Single ended loop loss measurement by frequency domain reflectometry-based signal processing
First Claim
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1. A method of deriving a measure of signal transport loss of a wireline telecommunication link comprising the steps of:
- (a) coupling a varying frequency waveform of a prescribed bandwidth to a first location of said wireline telecommunication link;
(b) at said first location of said wireline telecommunication link, measuring variations in signal level response in association respective frequencies of said varying frequency waveform; and
(c) generating a measure of said signal transport loss over said prescribed bandwidth based upon said variations in signal level response measured in step (b), wherein step (c) comprises;
c1—
normalizing said variations in signal level response in accordance with reference data representative of simulated characteristics of said line;
c2—
modifying said normalized variations in signal level response to correct for constructive and destructive interference associated with reflections from discontinuities along said wireline, and thereby produce a distortion-corrected normalized signal response;
c3—
differentially combining said distortion-corrected normalized signal response with power spectral density values associated with the type of transceiver employed at a remote end of said wireline, to produce a modified differential data set;
c4—
summing said modified differential data set with a signal-to-noise gap constant required for reliable operation and coding gain values associated with the coding gain of said transceiver, to produce a coding gain-modified data set;
c5—
measuring background noise of said wireline telecommunication link;
c6—
differentially combining said coding gain-modified data set with said background noise measured in step c5, to obtain a set of noise margin data values associated with said respective frequencies of said varying frequency waveform; and
c7—
processing said set of noise margin data values obtained in step c6 to produce a set of frequency bins having bit contents which effectively represent a composite bit rate available for digital signal transport over said wireline telecommunication link.
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Abstract
A single ended, frequency domain reflectometry signal processing based scheme measures loop loss of a telecommunications wireline. A distortion-corrected, normalized data array is differentially combined with an associated set of wireline noise spectrum values. The resulting noise margin data is processed by a Shannon Theorem operator, to produce a set of N frequency bins, each containing the number of bits which the link will support for a respective tone. The bit contents of the bins represent a composite bit rate that is available for use for ADSL signalling.
23 Citations
6 Claims
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1. A method of deriving a measure of signal transport loss of a wireline telecommunication link comprising the steps of:
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(a) coupling a varying frequency waveform of a prescribed bandwidth to a first location of said wireline telecommunication link;
(b) at said first location of said wireline telecommunication link, measuring variations in signal level response in association respective frequencies of said varying frequency waveform; and
(c) generating a measure of said signal transport loss over said prescribed bandwidth based upon said variations in signal level response measured in step (b), wherein step (c) comprises;
c1—
normalizing said variations in signal level response in accordance with reference data representative of simulated characteristics of said line;
c2—
modifying said normalized variations in signal level response to correct for constructive and destructive interference associated with reflections from discontinuities along said wireline, and thereby produce a distortion-corrected normalized signal response;
c3—
differentially combining said distortion-corrected normalized signal response with power spectral density values associated with the type of transceiver employed at a remote end of said wireline, to produce a modified differential data set;
c4—
summing said modified differential data set with a signal-to-noise gap constant required for reliable operation and coding gain values associated with the coding gain of said transceiver, to produce a coding gain-modified data set;
c5—
measuring background noise of said wireline telecommunication link;
c6—
differentially combining said coding gain-modified data set with said background noise measured in step c5, to obtain a set of noise margin data values associated with said respective frequencies of said varying frequency waveform; and
c7—
processing said set of noise margin data values obtained in step c6 to produce a set of frequency bins having bit contents which effectively represent a composite bit rate available for digital signal transport over said wireline telecommunication link.- View Dependent Claims (2, 3)
(d) processing said variations in signal level response measured in step (b) to provide an estimate of respective upstream and downstream bit rates at which digital subscriber line (DSL) type signals may be transported over said wireline.
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3. The method according to claim 1, wherein step c7 comprises processing said set of noise margin data values obtained in step c6 in accordance with a Shannon Theorem operator.
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4. For use with a test device for measuring one or more characteristics of a telecommunication wireline, an arrangement for deriving a measure of signal transport loss of said wireline telecommunication link comprising:
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a signal interface for coupling signals to and receiving signals from a single-ended location of said telecommunication wireline; and
a digitally controlled signal generation and response measurement unit, which is coupled with said signal interface and is operative to perform the following steps;
(a) supplying a varying frequency waveform of a prescribed bandwidth for to said signal interface and application thereby to said single-ended first location of said wireline telecommunication link; and
(b) processing variations in signal level response, as received by said signal interface in association respective frequencies of said varying frequency waveform, to generate therefrom a measure of said signal transport loss over said prescribed bandwidth, wherein (b) comprises;
b1—
normalizing said variations in signal level response in accordance with reference data representative of simulated characteristics of said line;
b2—
modifying said normalized variations in signal level response to correct for constructive and destructive interference associated with reflections from discontinuities along said wireline, and thereby produce a distortion-corrected normalized signal response;
b3—
differentially combining said distortion-corrected normalized signal response with power spectral density values associated with the type of transceiver employed at a remote end of said wireline, to produce a modified differential data set;
b4—
summing said modified differential data set with a signal-to-noise gap constant required for reliable operation and coding gain values associated with the coding gain of said transceiver, to produce a coding gain-modified data set;
b5—
measuring background noise of said wireline telecommunication link;
b6—
differentially combining said coding gain-modified data set with said background noise measured in step b5, to obtain a set of noise margin data values associated with said respective frequencies of said varying frequency waveform; and
b7—
processing said set of noise margin data values obtained in step b6 to produce a set of frequency bins having bit contents which effectively represent a composite bit rate available for digital signal transport over said wireline telecommunication link.- View Dependent Claims (5, 6)
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Specification
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Current AssigneeFluke Corporation (Fortive Corp.)
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Original AssigneeHarris Corporation (L3Harris Technologies, Inc.)
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InventorsLowell, Alan Blair, Berrier, Travis Lee
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Primary Examiner(s)TRAN, QUOC DUC
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Application NumberUS10/066,201Publication NumberTime in Patent Office1,012 DaysField of Search379/1.01, 379/1.03, 379/1.04, 379/22, 379/22.01, 379/22.02, 379/22.03, 379/22.04, 379/22.08, 379/23, 379/21, 379/24, 379/27.01, 379/27.02, 379/27.03, 379/27.08, 379/28, 379/29.01, 379/30, 379/31, 324/500, 324/501, 324/512, 324/520, 324/521, 324/522, 324/527, 324/532, 324/533, 324/534, 324/535US Class Current379/1.04CPC Class CodesH04B 3/46 Monitoring; TestingH04M 2203/057 distortion monitoring QoS m...H04M 3/26 with means for applying tes...H04M 3/303 and using PCM multiplexers,...
