CN110087066B - One-key automatic inspection method applied to online inspection - Google Patents

One-key automatic inspection method applied to online inspection Download PDF

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Publication number
CN110087066B
CN110087066B CN201910420015.6A CN201910420015A CN110087066B CN 110087066 B CN110087066 B CN 110087066B CN 201910420015 A CN201910420015 A CN 201910420015A CN 110087066 B CN110087066 B CN 110087066B
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inspection
subordinate
command
examination
plan
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CN110087066A (en
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黄爱华
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Chengdu Jiafa Antai Education Technology Co ltd
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Chengdu Jiafa Antai Education Technology Co ltd
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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04NPICTORIAL COMMUNICATION, e.g. TELEVISION
    • H04N17/00Diagnosis, testing or measuring for television systems or their details
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04NPICTORIAL COMMUNICATION, e.g. TELEVISION
    • H04N7/00Television systems
    • H04N7/18Closed circuit television systems, i.e. systems in which the signal is not broadcast

Abstract

The invention relates to the field of education, in particular to a one-key automatic inspection method applied to online inspection. The method specifically comprises the following steps: step one, establishing a routing inspection plan; step two, executing a routing inspection plan, and writing module faults into a fault information table; and step three, routing inspection result processing, and analyzing and processing the fault according to the fault information table. The invention simplifies the original large amount of manual checking, analyzing and comparing operations into automatic system completion, and greatly improves the working efficiency and quality of the online patrol operation and maintenance manager.

Description

One-key automatic inspection method applied to online inspection
Technical Field
The invention relates to the field of education, in particular to a one-key automatic inspection method applied to online inspection.
Background
The one-key automatic inspection technology is used for detecting the daily working state of equipment in industries related to a large amount of equipment operation, such as telecommunication operators (including telecommunication, mobile and Unicom) and broadcasting and television and tap water companies, and is a rather mature automatic inspection technology, wherein the key processes are basically the same, and the difference is that: the applied industry systems are different; the equipment aimed at by inspection is different; the specific routing inspection indexes or parameters are different.
The existing online patrol system adopts an operation interface provided by an equipment manufacturer to manually check the working state (such as CPU, memory occupancy rate, etc.) of a platform server, the working state (such as online condition, CPU, memory occupancy rate, hard disk space occupancy rate, hard disk working or fault state, etc.) of a storage server, and the working state (such as online condition, video recording state, etc.) of a video camera, so that the conditions of low working efficiency and high working error rate are caused. The main reason for this is that the online patrol system provided by each manufacturer mainly ensures that the image display can be performed during the examination, and the center of gravity is not deeply dug in the aspects of optimizing the working mode and improving the working efficiency, so that most of the equipment inspection work of the online patrol system is still performed in a manual mode for carpet type inspection after the online patrol system has been developed for ten years.
Disclosure of Invention
The embodiment of the invention provides a one-key automatic inspection method applied to online inspection. The invention presets the equipment (such as a platform server, a storage server and a camera) to be inspected and the parameter indexes of the equipment in the online inspection system by making an inspection plan, and appoints the automatic execution time of the inspection plan; the product automatically collects equipment and related parameter indexes at the appointed execution time by using an SDK provided by a manufacturer, intelligently compares and analyzes whether the equipment has faults and fault points, and provides the fault points for operation and maintenance management personnel to analyze and process the faults in a polling report mode after polling is finished. The original large amount of manual inspection, analysis and comparison operations are simplified into automatic system completion, and the work efficiency and quality of online patrol operation and maintenance management personnel are greatly improved.
According to a first aspect of an embodiment of the present invention, a one-key automatic inspection method applied to online inspection specifically includes the following steps:
step one, establishing a routing inspection plan;
step two, executing a routing inspection plan, and writing module faults into a fault information table;
and step three, routing inspection result processing, and analyzing and processing the fault according to the fault information table.
In the first step, the inspection plan is established to include the specified inspection area range; appointing an index range of the routing inspection; and appointing the time for automatic execution of the patrol.
3. The one-key automatic inspection method applied to online inspection according to claim 2, wherein in the second step, the method specifically comprises the following steps:
2.1 the system clock judges whether the time is the automatic execution time of the inspection, if yes, the system clock enters 2.2 to start the inspection work plan; if not, continuing to check the system clock;
2.2 starting the inspection plan; determining examination point list information needing to be examined according to the area range in the examination plan;
and 2.3, polling each test point, specifically, determining modules to be polled according to index ranges in a polling plan, polling each module in sequence, and writing polling faults into a fault information table.
In the step 2.3, the examination point polling module comprises an examination point pull flow polling execution module, a whole network clock synchronization execution module and an examination point key scene screenshot execution module.
In the step 2.3, the module for inspecting the examination point comprises an equipment online state detection module, a storage server hard disk space detection module and a camera image quality detection module.
In step 2.3, the inspection point pull flow inspection execution module inspects the inspection point pull flow inspection execution module:
according to the examination point number, the subordinate institution of the examination point belonging to the education institution is confirmed, the command of drawing the image of the appointed examination room camera is issued to the subordinate institution A,
if the subordinate institution A cannot receive the command, the current-level education institution records the fault point of the communication failure of the subordinate institution A;
if the subordinate mechanism A receives the command, the communication of the subordinate mechanism A is normal, the subordinate mechanism A analyzes and confirms that the examination point belongs to a subordinate mechanism B of the subordinate mechanism A after receiving the command, a command for pulling the image of the specified examination room camera is issued to the subordinate mechanism B through the subordinate mechanism A, and the command is issued step by step until the examination point receives the command for pulling the image;
and the examination point initiates an image pulling command to the specified examination room camera.
In the step 2.3, the polling of the clock synchronization execution module of the whole network is as follows:
the education institution of this level issues clock synchronization commands to all subordinate institutions related to the examination points, if faults occur, the fault points of the level are recorded, if the subordinate institutions receive the clock synchronization commands, then the clock synchronization commands are executed and continue to issue the clock synchronization commands to the subordinate institutions, and the commands are issued step by step until the examination points receive and execute the clock synchronization commands;
and feeding back the execution result to the upper level.
Confirming that the examination point belongs to a subordinate institution A of the current-level education institution according to the examination point number, issuing a key scene screenshot command to the subordinate institution A through the current-level education institution, and recording a fault point of communication failure of the subordinate institution A by the current-level education institution if the subordinate institution A cannot receive the command;
if the subordinate mechanism A feeds back the command to be normally received, the communication of the subordinate mechanism A is normal, the subordinate mechanism A analyzes and confirms that the test point belongs to a subordinate mechanism B of the subordinate mechanism A after receiving the command, a key scene screenshot command is issued to the subordinate mechanism B, and the command is issued step by step until the test point receives the key scene screenshot command;
and the examination point issues a key scene screenshot instruction to the equipment.
The equipment online state detection module is used for polling:
and checking the online state of the equipment according to the equipment range corresponding to the index in the inspection plan and recording the ID of the off-line equipment.
In step 2.3, the storage server hard disk space detection module patrols and examines as:
the method comprises the steps that a hard disk space detection command is sent to a storage server of the type according to corresponding equipment in an inspection plan, after the storage server A receives the hard disk space detection command, the use condition of the hard disk space of the storage server A is collected, the size of the available storage space is calculated, the time required for video recording and channel camera video recording code rate information on the storage server A are obtained according to an examination plan, the total storage space required to be occupied by video recording files on the storage server A is calculated, if the size of the available storage space of the storage server A is larger than the size of the total space of the video recording files generated by the examination plan, the hard disk space of the storage server A is detected to be passed, otherwise, the hard disk space of the storage server.
The technical scheme provided by the embodiment of the invention has the following beneficial effects: the invention mainly converts the patrol work of the network and equipment working state completely through manual work in the online patrol work of the education examination into the automatic execution of the computer and provides direct results for operation and maintenance personnel to carry out fault treatment by a computer through a computer automation method, greatly improves the working efficiency of the online patrol operation and maintenance personnel, improves the preparation to only one week in advance by one month in the original patrol work (comprising a superior mechanism and an examination point), and changes the original manual patrol work for more than three days into the automatic patrol work for only less than one hour; meanwhile, the possibility of human errors possibly caused by manual inspection is greatly reduced. The work efficiency and the accuracy of the preparation work in the early stage of the online patrol are greatly improved.
Drawings
The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the invention and together with the description, serve to explain the principles of the invention.
FIG. 1 is a flow chart of a one-key automatic inspection method applied to online inspection according to the present invention;
fig. 2 is a flowchart of a one-key automatic inspection method applied to online inspection according to the second embodiment;
fig. 3 is a flowchart of a one-key automatic inspection method applied to online inspection according to a third embodiment;
fig. 4 is a flowchart of a one-key automatic inspection method applied to online inspection according to the fourth embodiment;
fig. 5 is a flowchart of a one-key automatic inspection method applied to online inspection according to the fifth embodiment.
Detailed Description
Example one
As shown in fig. 1, the present invention provides a one-key automatic inspection method applied to online inspection, which comprises the following steps:
step one, establishing a routing inspection plan; setting corresponding range, index and time for automatic execution of the computer; appointing a name of a routing inspection plan; appointing a routing inspection area range; appointing an index range of the routing inspection; appointing the automatic execution time of the inspection;
step two, executing the inspection plan, and automatically executing according to the inspection area range, the index range and the time set by the inspection plan; writing the fault of the index execution module into a fault information table, specifically comprising the following steps:
2.1 the system clock judges whether the system clock is the start time of the polling execution, if so, the system clock enters 2.2 to start the polling work plan; if not, continuing to check the system clock;
2.2 starting the inspection work plan; determining examination point list information needing to be examined according to the area range in the examination plan;
2.3, polling each test point, specifically, determining which execution modules of the test point need to be polled according to the index range in the polling plan, polling each execution module in sequence, and writing the polling faults into a fault information table;
step three, routing inspection result processing, wherein fault analysis and processing are carried out according to routing inspection results: and displaying a fault list generated after the step two is executed according to the classification result, and providing processing suggestion information of each fault to assist operation and maintenance personnel to process the faults.
Example two
As shown in fig. 2, the present invention provides a one-key automatic inspection method applied to online inspection, which comprises the following steps:
step one, establishing a routing inspection plan; setting corresponding range, index and time for automatic execution of the computer; appointing a name of a routing inspection plan; appointing a routing inspection area range; appointing an index range of the routing inspection; appointing the automatic execution time of the inspection;
step two, executing the inspection plan, and automatically executing according to the range, the index and the time set by the inspection plan; writing the fault into the fault information table specifically comprises the following steps:
2.1 the system clock judges whether the system clock is the start time of the polling execution, if so, the system clock enters 2.2 to start the polling work plan; if not, continuing to check the system clock;
2.2 starting the inspection work plan; determining examination point list information needing to be examined according to the area range in the examination plan;
2.3, polling each test point, specifically, determining which execution modules need to be polled according to the index range in a polling plan, and writing the faults of the indexes of the corresponding execution modules in polling into a fault information table, preferably, the execution modules needing to be polled comprise a test point pull flow polling execution module, a whole network clock synchronous execution module and a test point key scene screenshot execution module, namely writing the faults of the test point pull flow polling execution module, the faults of the whole network clock synchronous execution module and the screenshot faults of the test point key scene execution module into the fault information table;
step three, routing inspection result processing, wherein fault analysis and processing are carried out according to routing inspection results: and displaying a fault list generated after the step two is executed according to the classification result, and providing processing suggestion information of each fault to assist operation and maintenance personnel to process the faults.
EXAMPLE III
As shown in fig. 3, the present invention provides a one-key automatic inspection method applied to online inspection, which comprises the following steps:
step one, establishing a routing inspection plan; setting corresponding range, index and time for automatic execution of the computer; appointing a name of a routing inspection plan; appointing a routing inspection area range; appointing an index range of the routing inspection; appointing the automatic execution time of the inspection;
step two, executing the inspection plan, automatically executing according to the range, the index and the time set by the inspection plan, and writing the fault into a fault information table; the main focus is to ensure that all servers and devices of the examination point can work normally, therefore, the inspection principle is to change the original manual inspection operation parameters and working states of the servers (including a management platform server, an SIP module, a forwarding module and a storage server) of the examination point and examination room cameras into automatic inspection operation parameters and working states and provide test results, and the inspection method specifically comprises the following substeps:
2.1 the system clock judges whether the system clock is the start time of the polling execution, if so, the system clock enters 2.2 to start the polling work plan; if not, continuing to check the system clock;
2.2 starting the inspection work plan, determining the index list information (such as two indexes of the on-line state of the equipment and the hard disk space of the storage server) to be inspected according to the index range in the inspection plan
2.3, each test point is inspected, and the inspection specifically comprises the steps of determining which modules of the test points need to be inspected according to the index range in the inspection plan; writing the fault of the module in inspection into a fault information table, preferably, the module comprises an equipment online state detection module, a storage server hard disk space detection module and a camera image quality detection module, inspecting the equipment online state detection module and writing the fault into the fault information table; polling a storage server hard disk space detection module and writing a fault into a fault information table; polling a camera image quality detection module and writing a fault into a fault information table; and if other polling instructions exist, continuing to execute and recording the fault.
Step three, routing inspection result processing, wherein fault analysis and processing are carried out according to routing inspection results: and displaying a fault list generated after the step two is executed according to the classification result, and providing processing suggestion information of each fault to assist operation and maintenance personnel to process the faults.
Example four
As shown in fig. 4, the present invention provides a one-key automatic inspection method applied to online inspection, which comprises the following steps:
firstly, establishing a routing inspection plan, and setting corresponding range, index and time for automatic execution of a computer; appointing a name of a routing inspection plan; appointing a routing inspection area range; appointing an index range of the routing inspection; appointing the automatic execution time of the inspection;
step two: executing the inspection plan, automatically executing according to the range, the index and the time set by the inspection plan, and writing the fault into a fault information table; the method specifically comprises the following substeps:
2.1 the system clock judges whether the system clock is the start time of the polling execution, if so, the system clock enters 2.2 to start the polling work plan; if not, continuing to check the system clock;
2.2 starting the inspection work plan; determining examination point list information needing to be examined according to the area range in the examination plan;
2.3, each test point is inspected, wherein the inspection is specifically to determine which modules are required to be inspected (such as image pulling and clock synchronization) according to the index range in the inspection plan;
and executing image pulling: confirming which subordinate institution (such as subordinate institution A) of the current-level education institution the examination point belongs to according to the examination point number, issuing a drawing-appointed examination room camera image command to the SIP module of the subordinate institution A through the SIP module of the current-level education institution, and if the SIP module of the subordinate institution A cannot receive the command due to network or other configuration reasons, recording a fault point of SIP communication failure of the subordinate institution A by the current-level education institution; if the subordinate mechanism A feeds back that the command is normally received, the SIP module of the subordinate mechanism A communicates normally, the subordinate mechanism A analyzes and confirms that the test point belongs to a subordinate mechanism B of the subordinate mechanism A after receiving the command, a command for pulling the image of the specified test field camera is sent to the SIP module of the subordinate mechanism B through the SIP module of the subordinate mechanism A, and the like is carried out until the SIP module of the test point receives the command for pulling the image; and the SIP module of the test point initiates an image pulling command to the specified test field camera.
And (3) clock synchronization detection: the education institution sends clock synchronization command to all subordinate institutions related to the examination point, if the subordinate institutions have faults, the fault point of the level is recorded, if the subordinate institutions receive the clock synchronization command, the clock synchronization command is executed, the subordinate institutions continue to send the clock synchronization command, and the like until the examination point receives and executes the clock synchronization command. And feeding back the execution result to the upper level.
Screenshot of a key scene: confirming which subordinate institution (such as subordinate institution A) of the current-level education institution the examination point belongs to according to the examination point number, issuing a key scene screenshot command to the subordinate institution A through the current-level education institution, and recording a fault point of communication failure of the subordinate institution A by the current-level education institution if the subordinate institution A cannot receive the command due to network or other configuration reasons; if the subordinate mechanism A feeds back that the command is normally received, the communication of the subordinate mechanism A is normal, the subordinate mechanism A receives the command, analyzes and confirms that the test point belongs to a subordinate mechanism B of the subordinate mechanism A, sends a key scene screenshot command to the subordinate mechanism B, and so on until the test point receives the key scene screenshot command; and the examination point issues a key scene screenshot instruction to the equipment.
And if other polling instructions exist, continuing to execute and recording the fault.
Step three: and (3) processing the inspection result, and analyzing and processing faults according to the inspection result: and displaying a fault list generated after the step two is executed according to the classification result, and providing processing suggestion information of each fault to assist operation and maintenance personnel to process the faults.
EXAMPLE five
As shown in fig. 5, the present invention provides a one-key automatic inspection method applied to online inspection, which comprises the following steps:
step one, establishing a routing inspection plan; setting corresponding range, index and time for automatic execution of the computer; appointing a name of a routing inspection plan; appointing a routing inspection area range; appointing an index range of the routing inspection; appointing the automatic execution time of the inspection;
step two, executing the inspection plan, automatically executing according to the range, the index and the time set by the inspection plan, and writing the fault into a fault information table; the method specifically comprises the following substeps:
2.1 the system clock judges whether the system clock is the start time of the polling execution, if so, the system clock enters 2.2 to start the polling work plan; if not, continuing to check the system clock;
2.2, starting the inspection work plan, and determining index list information (such as two indexes of the online state of the equipment and the hard disk space of the storage server) to be inspected according to the index range in the inspection plan;
2.3, each inspection point is inspected, wherein the inspection specifically comprises the following steps of determining which inspection points need to be inspected according to the index range in the inspection plan, and starting to perform inspection of a first index (such as the online state of equipment): and checking the online state of the equipment according to the equipment range (such as a platform server, a storage server, an examination room camera and a key place camera) corresponding to the index (the online state of the equipment) in the inspection plan and recording the ID of the off-line equipment.
And starting to execute the polling of a second index (such as a storage server hard disk space): initiating a hard disk space detection command to a storage server (such as a storage server A) of the type according to a corresponding device (the storage server of the examination) in the patrol plan, and enabling the storage server A to use the hard disk space of the storage server A (including the size of the total storage space, the size of the used storage space, the size of the residual storage space and the size of the storage space occupied by the coverable video file) after receiving the hard disk space detection command; the system calculates the size of available storage space after collecting the hard disk space use information of the storage server A, simultaneously obtains the time required for recording and the information such as the video recording code rate of a channel camera on the storage server A according to an examination plan, and calculates the total storage space required to be occupied by the video files on the storage server A. And calculating the hard disk spaces of all storage servers related to the examination in the same way.
And if other polling instructions exist, continuing to execute and recording the fault.
Step three, routing inspection result processing, wherein fault analysis and processing are carried out according to routing inspection results: and displaying a fault list generated after the step two is executed according to the classification result, and providing processing suggestion information of each fault to assist operation and maintenance personnel to process the faults.
The above description is only a preferred embodiment of the application and is illustrative of the principles of the technology employed. It will be appreciated by those skilled in the art that the scope of the invention herein disclosed is not limited to the particular combination of features described above, but also encompasses other arrangements formed by any combination of the above features or their equivalents without departing from the spirit of the invention. For example, the above features may be replaced with (but not limited to) features having similar functions disclosed in the present application.

Claims (6)

1. A one-key automatic inspection method applied to online inspection is characterized by comprising the following steps:
firstly, establishing a routing inspection plan, wherein the routing inspection plan comprises an appointed routing inspection area range, an appointed routing inspection index range and an appointed routing inspection automatic execution time;
step two, executing a routing inspection plan, and writing module faults into a fault information table; in the second step, the method specifically comprises the following steps:
2.1 the system clock judges whether the time is the automatic execution time of the inspection, if yes, the system clock enters 2.2 to start the inspection plan; if not, continuing to check the system clock;
2.2 starting the inspection plan; determining examination point list information needing to be examined according to the area range in the examination plan;
2.3, polling each test point, specifically, determining modules for polling the test points according to index ranges in a polling plan, polling each module in sequence, and writing polling faults into a fault information table;
the system comprises a test point inspection module, a storage server hard disk space detection module and a camera image quality detection module, wherein the test point inspection module comprises a test point pull stream inspection execution module, a whole network clock synchronization execution module, a test point key scene screenshot execution module, an equipment online state detection module, a storage server hard disk space detection module and a camera image quality detection module;
and step three, routing inspection result processing, and analyzing and processing the fault according to the fault information table.
2. The one-key automatic inspection method applied to online inspection according to claim 1, wherein in the step 2.3, the inspection of the inspection point pull flow inspection execution module is as follows:
according to the examination point number, the subordinate institution of the examination point belonging to the education institution is confirmed, the command of drawing the image of the appointed examination room camera is issued to the subordinate institution A,
if the subordinate institution A cannot receive the command, the current-level education institution records the fault point of the communication failure of the subordinate institution A;
if the subordinate mechanism A receives the command, the communication of the subordinate mechanism A is normal, the subordinate mechanism A analyzes and confirms that the examination point belongs to a subordinate mechanism B of the subordinate mechanism A after receiving the command, a command for pulling the image of the specified examination room camera is issued to the subordinate mechanism B through the subordinate mechanism A, and the command is issued step by step until the examination point receives the command for pulling the image;
the test point initiates a command of drawing images for the camera in the designated test room.
3. The one-key automatic inspection method applied to online inspection according to claim 1, wherein in the step 2.3, the inspection of the whole network clock synchronous execution module is as follows:
the education institution of this level issues clock synchronization commands to all subordinate institutions related to the examination points, if faults occur, the fault points of the level are recorded, if the subordinate institutions receive the clock synchronization commands, then the clock synchronization commands are executed and continue to issue the clock synchronization commands to the subordinate institutions, and the commands are issued step by step until the examination points receive and execute the clock synchronization commands;
and feeding back the execution result to the upper level.
4. The one-key automatic inspection method applied to online inspection according to claim 1, wherein the inspection point is confirmed to belong to a subordinate institution a of the current-level education institution according to the inspection point number, a key scene screenshot command is issued to the subordinate institution a through the current-level education institution, and if the subordinate institution a cannot receive the command, the current-level education institution records a fault point of communication failure of the subordinate institution a;
if the subordinate mechanism A feeds back the command to be normally received, the communication of the subordinate mechanism A is normal, the subordinate mechanism A receives the command, analyzes and confirms that the examination point belongs to a subordinate mechanism B of the subordinate mechanism A, sends a key scene screenshot command to the subordinate mechanism B, and sends the command step by step until the examination point receives the key scene screenshot command;
the examination point issues a key scene screenshot command to the camera in the key place.
5. The one-key automatic inspection method applied to online inspection according to claim 1, wherein the inspection of the equipment online state detection module is as follows:
and checking the online state of the equipment corresponding to the first index in the inspection plan and recording the ID of the offline equipment.
6. The one-key automatic inspection method applied to online inspection according to claim 1, wherein in the step 2.3, the inspection of the storage server hard disk space detection module is as follows:
initiating a hard disk space detection command to a storage server corresponding to a second index in the inspection plan, collecting the use condition of the hard disk space of the storage server A after the storage server A receives the hard disk space detection command, calculating the size of available storage space, acquiring the time required for video recording and channel camera video recording code rate information on the storage server A according to the examination plan, calculating the total storage space required to be occupied by video recording files on the storage server A, if the size of the available storage space of the storage server A is larger than the total space size of the video recording files generated by the examination plan, passing the hard disk space detection of the storage server A, otherwise, considering that the hard disk space of the storage server A is insufficient, and taking the insufficient hard disk space as fault record.
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