Paper detail

Fixed-State Log-MAP Detection for Intensity-Modulation and Direct-Detection Optical Systems over Dispersion-Uncompensated Links

In this paper, an optimized detection based on log-maximum a posteriori estimation with the fixed number of surviving states (fixed-state Log-MAP) is proposed to cooperate with equalizers to deal with the spectral distortions caused by limited bandwidth and chromatic dispersion for intensity-modulation and direct-detection (IM/DD) optical systems. The equalizers compensates the spectral distortions and optimized detection decodes the useful bits from the noise. For accurately extracting the bits from more serious noise, the optimized detection with larger memory length is required. However, the classical optimized detection such as maximum likelihood-sequence estimation (MLSE) requires exponential-growing computational complexity and storage with the increasing memory length. The fixed-state Log-MAP detection can decrease the computational complexity and storage from the exponential order to linear order. Therefore, the fixed-state Log-MAP detection can compensate more distortions compared to MLSE under the same hardware condition. We experimentally verify the fixed-state Log-MAP detection in a C-band 64 Gbit/s IM/DD on-off keying optical system over a 100 km dispersion-uncompensated link. Under the same hardware condition, the fixed-state Log-MAP detection has a 2 dB improvement of receiver sensitivity compared to MLSE. In conclusion, the fixed-state Log-MAP detection shows the potential for practical IM/DD optical systems.