scholar.google.com › citations
We introduce an adaptive phase equalizer to compensate for the acoustically induced timing jitter (AITJ). We show that the equalizer can be trained in a "semi- ...
An adaptive phase equalizer for reducing timing jitter due to acoustic ...
ieeexplore.ieee.org › iel5
The main source of errors for solitons when propagating in optical fibers is the timing jitter. Acoustic effect, unlike other sources of timing jitter such ...
Tülay Adali, Yi Cai, Qigong Zheng: An adaptive phase equalizer for reducing timing jitter due to acoustic effect. ICASSP 2000: 2693-2696.
This work introduces an adaptive phase equalizer to compensate for the acoustically induced timing jitter (AITJ) and shows that the equalizer can be trained ...
An adaptive phase equalizer for reducing timing jitter due to acoustic effect. Resource URI: https://dblp.l3s.de/d2r/resource/publications/conf/icassp ...
Abstract—We introduce a signal processing approach to com- pensate for the timing jitter produced by the acoustic effect in soliton communications.
Missing: phase | Show results with:phase
Jul 26, 2024 · By adaptively controlling the linear phase shift difference and pump power, the phase noise can be effectively suppressed in the high offset ...
Sensory systems use adaptive coding mechanisms to filter redundant information from the environment to efficiently represent the external world.
Jitter analysis of timing-distribution and remote-laser synchronization ...
opg.optica.org › abstract
We present a powerful jitter analysis method for timing-distribution and remote-laser synchronization systems based on feedback flow between setup elements.
A filtering approach for reducing timing jitter due to the acoustic effect. Article. Full-text available. Jul 1998 ; Method for nulling nonrandom timing jitter ...