CN114708674A - Machine room inspection error-prevention leakage detection method based on RFID label scanning - Google Patents

Abstract

The invention is suitable for the technical field of routing inspection, and provides a machine room routing inspection error-prevention leakage detection method based on RFID label scanning, which comprises the following steps: s10: dispatching the routing inspection task; s20: the polling personnel acquires the polling task and scans RFID labels of the polling machine room and equipment according to the polling labels in the polling task; s30: judging whether the acquired data of the RFID tag is consistent with the data on the inspection tag, if so, filling an index data result to form an inspection report, and if not, checking; s40: judging whether indexes in the polling task are all polled, if so, uploading the polling report, and if not, continuing polling; s50: and storing the inspection report into a database. The machine room inspection error-prevention leakage detection method based on RFID label scanning effectively prevents the inspection task from being executed in place, and can save a large amount of time for workers.

Description

Machine room inspection error-detection-prevention leakage detection method based on RFID label scanning

Technical Field

The invention belongs to the technical field of routing inspection, and particularly relates to a machine room routing inspection error-prevention leakage detection method based on RFID label scanning.

Background

Along with the continuous enlargement of the scale of an information system of an electric power company, the dependence of electric power business on the information system is larger and larger, the requirements on the safety and the stability of equipment are higher and higher, the routing inspection of equipment in a machine room becomes routine and key work every day of an operation and maintenance department, but in the face of a large amount of equipment, the equipment needs to be precise, fine and accurate, needs to be both mentally and manually operated, and is bound to consume time and labor, so the operation and maintenance personnel often feel that the equipment cannot be used, the routing inspection will be lower, the enthusiasm is not high, the routing inspection task is often not executed in place, and the routing inspection personnel fill data results without reaching the actual routing inspection equipment in the machine room; the responsibility for executing the polling task is weak, false detection and missing detection occur, and the polling data quality is not high.

Disclosure of Invention

In view of this, the embodiment of the invention provides an error detection and leakage prevention method for machine room inspection based on RFID tag scanning, so as to solve the problem that error detection and leakage detection are generated in the inspection process of machine room equipment in the prior art.

The first aspect of the embodiment of the invention provides a machine room inspection error-prevention leak detection method based on RFID label scanning, which comprises the following steps:

s10: dispatching the routing inspection task;

s20: the polling personnel acquires the polling task and scans RFID labels of the polling machine room and equipment according to the polling labels in the polling task;

s30: judging whether the acquired data of the RFID tag is consistent with the data on the inspection tag, if so, filling an index data result to form an inspection report, and if not, checking;

s40: judging whether indexes in the polling task are all polled, if so, uploading the polling report, and if not, continuing polling;

s50: and storing the inspection report into a database.

Optionally, the method further includes:

s60: inquiring and checking the polling report;

s70: and downloading the polling report.

Optionally, the polling task includes machine room polling, equipment polling in the machine room and auxiliary content polling;

the computer lab is patrolled and examined and is included: temperature, humidity, and dust.

Optionally, equipment patrols and examines in the computer lab and includes: the method comprises the following steps of hard disk space utilization rate, hard disk abnormal sound conditions, file index lnode utilization rate, CPU utilization rate, memory utilization rate, lo utilization rate, thread port monitoring conditions and business service operation conditions.

Optionally, the auxiliary content inspection includes: middleware version update check, running state check, simulated login, firewall state check, page access, important port state check, database backup strategy, application backup strategy, monitoring log and application thread.

Optionally, the dispatching of the inspection task includes:

compiling indexes to be inspected into the inspection task;

and dispatching the inspection task to corresponding inspection personnel through a master station end service system.

Optionally, data acquisition who patrols and examines in the task uses on handheld mobile device, the personnel of patrolling and examining pass through mobile device patrols and examines.

Optionally, between the step S20 and the step S30, the method further includes:

s21': RFID labels of all devices in the machine room are recorded in the mobile device in advance;

s22': the mobile device comprises a table generating unit, and the table generating unit is used for sequencing according to the distances among the RFID labels on the devices, so that the device sequence for generating the table is matched with the actual routing inspection sequence of the routing inspection personnel.

Optionally, the step S70 further includes:

and binding the RFID tags of the machine room and the equipment with the routing inspection task through the uniqueness of the RFID tag data identification machine room and the equipment.

Optionally, the dispatching of the inspection task further includes:

and acquiring the inspection requirements corresponding to each inspection task, and compiling different inspection tasks according to the inspection requirements.

Compared with the prior art, the embodiment of the invention has the following beneficial effects: the method comprises the following steps: dispatching the routing inspection task; the polling personnel acquires the polling task and scans RFID labels of the polling machine room and equipment according to the polling labels in the polling task; judging whether the acquired data of the RFID tag is consistent with the data on the inspection tag, if so, filling an index data result to form an inspection report, and if not, checking; judging whether indexes in the polling task are all polled, if so, uploading the polling report, and if not, continuing polling; and storing the routing inspection report into a database. The application provides a pair of computer lab patrol and examine mistake leakage detection method based on RFID label scanning, can be with RFID label data and computer lab, equipment binding, bind simultaneously and patrol and examine the task, when RFID label data match, just can fill in corresponding index data, and export and examine the report, generate the report of patrolling and examining that accords with the standard, the effectual task execution of patrolling and examining of having stopped is not in place, fill in the condition of patrolling and examining data etc. false and examining at will, the loaded down with trivial details work of manual work carrying out the processing to the data has been removed from simultaneously, can save a large amount of time for the staff.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive exercise.

Fig. 1 is a schematic flow chart illustrating an implementation of a machine room inspection error-detection-prevention method based on RFID tag scanning according to an embodiment of the present invention;

fig. 2 is a schematic flow chart illustrating an implementation of a machine room inspection error-detection-prevention method based on RFID tag scanning according to a second embodiment of the present invention;

fig. 3 is a schematic diagram of an equipment display in a computer room according to an embodiment of the present invention.

Detailed Description

In the following description, for purposes of explanation and not limitation, specific details are set forth, such as particular system structures, techniques, etc. in order to provide a thorough understanding of the embodiments of the invention. It will be apparent, however, to one skilled in the art that the present invention may be practiced in other embodiments that depart from these specific details. In other instances, detailed descriptions of well-known systems, devices, circuits, and methods are omitted so as not to obscure the description of the present invention with unnecessary detail.

In order to explain the technical means of the present invention, the following description will be given by way of specific examples.

The invention provides a machine room inspection error-prevention leak detection method based on RFID label scanning, which comprises the following steps:

s10: dispatching the routing inspection task;

s20: the method comprises the steps that a polling person obtains a polling task, and RFID labels of a polling machine room and equipment are scanned according to polling labels in the polling task;

s30: judging whether the acquired data of the RFID tag is consistent with the data on the inspection tag, if so, filling an index data result to form an inspection report, and if not, checking;

s40: judging whether indexes in the polling task are all polled, if so, uploading a polling report, and if not, continuing polling;

s50: and storing the patrol report into a database.

Compared with the prior art, the embodiment of the invention has the following beneficial effects: the method comprises the following steps: dispatching the routing inspection task; the method comprises the steps that a polling person obtains a polling task, and RFID labels of a polling machine room and equipment are scanned according to polling labels in the polling task; judging whether the acquired data of the RFID tag is consistent with the data on the inspection tag, if so, filling an index data result to form an inspection report, and if not, checking; judging whether indexes in the polling task are all polled, if so, uploading a polling report, and if not, continuing polling; and storing the patrol report into a database. The application provides a pair of computer lab patrol and examine mistake leakage detection method based on RFID label scanning, can be with RFID label data and computer lab, equipment binding, bind simultaneously and patrol and examine the task, when RFID label data match, just can fill in corresponding index data, and export and examine the report, generate the report of patrolling and examining that accords with the standard, the effectual task execution of patrolling and examining of having stopped is not in place, fill in the condition of patrolling and examining data etc. false and examining at will, the loaded down with trivial details work of manual work carrying out the processing to the data has been removed from simultaneously, can save a large amount of time for the staff.

In some embodiments, further comprising:

s60: inquiring and checking the polling report;

s70: and downloading the polling report.

In some embodiments, the polling tasks include machine room polling, equipment polling in the machine room and auxiliary content polling;

the computer lab is patrolled and examined and is included: temperature, humidity, and dust.

In some embodiments, the equipment inspection in the machine room comprises: the method comprises the following steps of hard disk space utilization rate, hard disk abnormal sound conditions, file index lnode utilization rate, CPU utilization rate, memory utilization rate, lo utilization rate, thread port monitoring conditions and business service operation conditions.

In some embodiments, the auxiliary content patrol includes: middleware version update check, running state check, simulated login, firewall state check, page access, important port state check, database backup strategy, application backup strategy, monitoring log and application thread.

In some embodiments, dispatching patrol tasks includes:

compiling indexes to be inspected into an inspection task;

and dispatching the inspection task to corresponding inspection personnel through the main station side service system.

In some embodiments, the patrol data acquisition in the patrol task is applied to the handheld mobile device, and the patrol personnel patrol through the mobile device.

In some embodiments, between the step S20 and the step S30, further comprising:

s21': RFID labels of all devices in the machine room are recorded in the mobile device in advance;

s22': the mobile device comprises a table generating unit, and the table generating unit is used for sequencing according to the distances among the RFID labels on the devices, so that the device sequence for generating the table is matched with the actual routing inspection sequence of the routing inspection personnel.

In some embodiments, the step of S70, thereafter further comprises:

and the uniqueness of the machine room and the equipment is identified through the RFID tag data, and the RFID tags of the machine room and the equipment are bound with the inspection task.

In some embodiments, dispatching the patrol task further comprises:

and acquiring the inspection requirements corresponding to each inspection task, and compiling different inspection tasks according to the inspection requirements.

As an embodiment of the present invention, refer to fig. 1:

step 101: collecting and inspecting requirements and compiling inspection tasks

Due to the fact that the polling tasks are various and correspond to different scenes, the polling tasks needing to be carried out are different. Therefore, according to the different types of inspection tasks, the inspection requirements are obtained, and the specific inspection tasks are conveniently compiled.

For example, if the inspection needs to be performed in the machine room 1, the number of the RFID tags is determined on the handheld mobile device according to the number of the devices in the machine room 1, the RFID tags to be inspected are sorted according to the table generating unit on the handheld mobile device, and then the routing of the inspection is determined according to the sorting order.

Referring to fig. 3, the RFID tags of the multiple devices in the machine room 1 are respectively tag 1, tag 4, tag 7, and tag 10 in a row, tag 2, tag 5, tag 8, and tag 11 in a row, and tag 3, tag 6, tag 9, and tag 12 in a row, if the sequence is ordered according to 1-12 to generate a table, the routing of the routing inspection staff needs to move in the sequence of 1 → 4 → 7 → 10, and the handheld mobile device needs to frequently slide to find the corresponding tag, which is easy to fill in the table, thereby causing an error in information entry.

By the table generating unit on the mobile equipment, the tables arranged up and down can be generated according to the sequence of 1 → 4 → 7 → 10 → 2 → 5 → 8 → 11 → 3 → 6 → 9 → 12, and the patrol inspector determines the patrol route according to the sequence of the tables, so that the patrol efficiency can be improved, and the accuracy of the information can be ensured.

When equipment in the machine room 1 is required to be overhauled, used and the like, new equipment is added or the arrangement position of the original equipment is disturbed, the routing inspection table can be updated between routing inspection tasks each time, and the latest routing inspection route can be obtained according to the updated routing inspection table.

When the next task received by the inspection personnel is changed, the arrangement sequence of the equipment in the machine room can be determined preliminarily and quickly according to the generated table, and then inspection is performed after the equipment is required to be inspected once after entering the machine room, so that the implementation mode is more efficient.

Step 102: dispatching inspection task

And dispatching the inspection tasks to inspection personnel according to the dispatching requirements of the different types of inspection tasks.

Specifically, the corresponding inspection personnel can be divided according to the areas, and then the tasks are distributed. For example, machine rooms 1-3 are adjacent, can concentrate machine rooms 1-3 to be distributed to patrolling and examining personnel A, B and C, machine rooms 4-6 then concentrate to be distributed to patrolling and examining personnel D, E and F, through dividing the region, improve the pertinence between patrolling and examining personnel and the machine room, thereby make the single patrolling and examining that the personnel correspond patrol and examine the machine room quantity less, conveniently improve the familiarity of the personnel of patrolling and examining to the machine room in the task of oneself, can be more skilled high-efficient in the time of carrying out the task, prevent that equipment between the different machine rooms from arranging, quantity difference causes the error because of not being ripe.

The tasks can be dispatched according to the current-time executive tasks of the inspection personnel, for example, the current-time executive tasks of the inspection personnel A are more for the machine room 2 and the machine room 5, and when the machine room 2 and the machine room 5 need to be inspected, the tasks are preferably dispatched to the inspection personnel A.

The number of tasks to be dispatched of each patrol inspector can form a record, for example, when the patrol inspection frequency of the patrol inspector A exceeds a preset value, the task dispatching frequency of other patrol inspectors can be increased within a preset time period (for example, within three days), the task dispatching frequency of the patrol inspector A within the preset time period (for example, within three days) is reduced, and the normal task dispatching frequency is recovered after the preset time period (for example, within three days).

Step 103: obtaining inspection tasks

And the polling personnel logs in the handheld mobile equipment to obtain the polling task of the polling personnel and downloads the polling task.

The mode of logging in the equipment can adopt one of a password, a fingerprint and facial recognition, and can also realize logging in through arbitrary combination of two of the password, the fingerprint and the facial recognition, and the accuracy of logging in can be guaranteed in the login mode of combining more than two kinds, and suspicious personnel are prevented from stealing the password and directly logging in.

Step 104: judging whether the RFID data in the polling task is consistent with the polling task of the machine room and equipment, if so, entering an index filling interface

The method comprises the steps that a patrol worker obtains a patrol task, scans RFID tags of a patrol machine room and equipment through handheld mobile equipment, judges whether obtained RFID tag data are consistent with tag data in the patrol task, and if yes, fills an index data result corresponding to the patrol task.

In the scanning process, in order to prevent other RFID tags from being scanned by mistake during operations such as hand lifting or hand changing, a distance sensor can be set on the handheld mobile equipment, the distance sensor is in communication connection with a scanning module in the handheld mobile equipment, and when the scanning head of the handheld mobile equipment is detected to be within a preset distance range from the RFID tags, scanning can be started, so that the scanning error is reduced.

And when the consistency of the acquired RFID tag and the tag data in the routing inspection task is low, if the consistency rate is lower than 30%, clearing the routing inspection data, updating the routing inspection task and the table, prompting routing inspection personnel to confirm again, confirming whether the machine room of the routing inspection task is matched, and confirming the routing inspection route.

Step 105: judging whether indexes in the polling task are all polled, if so, uploading polling data to generate a polling report

When the inspection task is completed and the inspection report is generated, whether indexes in the inspection task are all inspected is checked, if yes, the inspection data are uploaded to generate the inspection report.

When the form obtained by the inspection is sorted into 1-4-7-10-2-5-8-11-3-6-9-12 (inspection sequence), index data is filled in and inspection is confirmed to be finished, generated inspection reports are matched according to the sequence of 1-2-3-4-5-6-7-8-9-10-11-12 (normal sequence) so as to facilitate comparison among a plurality of inspection reports, thereby facilitating analysis of data conditions in different machine rooms, and information among all machine rooms can be analyzed through comparison among the inspection reports, thereby facilitating judgment of whether equipment is related to arrangement in the machine rooms or not.

Step 106: storing the generated patrol report in a database

When the inspection task data is uploaded to the server, the data is stored in the database.

The database can automatically divide different polling reports of the same machine room according to the types of the polling reports, so that the states of the machine room at different time intervals can be analyzed, and early warning can be performed on the machine room through data analysis. The first embodiment of the application provides a machine room inspection error-prevention leak detection method based on RFID label scanning, which comprises the following steps: the system comprises a polling task distribution unit, a polling data acquisition unit, a polling report storage unit and an RFID tag generation unit, wherein the polling task distribution unit is used for compiling indexes to be polled into polling tasks and distributing the indexes to corresponding polling personnel, the polling data acquisition unit is applied to handheld mobile equipment and is used for acquiring basic equipment information and real-time operation data provided by equipment management through scanning RFID tags of a machine room and the equipment, the polling report storage unit is used for storing polling reports generated by acquiring data, and the RFID tag generation unit is used for generating tag information with unique identification for the machine room and the equipment.

As another embodiment of the present invention, refer to fig. 2:

step 201: collecting and inspecting requirements and compiling inspection tasks

Due to the fact that the polling tasks are various and correspond to different scenes, the polling tasks needing to be carried out are different. Therefore, according to the different types of inspection tasks, the inspection requirements are obtained, and the specific inspection tasks are conveniently compiled.

For example, if the inspection needs to be performed in the machine room 1, the number of the RFID tags is determined on the handheld mobile device according to the number of the devices in the machine room 1, the RFID tags to be inspected are sorted according to the table generating unit on the handheld mobile device, and then the routing of the inspection is determined according to the sorting order.

Referring to fig. 3, the RFID tags of the multiple devices in the machine room 1 are respectively tag 1, tag 4, tag 7, and tag 10 in a row, tag 2, tag 5, tag 8, and tag 11 in a row, and tag 3, tag 6, tag 9, and tag 12 in a row, if the sequence is ordered according to 1-12 to generate a table, the routing of the routing inspection staff needs to move in the sequence of 1 → 4 → 7 → 10, and the handheld mobile device needs to frequently slide to find the corresponding tag, which is easy to fill in the table, thereby causing an error in information entry.

By the table generating unit on the mobile equipment, the tables arranged up and down can be generated according to the sequence of 1 → 4 → 7 → 10 → 2 → 5 → 8 → 11 → 3 → 6 → 9 → 12, and the patrol inspector determines the patrol route according to the sequence of the tables, so that the patrol efficiency can be improved, and the accuracy of the information can be ensured.

When equipment in the machine room 1 is required to be overhauled, used and the like, new equipment is added or the arrangement position of the original equipment is disturbed, the routing inspection table can be updated between routing inspection tasks each time, and the latest routing inspection route can be obtained according to the updated routing inspection table.

When the next task received by the inspection personnel is changed, the arrangement sequence of the equipment in the machine room can be determined preliminarily and quickly according to the generated table, and then inspection is performed after the equipment is required to be inspected once after entering the machine room, so that the implementation mode is more efficient.

Step 202: dispatching inspection task

And dispatching the inspection tasks to inspection personnel according to dispatching requirements of different types of inspection tasks.

Specifically, the corresponding patrol personnel can be divided according to the areas, and then the tasks are distributed. For example, machine rooms 1-3 are adjacent, can concentrate machine rooms 1-3 to be distributed to patrolling and examining personnel A, B and C, machine rooms 4-6 then concentrate to be distributed to patrolling and examining personnel D, E and F, through dividing the region, improve the pertinence between patrolling and examining personnel and the machine room, thereby make the single patrolling and examining that the personnel correspond patrol and examine the machine room quantity less, conveniently improve the familiarity of the personnel of patrolling and examining to the machine room in the task of oneself, can be more skilled high-efficient in the time of carrying out the task, prevent that equipment between the different machine rooms from arranging, quantity difference causes the error because of not being ripe.

Also can dispatch according to the round trip execution task of patrolling and examining personnel, for example patrolling and examining personnel A round trip execution task is more for computer lab 2 and computer lab 5, then when computer lab 2 and computer lab 5 need patrol, then preferentially dispatch the task and give patrolling and examining personnel A.

The number of tasks to be dispatched of each patrol inspector can form a record, for example, when the patrol inspection frequency of the patrol inspector A exceeds a preset value, the task dispatching frequency of other patrol inspectors can be increased within a preset time period (for example, within three days), the task dispatching frequency of the patrol inspector A within the preset time period (for example, within three days) is reduced, and the normal task dispatching frequency is recovered after the preset time period (for example, within three days).

Step 203: obtaining inspection task

And the polling personnel logs in the handheld mobile equipment to obtain the polling task of the polling personnel and downloads the polling task.

The mode of logging in the equipment can adopt one of a password, a fingerprint and facial recognition, and can also realize logging in through arbitrary combination of two of the password, the fingerprint and the facial recognition, and the accuracy of logging in can be guaranteed in the login mode of combining more than two kinds, and suspicious personnel are prevented from stealing the password and directly logging in.

Step 204: judging whether the RFID data in the polling task is consistent with the polling task of the machine room and equipment, if so, entering an index filling interface

The method comprises the steps that a patrol worker obtains a patrol task, scans RFID tags of a patrol machine room and equipment through handheld mobile equipment, judges whether obtained RFID tag data are consistent with tag data in the patrol task, and if yes, fills an index data result corresponding to the patrol task.

In the scanning process, in order to prevent other RFID tags from being scanned by mistake during operations such as hand lifting or hand changing, a distance sensor can be set on the handheld mobile equipment, the distance sensor is in communication connection with a scanning module in the handheld mobile equipment, and when the scanning head of the handheld mobile equipment is detected to be within a preset distance range from the RFID tags, scanning can be started, so that the scanning error is reduced.

And when the consistency of the acquired RFID tag and the tag data in the routing inspection task is low, if the consistency rate is lower than 30%, clearing the routing inspection data, updating the routing inspection task and the table, prompting routing inspection personnel to confirm again, confirming whether the machine room of the routing inspection task is matched, and confirming the routing inspection route.

Step 205: judging whether indexes in the polling task are all polled, if so, uploading polling data to generate a polling report

When the inspection task is completed and the inspection report is generated, whether indexes in the inspection task are all inspected is checked, if yes, the inspection data are uploaded to generate the inspection report.

When the forms obtained by inspection are sorted into 1-4-7-10-2-5-8-11-3-6-9-12 (inspection sequence), index data is filled in and inspection is finished, generated inspection reports are matched according to the sequence of 1-2-3-4-5-6-7-8-9-10-11-12 (normal sequence) so as to facilitate comparison among a plurality of inspection reports, thereby facilitating analysis of data conditions in different machine rooms, and information among all machine rooms can be analyzed through comparison among the inspection reports, thereby facilitating judgment of whether equipment is related to arrangement in the machine rooms or not.

Step 206: storing the generated patrol report in a database

When the inspection task data is uploaded to the server, the data is stored in the database.

The database can automatically divide different polling reports of the same machine room according to the types of the polling reports, so that the states of the machine room at different time periods can be analyzed, and early warning can be carried out on the machine room through data analysis.

Step 207: inquiring polling data and checking polling report

Index data of the completed routing inspection task can be inquired, and meanwhile routing inspection reports can be checked.

Step 208: downloading patrol reports

And the inspection report which is uploaded can be downloaded and printed for analyzing and summarizing inspection work.

A second embodiment of the present application provides a machine room inspection error-detection-prevention method based on RFID tag scanning, including: the system comprises a routing inspection task distribution unit, a routing inspection data acquisition unit, a routing inspection report storage unit, a routing inspection data query unit and an RFID label generation unit, wherein the routing inspection task distribution unit is used for compiling indexes to be inspected into routing inspection tasks and distributing the indexes to corresponding routing inspection personnel, the routing inspection data acquisition unit is applied to handheld mobile equipment and is used for acquiring basic equipment information and real-time operation data provided by equipment management through scanning RFID labels of a machine room and the equipment, the routing inspection report storage unit is used for storing the routing inspection reports generated by acquiring the data, the routing inspection data query unit is used for querying the routing inspection data and downloading and viewing the routing inspection reports, and the RFID label generation unit is used for generating label information with unique identification for the machine room and the equipment.

It should be understood that, the sequence numbers of the steps in the foregoing embodiments do not imply an execution sequence, and the execution sequence of each process should be determined by its function and inherent logic, and should not constitute any limitation to the implementation process of the embodiments of the present invention.

It will be apparent to those skilled in the art that, for convenience and brevity of description, only the above-mentioned division of the functional units and modules is illustrated, and in practical applications, the above-mentioned function distribution may be performed by different functional units and modules according to needs, that is, the internal structure of the apparatus is divided into different functional units or modules, so as to perform all or part of the functions described above.

Each functional unit and module in the embodiments may be integrated in one processing unit, or each unit may exist alone physically, or two or more units are integrated in one unit, and the integrated unit may be implemented in a form of hardware, or in a form of software functional unit.

In addition, specific names of the functional units and modules are only used for distinguishing one functional unit from another, and are not used for limiting the protection scope of the present application. The specific working processes of the units and modules in the system may refer to the corresponding processes in the foregoing method embodiments, and are not described herein again.

Those of ordinary skill in the art will appreciate that the various illustrative elements and algorithm steps described in connection with the embodiments disclosed herein may be implemented as electronic hardware or combinations of computer software and electronic hardware.

Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the implementation. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present invention.

The above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not substantially depart from the spirit and scope of the embodiments of the present invention, and are intended to be included within the scope of the present invention.

Claims (10)

1. A machine room inspection error-prevention leakage detection method based on RFID label scanning is characterized by comprising the following steps:

s10: dispatching the routing inspection task;

s20: the polling personnel acquires the polling task and scans RFID labels of the polling machine room and equipment according to the polling labels in the polling task;

s30: judging whether the acquired data of the RFID tag is consistent with the data on the inspection tag, if so, filling an index data result to form an inspection report, and if not, checking;

s40: judging whether indexes in the polling task are all polled, if so, uploading the polling report, and if not, continuing polling;

s50: and storing the routing inspection report into a database.

2. The machine room inspection error-detection-prevention leakage detection method based on RFID tag scanning as recited in claim 1, further comprising:

s60: inquiring and checking the polling report;

s70: and downloading the polling report.

3. The machine room inspection error-detection-prevention leakage detection method based on RFID tag scanning as claimed in claim 1, wherein the inspection tasks include machine room inspection, inspection of equipment in the machine room, and inspection of auxiliary content;

the computer lab is patrolled and examined and is included: temperature, humidity, and dust.

4. The machine room inspection error-detection-prevention leakage detection method based on RFID tag scanning as claimed in claim 3, wherein the inspection of the equipment in the machine room comprises: the method comprises the following steps of hard disk space utilization rate, hard disk abnormal sound conditions, file index lnode utilization rate, CPU utilization rate, memory utilization rate, lo utilization rate, thread port monitoring conditions and business service operation conditions.

5. The machine room inspection error-prevention leak detection method based on RFID tag scanning according to claim 3, wherein the auxiliary content inspection comprises: middleware version update check, running state check, simulated login, firewall state check, page access, important port state check, database backup strategy, application backup strategy, monitoring log and application thread.

6. The machine room inspection error-prevention leak detection method based on RFID label scanning of claim 1, wherein the dispatching of inspection tasks comprises:

compiling indexes to be inspected into the inspection task;

and dispatching the inspection task to corresponding inspection personnel through a master station end service system.

7. The machine room inspection error-prevention leakage detection method based on RFID tag scanning of claim 1, wherein inspection data collection in the inspection task is applied to a handheld mobile device, and inspection personnel perform inspection through the mobile device.

8. The machine room inspection tour inspection error-proof leak detection method based on RFID tag scanning of claim 7, wherein between the step S20 and the step S30, further comprising:

s21': RFID labels of all devices in the machine room are recorded in the mobile device in advance;

s22': the mobile device comprises a table generating unit, and the table generating unit is used for sequencing according to the distances among the RFID labels on the devices, so that the device sequence for generating the table is matched with the actual routing inspection sequence of the routing inspection personnel.

9. The machine room inspection anti-error leakage detection method based on RFID tag scanning according to claim 2, wherein the step S70 is followed by further comprising:

and binding the RFID tags of the machine room and the equipment with the routing inspection task through the uniqueness of the RFID tag data identification machine room and the equipment.

10. The machine room inspection error-prevention leak detection method based on RFID label scanning of claim 1, wherein the dispatching inspection task further comprises the following steps:

and acquiring the inspection requirements corresponding to each inspection task, and compiling different inspection tasks according to the inspection requirements.

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