Transmission Performance of 448 Gb/s Single-Carrier and 1.2 Tb/s Three-Carrier Superchannel Using Dual-Polarization 16-QAM With Fixed LUT Based MAP Detection

Rezania, A.; Cartledge, J.C.

doi:10.1109/jlt.2015.2467187

Cited by 11 publications

(2 citation statements)

References 33 publications

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“…where L is called the pencil parameter. Then the singular value decomposition (SVD) of the matrix is carried out as [26], such digital signal processing can be performed at extremely high speeds.…”

Section: Principle Of Operationmentioning

confidence: 99%

Photonic-Assisted Scanning Receivers for Microwave Frequency Measurement

Song

Liu

et al. 2019

Applied Sciences

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We present a novel technique based on matrix pencil assisted deconvolution to improve the measurement resolution in scanning receiver systems for microwave frequency measurements. By modeling the scanning receiver output as the cross-correlation of the input modulated signal with the filter's spectral response and applying the matrix pencil algorithm to convolve the detected optical signal at the receiver output, our technique offers precise estimations of both the frequency and power information of microwave signals with an improved measurement resolution. A multi-tone microwave signal measurement based on an optical filter is experimentally demonstrated, showing a significant measurement resolution reduction from 1 GHz to 0.4 GHz for two radio frequency (RF) tones, which is only about 30.2% of the optical filter bandwidth.

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Section: Principle Of Operationmentioning

confidence: 99%

Photonic-Assisted Scanning Receivers for Microwave Frequency Measurement

Song

Liu

et al. 2019

Applied Sciences

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“…Moreover, 80 GBaud signal-carrier transmissions with DP-16QAM format and 72 GBaud single-carrier transmissions with DP-64QAM were demonstrated [3,4]. For the multi-carrier or superchannel signal transmission, the aggregate symbol rate can be higher than 100 GBaud and the bit rate can be higher than 1 Tb/s [5]. On one hand, high spectral-efficiency formats are more vulnerable to fiber nonlinearities and are limited to shorter distances.…”

Section: Introductionmentioning

confidence: 99%

Low complexity digital backpropagation for high baud subcarrier-multiplexing systems

Zhang¹,

Zhuge²,

Qiu³

et al. 2016

Opt. Express

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In this paper, we propose two modifications to reduce the complexity of the subcarrier-multiplexing (SCM) based digital backpropagation (DBP) for high symbol rate SCM systems. The first one is to reduce the number of interfering subcarriers (RS-SCM-DBP) when evaluating the cross-subcarrier nonlinearity (CSN). The second one is to replace the original frequency domain CSN filters with the infinite impulse response (IIR) filters (IIR-RS-SCM-DBP) in the CSN compensation. The performance of the proposed schemes are numerically evaluated in three-channel dual-polarization (DP) 16QAM wavelength-division multiplexing (WDM) transmissions. The aggregate symbol rate for each channel is 120 GBaud and the transmission distance is 1600 km. For the SCM system with 16 subcarriers, the IIR-RS-SCM-DBP with only 4 interfering subcarriers and 2 steps can achieve a 0.3 dB Q-factor improvement in the WDM transmission. Compared to the original SCM-DBP, the proposed IIR-RS-SCM-DBP reduces the complexity by 48% at a performance loss of only 0.07 dB.

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