교수소개

전현채 사진

교수

전현채
직위(직급)
교수
전화번호
032-835-8633
이메일
hyunchae.chun@inu.ac.kr
사이트
https://sites.google.com/view/q-lifi
주전공
Optical Wireless Communications, LiFi, Quantum Key Distribution, Optical Antenna, Optical MIMO, WDM and O-OFDMs
담당과목
Network Theory, Circuit Theory, Signals and Systems, Free-space Optical Communications (Graduate course)
세부내용

연구실적

 

<논문>

Ultra-sensitive UV solar-blind optical wireless communications with an SiPM,OPTICS LETTERS ,48() ,20,PP.5387~5390 ,2023.10.10


Small Molecule Based Organic Photo Signal Receiver for High Speed Optical Wireless Communications,Advanced Science ,9() ,32,2022.11.01


Bi-LSTM-Augmented Deep Neural Network for Multi-Gbps VCSEL-Based Visible Light Communication Link,SENSORS ,22() ,11,2022.06.01


Smart License Plate in Combination with Fluorescent Concentrator for Vehicular Visible Light Communication System,SENSORS ,22() ,7,2022.04.01


White-light visible light communications based on multiple photoluminescence of fluorescent acrylic sheets,IET Optoelectronics ,16() ,2,PP.56~62 ,2022.04.01


High CRI RGB Laser Lighting with 11-Gb/s WDM Link Using Off-the-Shelf Phosphor Plate,IEEE PHOTONICS TECHNOLOGY LETTERS ,34() ,2,PP.97~100 ,2022.01.15


RCS-OFDM enabling full brightness control with power-efficient visible-light communication,OPTICS LETTERS ,47() ,2,PP.277~280 ,2022.01.15


Utilization of LED Grow Lights for Optical Wireless Communication-Based RF-Free Smart-Farming System,SENSORS ,21() ,20,2021.10.14


A high speed retro-reflective free space optics links with UAV,JOURNAL OF LIGHTWAVE TECHNOLOGY ,39() ,18,PP.5699~5705 ,2021.09.15


Reflection based coupling efficiency enhancement in a fluorescent planar concentrator for an optical wireless receiver,OPTICS EXPRESS ,29() ,18,PP.28901~28911 ,2021.08.30


Fluorescent reflector and image-processing-based D2D beam-steering system for V2V applications,APPLIED OPTICS ,60() ,24,PP.7152~7157 ,2021.08.20


Optimum Device and Modulation Scheme Selection for Optical Wireless Communications,JOURNAL OF LIGHTWAVE TECHNOLOGY ,39() ,8,PP.2281~2287 ,2021.04.15


Investigation of frequency dependent nonlinearity on pulse amplitude modulation in bandlimited visible light communications,OPTICS COMMUNICATIONS ,472() ,2020.10.01


빔포밍 알고리즘,한국전자파학회 논문지 ,31() ,8,PP.701~712 ,2020.08.31


Transmitter and receiver technologies for optical wireless,PHILOSOPHICAL TRANSACTIONS OF THE ROYAL SOCIETY A-MATHEMATICAL PHYSICAL AND ENGINEERING SCIENCES ,378() ,2169,2020.04.17


Optical Antennas for Wavelength Division Multiplexing in Visible Light Communications beyond the Etendue Limit,Advanced Optical Materials ,8() ,4,2020.02.01


The Future Prospects for SiPM-Based Receivers for Visible Light Communications,JOURNAL OF LIGHTWAVE TECHNOLOGY ,37() ,17,PP.4367~4374 ,2019.09.01


Neural Network-Based Joint Spatial and Temporal Equalization for MIMO-VLC System,IEEE PHOTONICS TECHNOLOGY LETTERS ,31() ,11,PP.821~824 ,2019.06.01


A Wide-Area Coverage 35Gb/s Visible Light Communications Link for Indoor Wireless Applications,Scientific Reports ,9() ,2019.03.20


A spectrally efficient equalization technique for optical sources with direct modulation,OPTICS LETTERS ,43() ,11,PP.2708~2711 ,2018.06.01


A Comparison of APD- and SPAD-Based Receivers for Visible Light Communications,JOURNAL OF LIGHTWAVE TECHNOLOGY ,36() ,12,PP.2435~2442 ,2018.02.28


Flexible Glass Hybridized Colloidal Quantum Dots for Gb/s Visible Light Communications,IEEE Photonics Journal ,10() ,1,2018.01.12


Design, Fabrication and Application of GaN-based Micro-LED Arrays with Individual Addressing by N-electrodes,IEEE Photonics Journal ,9() ,6,2017.12.06


Polymer colour converter with very high modulation bandwidth for visible light communications,Journal of Materials Chemistry C ,5() ,35,PP.8916~8920 ,2017.09.05


A Multigigabit per Second Integrated Multiple-Input Multiple-Output VLC Demonstrator,JOURNAL OF LIGHTWAVE TECHNOLOGY ,35() ,20,PP.4358~4365 ,2017.04.17


Handheld free space quantum key distribution with dynamic motion compensation,OPTICS EXPRESS ,25() ,6,PP.6784~6795 ,2017.03.15


High Speed Electro-Absorption Modulator for Long Range Retroreflective Free Space Optics,IEEE PHOTONICS TECHNOLOGY LETTERS ,29() ,9,PP.707~710 ,2017.03.09


MIMO Visible Light Communications Using a Wide Field-of-View Fluorescent Concentrator,IEEE PHOTONICS TECHNOLOGY LETTERS ,29() ,3,PP.306~309 ,2017.01.09


A saturated red color converter for visible light communication using a blend of star-shaped organic semiconductors,APPLIED PHYSICS LETTERS ,110() ,1,2017.01.06


A review of gallium Nitride LEDs for multigigabit-per-second visible light data communications,SEMICONDUCTOR SCIENCE AND TECHNOLOGY ,32() ,2,2017.01.04


High Bandwidth GaN-Based Micro-LEDs for Multi-Gb/s Visible Light Communications,IEEE PHOTONICS TECHNOLOGY LETTERS ,28() ,19,PP.2023~2026 ,2016.10.01


BODIPY star-shaped molecules as solid state colour converters for visible light communications,APPLIED PHYSICS LETTERS ,109() ,1,2016.07.06


LED based Wavelength Division Multiplexed 10 Gb/s Visible Light Communications,JOURNAL OF LIGHTWAVE TECHNOLOGY ,34() ,13,PP.3047~3052 ,2016.07.01


Wide field-of-view fluorescent antenna for visible light communications beyond the etendue limit,Optica ,2016.06.28


Visible light communication using InGaN optical sources with AlInGaP nanomembrane down-converters,OPTICS EXPRESS ,24() ,9,PP.10020~10029 ,2016.04.28


High-Speed Integrated Visible Light Communication System: Device Constraints and Design Considerations,IEEE JOURNAL ON SELECTED AREAS IN COMMUNICATIONS ,2015.05.14