JPH09149029A - Parameter inspection method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To detect dissidence of parameters set to data exchanges making data communication with each other via a private line in a data exchange network quickly to the utmost. SOLUTION: Parameters P1 , P2 are set for inter-communication between data exchanges 1(1) , 1(2) via a private line 2 in a data exchange network used to adopt this method. Upon the receipt of a check command of a parameter from a maintenance terminal 3(1) , the data exchange 1(1) extracts the parameter set to its own exchange 1(1) , the parameter having been set to the data exchange 1(1) and it is transferred to the data exchange 1(2) via the private line to request inspection of the parameter. Upon the receipt of the parameter and the inspection request transferred from the data exchange 1(1) , the data exchange 1(2) extracts the parameter set in itself and compares it with the parameter transferred from the data exchange 1(1) and outputs the result of comparison as the inspected result to its own maintenance terminal or returned to an opposite maintenance terminal via the private line.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a parameter inspection method in a data exchange network, and in particular, it is connected by a dedicated line and a plurality of parameters are set for communication via the dedicated line. The present invention relates to a parameter inspection method in a data exchange network having a data exchange.

[0002]

2. Description of the Related Art FIG. 13 is a diagram showing an example of a data exchange network to which the present invention is applied. In FIG. 13, two data exchanges (1) [individual data exchanges are referred to as (1 ₁ ) and (1 ₂ ), and so on] are connected by a dedicated line (2), and maintenance terminals (3 ) Is attached.

Each data exchange (1) has a dedicated line (2)
It is necessary to set and set a predetermined type of parameter (P) in order to perform data communication with each other via the. The parameter (P) set by the data exchange (1) is set corresponding to the system parameter (P _S ) commonly set for the data exchange (1) and the various dedicated lines (2) to be accommodated. There is a line parameter (P _L ), but the parameter (P) targeted by the present invention refers to the latter.

The line parameter (P _L ) is composed of a plurality of types such as a data communication speed, a maximum data length that can be transmitted at once in a frame format, and the number of retransmitted frames that can be repeatedly transmitted in a frame format.

If the various parameters (P) set by the respective data exchanges (1 ₁ ) and (1 ₂ ) do not match, the data communication cannot be normally executed via the dedicated line (2). .

[0006] For example, the data exchange (1 ₁₎ to set the maximum data length of the already-(L _M1), the data exchange (1 ₂₎ to set the maximum data length of the already (L _M2) and from greater (L _M1>
L _M2 ).

In such a state, the data exchanges (1 ₁ ) and (1
₂₎ and starts data communication, the data exchange (1 ₁₎ data of the data length (L _M1) to continue transmission is determined to be normal, the data exchange (1 ₂₎ is the data length of (L _M1) Although it is determined that the data is abnormal and the reception is rejected, the data exchange (1 ₁ ) will continue to transmit the invalid data until the data exchange (1 ₂ ) notifies the abnormality, and the leased line (2) The reactive load will be added to.

[0008]

As is apparent from the above description, in the conventional data exchange network, the data exchange (1) that performs mutual data communication by the dedicated line (2) is used.
₁ ) and (1 ₂ ) are not always detected immediately even if there is a mismatch in the set parameters (P), and the invalid load is continuously added to the data exchange network (10), There is a fear that the communication capability of the data exchange network (10) may be reduced.

An object of the present invention is to make it possible to detect, as quickly as possible, a mismatch of parameters set in data exchanges that perform data communication with each other via a dedicated line.

[0010]

FIG. 1 is a diagram illustrating the principle of the present invention. In Figure 1, 1 is juxtaposed data exchange [1 ₁ first data exchange, the 1 ₂ is referred to as a second data converter, hereinafter the same], 2 leased lines, are each 3 data exchange (1) The maintenance terminal 100 is a remote maintenance device.

The first and second data exchanges (1 ₁ and 1 ₂ ) are connected by a dedicated line (2) to form a data exchange network (10). Each data exchange (1) sets a predetermined type of parameter (P) for communicating with each other via the dedicated line (2).

In the present invention (Claim 1), the parameter inspection is executed by the following method. The first data exchange (1 ₁ ) is its own first data exchange (1 1) when the inspection instruction (C _CHK1 ) of the parameter (P) is input from the first maintenance terminal (3 ₁ ) installed side by side. extracting a first parameter is set to ₁₎ to (P _1), and transferred via a dedicated line (2) second data exchange to (1 ₂₎ to request the inspection parameter (P) .

When the second data exchange (1 ₂ ) receives the first parameter (P ₁ ) and the inspection request transferred from the first data exchange (1 ₁ ), the second data exchange (1 ₂ ) performs its own second operation. The second parameter (P ₂ ) set in the data exchange (1 ₂ ) is extracted, and the first parameter (P ₁ ) transferred from the first data exchange (1 ₁ ) is extracted.
Then, the comparison result is output as an inspection result to the second maintenance terminal (3 ₂ ) provided in the second data exchange (1 ₂ ).

In the present invention (claim 2), the parameter inspection is performed by the following method. The first data exchange (1 ₁ ) is its own first data exchange (1 1) when the inspection instruction (C _CHK1 ) of the parameter (P) is input from the first maintenance terminal (3 ₁ ) installed side by side. extracting a first parameter is set to ₁₎ to (P _1), and transferred via a dedicated line (2) second data exchange to (1 ₂₎ to request the inspection parameter (P) .

When the second data exchange (1 ₂ ) receives the first parameter (P ₁ ) and the inspection request transferred from the first data exchange (1 ₁ ), the _second data exchange (1 ₂ ) itself is the second data exchange. The second parameter (P ₂ ) set in (1 ₂ ) is extracted and compared with the first parameter (P ₁ ) transferred from the first data exchange (1 ₁ ) to exclusively use the comparison result. It is returned to the first data exchange (1 ₁ ) via the line (2).

When the first data exchange (1 ₁ ) receives the comparison result transferred from the second data exchange (1 ₂ ), the first data exchange (1 ₁ ) uses the comparison result as an inspection result and is installed as a first maintenance terminal. Output to (3 ₁ ).

In the present invention (claim 3), the parameter can be changed by the following method using the inspection result of the invention (claim 2). First data exchange (1 ₁ )
According to the present invention (Claim 3), in the inspection method of the present invention (Claim 2), the second data exchange (1 ₂ )
The inspection results returned from the company shall be retained.

In this state, the inspection result output from the first data exchange (1 ₁ ) to the first maintenance terminal (3 ₁ ) is the first parameter (P ₁ ) and the second parameter (P ₁ ).
As a result of showing inconsistency with ₂ ), the first maintenance terminal (3 ₁ )
If an instruction to change the first parameter (P ₁ ) set in the first data exchange (1 ₁ ) so as to match the second parameter (P ₂ ) is input from the first data exchange (1 ₁ ). (1 ₁ ) uses the inspection result being held so that the first parameter (P ₁ ) that has been set in the first data exchange (1 ₁ ) itself matches the second parameter (P ₂ ). change.

In the present invention (Claim 4), the parameter can be changed by the following method using the inspection result of the present invention (Claim 2). Second data exchange (1 ₂ )
According to the present invention (Claim 4), in the inspection method of the present invention (Claim 2), the first data exchange (1 ₁ )
The inspection results sent back to will be retained.

In this state, the inspection result output by the first data exchange (1 ₁ ) to the first maintenance terminal (3 ₁ ) is the first parameter (P ₁ ) and the second parameter (P ₁ ).
As a result of showing inconsistency with ₂ ), the first maintenance terminal (3 ₁ )
If an instruction to change the second parameter (P ₂ ) set in the second data exchange (1 ₂ ) so as to match the first parameter (P ₁ ) is input from the first data exchange, (1 ₁ ) notifies the second data exchange (1 ₂ ) of the above-mentioned received change instruction via the dedicated line (2), and the second data exchange (1 ₁ ) is When the above-mentioned change request is received from the data exchange (1 ₁ ), the held second inspection result is used to set the second parameter (P ₂ ) already set in the second data exchange (1 ₂ ). Change to match _one parameter (P ₁ ).

Further, in the present invention (claim 5), the parameter inspection is performed by the following method. In the data exchange network covered by the present invention (Claim 5), a plurality of data exchanges (1 _{1 to} 1 _m ) are respectively provided with dedicated lines (2).
In order to communicate with each other via the dedicated line (2), a predetermined type of parameter (P) is set.

A remote maintenance device (100) is provided in common with each data exchange (1). For remote maintenance device (100) is between the reference values of all parameters of setting end in the data exchange (1 ₁ to 1 _m) (P ₀₎ to register, and each data exchange (1 ₁ to 1 _m) Has a communication path.

If the remote maintenance device (100) receives an inspection instruction (C _CHK1 ) for the parameter (P) already set in the specific data exchange (1 _i ), the remote maintenance device (100) will enter the specific data exchange (1 _i ). against, the self data exchange (1 _i) to set all the parameters already (P _i) apparatus for remote maintenance by extracting (10
The request to be returned to 0) is transferred to the specific data exchange (1 _i ) via the above-mentioned communication path.

The specific data exchange (1 _i ) has a set parameter (P) transferred from the remote maintenance device (100).
When receiving the extraction and return requirements _i), extracts the parameter (P _i) that is set in the own data exchange (1 _i), apparatus for remote maintenance via a communication path described above (10
Return to 0).

[0025] For remote maintenance device (100) is returned parameters from a specified data exchange (1 _i) (P _i)
Is compared with the reference value (P _0i ) of the parameter of the specific data exchange (1 _i ) registered in the self remote maintenance device (100), and the comparison result is output as the inspection result.

Further, in the present invention (claim 6), the parameter can be changed by the following method using the inspection result of the invention (claim 5). In the inspection method according to the present invention (claim 5), the inspection result for remote maintenance device (100) is output, parameters already set to a specific data exchange (1 _i) (P _i) and the reference value of the parameter (P As a result of showing the disagreement with _0i ), the parameter (P _i ) already set in the specific data exchange (1 _i ) is set to the reference value (P _i ) of the parameter.
_oi ), if you input an instruction to change it to match
The remote maintenance device (100) has a parameter reference value (P
_The change instruction accompanied by _oi ) is transferred to the specific data exchange (1 _i ) via the above-mentioned communication path.

When the specific data exchange (1 _i ) receives a change request from the remote maintenance device (100), the specific data exchange (1 _i ) sets the parameter (P _i ) already set in the specific data exchange (1 _i ) to the remote side. The maintenance device (100) is changed so as to match the reference value (P _0i ) of the parameter already received in response to the above-mentioned change request.

Therefore, in the present invention (claims 1 and 2), the parameters set in the two data exchanges connected by the dedicated line are compared, and the comparison result is output to the maintenance terminal provided in the data exchange. Further, according to the present invention (Claims 3 and 4), it is specified that the change instruction is input from the maintenance terminal when a mismatch is detected in the inspection result according to the present invention (Claim 2). Further, the parameter of one data exchange is changed to the parameter of the other data exchange based on the inspection result. Further, according to the present invention (Claim 5), the data exchanges are connected to the plurality of data exchanges. The set parameters are compared with the parameters registered in the common remote maintenance device, and the comparison result is output to the remote maintenance device. According to the present invention (Claim 6), when a change instruction is input to the remote maintenance device when the inspection result inconsistency in the present invention (Claim 5) is detected, the parameter of the specified data exchange device is changed. , The parameters will be changed to the parameters registered in the remote maintenance device based on the inspection result, and each data exchange will be able to communicate via the leased line with the parameters that match each other, and the invalid load will be generated due to the parameter mismatch. And the deterioration of the communication capability of the data exchange network can be prevented.

[0029]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described below with reference to the drawings. 2 is a diagram showing a data exchange according to an embodiment of the present invention, FIG. 3 is a diagram showing an example of the configuration of the database in FIG. 2, and FIG. 4 is the present invention (claim 1).
6 is a diagram illustrating a parameter inspection process according to an embodiment of the present invention, FIG. 5 is a diagram illustrating a parameter inspection process according to an embodiment of the present invention (claim 2), and FIG. 6 is a parameter inspection frame according to an embodiment of the present invention. FIG. 7 is a diagram illustrating a parameter inspection result frame according to an embodiment of the present invention, and FIG. 8 is a diagram illustrating a parameter changing process according to an embodiment of the present invention (claim 3). FIG. 9 is a diagram showing a parameter changing process according to an embodiment of the present invention (claim 4), FIG. 10 is a diagram showing a data exchange network according to an embodiment of the present invention (claim 5), and FIG. FIG. 12 is a diagram showing a parameter inspection process according to an embodiment of the invention (claim 5), and FIG. 12 is the present invention (claim 6).
FIG. 6 is a diagram showing a parameter changing process according to the embodiment of FIG.
The same reference numerals indicate the same objects throughout the drawings. The data exchange network targeted by the present invention (claims 1 to 9) is as shown in FIG.

First, an embodiment of the present invention (claim 1) will be described with reference to FIGS. 2 to 4, 6 and 13. Each of the data exchanges (1) shown in FIG. 13 has the configuration shown in FIG. 2, and includes a processing unit (4) and a line unit (5).

In the processing section (4), the OS section (4
1), command management unit (42), database management unit (43), database (44), internal processing unit (45)
And an internal transmission / reception processing unit (46),
Further, in the line section (5), the line side transmission / reception processing section (51)
Is provided.

As shown in FIG. 3, the database (44) includes a data type table (441), a system parameter setting table (442), a line number setting table (443) and a line parameter setting table (44).
4) is provided, the present invention mainly targets the line number setting table (443) and the line parameter setting table (444) as described above.

The line number setting table (443) is a line number (LN) assigned to the leased line (2) accommodated by the own data exchange (1), and the line parameter (P) of the subject leased line (2). _L ) is searched from the line parameter setting table (444), and the line parameter setting table (444) includes various line parameters (P) of each dedicated line (2) accommodated in the own data exchange (1). _L ) is set.

In the following description, all line parameters (P _L ) are abbreviated as parameters (P). 2 to 4 and 13, the maintenance person sets the parameter (P ₁ ) of the leased line (2) already set in the data exchange (1 ₁ ) and the leased line (2) already set in the data exchange (1 ₂ ). to test the parameters of 2) (P _2), the data exchange (1 ₁₎ maintenance terminal that is parallel in (3 ₁₎ from the data exchange to (1 _1), and inputs a parameter test instruction (C _CHK1) [FIG. 4 Step S41].

Data exchange (1₁), The processing unit
(4₁) Command management section (42 ₁) Is the maintenance terminal
(3₁Parameter inspection instruction (C_CHK1)
OS section (41₁) To receive and analyze via [step
S42], parameter inspection instruction (C_CHK1)
And the command management unit (42₁) Is the database
Ribe (43₁) To the database (44₁) To
Parameter (P₁) Is instructed to be extracted [step S4
3].

The database management unit (43 ₁ ) refers to the database (44 ₁ ) based on the instruction from the command management unit (42 ₁ ), and checks all parameters (P ₁ ) [respectively for the dedicated line (2)] Parameter name (PN
M ₁ ) and a parameter value (PVL ₁ ) pair] is extracted and returned to the command management unit (42 ₁ ) [steps S44 to S46].

Subsequently, the command management unit (42 ₁ ) sends all parameters (P ₁ ) relating to the returned private line (2) to the internal processing unit (4) via the OS unit (41 ₁ ).
5 ₁ ) (step S47).

The internal processing unit (45 ₁ ) holds all parameters (P ₁ ) relating to the leased line (2) transmitted from the command management unit (42 ₁ ), and the internal transmission / reception processing unit (46 _1). ) Is transmitted [step S48].

Internal side transmission / reception processing unit (46₁) Is the internal
Science Department (45₁) Concerning the leased line (2)
All parameters (P₁) [Each parameter name
(PNM) and parameter value (PVL₁))
The parameter inspection frame as shown in FIG.
(F_CHK1) Is assembled and converted from internal processing format to line format
After that, the line section (5₁)Inside
Line side transmission / reception processing unit (51 ₁)) [Step S
49 and S4A].

The line side transmission / reception processing unit (51 ₁ ) sends the parameter check frame (F _CHK1 ) transferred from the internal side transmission / reception processing unit (46 ₁ ) to the dedicated line (2) [step S4B].

The parameter check frame (F _CHK1 ) sent to the leased line ( ₂ ) is transferred to the data exchange (1 ₂ ) via the maintenance communication path set in the leased line (2). .

In the data exchange (1 ₂ ), the line side transmission / reception processing unit (51 ₂ ) in the line unit (5 ₂ ) accommodating the dedicated line (2) receives the frame (F ) _Is received and analyzed, and the frame type (FT) is recognized as the parameter check frame (F _CHK1 ) [step S4C], the internal transmission / reception processing unit (4) in the processing unit (4 ₂ ).
6 ₂ ) (step S4D).

The internal transmission / reception processing unit (46 ₂ ) _{selects the} parameter check frame (F _CHK1 ) transferred from the line transmission / reception processing unit (51 ₂ ) from the line format suitable for transferring the dedicated line (2). , it converted into an internal processing format suitable for processing by the internal processing unit (45 _2), and transmits the internal processing unit (45 ₂₎ [step S4E].

The internal processing unit (45 ₂ ) extracts all parameter names (PNM) from the parameter check frame (F _CHK1 ) transmitted from the internal transmission / reception processing unit (46 ₂ ) and the database management unit (43). ₂ ) It transmits and requests the database (44 ₂ ) to search for the set parameter value (PVL ₂ ) corresponding to each parameter name (PNM) [step S4F].

The database management unit (43 ₂ ) receives each parameter name (PN) transmitted from the internal processing unit (45 ₂ ).
M) searches the database (44 ₂ ), detects the correspondingly set parameter value (PVL ₂ ), and returns it to the internal processing unit (45 ₂ ) [steps S4G and S4].
H].

The internal processing unit (45 ₂ ) receives the parameter value (P) included in the parameter check frame (F _CHK1 ).
VL ₁ ) and the parameter value (PVL ₂ ) returned from the database management unit (43 ₂ ) are compared for each parameter name (PNM), and the parameter value (PV
When L ₁ ) and (PVL ₂ ) match, a test result (normal) (RST = NML) is created, and when the parameter values (PVL ₁ ) and (PVL ₂ ) do not match, the parameter value An inspection result (abnormal) (RST = ABN) to which (PVL ₁ ) and (PVL ₂ ) are added is created and held as the inspection result (RST), and the OS unit (41 ₂ )
To [Step S4I].

The OS section (41 ₂ ) is an internal processing section (4
5 ₂ ) Edit the parameter inspection result notification message (M _CR1 ) based on the inspection result (RST) notified from
The data is transferred to the maintenance terminal (3 ₂ ) [step S4J].

The maintenance person dispatched to the maintenance terminal (3 ₂ ) checks the leased line (2) based on the parameter inspection result notification message (M _CR1 ) output from the maintenance terminal (3 ₁ ).
Regarding the data exchanges (1 ₁ ) and (1 ₂ ), the inspection results of the already set parameters (P ₁ ) and (P ₂ ) are analyzed, and the parameter value (PM) is set for each parameter name (PNM).
Check for a match / mismatch of VL ₁ ) and (PVL ₂ ).

As is clear from the above description, according to the embodiment of the present invention (Claim 1), the parameters (P ₁ ) already set in the data exchanges (1 ₁ ) and (1 ₂ ) for the leased line ( ₂ ) are set. ) And (P ₂ ), the maintenance person (3 ₁ ) installed next to the data exchange (1 ₁ ) by the maintenance person.
When the parameter inspection instruction (C _CHK1 ) is input from the parameter inspection result notification message (M _CR1 ) indicating the inspection result, the maintenance terminal (3 ₂ ) attached to the data exchange (1 ₂ ) outputs the parameter inspection result notification message (M _CR1 ). .

Next, an embodiment of the present invention (claim 2) will be described.
This will be described with reference to FIGS. 2, 3, 5, 6, 7, and 13. 2, 3, 5, 6, 7 and 13, the maintenance person, the data exchange parameters (1 ₁₎ on a dedicated line already set (2) and (P _1), the data exchange (1 _{In order} to inspect the parameter (P ₂ ) of the dedicated line ( ₂ ) that has been set in ₂ ), the data exchange (1 ₁ ) is transferred from the maintenance terminal (3 ₁ ) attached to the data exchange (1 ₁ ).
When a parameter inspection instruction (C _CHK2 ) is input to the data exchange (1 ₁ ), the data exchange (1 ₁ ) performs the same process as in the present invention (claim 1) [steps S41 to S4B in FIG. 4].
All parameters (P ₁ ) related to the leased line (2) are extracted from the database (44 ₁ ), a parameter inspection frame (F _CHK1 ) is assembled, and the data exchange (1 ₂ ) is routed through the leased line (2). Transfer [Step S5 in FIG. 5]
1].

Data exchange (1_Two) Is a dedicated line (2)
Parameter inspection frame (F_CHK2) Received
Then, the present invention (Claim 1) [FIG.
S4I] and the parameter detection
Check frame (F_CHK2) All parameter names included in
Database (44) corresponding to (PNM)_Two) Set to
Each parameter value (PVL_Two) And extract the parameters
Inspection frame (F_CHK2) Parameter values (P
VL₁) And parameter name (PNM) for each parameter,
Meter value (PVL₁) And (PVL_Two) Matches
The test result (normal) (RST = NML),
Parameter value (PVL₁) And (PVL _Two) Does not match
In the case of, the parameter value (PVL₁) And (PV
L_Two) -Added inspection result (abnormal) (RST = ABN)
And the internal processing unit (45) as an inspection result (RST).
_Two) Inside [step S52].

When the internal processing unit (45 ₂ ) completes the inspection of all the parameters (P ₁ ) and (P ₂ ), the internal transmission / reception processing unit (46 ₂ ) includes all the inspection results (RST). After assembling the parameter inspection result frame (F _RST2 ) as shown in FIG. 7, the internal processing format is converted to the line format and then transferred to the line side transmission / reception processing section (51 ₂ ) [steps S53 and S54].

The line side transmission / reception processing unit (51 ₂ ) receives the parameter inspection result frame (F _RST2 ) transferred from the internal side transmission / reception processing unit (46 ₂ ) via the dedicated line (2) and the data exchange (1 _It is transferred to ₁ ) [step S55].

Data exchange (1₁), Dedicated times
Line part (5) that accommodates line (2)₁) Line side transmission / reception processing
Ribe (51₁) Arrives from the leased line (2)
Frame (F) is received and analyzed, and the frame type (FT) is checked.
Meter inspection result frame (F _RST2)
S56], processing unit (4_Two) Internal transmission / reception processing unit
(46₁)) (Step S57).

The internal transmission / reception processing unit (46 ₁ ) converts the parameter inspection result frame (F _RST2 ) transferred from the line transmission / reception processing unit (51 ₁ ) from the line format to the internal processing format, and then performs the internal processing. It is transmitted to the section (45 ₁ ) [step S58].

The internal processing unit (45 ₁ ) obtains all parameter names (PNM) and inspection results (RST) from the parameter inspection result frame (F _RST2 ) transmitted from the internal transmission / reception processing unit (46 ₂ ). It is extracted and notified to the OS unit (41 ₁ ) [steps S59 and S5A].

The contents notified to the OS section (41 ₁ ) are the parameter values (PVL ₁ ) and (PVL ₁ ) as described above.
₂ ) When the value is normal and matches, the parameter name (P
NM) and the test result (normal) (RST = NML), and the parameter values (PVL ₁ ) and (PVL ₁
In the case of an abnormality that does not match L ₂ ), the parameter name (PNM) and inspection result (abnormality) (RST = ABN)
In addition, the parameter value (PVL ₁ ) already set in the data exchange (1 ₁ ) and the parameter value (PVL ₂ ) already set in the data exchange (1 ₂ ) are added [step S
5A and S5B].

The OS section (41 ₂ ) is an internal processing section (4
5 ₂ ) Edit the parameter inspection result notification message (M _CR2 ) based on the inspection result (RST) notified from
It is returned to the maintenance terminal (3 ₁ ) [step S5C].

[0059] maintenance terminal (3 ₁₎ maintenance person entered parameters test instruction (C _CHK2) from, based on the maintenance terminal (3 ₁₎ is outputted from the parameter inspection result notification message (M _CR2), a dedicated line (2 )), Parameters (P 1) already set in the data exchanges (1 ₁ ) and (1 ₂ )
The inspection results of ( ₁ ) and (P ₂ ) are analyzed, and the match / mismatch of the parameter values (PVL ₁ ) and (PVL ₂ ) is confirmed for each parameter name (PNM).

As is apparent from the above description, according to the embodiment of the present invention (Claim 2), the parameters (P ₁ ) set in the data exchanges (1 ₁ ) and (1 ₂ ) for the leased line ( ₂ ) are set. ) And (P ₂ ), the maintenance person (3 ₁ ) installed next to the data exchange (1 ₁ ) by the maintenance person.
When the parameter inspection instruction (C _CHK2 ) is input from, the parameter inspection result notification message (M _CR2 ) indicating the inspection result is output from the same maintenance terminal (3 ₁ ).

Next, an embodiment of the present invention (claim 3) will be described.
A description will be given by adding FIG. 8 to FIGS. 2, 3, 5, 6, 7, and 13. According to the process described in the description of the embodiment of the present invention (Claim 2), the maintenance person sets the parameters (P ₁ ) and (P ₁ ) set in the data exchanges (1 ₁ ) and (1 ₂ ) for the leased line (2). run the test of P _2), the inspection result (RST) a result of examining the data exchange (1: ₁₎ to already-set parameters (P _1), the data exchange (1 ₂₎ to the already-set parameters (P ₂ ), The data exchange (1
₁₎ parameter (P ₁₎ of the parameters (parameter change instruction to change the P ₂₎ (C _WT1), input from the maintenance terminal (3 ₁₎ to the data exchange (1 ₁₎ [FIG. 8 step S81].

Data exchange (1₁), The processing unit
(4₁) Command management section (42 ₁) Is the maintenance terminal
(3₁Parameter change instruction (C_WT1)
OS section (41₁) To receive and analyze via [step
S82], data exchange (1₁) Parameter (P₁)
Parameter change instruction (C_WT1),
Command management unit (42₁) Is the database management unit (4
3₁) To the database (44₁Parameters in
(P₁) Is instructed (step S83).

The database management unit (43 ₁ ) has each inspection result (RST) held in the internal processing unit (45 ₁ ).
Parameter name (PNM) corresponding to the inspection result (abnormal) (RST = ABN) is selected from among the above, and the data exchange (1 ₂ ) added to the inspection result (abnormal) (RST = ABN) has been set. parameter values requested the extraction (PVL _2), the received parameter name (PNM) and parameter values by (PVL _2), the database (44 ₁₎
The parameter value (PVL ₁ ) corresponding to the parameter name (PNM) already set to is changed [step S84].

Database management unit (43₁) Is the parameter
Data change instruction (C_WT1) Based parameters (P₁)of
When the change is completed, the command management unit (42₁) And OS department
(41 ₁) Via maintenance terminal (3₁) To
S85].

As is clear from the above description, according to the embodiment of the present invention (Claim 3), the parameters (P ₁ ) set in the data exchanges (1 ₁ ) and (1 ₂ ) for the private line ( ₂ ) are set. ) And (P ₂ ), as a result, the parameter (P ₁ ) already set in the data exchange (1 ₁ ) is
If it becomes necessary to change the parameter (P ₂ ) that has already been set in the data exchange (1 ₂ ), the data exchange (1 ₁ )
When the maintenance person inputs a parameter change instruction (C _WT1 ) for changing the parameter (P ₁ ) of the above into the parameter (P ₂ ) from the maintenance terminal (3 ₁ ) attached to the data exchange (1 ₁ ), the data exchange ( 1 ₁ ) has already held the inspection result (RS
Parameter name (PNM) that needs to be changed based on T)
A parameter (P ₂₎ was selected and a parameter value (PVL ₂₎ of, so that the database (44 ₁₎ to the already set corresponding parameter (P ₁₎ is changed.

Next, an embodiment of the present invention (claim 4) will be described.
A description will be given by adding FIG. 9 to FIGS. 2, 3, 5, 6, 7, and 13. According to the process described in the description of the embodiment of the present invention (Claim 2), the maintenance person sets the parameters (P ₁ ) and (P ₁ ) set in the data exchanges (1 ₁ ) and (1 ₂ ) for the leased line (2). As a result of executing the inspection of P ₂ ) and examining the inspection result (RST), the parameter (P ₂ ) set in the data exchange (1 ₂ ) and the parameter (P ₁ set in the data exchange (1 ₁ ) are set. ), The data exchange (1
₂₎ Parameter (P ₂₎ of the parameter change instruction to change to the parameter (P ₁₎ to (C _WT2), is input to the maintenance terminal (3 ₁₎ from the data exchange (1 ₁₎ [FIG. 9 step S91].

Data exchange (1₁) Is the maintenance terminal
(3₁) Data exchange (1 _Two) Parameter
Data (P_Two) To the parameter (P₁) Parameter to change
Change instruction (C_WT2) Is an embodiment of the present invention (Claim 1)
Maintenance terminal (3₁) Parameter inspection instruction from
(C_CHK1) Is received and processed in the same process as the input,
Convert to a predetermined frame (F) and pass through the leased line (2)
Data exchange (1_Two)) [Step S9
2].

When the data exchange (1 ₂ ) receives the parameter change instruction (C _WT2 ) converted into the above-mentioned frame (F) transferred from the data exchange (1 ₁ ), for example, the parameter check frame (F _CHK1 ). Etc. are received and processed in the same process as when the database management unit (4
3 ₂ ) (step S93).

The database management unit (43 ₂ ) receives the inspection results (RST) stored in the internal processing unit (45 ₂ ).
The parameter name (PNM) corresponding to the inspection result (abnormal) (RST = ABN) is selected from among the above, and is set in the data exchange (1 ₁ ) added to the inspection result (abnormal) (RST = ABN). parameter values requested the extraction (PVL _1), the received parameter name (PNM) and parameter values (PVL _1), the database (44 ₂₎
The parameter value (PVL ₂ ) corresponding to the parameter name (PNM) already set to is changed [step S94].

Data exchange (1_Two) Is the parameter (P
_Two) Change completion, for example, with notification of inspection result (RST)
In the same process, the data exchange via the leased line (2)
(1 ₁) To the data exchange (1₁) Is the data exchange
Exchange machine (1_Two), The change completion notification sent back from
(3₁) Is notified [steps S95 and S96].

As is apparent from the above description, according to the embodiment of the present invention (Claim 4), the parameters (P ₁ ) set in the data exchanges (1 ₁ ) and (1 ₂ ) for the private line ( ₂ ) are set. ) And (P ₂ ), the parameter (P ₂ ) already set in the data exchange (1 ₂ ) is
When it is necessary to change the parameter (P ₁ ) already set in the data exchange (1 ₁ ), the data exchange (1 ₂ )
When the maintenance person inputs the parameter change instruction (C _WT2 ) for changing the parameter (P ₂ ) of the above into the parameter (P ₁ ) from the maintenance terminal (3 ₁ ) attached to the data exchange (1 ₁ ), the data exchange ( 1 ₂ ) has already held the inspection result (RS
Parameter name (PNM) that needs to be changed based on T)
A parameter elected and (P ₁₎ of the parameter values (PVL _1), so that the database (44 ₂₎ corresponding already set to parameter (P ₂₎ is changed.

Next, an embodiment of the present invention (claim 5) will be described.
This will be described with reference to FIGS. 2 to 7, 10 and 11.
In FIG. 10, a plurality of data exchanges (1 ₁ ) to (1 _m ) belong to a data exchange network (10), which are connected to each other by a dedicated line (2) and used for remote maintenance. The data exchange (1 ₀ ) is replaced by each data exchange (1)
And is connected to each of the data exchanges (1 ₁ ) to (1 _m ) by a maintenance communication path (6).

A maintenance terminal (3 ₀ ) is attached to the remote maintenance data exchange (1 ₀ ). The remote maintenance data exchange (1 ₀ ) has a configuration as shown in FIG. 2, similar to the other data exchanges (1 ₁ ) to (1 _m ), but each data exchange (1 ₁ ) To (1 _m ), the m sets of parameters (P _1s ) to (P _ms ) that serve as references of the respective parameters (P ₁ ) to (P _m ) are set to
It is already registered in the database (44 ₀ ).

2 to 7, FIG. 10 and FIG. 11, the maintenance person sets a dedicated line (2) which has been set to any data exchange (1 _i ) among the data exchanges (1 ₁ ) to (1 _m ). a parameter (P _i) of), in order to test for using a remote maintenance for the data exchange (1 ₀₎ to the registered parameters (P _is), maintenance terminal, which is the hotel to remote maintenance for data exchange (1 ₀₎ (3 ₀₎ to the remote maintenance data exchange (1 _0), the data input switch of interest parameters examined (1 _i) specifies the parameters inspection instruction (C _CHKi), remote maintenance data exchange (1 ₀ ) Performs the same process as in the present invention (Claim 1) [Steps S41 to S47 in FIG. 4], and relates to the total of the leased line (2) already set in the data exchange (1 _i ) from the database (44 ₁ ). Parameters (P _i ) The parameter (P _is ) serving as the reference of _is extracted and transmitted to the internal processing section (45 ₀ ) [step SB1 in FIG. 11].

[0075] internal processing unit (45 _0), when transmitting the reference parameter (P _IS), then the data exchange with respect to (1 _i), all of setting end in the own data exchange (1 _i) in An internal transmission / reception process is performed for extracting a parameter (P _i ) and transmitting a parameter extraction frame (F _RD ) for instructing return to the remote maintenance data exchange (1 ₀ ) via the maintenance communication path (6 _i ). The unit (46 ₀ ) is instructed [step SB2].

Internal transmission / reception processing unit (46₀) Is the internal
Science Department (45₀) Parameter extraction frame transmitted from
(F_RD), The parameter extraction frame
(F _RD), The communication channel for maintenance (6_i) Accommodating times
Line part (5₀) Line side transmission / reception processing unit (51₀) Transfer to
[Step SB3].

The line side transmission / reception processing unit (51 ₀ ) receives the parameter extraction frame (F _RD ) transferred from the internal side transmission / reception processing unit (46 ₀ ) via the maintenance communication path (6 _i ). The data is transferred to (1 _i ) [step SB4].

In the data exchange (1 _i ), the line side transmission / reception processing section (51 _i ) in the line section (5 _i ) accommodating the maintenance communication path (6 _i ) is replaced by the maintenance communication path (6 _i ). When the frame (F) arriving from is received and analyzed and the frame type (FT) is recognized as the parameter extraction frame (F _RD ) [step SB5], the internal transmission / reception processing unit (46 _i ) in the processing unit (4 _i ) )) (Step SB6).

The internal transmission / reception processing unit (46 _i ) converts the parameter extraction frame (F _RD ) transferred from the line transmission / reception processing unit (51 _i ) from the line format to the internal processing format, and then the internal processing unit (45 _i ) [Step S
B7].

The internal processing unit (45 _i ) analyzes the parameter extraction frame (F _RD ) transmitted from the internal transmission / reception processing unit (46 _i ) and sends it to the database management unit (43 _i ).
The database (44 _i ) is instructed to extract all the parameters (P _i ) already set [step SB8].

The database management unit (43 _i ) extracts all parameters (P _i ) set in the database (44 ₂ ) based on the instruction transmitted from the internal processing unit (45 _i ) and performs internal processing. transmitted to parts (45 _i) [step S
B9].

The internal processing unit (45 _i ) receives the parameter (P _i ) transmitted from the internal transmission / reception processing unit (46 _i ),
The information is transmitted to the internal transmission / reception processing unit (46 _i ) [step S
BA].

The internal transmission / reception processing unit (46 ₂ ) assembles the parameter return frame (F _SD ) including the parameter (P _i ) transmitted from the internal processing unit (45 _i ) and then changes the internal processing format to the line format. Then, the data is transferred to the line side transmission / reception processing unit (51 _i ) [step SBB].

The line side transmission / reception processing unit (51 _i ) performs remote maintenance of the parameter return frame (F _SD ) transferred from the internal side transmission / reception processing unit (46 _i ) via the maintenance communication path (6 _i ). Data is transferred to the data exchange (1 ₀ ) [step SBC].

In the remote maintenance data exchange (1 ₀ ), the line side transmission / reception processing section (51 ₀ ) in the line section (5 ₀ ) accommodating the maintenance communication path (6 _i ) is 6
₀₎ receives and analyzes the frames coming (F) from the frame type of (FT) recognizes a parameter back frame (F _SD), the inner side transmission and reception processing unit in the processing unit (4 ₀₎ to (46 ₀₎ Transfer [Step SBD].

The internal side transmission / reception processing section (46 ₀ ) converts the parameter return frame (F _SD ) transferred from the line side transmission / reception processing section (51 ₀ ) from the line format to the internal processing format, and then the internal processing section (45 ₀ ) [Step S
BE].

The internal processing unit (45 ₀ ) extracts the parameter (P _i ) from the parameter return frame (F _SD ) transmitted from the internal transmission / reception processing unit (46 ₀ ), and extracts it from the database (44 ₀ ). The same process as in the present invention (Claim 1) [FIG. 4 Steps S4I and S4J] is executed for the reference parameter (P _is ) of No. 1 and the parameter (P _i ) already set in the data exchange (1 _i ). a), remote maintenance for the data exchange (1 ₀₎ to the registered reference parameter (P
_is ), and the inspection result (RST) is held and transferred to the maintenance terminal (3 ₀ ) via the OS section (41 ₀ ) [step SBF].

As is apparent from the above description, according to the embodiment of the present invention (Claim 5), the maintenance person sets the parameters set in any data exchange (1 _i ) in the data exchange network (10). In order to inspect (P _i ), a parameter inspection instruction (C _CHKi ) designating the data exchange (1 _i ) is given to the remote maintenance data exchange (1 ₀ ) commonly installed in each data exchange (1). When input, the data exchange (1 _i ) to be inspected returns the set parameter (P _i ) to the remote maintenance data exchange (1 ₀ ), and the standard registered in the remote maintenance data exchange (1 ₀ ). By comparing with the parameter (P _is ), the inspection is executed, and the inspection result (RST) is output to the maintenance terminal (3 ₀ ) attached to the remote maintenance data exchange (1 ₀ ).

Next, an embodiment of the present invention (claim 6) will be described.
A description will be given by adding FIG. 12 to FIGS. 2 to 7, 10 and 11. According to the process described in the description of the embodiment of the present invention (Claim 5), the maintenance person executes the inspection of the parameter (P _i ) set in the data exchange (1 _i ) related to the leased line (2), and performs the inspection. As a result of examining the result (RST), the parameter (P _i ) already set in the data exchange (1 _i ) _is changed so as to match the reference parameter (P _is ) registered in the remote maintenance data exchange (1 ₀ ). When it is determined necessary to there, the data exchange (1 _i) of the parameter (P _i) parameter change instruction to change the reference parameter (P _iS) to the (C _WTi), data for remote maintenance from the maintenance terminal (3 ₀₎ Input to the exchange (1 ₀ ) [step SC1 in FIG. 12].

[0090] remote maintenance data exchange (1 ₀₎ is input from the maintenance terminal (3 _0), the parameter change instruction for changing the data exchange parameters (P _i) of (1 _i) to the reference parameter (P _i) When (C _WTi ) is received, after the inspection result (RST) held by the internal processing unit (45 ₀ ) is added to the parameter change instruction (C _WTi ), maintenance is performed in the embodiment of the present invention (Claim 5). terminal (3 ₀₎ from the same process as the input data exchange (1 _i) about the parameters examined instructing (C _CHKi), is transferred via the maintenance channel to (6 _i) data exchange to (1 _i) [Step SC2].

[0091] Data exchange (1 _i), the remote maintenance data exchange (1 ₀₎ transfer parameter change instruction from the (C _WTi), in an embodiment of the present invention (Claim 4), the data exchange (1 ₂ ) Receives and processes the parameter inspection instruction (C _CHK1 ) from the maintenance terminal (3 ₁ ) in the same process, and transmits it to the database management unit (43 _i ) [step SC3].

The database management unit (43 _i ) _selects the inspection result (abnormal) (RST) from the inspection results (RST) added to the transmitted parameter change instruction (C _WTi ).
= ABN), the parameter name (PNM) corresponding to the inspection result (abnormal) (RST = ABN) is registered, and the reference parameter value (PVL _is ) registered in the remote maintenance data exchange (1 ₀ ) _{is selected} . To the database (44
₂ ) Change the parameter value (PVL _i ) corresponding to the parameter name (PNM) already set in [Step SC
4].

The data exchange (1 _i ) has all the parameters (P _i ) specified in the parameter change instruction (C _WTi ).
When the change processing of step 1 is finished, the change result is remotely maintained via the maintenance communication path (6 _i ) in the same process as the extraction result of the parameter (P _i ) in the present invention (claim 5). transfer use data exchange (1 ₀₎ to the remote maintenance data exchange (1 _0), maintenance terminal changes results received (3 ₀₎
To [Step SC5 and SC6].

As is apparent from the above description, according to the embodiment of the present invention (Claim 6), the inspection of the parameter (P _i ) relating to the private line (2) already set in the data exchange (1 _i ) is performed. remote maintenance for data exchange (1 ₀₎ As a result of running from, data exchange (1 _i) to the already-set parameters (P
_When it becomes necessary to change _i ) to the reference parameter (P _is ) registered in the remote maintenance data exchange (1 ₀ ), the parameter (P _i ) of the data exchange (1 _i ) is changed to the reference parameter (P _i ). Parameter change instruction (C _is changed to P _is )
_WTi ) is _input by the maintenance person from the maintenance terminal (3 ₀ ) attached to the remote maintenance data exchange (1 ₀ ), the data exchange (1 _i ) is transmitted with the parameter change instruction (C _{WT i} ) Based on the result (RST), the parameter name (PNM) that needs to be changed and the parameter value (PVL _is ) of the reference parameter (P _is ) are extracted, and the database (4
The corresponding parameter (P _i ) already set to 4 _i ) will be changed.

It is to be noted that FIGS. 2 to 12 are merely embodiments of the present invention until now, and for example, the configuration of the data exchange (1) which is the subject of the present invention is not limited to that shown in the drawings. Many other modifications can be considered, but in any case, the effect of the present invention does not change. Remote maintenance equipment (10
The configuration of (0) is a remote maintenance data exchange (1
However, the present invention is not limited to ₀ ), and various modifications such as a configuration separate from the data exchange (1) can be considered, but in any case, the effect of the present invention does not change. Further, it goes without saying that the data exchange network (10) to which the present invention is applied is not limited to that shown in the figure.

[0096]

As described above, according to the present invention (Claims 1 and 2), the preset parameters of two data exchanges connected by a dedicated line are compared, and the comparison result is maintained together with the data exchange. According to the present invention (Claims 3 and 4), the change instruction is input from the maintenance terminal when a mismatch is detected in the inspection result of the present invention (Claim 2). And the specified parameter of one data exchange is changed to the parameter of the other data exchange based on the inspection result, and according to the present invention (Claim 5), a plurality of data exchanges are connected by dedicated lines. Parameters already set in the data exchange of
According to the present invention (Claim 6), the comparison result is output to the remote maintenance apparatus by comparing with the parameter registered in the common remote maintenance apparatus. ), If a change instruction is input to the remote maintenance device, the specified data exchange parameter is changed to the parameter registered in the remote maintenance device based on the inspection result. Therefore, it becomes possible for each data exchange to communicate via the leased line with the parameters that match each other, prevent the generation of invalid load due to the mismatch of parameters, and prevent the deterioration of the communication capability of the data exchange network. Become.

[Brief description of the drawings]

FIG. 1 is a principle diagram of the present invention.

FIG. 2 is a data exchange according to an embodiment of the present invention.

FIG. 3 is a structure of the database in FIG.

FIG. 4 is a parameter inspection process according to an embodiment of the present invention (claim 1).

FIG. 5 is a parameter inspection process according to an embodiment of the present invention (claim 2).

FIG. 6 is a parameter inspection frame according to an embodiment of the present invention.

FIG. 7 is a parameter inspection result frame according to an embodiment of the present invention.

FIG. 8 is a parameter changing process according to an embodiment of the present invention (claim 3);

FIG. 9 is a parameter changing process according to an embodiment of the present invention (claim 4).

FIG. 10 is a data exchange network according to an embodiment of the present invention (claim 5).

FIG. 11 is a parameter inspection process according to an embodiment of the present invention (claim 5).

FIG. 12 is a parameter changing process according to an embodiment of the present invention (claim 6).

FIG. 13 is a data exchange network to which the present invention is applied.

[Explanation of symbols]

1 data exchange 1 ₀ remote maintenance data exchange 2 dedicated line 3 maintenance terminal 4 processing unit 5 line unit 10 data exchange network 6 maintenance communication path 41 OS unit 42 command management unit 43 database management unit 44 database 45 internal processing unit 46 internal Side transmission / reception processing unit 51 Line side transmission / reception processing unit 100 Remote maintenance device 441 Data type table 442 System parameter setting table 443 Line number setting table 444 Line parameter setting table

Claims (6)

[Claims] 1. A data exchange in which first and second data exchanges are connected by a dedicated line and each of the data exchanges sets a predetermined type of parameter in order to communicate with each other via the dedicated line. In the network, the first data exchange extracts the first parameter set in its own first data exchange when the inspection instruction for the parameter is input from the adjacent first maintenance terminal. , Requesting an inspection of the parameter by transferring to the second data exchange via the dedicated line, the second data exchange transmitting the first parameter and the inspection transferred from the first data exchange. When a request is received, the second parameter set in the second data exchange itself is extracted, and the first parameter transferred from the first data exchange. Comparison, the comparison result as the test result, self second second maintenance parameter inspection method and outputting the terminals juxtaposed in the data exchange. 2. A data exchange in which first and second data exchanges are connected by a dedicated line and each of the data exchanges sets a predetermined type of parameter in order to communicate with each other via the dedicated line. In the network, the first data exchange extracts the first parameter set in its own first data exchange when the inspection instruction for the parameter is input from the adjacent first maintenance terminal. , Requesting an inspection of the parameter by transferring to the second data exchange via the dedicated line, the second data exchange transmitting the first parameter and the inspection transferred from the first data exchange. When a request is received, the second parameter set in the second data exchange itself is extracted, and the first parameter transferred from the first data exchange. Comparing, returns the comparison result to the first data exchange via the dedicated line, the first data exchange, when receiving the comparison result transferred from the second data exchange, A parameter inspection method, wherein the comparison result is output as an inspection result to the first maintenance terminal provided side by side. 3. The first data exchange holds the inspection result returned from the second data exchange, and the inspection result output to the first maintenance terminal is the same as the first parameter and the An instruction to change the first parameter already set in the first data exchange from the first maintenance terminal so as to match the second parameter in a state where the second parameter does not match. When is input, the first parameter set in the first data exchange is changed so as to match the second parameter by using the inspection result being held. The parameter inspection method described in 2. 4. The first data exchange, when the inspection result output to the first maintenance terminal indicates a mismatch between the first parameter and the second parameter, When an instruction to change the second parameter already set in the second data exchange so as to match the first parameter is input from the maintenance terminal, the change instruction is passed through the dedicated line. To notify the second data exchange, the second data exchange holds the inspection result returned to the first data exchange, when receiving the change request from the first data exchange, 3. The parameter inspection method according to claim 2, wherein the inspection result being held is used to change the second parameter that has been set in the own second data exchange so as to match the first parameter. 5. A data exchange network having a plurality of data exchanges, each of which is connected by a dedicated line and sets a predetermined type of parameter for performing communication via the dedicated line. Register the reference values of all parameters already set in, remote maintenance device having a communication path between each of the data exchange, common to each data exchange, the remote maintenance device, the specific When the inspection instruction of the parameters already set in the data exchange is input, a request to the specific data exchange to extract all the parameters already set in the data exchange and send them back to the remote maintenance device, The data is transferred to the specific data exchange through the communication path provided between the specific data exchange and the specific data exchange, and the specific data exchange is for remote maintenance. When a request for extracting and returning the set parameters transferred from the device is received, the parameters set in the own data exchange are extracted, and a communication path provided between the device and the remote maintenance device is set. Returned to the remote maintenance device via, the remote maintenance device, the parameters returned from the specific data exchange device, of the parameters of the specific data exchange device registered in its own remote maintenance device A parameter inspection method characterized by comparing with a reference value and outputting the comparison result as an inspection result. 6. The remote maintenance device, wherein the output inspection result indicates that the parameter set in the specific data exchange does not match the reference value of the parameter, the specific data exchange. When an instruction to change the parameter already set in the parameter so as to match the reference value of the parameter is input, the change instruction accompanied by the reference value of the parameter is passed through the communication path to the specific data exchange. When the specific data exchange receives the change request from the remote maintenance device, the parameters already set in its own specific data exchange are accompanied by the change request from the remote maintenance device. 6. The parameter inspection method according to claim 5, wherein the parameter is changed so as to match the received reference value of the parameter.