A
Amol Delmade
Researcher at Dublin City University
Publications - 27
Citations - 198
Amol Delmade is an academic researcher from Dublin City University. The author has contributed to research in topics: Radio over fiber & Phase noise. The author has an hindex of 6, co-authored 18 publications receiving 104 citations. Previous affiliations of Amol Delmade include Indian Institute of Technology Madras.
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Journal ArticleDOI
Performance analysis of analog IF over fiber fronthaul link with 4G and 5G coexistence
Amol Delmade,Colm Browning,Arman Farhang,Nicola Marchetti,Linda Doyle,R. David Koilpillai,Liam P. Barry,Deepa Venkitesh +7 more
TL;DR: For the first time, to the best of the knowledge, the fronthaul network for providing simultaneous 4G and 5G services by propagating LTE signals in coexistence with UF-OFDM is demonstrated.
Journal ArticleDOI
Optical Heterodyne Analog Radio-Over-Fiber Link for Millimeter-Wave Wireless Systems
Amol Delmade,Colm Browning,Theo Verolet,Julien Poette,Arman Farhang,Hamza Hallak Elwan,R. David Koilpillai,Guy Aubin,F. Lelarge,Abderrahim Ramdane,Deepa Venkitesh,Liam P. Barry +11 more
TL;DR: In this article, three different techniques for the compensation of the laser frequency offset (FO) and phase noise (PN) in an optical heterodyne analog radio-over-fiber (A-RoF) system are presented.
Journal ArticleDOI
Mode Locked Laser Phase Noise Reduction Under Optical Feedback for Coherent DWDM Communication
Theo Verolet,Guy Aubin,Yi Lin,Colm Browning,Kamel Merghem,Francois Lelarge,Cosimo Calo,Amol Delmade,K. Mekhazni,Elias Giacoumidis,Alexandre Shen,Liam P. Barry,Abderrahim Ramdane +12 more
TL;DR: In this article, the phase noise properties of comb lines delivered from a single section QDash MLL under optical feedback were investigated and it was shown that each MLL longitudinal mode optical linewidth can be drastically narrowed, which enables coherent transmission with extended link budget over 50 km at Tbit/s line rates.
Journal ArticleDOI
Power efficient optical frequency comb generation using laser gain switching and dual-drive Mach-Zehnder modulator.
TL;DR: A power efficient dual-stage optical frequency comb using laser gain switching followed by a dual-drive Mach-Zehnder modulator (DD-MZM) is proposed and experimentally demonstrated in a power efficient manner.