. Miramirkhani, “Channel Modeling for Visible Light Communications”, doc: IEEE 802.15.7r1/0352r2, May 2015.