SU1467761A1 - Method and apparatus for monitoring the state of communication path - Google Patents

Abstract

The invention relates to telecommunications. The purpose of the invention is to increase the reliability of the control. The essence of this method of monitoring the state of the communication path is that a fairly general and objective assessment of the quality of communication is the interference power at the output of the path associated with the average value in the linear spectrum of the transmission level. Monitoring of this level would be implemented using a multi-frequency test signal (IC) with a uniform distribution. In this case, the average in the linear spectrum of the transmission level will correspond to the arithmetic average of the voltages of rectified frequency components of the IC. The currents of the control frequencies (CN) of this path can serve as the IC. For example, the estimation of the deviations of the arithmetic mean value of the rectified voltage of the RC link path is an acceptable and sufficiently objective assessment of the change in the quality of the path function. The method is implemented by a device containing a summing amplifier 5 direct current and signal processing channels 1, consisting of a complex of voltage 2, integrators 3 and prohibition element 4. 2 cf f-crystals, I ill. S

Description

The invention relates to telecommunications and can be used to monitor the status of linear and network paths of transmission systems of a communication network.

The purpose of the invention is to increase the reliability of control.

The drawing shows a structural electrical diagram of the proposed device.

A device for implementing a method for monitoring the state of a communication path contains signal processing channels 1.1 - 1, including voltage comparators 2.1-22.η, 3.1-Zp integrators and prohibition elements 4.1-4.η-1, which summarizes a DC amplifier 5.

The essence of the proposed method lies in the fact that a fairly general and objective assessment of the quality of communication is the interference power at the output of the path associated with the average level in the linear spectrum of the transmission level. This level can be monitored using multi-frequency, for example, with a uniform distribution of the test signal. In this case, the arithmetic mean of the voltage of the rectified frequency components of the test signal corresponds to the average transmission level in the linear spectrum. As a test signal, the currents of the control frequencies (CN) of this path can serve, and the most complete and accurate assessment is achieved using all of the CNs.

Thus, the assessment of the deviations of the arithmetic mean value of the rectified voltages of the RF coupling path is an acceptable and fairly objective assessment of the change in the quality of the functioning of the path.

A device for implementing the proposed method works as follows.

The rectified voltage of the control frequencies of the same polarity from m (where m = 1,2, ...) of the receivers of the control channel of the monitored communication path (not shown) are supplied to the device inputs and enter the summing amplifier 5, made, for example, on an operational amplifier with differential inputs, which sums the voltages of the input signals with the same weights, calculates the arithmetic average of the voltages of the input signals and amplifies the average voltage value to the desired value.

The voltage from the output of the summing amplifier 5 simultaneously enters into n channels 1 of the signal Processing, the number of which corresponds to the number (n + 1) of possible states of the controlled communication path distinguished by the device. For example, the first channel 1.1 generates an “Alarm” signal at the output, channel 1.2 - a “Damage” signal, etc. In this case, the (and + 1) -th signal - “Normal” - is not generated, since it corresponds to the absence of other signals . The outputs of the processing channels 1 are the outputs of the device, the appearance of a signal on any of them uniquely corresponds to one of the distinguished states of the monitored path. The signal processing in channel 1 includes an estimate of the deviations of the average value of the voltage over the amplitude, selection of the deviations over the minimum duration and logical processing. The amplitude deviations of the average voltage from its nominal value are estimated by voltage comparators 2, where the current value is compared with the threshold values set for each channel 1. The selection of deviations for the minimum duration is carried out jointly by integrators 3 and comparators 2. For this, the time constants of integrators 3.1 — З.р must satisfy the inequality

Logical processing eliminates the ambiguity of the output information with the simultaneous appearance of signals at the outputs of several (or even all) comparators 2.1–2. This can happen, for example, when the monitored path is in the “Failure” state. In this case, all comparators should work, since the voltage deviation exceeds the allowable threshold values for all channels 1. In the absence of logical processing, this leads to the appearance of signals at all outputs of the device. The purpose of logical processing is to provide only one output signal. The logical processing algorithm is implemented using the prohibition elements 4, forming the sequential priorities of the processing channels 1 in accordance with a given hierarchy of output signals. According to the hierarchy levels, the output signals can be placed in the following order: “Alarm”, “Damage”, Warning ”, etc. Moreover, there is no inhibit logic element 4 in the processing channel 11, which generates the“ Alarm ”signal and has the highest priority.

Claims (2)

Claim 1. A method for monitoring the state of the communication path, including the allocation of the frequency components of the multi-frequency control signal, their rectification, comparison with tolerance values and the formation of estimates of the comparison results, characterized in that, in order to increase the reliability of control, the rectified signals are summed and determined before comparison with tolerance values arithmetic mean value of their stresses, which is integrated simultaneously with various time constants. 2. A device for monitoring the state of the communication path, containing n signal processing channels, each of which includes a voltage comparator, characterized in that a summing DC amplifier is introduced, an integrator in each signal processing channel, and second-to-second signal processing channels th element of prohibition, the output of the summing amplifier is connected to the DC input of the integrator, the output of each of ko_ toryh connected respectively to the first input of the comparator ⁵ stvuyuschego voltage, second and third inputs which are tsya inputs of respective threshold voltages of the device, and the output of each of the voltage comparators with the second n-th Con chen to the signal input of the respective element prohibition, prohibition input coupled to an output voltage of the comparator of the previous signal processing channel.