JP3645635B2 - Flow monitoring device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a flow rate monitoring device used for a communication control device using a cell.
[0002]
[Prior art]
Conventionally, this type of flow rate monitoring apparatus is configured as shown in the block diagram of FIG. In FIG. 3, 1 is a separating means for separating the channel identification number of the input cell, 2 is a measuring means for measuring the arrival time of the cell, and 3 is a preset interval specification indicating the interval of the cell arrival time for each channel identification number. The first storage means 4 for storing the value outputs the previously stored arrival time, and stores the arrival time from the measuring means 2 for each channel identification number as the latest arrival time in the past (hereinafter referred to as the past latest time). The second storage means 5 adds the interval specified value of the first storage means 3 and the past latest time of the second storage means 4 for each channel identification number, and calculates the estimated value of the arrival time. Means 6 is a comparing means for comparing the arrival time measured by the measuring means 2 and the estimated value calculated by the adding means 5.
[0003]
In the flow rate monitoring apparatus configured as described above, when a cell to be monitored is input, the cell channel identification number is separated by the separating unit 1 and the arrival time of the cell input by the measuring unit 2 is measured. . The interval specified value stored for each channel identification number in the first storage means 3 indicated by the separated channel identification number is output, and similarly the latest latest time of cell arrival stored in the second storage means 4 Is output. Each output of the interval specified value and the past latest time is input to the adding means 5 and added to be calculated as an estimated value of the arrival time. The arrival time measured by the measuring means 2 is input to the second storage means 4 and replaced with the latest past time stored last time, and stored as a new past latest time for each channel identification number. Further, when the estimated arrival time calculated by the adding means 5 and the arrival time measured by the measuring means 2 are input to the comparing means 6 and the arrival time measured by the comparison result is smaller than the estimated value, the flow monitoring information is obtained. Operates to output an overflow warning.
[0004]
Note that this operation of the conventional example is performed each time a cell to be monitored is input, and ends until the next cell is input.
[0005]
[Problems to be solved by the invention]
However, in the flow rate monitoring apparatus having such a configuration, when the cell arrival time measuring means is configured by a cyclic counter in order to realize the apparatus with a small and simple device configuration, the second is set in accordance with the circulation of the cyclic counter. Since it is necessary to correct the latest past time stored in the storage means, there is a problem that it is difficult to realize a device configuration for monitoring multiple channels.
[0006]
The present invention solves the above-described problems of the prior art, and an object of the present invention is to provide an excellent flow rate monitoring device capable of monitoring the flow rate of each cell input in multiple channels with a small and simple device configuration. And
[0007]
[Means for Solving the Problems]
To achieve this object, a flow rate monitoring device according to the present invention comprises a cell comprising an input cell channel identification number separation means, a counting means and a calculation means for adding and subtracting the cell channel identification number from the count value. Arrival time measuring means, a first storage means for storing a predetermined interval value indicating an interval between arrival times of cells set in advance for each channel identification number, and a second storage for storing a past latest time for each channel identification number. A storage means, an adding means for calculating an estimated value of the arrival time of the cell from the prescribed interval value of the channel identification number and the latest latest time, and a channel identification number or count value indicating a storage area of the second storage means. Correction by counting the count value of the counting means at the past latest time stored in the second storage means indicated by the storage area in which the result of the calculating means is zero. Correction means, third selection means for selecting the arrival time output by the measurement means and the estimated value output by the addition means, and second selection means for selecting the output of the third selection means and the output of the correction means A third storage means for storing a preset allowable value of the delay fluctuation time of the cell, a subtraction means for subtracting the arrival time of the measurement means and the estimated value of the addition means, and a result of the subtraction means; Comparing means for comparing the allowable values of the third storage means is provided.
[0008]
According to the above-described configuration, the past latest time stored in the second storage means designated by the update of the count value is corrected after being reset from 0 to the maximum value by the circulation of the count value of the counting means, Even for multi-channel monitoring, cell arrival intervals can be monitored with a small device configuration.
[0009]
Furthermore, the flow rate according to the delay fluctuation time can be monitored by obtaining the difference between the arrival time of the cell and the estimated value of the arrival time and comparing it with the allowable value of the delay fluctuation time.
[0010]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
[0011]
FIG. 1 is a block diagram showing a configuration of a flow rate monitoring apparatus in a reference example for explaining the first embodiment of the present invention. Moreover, the same code | symbol is attached | subjected to the thing of the same effect demonstrated in FIG. 3 of the said prior art example.
[0012]
In FIG. 1, 1 is a separating means, 2 is a measuring means, 3 is a first storage means, 5 is an adding means, 6 is a comparing means, 10 is a counting means, and repeats counting from 0 to the maximum value. 11 is a subtractor for subtracting the count value of the cyclic counter 10 and the channel identification number separated by the separation means 1 as a calculation means, and 12 is a first selection means for selecting the channel identification number and the count value. , 13 is a second selection means for selecting the arrival time of the cell measured by the measurement means 2 and the output of the correction means to be described later, and 14 is the reading of the storage area designated by the output from the first selection means 12, And the output from the second selection means 13 is written into the storage area designated by the output of the first selection means 12, and the value in the range from the maximum count value of the cyclic counter 10 to the maximum value × −1. Second that can remember The storage means 15 is a correction means for determining a value output from the storage area of the second storage means 14 designated by the count value and correcting the value.
[0013]
Similarly to the conventional example, the following operation is performed every time a cell to be monitored is input, and the operation ends until the next cell is input. The cyclic counter 10 increments the count value by one in the unit of the measurement time of the cell arrival interval.
[0014]
The operation of the reference example configured as described above will be described. First, the count value from the cyclic counter 10 is input to the second storage means 14 via the first selection means 12. The second storage means 14 outputs the value stored in the storage area designated by the input count value to the correction means 15. The correction unit 15 determines that the output value of the second storage unit 14 specified by the count value is 0 or more or less than 0. Further, when the output value is 0 or more, the value obtained by subtracting the maximum value of the cyclic counter 10 is subtracted, and when the output value is less than 0, the minimum value that can be stored in the second storage means 14 (for example, the cyclic counter 10 counts-maximum Value) is output to the second selection means 13. The output from the second selection means 13 is stored again in the storage area of the second storage means 14 designated by the count value. The above operation is sequentially repeated every time the count value of the cyclic counter 10 circulates.
[0015]
Next, in the operation until the count value of the cyclic counter 10 circulates, the cell to be monitored is input, and the channel identification number of the cell is separated by the separation means 1. As in the conventional example, the interval defining value of the first storage means 3 designated by the separated channel identification number and the past latest time of the second storage means 14 are added by the adding means 5 to obtain the estimated arrival time. Ask. Further, the arrival time of the cell is measured by the measuring means 2 and compared with the estimated value by the comparing means 6 and outputted as flow rate monitoring information.
[0016]
Also, the arrival time output from the measuring means 2 is set from the count value of the cyclic counter 10 so that the arrival time is reset from the maximum value to 0 for each channel identification number and the timing does not overlap. Is subtracted. This arrival time is stored as a new past latest time in the storage area of the second storage means 14 indicated by the channel identification number via the second selection means 13.
[0017]
Further, when the count value of the cyclic counter 10 circulates and exceeds the maximum value and starts counting from 0, and the value indicated by the count value of the cyclic counter 10 matches the channel identification number, the second storage means designated by the value The past latest time stored in 14 is corrected by the correcting means 15. Since the arrival time measured by the subsequent input cells becomes smaller than the latest past time stored last time, the correction is necessary.
[0018]
The correction unit 15 subtracts the maximum value of the cyclic counter 10 from the previous past latest time, and stores the corrected value as the past latest time in the second storage unit 14 via the second selection unit 13. The arrival time of the same channel identification number measured in the next input cell is the time counted from 0 of the cyclic counter 10. The latest past time stored by correction is a negative value indicating the time from the latest latest time before correction to the maximum value by subtracting the maximum value of the cyclic counter 10 from the previous arrival time. An estimated value of arrival time can be obtained by adding the value.
[0019]
Thus, even if the count value of the cyclic counter 10 is reset from the maximum value to 0, the arrival time of the cell can be corrected, and even in multi-channel monitoring, the flow rate of the input cell can be reduced with a small device configuration. Can be monitored.
[0020]
In this reference example, the calculation means is used as the subtractor 11, and the count value of the cyclic counter 10 and the channel identification number are subtracted. However, the same operation can be performed even if the adder is used.
[0021]
FIG. 2 is a block diagram showing the configuration of the flow rate monitoring apparatus according to Embodiment 1 of the present invention. Also, the same reference numerals are given to the same operational effects described in FIG. 1 of the reference example. In FIG. 2, 1 is separation means, 2 is measurement means, 3 is first storage means, 5 is addition means, 10 is a cyclic counter, 11 is a subtractor, 12 is first selection means, and 13 is second Selection means, 14 is second storage means, 15 is correction means, 16 is third selection means for selecting the arrival time measured by the measurement means 2 and the estimated value calculated by the addition means 5, and 17 is for each channel identification number. Third storage means for storing a preset allowable value of delay fluctuation time, 18 is a subtracting means for subtracting the arrival time measured by the measuring means 2 and the estimated value calculated by the adding means 5, and 19 is a third This is a comparison means for comparing the allowable value output from the storage means 17 with the output value from the subtraction means 18.
[0022]
In the first embodiment, the configuration of the reference example is provided with a third selection unit 16, a third storage unit 17, a subtraction unit 18, and a comparison unit 19, and the operation similar to that of the reference example is monitored. This operation is performed every time a target cell is input, and the operation ends until the next cell is input. The operation until the estimated arrival time output from the adding means 5 is obtained is the same, and the description thereof is omitted.
[0023]
The subtracting means 18 subtracts the estimated value calculated by the adding means 5 and the arrival time measured by the measuring means 2 to obtain a difference between arrival times and outputs the difference to the comparing means 19. The comparison means 19 compares the difference between the allowable value stored in the third storage means 17 and the arrival time calculated by the subtraction means 18, and the result exceeds the allowable value in the direction that the cell arrival interval decreases. If there is, a flow excess warning is output as flow monitoring information.
[0024]
If the result of the comparison means 19 exceeds the allowable value in the direction in which the arrival interval of the cells increases, the arrival time measured by the third selection means 16 is selected and output to the second selection means 13 To do. When the cell arrival interval does not exceed the allowable value, the estimated time of arrival calculated by the adding means 5 is selected by the third selecting means 16 and output to the second selecting means 13. To do. These outputs are stored in the second storage means 14 via the second selection means 13 in the same manner as in the reference example.
[0025]
From the above, in addition to the effects of the reference example, the difference between the arrival time of the cell and the estimated value is obtained and compared with the allowable value of the delay fluctuation time. Even in multi-channel monitoring, the flow rate of the input cell can be monitored with a small device configuration.
[0026]
【The invention's effect】
As described above, according to the present invention, even when the count value is reset from the maximum value to 0, the latest latest arrival time stored in the second storage means specified by the update of the count value is obtained. In addition, the difference between the arrival time of the cell and the estimated value of the arrival time is obtained and compared with the allowable value of the delay fluctuation time to monitor the flow rate according to the delay fluctuation time. However, the flow rate of the input cell can be monitored with a small device configuration.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of a flow rate monitoring apparatus in a reference example for explaining Embodiment 1 of the present invention.
FIG. 2 is a block diagram showing a configuration of a flow rate monitoring apparatus according to Embodiment 1 of the present invention.
FIG. 3 is a block diagram showing a configuration of a conventional flow rate monitoring apparatus.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Separation means, 2 ... Measurement means, 3 ... 1st memory | storage means, 4,14 ... 2nd memory | storage means, 5 ... Addition means, 6,19 ... Comparison means, 10 ... Cyclic counter, 11 ... Subtractor, 12 ... 1st selection means, 13 ... 2nd selection means, 15 ... Correction means, 16 ... 3rd selection means, 17 ... 3rd memory | storage means, 18 ... Subtraction means.

Claims (1)

Channel identification number separation means for input cells; measurement means for arrival times of the cells; and first storage means for storing predetermined interval specification values indicating intervals of arrival times of the cells set in advance for each channel identification number. And second storage means for storing the latest latest arrival time for each channel identification number, and calculating an estimated value of the arrival time of the cell from the interval specified value of the channel identification number and the latest latest arrival time. And a flow rate monitoring device that monitors whether the arrival time of the cell satisfies the interval specified value,
The measuring means comprises counting means and arithmetic means for adding / subtracting the channel identification number of the arrival cell from the count value of the counting means, and the channel identification number indicating the storage area of the second storage means or the count value And correction by counting of the count value of the counting means at the latest latest arrival time stored in the second storage means indicated by the storage area where the result of the calculating means is zero. Correction means to be performed , third selection means for selecting an arrival time output from the measurement means, and an estimated value output from the addition means, and a third selection means for selecting an output from the third selection means and an output from the correction means. 2 selection means , third storage means for storing a preset allowable value of delay fluctuation time of the cell, subtraction means for subtracting the arrival time of the measurement means and the estimated value of the addition means, , Flow monitoring apparatus characterized in that a comparison means for comparing the result with the allowable value of the third memory means of the subtracting means.

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