Circuit for measurement of the signal quality in digital optical fiber transmission networks by interpreting the signal histogram
First Claim
1. A circuit for identifying a bit error probability of an optical signal in an optical fiber communication system comprising:
- an analyzer for determining an optical signal-to-noise ratio of an optical message signal, said optical message signal having a signal power;
a receiver supplied with said optical message signal for demodulating said optical message signal, said receiver including an optical filter having a bandwidth, a photodetector including a photodiode having a dark current and a sensitivity, and an amplifier having an equivalent spectral input noise current density, said receiver having an overall bandwidth and producing a demodulated signal with a plurality of amplitude values;
a histogram calculator supplied with said demodulated signal for calculating a histogram representing respective frequencies of occurrence of said amplitude values of said demodulated signal, each of said amplitude values being allocated to a different random process and each random process having an average value, and said histogram calculator calculating a standard deviation for each random process from said optical signal-to-noise ratio, said signal power, said overall bandwidth of said receiver, said bandwidth of said optical filter, said dark current of said photodiode and said sensitivity of said photodiode; and
a bit error probability calculator which calculates a probability, based on said average value and said standard deviation for each random process, of each random process crossing a predetermined threshold, and which calculates a bit error probability for said optical message signal as a sum of the respective probabilities for the random processes.
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Abstract
In an optical fiber communication system, for signal monitoring a transparent optical network (all-optical networks), i.e. a system without digital intermediate regeneration, the bit error probability (BEP) is calculated by dismodulating and sampling the signal and generating an amplitude histogram. This histogram serves mainly for modeling the signal distortions. A family of amplitudes that represent the average of a noise-infested sub-signal is determined from the histogram for each status of the signal (logical “0” or “1”). The variance of the individual noise signal overlaid on every amplitude value is calculated from the parameters of the receiver as well as from the optical signal-to-noise ratio (OSNR). The bit error probability is calculated with adequate precision from these parameters.
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Citations
1 Claim
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1. A circuit for identifying a bit error probability of an optical signal in an optical fiber communication system comprising:
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an analyzer for determining an optical signal-to-noise ratio of an optical message signal, said optical message signal having a signal power;
a receiver supplied with said optical message signal for demodulating said optical message signal, said receiver including an optical filter having a bandwidth, a photodetector including a photodiode having a dark current and a sensitivity, and an amplifier having an equivalent spectral input noise current density, said receiver having an overall bandwidth and producing a demodulated signal with a plurality of amplitude values;
a histogram calculator supplied with said demodulated signal for calculating a histogram representing respective frequencies of occurrence of said amplitude values of said demodulated signal, each of said amplitude values being allocated to a different random process and each random process having an average value, and said histogram calculator calculating a standard deviation for each random process from said optical signal-to-noise ratio, said signal power, said overall bandwidth of said receiver, said bandwidth of said optical filter, said dark current of said photodiode and said sensitivity of said photodiode; and
a bit error probability calculator which calculates a probability, based on said average value and said standard deviation for each random process, of each random process crossing a predetermined threshold, and which calculates a bit error probability for said optical message signal as a sum of the respective probabilities for the random processes.
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Specification