Multi-branched optical line testing apparatus
First Claim
1. A multi-branched optical line testing apparatus which introduces an optical pulse into a branch point of a multi-branched optical line, wherein the optical pulse is advanced from said branch point to a plurality of optical lines and reflected in these optical lines and returned via said branch point, wherein the testing apparatus analyzes a waveform of response light due to Rayleigh scattering to thereby detect a fault in each optical line, and determine a fault point, whereinsaid response light which is returned via said branch point for each predetermined period of time is converted to a digital waveform data group, an attenuation ratio of each optical line is calculated by performing separation analysis of said digital waveform data group, and a faulty line and position of the fault point are determined based on the change of the attenuation ratio.
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Accused Products
Abstract
A multi-branched optical line testing apparatus can automatically detect a faulty line in multi-branched optical lines and the distance to the fault point. An optical pulse is introduced to the branch point of optical fibers and is reflected inside the respective optical fibers. The waveform of the returning response light is analyzed by an optical time-domain reflectometer (OTDR) measuring apparatus to detect a fault in the respective optical fibers and to determine the fault point. The OTDR measuring apparatus periodically converts the response light which is returned from the respective optical fibers into a digital waveform data group, calculates the attenuation ratios of the respective optical fibers by performing separation analysis of the digital waveform data group, and determines the faulty line and the position of the fault point based on the change of the attenuation ratio of the respective optical fibers.
46 Citations
5 Claims
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1. A multi-branched optical line testing apparatus which introduces an optical pulse into a branch point of a multi-branched optical line, wherein the optical pulse is advanced from said branch point to a plurality of optical lines and reflected in these optical lines and returned via said branch point, wherein the testing apparatus analyzes a waveform of response light due to Rayleigh scattering to thereby detect a fault in each optical line, and determine a fault point, wherein
said response light which is returned via said branch point for each predetermined period of time is converted to a digital waveform data group, an attenuation ratio of each optical line is calculated by performing separation analysis of said digital waveform data group, and a faulty line and position of the fault point are determined based on the change of the attenuation ratio.
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2. A multi-branched optical line testing apparatus which introduces an optical pulse into a branch point of a multi-branched optical line, wherein the optical pulse is advanced from said branch point to a plurality of optical lines and reflected in these optical lines and returned via said branch point, wherein the testing apparatus analyzes a waveform of response light to thereby detect a fault in each optical line, and determine a fault point, wherein
said response light which is returned via said branch point for each predetermined period of time is converted to a digital waveform data group, an equation group is prepared, wherein the equation group comprises terms obtained by multiplying each data constituting said digital waveform data group by autoregressive coefficients corresponding to simultaneous equations patterning the autocorrelation relationship between each data, and wherein each autoregressive coefficient is calculated by solving these simultaneous equations using a least squares approximation method, an attenuation ratio of each optical line connected to said branch point is calculated based on the autoregressive coefficients, and a faulty line and position of the fault point are determined based on the change of the attenuation ratio.
Specification