Fault locating system capable of quickly locating a fault in a hierarchical communication network
First Claim
1. A fault locating system for use in combination with a communication network which comprises a plurality of communication units structured in a hierarchy and divisible into a plurality of layers graded from an uppermost layer to a lowermost one, said fault locating system used to locate a fault when said fault occurs in said communication network, wherein each of said communication units, when there is no fault, is supplied with first and second input signals from upper and lower ones of said layers in the hierarchy, respectively, and supplies an output signal upwards of the hierarchy, said communication units producing fault information signals representative of whether or not the faults occur in said communication units and being rendered into faulty communication units on occurrence of the faults, each of said fault information signals being classifiable into first, second, and third alarm signals, said first and second alarm signals representing interruptions of said first and second input signals while said third alarm signal represents an interruption of said output signal, said fault locating system comprising:
- classification means supplied with said fault information signals from said communication units for classifying each of said fault information signals into said first through said third alarm signals;
alarm signal memorizing means connected to said classification means for storing said first through said third alarm signals for every one of said communication units;
judgment rule memorizing means for memorizing a predetermined judgment rule for locating the fault;
alarm monitoring means connected to said alarm signal memorizing means for monitoring said alarm signal memorizing means to detect whether or not the first through the third alarm signals are stored in said alarm signal memorizing means and to output the first through the third alarm signals as first through third extracted signals when the first through third alarm signals are stored wherein, the first extracted signal is a selected one of the first and the third alarm signals sent from a first unit that is a highest one of the faulty communication units located at a highest layer among the faulty communication units, while the second extracted signal is a remaining one of the first and the third alarm signals sent from a second unit that logically forms a counterpart communication unit of said first unit in the hierarchy, and said third extracted signal is the second alarm signal of a third unit that belongs to a physically higher layer relative to said first and said second units; and
judging means connected to said alarm monitoring means and said judgment rule memorizing means for judging the fault from said first through said third extracted signals in accordance with said predetermined judgment rule to locate the fault.
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Abstract
In a fault locating system for use in combination with a communication network of a hierarchy comprising a plurality of communication units which are divisible into a plurality of layers, each of the communication units produces, on occurrence of a fault, first, second, and third alarm signals Iu, Id, and Ou representative of interruption of an input signal from an upper communication unit, interruption of an input signal from a lower communication unit, and interruption of an output signal to an upper communication unit. A pattern of the first through the third alarm signals Iu to Ou is extracted from three specific communication units and is monitored to locate the fault. In order to locate multiple faults, the first through the third alarm signals are erased after a single fault is located to monitor whether or not alarm signals remain without an erasure. Similar operation is repeated until no alarm signal remain. The three specific communication units may be composed of a highest communication unit located at a highest layer in faulty communication units, a counterpart communication unit of the highest communication unit, and an upper communication unit of the counterpart communication unit.
48 Citations
7 Claims
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1. A fault locating system for use in combination with a communication network which comprises a plurality of communication units structured in a hierarchy and divisible into a plurality of layers graded from an uppermost layer to a lowermost one, said fault locating system used to locate a fault when said fault occurs in said communication network, wherein each of said communication units, when there is no fault, is supplied with first and second input signals from upper and lower ones of said layers in the hierarchy, respectively, and supplies an output signal upwards of the hierarchy, said communication units producing fault information signals representative of whether or not the faults occur in said communication units and being rendered into faulty communication units on occurrence of the faults, each of said fault information signals being classifiable into first, second, and third alarm signals, said first and second alarm signals representing interruptions of said first and second input signals while said third alarm signal represents an interruption of said output signal, said fault locating system comprising:
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classification means supplied with said fault information signals from said communication units for classifying each of said fault information signals into said first through said third alarm signals; alarm signal memorizing means connected to said classification means for storing said first through said third alarm signals for every one of said communication units; judgment rule memorizing means for memorizing a predetermined judgment rule for locating the fault; alarm monitoring means connected to said alarm signal memorizing means for monitoring said alarm signal memorizing means to detect whether or not the first through the third alarm signals are stored in said alarm signal memorizing means and to output the first through the third alarm signals as first through third extracted signals when the first through third alarm signals are stored wherein, the first extracted signal is a selected one of the first and the third alarm signals sent from a first unit that is a highest one of the faulty communication units located at a highest layer among the faulty communication units, while the second extracted signal is a remaining one of the first and the third alarm signals sent from a second unit that logically forms a counterpart communication unit of said first unit in the hierarchy, and said third extracted signal is the second alarm signal of a third unit that belongs to a physically higher layer relative to said first and said second units; and judging means connected to said alarm monitoring means and said judgment rule memorizing means for judging the fault from said first through said third extracted signals in accordance with said predetermined judgment rule to locate the fault. - View Dependent Claims (2, 3, 4, 5)
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6. A method of locating a fault in a communication network which comprises a plurality of communication units structured in hierarchy and divisible into a plurality of layers graded from an uppermost layer to a lowermost one, said method being carried out to locate a fault when said fault occurs in said communication network, each of said communication units, when there is no fault, receiving first and second input signals from upper and lower ones of said layers in the hierarchy, respectively, and supplying an output signal upwards of the hierarchy, said communication units producing fault information signals representative of whether or not the faults occur in said communication units and being rendered into faulty communication units on occurrence of the faults, each of said fault information signals being classifiable into first, second, and third alarm signals, said first and said second alarm signals representing interruptions of said first and said second input signals while said third alarm signal represents an interruption of said output signal, said method comprising the steps of:
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classifying each of said fault information signals into said first through said third alarm signals; memorizing said first through said third alarm signals for every one of said communication units in an alarm signal memory; memorizing a predetermined judgement rule for locating the fault; accessing said alarm signal memory on occurrence of the fault to extract first, second, and third extracted signals from said alarm signal memory wherein, the first extracted signal is one of the first and the third alarm signal sent from a first unit that is a highest one of the faulty communication units located at a highest one of the layer among the faulty communication units while the second extracted signal is a remaining one of the first and the third alarm signals sent from a second unit that logically forms a counterpart communication unit of said first unit in the hierarchy, and said third extracted signal is the second alarm signal of a third unit that belongs to a physically higher layer relative to said first and said second units; and judging the fault from said first through said third extracted signals in accordance with said predetermined judgement rule to locate the fault. - View Dependent Claims (7)
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Specification