Ming Chen
Ming Chen
Hunan Normal University
Verified email at hunnu.edu.cn
Title
Cited by
Cited by
Year
Real-time optical OFDM long-reach PON system over 100 km SSMF using a directly modulated DFB laser
M Chen, J He, L Chen
Journal of Optical Communications and Networking 6 (1), 18-25, 2014
792014
Symbol synchronization and sampling frequency synchronization techniques in real-time DDO-OFDM systems
M Chen, J He, Z Cao, J Tang, L Chen, X Wu
Optics Communications 326, 80-87, 2014
532014
Experimental demonstration of four-channel WDM 560 Gbit/s 128QAM-DMT using IM/DD for 2-km optical interconnect
F Li, J Yu, Z Cao, J Zhang, M Chen, X Li
Journal of Lightwave Technology 35 (4), 941-948, 2016
422016
PAPR reduction based on chaos combined with SLM technique in optical OFDM IM/DD system
Y Xiao, M Chen, F Li, J Tang, Y Liu, L Chen
Optical Fiber Technology 21, 81-86, 2015
342015
Real-time 10.4-Gb/s single-band optical 256/64/16QAM receiver for OFDM-PON
M Chen, J He, J Tang, X Wu, L Chen
IEEE Photonics Technology Letters 26 (20), 2012-2015, 2014
332014
Experimental demonstration of real-time high-level QAM-encoded direct-detection optical OFDM systems
M Chen, J He, Q Fan, Z Dong, L Chen
Journal of Lightwave Technology 33 (22), 4632-4639, 2015
322015
Experimental demonstration of an IFFT/FFT size efficient DFT-spread OFDM for short reach optical transmission systems
M Chen, X Xiao, ZR Huang, J Yu, F Li, Q Chen, L Chen
Journal of Lightwave Technology 34 (9), 2100-2105, 2016
302016
Demonstration of four-channel CWDM 560 Gbit/s 128QAM-OFDM for optical inter-connection
F Li, Z Cao, M Chen, X Li, J Yu, S Shi, Y Xia, Y Chen
Optical Fiber Communication Conference, W4J. 2, 2016
252016
Experimental demonstration of real-time adaptively modulated DDO-OFDM systems with a high spectral efficiency up to 5.76 bit/s/Hz transmission over SMF links
M Chen, J He, J Tang, X Wu, L Chen
Optics express 22 (15), 17691-17699, 2014
242014
Real-time demonstration of 1024-QAM OFDM transmitter in short-reach IMDD systems
M Chen, J He, L Chen
IEEE Photonics Technology Letters 27 (8), 824-827, 2015
212015
Pilot-aided sampling frequency offset estimation and compensation using DSP technique in DD-OOFDM systems
M Chen, J He, J Tang, L Chen
Optical Fiber Technology 20 (3), 268-273, 2014
182014
Real-time VLLC-OFDM HD-SDI video transmission system with TS-based SFO estimation
R Deng, J He, M Chen, Y Wei, J Shi, L Chen
2017 Optical Fiber Communications Conference and Exhibition (OFC), 1-3, 2017
162017
Real-Time Generation and Reception of OFDM Signals for -Band RoF Uplink With Heterodyne Detection
M Chen, X Xiao, J Yu, X Li, F Li
IEEE Photonics Technology Letters 29 (1), 51-54, 2016
162016
SFO compensation by pilot-aided channel estimation for real-time DDO-OFDM system
R Deng, J He, M Chen, L Chen
Optics Communications 355, 172-176, 2015
162015
A PAPR reduction technique using Hadamard transform combined with clipping and filtering based on DCT/IDCT for IM/DD optical OFDM systems
F Mangone, J He, J Tang, J Xiao, M Chen, F Li, L Chen
Optical Fiber Technology 20 (4), 384-390, 2014
162014
Demostration of 520 Gb/s/λ pre-equalized DFT-spread PDM-16QAM-OFDM signal transmission
F Li, J Yu, Z Cao, M Chen, J Zhang, X Li
Optics Express 24 (3), 2648-2654, 2016
152016
Improved BER performance of real-time DDO-OFDM systems using interleaved Reed–Solomon codes
M Chen, X Xiao, X Li, J Yu, ZR Huang, F Li, L Chen
IEEE Photonics Technology Letters 28 (9), 1014-1017, 2016
152016
Performance of 16 QAM-OFDM with new null subcarrier shifting in an intensity-modulated direct detection system
H Chen, J He, J Tang, F Li, M Chen, L Chen
IEEE/OSA Journal of Optical Communications and Networking 6 (2), 159-164, 2014
152014
Real-time LR-DDO-OFDM transmission system using EML with 1024-point FFT
R Deng, J He, M Chen, Y Liu, L Chen
IEEE Photonics Technology Letters 27 (17), 1841-1844, 2015
142015
FFT-size efficient 4096-QAM OFDM for low-cost DML-based IMDD system
Q Chen, J He, R Deng, M Chen, L Chen
IEEE Photonics Journal 8 (5), 1-10, 2016
132016
The system can't perform the operation now. Try again later.
Articles 1–20