CN115616678B - Method and device for synchronizing correction of operation parameters of security inspection system - Google Patents

Abstract

The invention relates to the technical field of security inspection systems, in particular to a method and a device for correcting and synchronizing operation parameters of a security inspection system. In the time range of the ith parameter issuing period, the method comprises the following steps: and executing parameter comparison of the first security inspection system operation parameter and the second security inspection system operation parameter, directly issuing the first security inspection system operation parameter or the second security inspection system operation parameter to station equipment, taking the first security inspection system operation parameter and the second security inspection system operation parameter as parameters to be selected, acquiring confirmation of the parameters to be selected, and issuing the confirmed parameters to be selected to the station equipment. The invention utilizes the online network departure preparation time period or a certain moment of the network departure preparation time period to implement the active pulling parameter, judges the state of the passively received issuing parameter and the active pulling parameter so as to determine the parameter to be compared, and then determines the parameter according to the comparison result, thereby improving and ensuring the correct issuing of the operation parameter of the security inspection system.

Description

Method and device for synchronizing correction of operation parameters of security inspection system

Technical Field

The invention relates to the technical field of security inspection systems, in particular to a method and a device for synchronizing correction of operation parameters of a security inspection system.

Background

In the process of subway or high-speed railway operation and maintenance, a security inspection system is generally arranged, and the security inspection system generally comprises an X-ray machine, image recognition equipment, re-inspection confirmation equipment and the like which are arranged at a station.

Generally, after an operation period is finished, the devices are turned off or in a standby state, and corresponding parameters are generally required to be obtained in a parameter issuing period, and the devices are operated according to new parameters.

The traditional parameter issuing period refers to an online network outage period or a moment in the network outage period, wherein the period or moment is an empty window period in an operation period, and equipment overhaul, replacement and parameter issuing in the invention are generally carried out in the empty window period. Because the maintenance, replacement and parameter issuing work can be carried out simultaneously in the empty window period, a certain station has higher probability that the issued parameter cannot be obtained, for example, when the network test or maintenance of the station is carried out, network breaking, recovery, network re-breaking and other complex operations are generally carried out on the network of the station, and if the network breaking and other conditions occur during the issuing of the parameter, the issuing parameter is easily unsuccessful.

Therefore, in the art, a method for solving the above-mentioned problems is needed to improve and ensure that the operation parameters of the security inspection system are properly issued.

Disclosure of Invention

The invention aims to provide a method and a device for correcting and synchronizing operation parameters of a security inspection system.

The technical scheme of the invention is as follows:

in one aspect, a method for synchronizing operation parameter correction of a security inspection system includes the steps of:

a method for synchronizing correction of operation parameters of a security inspection system comprises the following steps in a time range of an ith parameter issuing period:

s1, executing parameter comparison of the first security inspection system operation parameters and the second security inspection system operation parameters, if the parameter comparison results are consistent, turning to S2, if the parameter comparison results are inconsistent, turning to S3,

s2, directly issuing the operation parameters of the first security inspection system or the operation parameters of the second security inspection system to station equipment,

s3, taking the operation parameters of the first security inspection system and the operation parameters of the second security inspection system as the parameters to be selected, acquiring confirmation of the parameters to be selected, and issuing the confirmed parameters to be selected to station equipment.

Further, the method also comprises the following steps:

S0A, acquiring a down-sending parameter issued by a network center parameter server in A, and storing the down-sending parameter;

S0B, sending a sending parameter pulling request to a network center parameter server in the B process, obtaining corresponding response parameters and storing the response parameters;

S0C, determining the operation parameters of the first security inspection system and the second security inspection system according to the issuing parameters and the response parameters.

Further, the determining process of determining the operation parameters of the first security inspection system and the second security inspection system according to the issuing parameters and the response parameters is as follows:

according to the new-to-old sequence of the time stamps of the issuing parameters, taking the issuing parameter sequenced to be first as the latest issuing parameter, judging whether the time stamp of the latest issuing parameter is in the time range of the i-th parameter issuing period, if so, taking the latest issuing parameter as the running parameter of the first security inspection system,

and judging whether the current response parameter is received or not, if so, taking the current response parameter as the operation parameter of the second security inspection system.

Further, the determining process of determining the operation parameters of the first security inspection system and the second security inspection system according to the issuing parameters and the response parameters is as follows:

according to the new-to-old sequence of the time stamps of the issuing parameters, taking the issuing parameter sequenced to be the first issuing parameter as the latest issuing parameter, judging whether the time stamp of the latest issuing parameter is in the time range of the i-th parameter issuing period, and taking the latest issuing parameter as the running parameter of the first security inspection system if the time stamp of the latest issuing parameter is in the time range of the i-th parameter issuing period;

and judging whether the current response parameters are received or not, and if not, taking the issued parameters which are ranked as second security inspection system operation parameters.

Further, the determining process of determining the operation parameters of the first security inspection system and the second security inspection system according to the issuing parameters and the response parameters is as follows:

according to the new-to-old sequence of the time stamps of the issuing parameters, taking the issuing parameter sequenced to be the first issuing parameter as the latest issuing parameter, judging whether the time stamp of the latest issuing parameter is in the time range of the i-th parameter issuing period, and taking the latest issuing parameter as the running parameter of the first security inspection system if not;

and judging whether the current response parameter is received or not, if so, taking the current response parameter as the operation parameter of the second security inspection system.

Further, the time A and the time B are 2 different time periods or moments within the time range of the ith parameter issuing period, and the 2 different time periods or moments are not overlapped with each other.

Further, the time A is a wire network outage time period or a moment in the wire network outage time period, and the time B is a wire network start-up preparation time period or a moment in the wire network start-up preparation time period.

Further, the time range of the i-th parameter issuing period is 24 hours.

Further, the station equipment is equipment of a security inspection system.

In another aspect, an apparatus for synchronizing correction of operational parameters of a security inspection system, comprising:

one or more processors;

and the storage unit is used for storing one or more programs, and when the one or more programs are executed by the one or more processors, the one or more processors can realize the method for synchronizing the correction of the operation parameters of the security inspection system.

The beneficial effects of the invention are as follows:

(1) The invention uses a certain moment of the online network departure preparation time period or the wire network departure preparation time period to implement the active pulling parameter, namely, on the basis of the passive receiving and issuing parameter, the trigger active pulling parameter program is set at the certain moment of the online network departure preparation time period or the wire network departure preparation time period, because the network has high probability to be recovered in the time period or the moment, the parameters from 2 different time periods can be obtained, thereby improving the source mode of the reference data, and obtaining 2 mutually redundant parameters by time division, thereby improving the reliability of the system.

(2) The invention needs to judge the states of the passively received issuing parameters and the actively pulled parameters so as to determine the parameters to be compared, can judge the network states of different time periods according to the states of the issuing parameters and the pulled parameters, generally can ensure that the parameters of 2 time periods are consistent if the network states are good, can directly issue after automatic operation is consistent without manual intervention, can determine and select the optimal 2 parameters as parameters to be selected when the network state is bad in any 1 time period, can recommend the optimal parameters to manual work, and execute issuing after manually selecting the optimal parameters, thereby improving and ensuring the correct issuing of the operation parameters of the security inspection system.

Drawings

FIG. 1 is an interactive flow chart of the present invention.

FIG. 2 is a data flow diagram of the present invention.

Detailed Description

The present invention will be described in further detail with reference to examples and drawings, but embodiments of the present invention are not limited thereto.

Example 1

As shown in fig. 1, the present embodiment provides a method for synchronizing correction of operation parameters of a security inspection system, including the following steps in a time range of an ith parameter issuing period:

s1, executing parameter comparison of the first security inspection system operation parameters and the second security inspection system operation parameters, if the parameter comparison results are consistent, turning to S2, if the parameter comparison results are inconsistent, turning to S3,

s2, directly issuing the operation parameters of the first security inspection system or the operation parameters of the second security inspection system to station equipment,

s3, taking the operation parameters of the first security inspection system and the operation parameters of the second security inspection system as the parameters to be selected, acquiring confirmation of the parameters to be selected, and issuing the confirmed parameters to be selected to station equipment.

Compared with the prior art, the method and the device divide the operation parameters to be issued into the first security inspection system operation parameters and the second security inspection system operation parameters, and determine whether to automatically issue or manually select to issue according to the consistency of the first security inspection system operation parameters and the second security inspection system operation parameters, so that the issuing accuracy of the operation parameters is improved.

Meanwhile, the first security inspection system operation parameters and the second security inspection system operation parameters are operation parameters from different time periods or moments, and the combination of the first security inspection system operation parameters and the second security inspection system operation parameters has diversity, so that support can be provided for improving the accuracy of issuing of the operation parameters.

Taking the actual scene as an example, the following description is made:

after the passenger transport task of the station is finished, namely, the network outage time period or a certain moment in the network outage time period, the network center parameter server sends out parameters at daily timing, and the station console of the station receives the sent parameters of the network center parameter server, so that circulation is realized. The issued parameters are stored locally, i.e. stored in a station control console, which is a kind of station server.

In the prior art, parameters are directly issued to station equipment by directly utilizing a station control console. This mode has the technical problems described above.

In order to solve the problems, the invention sets a program for actively pulling parameters in a station control console. Specifically, when a passenger task is started every day, the parameters of the network center parameter server are generally pulled by the station console at a certain moment in the network departure preparation time period or the network departure preparation time period.

Under normal conditions, the network center parameter server has no network fault when sending parameters at regular time every day, and the station console has no network fault when pulling the network center parameter server at regular time; therefore, the daily timing issuing parameter of the network center parameter server can be used as the operation parameter of the first security inspection system, the station control console regularly pulls the parameter of the network center parameter server to be used as the operation parameter of the second security inspection system, and generally, the 2 parameters are only different in acquisition time, so that the comparison result is generally consistent, the station control console generally automatically selects one and issues the parameter to station equipment, and if the comparison result is inconsistent, the station control console needs to manually select one and issue the parameter to the station equipment.

Under abnormal conditions, the following 2 scene conditions generally occur in a time period (24 hours) of regularly issuing parameters every day by the network center parameter server and regularly pulling the network center parameter server by the station console, namely in a time range of one parameter issuing period:

if the network fails when the network central parameter server issues parameters at regular time every day, the parameters are not successfully issued, the current latest issued parameters stored in the local storage are issued parameters of the previous day, namely issued parameters corresponding to the last parameter issuing period, when the station console pulls the network central parameter server at regular time, the 2 parameters may not be consistent, and when the station console manually selects the parameter priority, the selected parameters are finally issued to the station equipment.

If the network center parameter server does not have network faults when issuing parameters at regular time every day, the network center parameter server successfully issues the parameters, but when the network faults occur when the station control console pulls the network center parameter server at regular time, the current pull-down parameters do not exist, namely the response parameters responded by the current pull-down request do not exist, the station can compare the latest issuing parameters with the next new issuing parameters, generally the issuing parameters of the same day are compared with the issuing parameters of the previous day, if the issuing parameters are consistent, the data of 2 days are unchanged, the issuing parameters can be automatically and directly selected, and if the issuing parameters are inconsistent, a station manager can select the priority of the parameters. This advantageously avoids the problems described above.

In particular, the following will further explain how to obtain the first security inspection system operation parameter and the second security inspection system operation parameter from the viewpoint of data flow.

Referring to fig. 2, further, the method further comprises the following steps:

S0A, acquiring a down-sending parameter issued by a network center parameter server in A, and storing the down-sending parameter;

S0B, sending a sending parameter pulling request to a network center parameter server in the B process, obtaining corresponding response parameters and storing the response parameters;

S0C, determining the operation parameters of the first security inspection system and the second security inspection system according to the issuing parameters and the response parameters.

Wherein the process of obtaining the issuing parameters and obtaining the response parameters is daily or each parameter issuing cycle. According to the 2 different time-based obtained issuing parameters and response parameters, the network state of the 2 different time-based issuing parameters and response parameters can be further determined, and then the first security inspection system operation parameters and the second security inspection system operation parameters can be selected from the issuing parameters and the response parameters according to the network state.

Specifically, according to the principle logic described in the above scenario, three situations, namely, a normal mode, an abnormal mode first and an abnormal mode second, can be specifically decomposed.

Referring to fig. 2, in the normal mode: the determining process of the first security inspection system operation parameters and the second security inspection system operation parameters according to the issuing parameters and the response parameters comprises the following steps:

according to the new-to-old sequence of the time stamps of the issuing parameters, taking the issuing parameter sequenced to be first as the latest issuing parameter, judging whether the time stamp of the latest issuing parameter is in the time range of the i-th parameter issuing period, if so, taking the latest issuing parameter as the running parameter of the first security inspection system,

and judging whether the current response parameter is received or not, if so, taking the current response parameter as the operation parameter of the second security inspection system.

In this mode, there is no network failure during all 2 different obtained parameters. The determination of the operating parameters may be performed with reference to the respective latest parameters obtained in the 2-parameter procedure.

Referring to fig. 2, anomaly mode first: the determining process of the first security inspection system operation parameters and the second security inspection system operation parameters according to the issuing parameters and the response parameters comprises the following steps:

according to the new-to-old sequence of the time stamps of the issuing parameters, taking the issuing parameter sequenced to be the first issuing parameter as the latest issuing parameter, judging whether the time stamp of the latest issuing parameter is in the time range of the i-th parameter issuing period, and taking the latest issuing parameter as the running parameter of the first security inspection system if the time stamp of the latest issuing parameter is in the time range of the i-th parameter issuing period;

and judging whether the current response parameters are received or not, and if not, taking the issued parameters which are ranked as second security inspection system operation parameters.

In this mode, if the current response parameter is not received, it indicates that a network failure occurs during pull-down, and the latest 2 adjacent transmission parameters can be called as references to determine the operation parameters.

Referring to fig. 2, the anomaly mode second: the determining process of the first security inspection system operation parameters and the second security inspection system operation parameters according to the issuing parameters and the response parameters comprises the following steps:

according to the new-to-old sequence of the time stamps of the issuing parameters, taking the issuing parameter sequenced to be the first issuing parameter as the latest issuing parameter, judging whether the time stamp of the latest issuing parameter is in the time range of the i-th parameter issuing period, and taking the latest issuing parameter as the running parameter of the first security inspection system if not;

and judging whether the current response parameter is received or not, if so, taking the current response parameter as the operation parameter of the second security inspection system.

In this mode, whether the current period is successful or not can be judged according to whether the timestamp of the latest issuing parameter is in the time range of the ith parameter issuing period, and the general latest issuing parameter has the timestamp and can be verified so as to judge whether the issuing process has faults, if so, the running parameter can be determined by using the current latest issuing parameter and the current response parameter as the reference, and the following needs to be explained: the latest issuing parameters are generally the issuing parameters obtained in the last parameter issuing period, namely the i-1 th issuing parameter obtained in the i-1 th parameter issuing period.

Further, the time A and the time B are 2 different time periods or moments within the time range of the ith parameter issuing period, and the 2 different time periods or moments are not overlapped with each other.

Further, the time A is a wire network outage time period or a moment in the wire network outage time period, and the time B is a wire network start-up preparation time period or a moment in the wire network start-up preparation time period.

Further, the time range of the i-th parameter issuing period is 24 hours.

Further, the station equipment is equipment of a security inspection system.

Example 2

Referring to fig. 1 and 2, an apparatus for synchronizing operation parameter correction of a security inspection system includes:

one or more processors;

and the storage unit is used for storing one or more programs, and when the one or more programs are executed by the one or more processors, the one or more processors can realize the method for synchronizing the correction of the operation parameters of the security inspection system.

It is to be understood that the above embodiments are merely illustrative of the application of the principles of the present invention and the invention is not limited thereto. Various modifications and improvements may be made by those skilled in the art without departing from the spirit and substance of the invention, and are also considered to be within the scope of the invention.

Claims (8)

1. A method for synchronizing correction of operational parameters of a security inspection system, comprising the steps of:

s1, executing parameter comparison of the first security inspection system operation parameters and the second security inspection system operation parameters, if the parameter comparison results are consistent, turning to S2, if the parameter comparison results are inconsistent, turning to S3,

s2, directly issuing the operation parameters of the first security inspection system or the operation parameters of the second security inspection system to station equipment,

s3, taking the first security inspection system operation parameter and the second security inspection system operation parameter as parameters to be selected, acquiring confirmation of the parameters to be selected, and issuing the confirmed parameters to be selected to station equipment;

before S1, the method further comprises the following steps:

S0A, judging whether to issue issuing parameters from a network center parameter server when the network center parameter server is in the A state;

S0B, judging whether response parameters are received after sending a parameter pulling request to a network center parameter server in the B process;

S0C, determining the network states of the two different time slots according to whether the issuing parameters are successful and whether the response parameters are received, and selecting the first security inspection system operation parameters and the second security inspection system operation parameters from the issuing parameters and the response parameters according to the network states;

and the time A and the time B are 2 different time periods or moments in the time range of the ith parameter issuing period, and the 2 different time periods or moments are not overlapped with each other.

2. The method for synchronizing the correction of the operation parameters of the security inspection system according to claim 1, wherein the determining process of the operation parameters of the first security inspection system and the operation parameters of the second security inspection system according to the issuing parameters and the response parameters is as follows:

according to the new-to-old sequence of the time stamps of the issuing parameters, taking the issuing parameter sequenced to be first as the latest issuing parameter, judging whether the time stamp of the latest issuing parameter is in the time range of the i-th parameter issuing period, if so, taking the latest issuing parameter as the running parameter of the first security inspection system,

and judging whether the current response parameter is received or not, if so, taking the current response parameter as the operation parameter of the second security inspection system.

3. The method for synchronizing the correction of the operation parameters of the security inspection system according to claim 1, wherein the determining process of the operation parameters of the first security inspection system and the operation parameters of the second security inspection system according to the issuing parameters and the response parameters is as follows:

according to the new-to-old sequence of the time stamps of the issuing parameters, taking the issuing parameter sequenced to be the first issuing parameter as the latest issuing parameter, judging whether the time stamp of the latest issuing parameter is in the time range of the i-th parameter issuing period, and taking the latest issuing parameter as the running parameter of the first security inspection system if the time stamp of the latest issuing parameter is in the time range of the i-th parameter issuing period;

and judging whether the current response parameters are received or not, and if not, taking the issued parameters which are ranked as second security inspection system operation parameters.

4. The method for synchronizing the correction of the operation parameters of the security inspection system according to claim 1, wherein the determining process of the operation parameters of the first security inspection system and the operation parameters of the second security inspection system according to the issuing parameters and the response parameters is as follows:

according to the new-to-old sequence of the time stamps of the issuing parameters, taking the issuing parameter sequenced to be the first issuing parameter as the latest issuing parameter, judging whether the time stamp of the latest issuing parameter is in the time range of the i-th parameter issuing period, and taking the latest issuing parameter as the running parameter of the first security inspection system if not;

and judging whether the current response parameter is received or not, if so, taking the current response parameter as the operation parameter of the second security inspection system.

5. The method of claim 1, wherein a time a is a wire network outage time period or a time within a wire network outage time period, and a time B is a time of a wire network departure preparation time period or a time of a wire network departure preparation time period.

6. A method of synchronizing the correction of operational parameters of a security system according to any of claims 1-5, characterized in that the time frame of the i-th parameter issuing cycle is 24 hours.

7. A method for synchronizing operational parameter corrections of a security inspection system according to any of claims 1-5, characterized in that the station equipment is equipment of the security inspection system.

8. A device for synchronizing correction of operational parameters of a security inspection system, comprising:

one or more processors;

a storage unit for storing one or more programs, which when executed by the one or more processors, enable the one or more processors to implement a method of synchronizing the correction of operating parameters of a security inspection system as claimed in any one of claims 1 to 7.

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