Professor Harald Haas

Electronic and Electrical Engineering

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Expertise

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Prize And Awards

IEEE Photonics Technology Letters Best Paper Award: Recipient; 2022

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Publications

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Publications

Single-photon counting receivers for optical wireless communications in future 6G networks: Huang Shenjie, Chitnis Danial, Chen Cheng, Haas Harald, Khalighi Mohammad Ali, Henderson Robert K, Safari Majid; IEEE Communications Magazine Vol 62, pp. 54-60 (2024); https://doi.org/10.1109/MCOM.001.2300295
Optical OTFS is capable of improving the bandwidth-, power- and energy-efficiency of optical OFDM: Xu Chao, Zhang Xiaoyu, Petropoulos Periklis, Sugiura Shinya, Maunder Robert G, Yang Lie-Liang, Wang Zhaocheng, Yuan Jinghong, Haas Harald, Hanzo Lajos; IEEE Transactions on Communications Vol 72, pp. 938-953 (2024); https://doi.org/10.1109/TCOMM.2023.3326494
Design and optimisation of high-speed receivers for 6G optical wireless networks: Sarbazi Elham, Kazemi Hossein, Crisp Michael, El-Gorashi Taisir, Elmirghani Jaafar, Penty Richard V, White Ian H, Safari Majid, Haas Harald; IEEE Transactions on Communications Vol 72, pp. 971-990 (2024); https://doi.org/10.1109/TCOMM.2023.3328265
Experimental demonstration of 38 Gbps over 2.5 m OWC systems with eye-safe 850 nm SM-VCSELs: Osahon Isaac NO, Rajbhandari Sujan, Kostakis Ioannis, Ihsan Asim, Powell Denise, Meredith Wyn, Missous Mohamed, Haas Harald, Tang Jianming; IEEE Photonics Technology Letters Vol 36, pp. 139-142 (2024); https://doi.org/10.1109/LPT.2023.3337943
GaN-based series hybrid LED array : a dual-function light source with illumination and high-speed visible light communication capabilities: Xie Enyuan, Cheng Chen, Ouyang Chengsui, Hill Jordan, McKendry Jonathan JD, Zhang Yanchao, Gu Erdan, Herrnsdorf Johannes, Haas Harald, Dawson Martin D; Journal of Lightwave Technology Vol 42, pp. 243-250 (2024); https://doi.org/10.1109/JLT.2023.3303779
Gigabit per second UV-C LEDs for communications: Zimi H, Maclure D M, Chen C, McKendry J J D, Stothard D J M, Herrnsdorf J, Haas H, Dawson M D; 2023 IEEE Photonics Conference (IPC) IEEE Photonics Conference (IPC) Vol 2023 (2023); https://doi.org/10.1109/IPC57732.2023.10360631

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Research

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Projects

plaTform drIving The ultimAte coNnectivity (TITAN) (Future Communications Systems Hub): Haas, Harald (Principal Investigator) Dawson, Martin (Co-investigator) Herrnsdorf, Johannes (Co-investigator) Tavakkolnia, Iman (Co-investigator); 01-Jan-2023 - 30-Jan-2026
Future communications hub in all-spectrum connectivity (Future Communications Systems Hubs): Haas, Harald (Principal Investigator) Tavakkolnia, Iman (Co-investigator); 01-Jan-2023 - 30-Jan-2026
Realising Enabling Architectures and Solutions for Open Networks REASON: Haas, Harald (Principal Investigator) Tavakkolnia, Iman (Co-investigator); 01-Jan-2023 - 28-Jan-2025
Kyocera SLD Laser CES: 100 Gbps Demo: Chen, Cheng (Research Co-investigator) Videv, Stefan (Principal Investigator) Sparks, Adrian (Co-investigator) Das, Sovan (Co-investigator) Babadi, Sina (Technician) Haas, Harald (Principal Investigator); Develop an optical wireless communication demostration delivering 100 Gbps, which was demonstrated in CES 2022; 21-Jan-2021 - 12-Jan-2022
LiFi production line integration: Chen, Cheng (Research Co-investigator) Videv, Stefan (Principal Investigator) Sparks, Adrian (Co-investigator) Das, Sovan (Co-investigator) Haas, Harald (Principal Investigator); 25-Jan-2021 - 31-Jan-2022
Optical transmission through rotary joints: Chen, Cheng (Research Co-investigator) Sparks, Adrian (Co-investigator) Videv, Stefan (Principal Investigator) Das, Sovan (Co-investigator) Haas, Harald (Principal Investigator); Establish a LiFi transmission system through the rotary joint of industrial Ethernet traffic with data rates of 100 Mbps, expandable to 1 Gbps in the medium term to cope with increasing usage.; 01-Jan-2021 - 30-Jan-2022