Fault management system for a communications network
First Claim
1. A method of operating a fault management system for a communications network comprising an underground section and an over-ground section, said communications network including a switch and an access network of one or more terminating circuits connecting said switch to terminal equipment provided for users of the communications network, each of said terminating circuits passing through at least one node between said switch and its respective terminal equipment, said method comprising:
- performing a circuit test on each circuit of at least a subset of said terminating circuits and to produce a test result for each circuit so tested, each test result comprising at least one element of test data;
comparing at least one element of the test data for each circuit against a set of parameters which define a characteristic of circuits that may become faulty within a predetermined time period;
if each element falls within the parameters, classifying the associated circuit as having a possibility of becoming faulty within the predetermined period; and
determining a probability for each classified circuit becoming faulty within a predetermined time period;
wherein the probability of each of the circuits becoming faulty comprises an element indicating the probability of a fault occurring in the underground section of the network and an element indicating the probability of the fault occurring in the over-ground section of the network;
in which the two elements indicating probability are combined to calculate whether the fault is most likely to occur in the over-ground or the underground section of the network.
1 Assignment
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Accused Products
Abstract
A fault management system is operated for an access network which forms part of a communications network. In the access network, terminating lines in the form of pairs of copper wires extend from a local switch through a series of nodes to terminal equipment provided for users of the network. The fault management system includes a test head and an access network system. Each night, the test head performs a series of tests on each of the terminating lines. The results of the tests are transmitted to the access network management. The test results are then analyzed with respect to a set of parameters to identify characteristics that would indicate that a fault is likely to occur on the associated circuit within a predetermined period e.g. 1 year. Further analysis can then be carried out to establish the probability of the fault actually occurring and/or whether the potential fault analyzed is going to occur in either the underground or the over-ground part of the network.
20 Citations
6 Claims
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1. A method of operating a fault management system for a communications network comprising an underground section and an over-ground section, said communications network including a switch and an access network of one or more terminating circuits connecting said switch to terminal equipment provided for users of the communications network, each of said terminating circuits passing through at least one node between said switch and its respective terminal equipment, said method comprising:
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performing a circuit test on each circuit of at least a subset of said terminating circuits and to produce a test result for each circuit so tested, each test result comprising at least one element of test data; comparing at least one element of the test data for each circuit against a set of parameters which define a characteristic of circuits that may become faulty within a predetermined time period; if each element falls within the parameters, classifying the associated circuit as having a possibility of becoming faulty within the predetermined period; and determining a probability for each classified circuit becoming faulty within a predetermined time period; wherein the probability of each of the circuits becoming faulty comprises an element indicating the probability of a fault occurring in the underground section of the network and an element indicating the probability of the fault occurring in the over-ground section of the network; in which the two elements indicating probability are combined to calculate whether the fault is most likely to occur in the over-ground or the underground section of the network. - View Dependent Claims (2, 3)
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4. A fault management apparatus for a communications network including a switch and an access network of terminating circuits connecting said switch to terminal equipment provided for users of the communications network, each of said terminating circuits passing through a series of nodes between said switch and its respective terminal equipment, said fault management apparatus comprising:
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circuit testing apparatus arranged to perform circuit tests on said terminating circuits to produce test results; a store containing data relating to said terminating circuits; means for comparing at least one element of the test results for each circuit against a set of parameters which define a characteristic of circuits that may become faulty within a predetermined time period; means operable, if each element falls within the parameters, to classify the associated circuit as having a possibility of becoming faulty within the predetermined period; and means for determining a probability for each classified circuit becoming faulty within a predetermined time period; wherein the probability of each of the circuits becoming faulty comprises an element indicating the probability of a fault occurring in an underground section of the network and an element indicating the probability of the fault occurring in an over-ground section of the network; and in which the two elements indicative probability are combined to calculate whether the fault is most likely to occur in the over-ground or the underground section of the network. - View Dependent Claims (5)
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6. A method for determining whether a fault is likely to occur in an underground or over-ground section of a communication network, said method comprising:
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determining at least one element of circuit test data indicating a probability that a fault in an underground section will occur in a predetermined time period; determining at least one further element of circuit test data indicating that a fault in an over-ground section will occur in said predetermined time period; and combining the at least one and the at least one further elements indicating probability to calculate whether a fault is most likely to occur in the over-ground or underground section of the network during said predetermined time period.
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Specification