CN111723880A - Detection method and device for equipment inspection operation - Google Patents

Detection method and device for equipment inspection operation Download PDF

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Publication number
CN111723880A
CN111723880A CN202010514533.7A CN202010514533A CN111723880A CN 111723880 A CN111723880 A CN 111723880A CN 202010514533 A CN202010514533 A CN 202010514533A CN 111723880 A CN111723880 A CN 111723880A
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information
equipment
inspection
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detection information
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CN111723880B (en
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马啸风
胡成
刘梓豪
杨琼
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Industrial and Commercial Bank of China Ltd ICBC
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Industrial and Commercial Bank of China Ltd ICBC
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    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06KGRAPHICAL DATA READING; PRESENTATION OF DATA; RECORD CARRIERS; HANDLING RECORD CARRIERS
    • G06K17/00Methods or arrangements for effecting co-operative working between equipments covered by two or more of main groups G06K1/00 - G06K15/00, e.g. automatic card files incorporating conveying and reading operations
    • G06K17/0022Methods or arrangements for effecting co-operative working between equipments covered by two or more of main groups G06K1/00 - G06K15/00, e.g. automatic card files incorporating conveying and reading operations arrangements or provisions for transferring data to distant stations, e.g. from a sensing device
    • G06K17/0025Methods or arrangements for effecting co-operative working between equipments covered by two or more of main groups G06K1/00 - G06K15/00, e.g. automatic card files incorporating conveying and reading operations arrangements or provisions for transferring data to distant stations, e.g. from a sensing device the arrangement consisting of a wireless interrogation device in combination with a device for optically marking the record carrier
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01CMEASURING DISTANCES, LEVELS OR BEARINGS; SURVEYING; NAVIGATION; GYROSCOPIC INSTRUMENTS; PHOTOGRAMMETRY OR VIDEOGRAMMETRY
    • G01C22/00Measuring distance traversed on the ground by vehicles, persons, animals or other moving solid bodies, e.g. using odometers, using pedometers
    • G01C22/006Pedometers
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01DMEASURING NOT SPECIALLY ADAPTED FOR A SPECIFIC VARIABLE; ARRANGEMENTS FOR MEASURING TWO OR MORE VARIABLES NOT COVERED IN A SINGLE OTHER SUBCLASS; TARIFF METERING APPARATUS; MEASURING OR TESTING NOT OTHERWISE PROVIDED FOR
    • G01D21/00Measuring or testing not otherwise provided for
    • G01D21/02Measuring two or more variables by means not covered by a single other subclass
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01SRADIO DIRECTION-FINDING; RADIO NAVIGATION; DETERMINING DISTANCE OR VELOCITY BY USE OF RADIO WAVES; LOCATING OR PRESENCE-DETECTING BY USE OF THE REFLECTION OR RERADIATION OF RADIO WAVES; ANALOGOUS ARRANGEMENTS USING OTHER WAVES
    • G01S19/00Satellite radio beacon positioning systems; Determining position, velocity or attitude using signals transmitted by such systems
    • G01S19/38Determining a navigation solution using signals transmitted by a satellite radio beacon positioning system
    • G01S19/39Determining a navigation solution using signals transmitted by a satellite radio beacon positioning system the satellite radio beacon positioning system transmitting time-stamped messages, e.g. GPS [Global Positioning System], GLONASS [Global Orbiting Navigation Satellite System] or GALILEO
    • G01S19/42Determining position
    • GPHYSICS
    • G05CONTROLLING; REGULATING
    • G05BCONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
    • G05B19/00Programme-control systems
    • G05B19/02Programme-control systems electric
    • G05B19/04Programme control other than numerical control, i.e. in sequence controllers or logic controllers
    • G05B19/042Programme control other than numerical control, i.e. in sequence controllers or logic controllers using digital processors
    • G05B19/0423Input/output
    • GPHYSICS
    • G07CHECKING-DEVICES
    • G07CTIME OR ATTENDANCE REGISTERS; REGISTERING OR INDICATING THE WORKING OF MACHINES; GENERATING RANDOM NUMBERS; VOTING OR LOTTERY APPARATUS; ARRANGEMENTS, SYSTEMS OR APPARATUS FOR CHECKING NOT PROVIDED FOR ELSEWHERE
    • G07C1/00Registering, indicating or recording the time of events or elapsed time, e.g. time-recorders for work people
    • G07C1/20Checking timed patrols, e.g. of watchman
    • GPHYSICS
    • G16INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR SPECIFIC APPLICATION FIELDS
    • G16YINFORMATION AND COMMUNICATION TECHNOLOGY SPECIALLY ADAPTED FOR THE INTERNET OF THINGS [IoT]
    • G16Y20/00Information sensed or collected by the things
    • G16Y20/10Information sensed or collected by the things relating to the environment, e.g. temperature; relating to location
    • GPHYSICS
    • G16INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR SPECIFIC APPLICATION FIELDS
    • G16YINFORMATION AND COMMUNICATION TECHNOLOGY SPECIALLY ADAPTED FOR THE INTERNET OF THINGS [IoT]
    • G16Y20/00Information sensed or collected by the things
    • G16Y20/40Information sensed or collected by the things relating to personal data, e.g. biometric data, records or preferences
    • GPHYSICS
    • G16INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR SPECIFIC APPLICATION FIELDS
    • G16YINFORMATION AND COMMUNICATION TECHNOLOGY SPECIALLY ADAPTED FOR THE INTERNET OF THINGS [IoT]
    • G16Y40/00IoT characterised by the purpose of the information processing
    • G16Y40/10Detection; Monitoring

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Abstract

The embodiment of the application provides a detection method and a detection device for equipment inspection operation, wherein the method comprises the following steps: if the target inspection personnel with the mobile terminal is detected to reach the current equipment in the inspection path, periodically acquiring the mobile sensing data of the mobile terminal until the two-dimensional code information of the current equipment sent by the mobile terminal is received; generating code scanning authenticity detection information for indicating whether a target inspection worker carries out field code scanning at the current equipment or not according to a comparison result between the mobile sensing data and the corresponding preset conditions; and generating a patrol operation detection result of the target patrol inspection personnel at the current equipment based on the code scanning authenticity detection information and the personnel movement detection information of the target patrol inspection personnel acquired after the received two-dimensional code information of the current equipment. This application can effectively improve the authenticity and the reliability that the operation detected are patrolled and examined to equipment, and then can effectively improve and patrol and examine the security and the reliability that equipment deposited or operated.

Description

Detection method and device for equipment inspection operation
Technical Field
The application relates to the technical field of data processing, in particular to a detection method and device for equipment inspection operation.
Background
With the rapid development of science and technology, many enterprises select the inspection robot to inspect the equipment, however, the inspection robot obviously has many processing capacity limitations because various emergency situations may be faced during the equipment inspection work, and therefore some enterprises still adopt the inspection personnel to inspect to randomly respond to the emergency situations. On this basis, in order to adopt the validity of the mode of patrolling and examining the personnel, the enterprise needs to detect the condition that the personnel of patrolling and examining carried out equipment inspection operation to guarantee that the personnel of patrolling and examining really has carried out equipment inspection effectively.
At present, the mode of detecting the equipment inspection operation of an inspection worker is usually to acquire the position information of the inspection worker through modes such as satellite positioning, but along with the appearance of software for counterfeiting or hiding the position information, the mode obviously cannot ensure the truth and the validity of the equipment inspection operation, and in another mode, the inspection worker scans the two-dimensional code after arriving at the equipment through setting a unique corresponding two-dimensional code on the equipment, or acquires the position information of the inspection worker through modes such as satellite positioning.
However, with the appearance of the substitute card punching tool and the existence of objective and objective reasons that the two-dimensional code image on the equipment can be photographed and stored in advance, the effectiveness of the method for detecting whether the inspection personnel really performs equipment inspection by scanning the code can not be ensured.
Disclosure of Invention
Aiming at the problems in the prior art, the application provides the detection method and the detection device for the equipment inspection operation, which can effectively improve the authenticity and the reliability of the equipment inspection operation detection, and further can effectively improve the safety and the reliability of the storage or the operation of the inspected equipment.
In order to solve the technical problem, the application provides the following technical scheme:
in a first aspect, the present application provides a method for detecting inspection work of equipment, including:
if the target inspection personnel with the mobile terminal is detected to reach the current equipment in the inspection path, periodically acquiring the mobile sensing data of the mobile terminal until the two-dimensional code information of the current equipment sent by the mobile terminal is received;
generating code scanning authenticity detection information for indicating whether the target inspection personnel carries out field code scanning at the current equipment or not according to a comparison result between the mobile sensing data and the corresponding preset conditions;
and generating a patrol operation detection result of the target patrol inspection personnel at the current equipment based on the code scanning authenticity detection information and the personnel movement detection information of the target patrol inspection personnel acquired after the received two-dimensional code information of the current equipment.
Further, the movement sensing data includes: direction sensing data;
correspondingly, according to the comparison result between the mobile sensing data and the corresponding preset condition, code scanning authenticity detection information for indicating whether the target inspection personnel scans the codes on site at the current equipment currently is generated, and the method comprises the following steps:
determining target direction information according to pre-stored setting position information of a two-dimensional code image of the current device, wherein the target direction information comprises: a horizontal or vertical direction;
judging whether the direction information corresponding to the direction sensing data is the same as the target direction information or not;
if yes, generating first direction detection information for indicating that the code scanning direction of the target inspection personnel at the current equipment corresponds to the setting position of the two-dimensional code image;
if not, generating second direction detection information for indicating that the code scanning direction of the target inspection personnel at the current equipment does not correspond to the setting position of the two-dimensional code image;
and adding the unique identifier of the current equipment and the corresponding first direction detection information or the second direction detection information into the code scanning authenticity detection information.
Further, generating code scanning authenticity detection information for indicating whether the target inspection personnel scans the codes on site at the current equipment currently according to the comparison result between the mobile sensing data and the corresponding preset conditions, and further comprising:
determining a target inclination angle range according to pre-stored setting position information of a two-dimensional code image of the current equipment;
judging whether the inclination angle corresponding to the direction sensing data is within the target inclination angle range;
if so, generating first inclination angle detection information for indicating that the code scanning inclination angle of the target inspection personnel at the current equipment corresponds to the setting position of the two-dimensional code image;
if not, generating second inclination angle detection information for indicating that the code scanning inclination angle of the target inspection personnel at the current equipment does not correspond to the setting position of the two-dimensional code image;
and adding the unique identifier of the current equipment and the corresponding first inclination angle detection information or the second inclination angle detection information into the code scanning authenticity detection information.
Further, the movement sensing data includes: rotating the sensing data;
correspondingly, according to the comparison result between the mobile sensing data and the corresponding preset condition, code scanning authenticity detection information for indicating whether the target inspection personnel scans the codes on site at the current equipment currently is generated, and the method comprises the following steps:
judging whether the rotation sensing data corresponds to a rotation angle or not;
if so, generating first rotation detection information for indicating that the target inspection personnel rotates the mobile terminal;
if not, generating second rotation detection information for indicating that the target inspection personnel does not rotate the mobile terminal;
and adding the unique identifier of the current equipment and the corresponding first rotation detection information or the second rotation detection information into the code scanning authenticity detection information.
Further, the movement sensing data includes: respectively acquiring two pieces of acceleration sensing data separated by preset time;
correspondingly, according to the comparison result between the mobile sensing data and the corresponding preset condition, code scanning authenticity detection information for indicating whether the target inspection personnel scans the codes on site at the current equipment currently is generated, and the method comprises the following steps:
acquiring a difference value between the two pieces of acceleration sensing data;
judging whether the difference value between the two acceleration sensing data is larger than an acceleration threshold value or not;
if so, generating first shaking detection information for indicating that the user terminal of the target inspection personnel shakes;
if not, generating second shaking detection information for indicating that the user terminal of the target patrol personnel does not shake;
and adding the unique identifier of the current equipment and the corresponding first shaking detection information or the second shaking detection information into the code scanning authenticity detection information.
Further, if it is detected that a target inspection person with the mobile terminal has reached the current device in the inspection path, the mobile sensing data of the mobile terminal is periodically collected until the two-dimensional code information of the current device sent by the mobile terminal is received, including:
if a two-dimensional code scanning function starting message of the mobile terminal of the target inspection personnel is received, and/or if a personnel approach signal acquired by a human body approach sensor arranged at the current equipment is received, judging that the target inspection personnel reaches the current equipment in the inspection path;
and continuously receiving mobile sensing data collected by a sensor arranged at the mobile terminal of the target inspection personnel at preset time intervals, and stopping receiving the mobile sensing data until receiving the two-dimensional code information of the current equipment sent by the mobile terminal of the target inspection personnel.
Further, before generating the inspection operation detection result of the target inspection staff at the current device based on the scanning code authenticity detection information and the personnel movement detection information of the target inspection staff acquired after the received two-dimensional code information of the current device, the method further comprises:
receiving two-dimensional code information of the current equipment sent by a mobile terminal of the target inspection personnel;
respectively acquiring pre-stored position information of the current equipment and position information of the previous equipment in the routing inspection path according to the two-dimension code information of the current equipment, and acquiring GPS track information of the mobile terminal from the previous equipment to the current equipment;
judging whether the starting node of the GPS track information is the same as the position information of the previous equipment or not, and judging whether the ending node of the GPS track information is the same as the position information of the current equipment or not;
if the starting node is the same as the position information of the previous equipment and the ending node is the same as the position information of the current equipment, generating first track detection information which is used for indicating that the routing inspection track of the target routing inspection personnel corresponds to a preset track;
if the starting node and the last equipment have different position information and/or the ending node and the current equipment have different position information, generating second track detection information for indicating that the routing inspection track of the target routing inspection personnel does not correspond to a preset track;
and adding the unique identifier of the current equipment and the corresponding first track detection information or the second track detection information into the personnel movement detection information.
Further, before generating the inspection operation detection result of the target inspection staff at the current device based on the scanning code authenticity detection information and the personnel movement detection information of the target inspection staff acquired after the received two-dimensional code information of the current device, the method further comprises:
receiving two-dimensional code information of the current equipment sent by a mobile terminal of the target inspection personnel;
acquiring the consumed time and the newly added counting steps of the mobile terminal from the previous equipment to the current equipment;
generating the current patrol score of the target patrol inspector according to the consumed duration and the newly added step count;
and adding the unique identifier of the current equipment and the corresponding patrol score into the personnel movement detection information.
Further, the generating the current patrol score of the target patrol inspection personnel according to the consumed time and the newly added step count comprises the following steps:
generating the current patrol score of the target patrol inspector according to the consumed duration and the newly added step count by applying a preset non-inductive patrol authentication formula;
the non-inductive patrol authentication formula is used for expressing the corresponding relation between the sum result of the time parameter and the step number parameter and the patrol score;
the time parameter is obtained based on the consumed time and a preset dynamic assignment, the step number parameter is obtained based on the newly added step counting number and the average step number, and the average step number is obtained based on the newly added step counting number and the consumed time.
In a second aspect, the present application provides a detection apparatus for equipment inspection operation, including:
the data acquisition module is used for periodically acquiring the mobile sensing data of the mobile terminal until receiving the two-dimensional code information of the current equipment sent by the mobile terminal if the fact that a target inspection personnel with the mobile terminal reaches the current equipment in the inspection path is detected;
the code scanning detection module is used for generating code scanning authenticity detection information for indicating whether the target inspection personnel carries out field code scanning at the current equipment or not according to a comparison result between the mobile sensing data and the corresponding preset conditions;
and the operation detection result generation module is used for generating the inspection operation detection result of the target inspection personnel at the current equipment based on the code scanning authenticity detection information and the personnel movement detection information of the target inspection personnel acquired after the received two-dimensional code information of the current equipment.
Further, the movement sensing data includes: direction sensing data;
correspondingly, the code scanning detection module comprises: a direction detection unit for performing the following:
determining target direction information according to pre-stored setting position information of a two-dimensional code image of the current device, wherein the target direction information comprises: a horizontal or vertical direction;
judging whether the direction information corresponding to the direction sensing data is the same as the target direction information or not;
if yes, generating first direction detection information for indicating that the code scanning direction of the target inspection personnel at the current equipment corresponds to the setting position of the two-dimensional code image;
if not, generating second direction detection information for indicating that the code scanning direction of the target inspection personnel at the current equipment does not correspond to the setting position of the two-dimensional code image;
and adding the unique identifier of the current equipment and the corresponding first direction detection information or the second direction detection information into the code scanning authenticity detection information.
Further, the code scanning detection module further comprises: an inclination angle detection unit for performing the following:
determining a target inclination angle range according to pre-stored setting position information of a two-dimensional code image of the current equipment;
judging whether the inclination angle corresponding to the direction sensing data is within the target inclination angle range;
if so, generating first inclination angle detection information for indicating that the code scanning inclination angle of the target inspection personnel at the current equipment corresponds to the setting position of the two-dimensional code image;
if not, generating second inclination angle detection information for indicating that the code scanning inclination angle of the target inspection personnel at the current equipment does not correspond to the setting position of the two-dimensional code image;
and adding the unique identifier of the current equipment and the corresponding first inclination angle detection information or the second inclination angle detection information into the code scanning authenticity detection information.
Further, the movement sensing data includes: rotating the sensing data;
correspondingly, the code scanning detection module comprises: a rotation detection unit for performing the following:
judging whether the rotation sensing data corresponds to a rotation angle or not;
if so, generating first rotation detection information for indicating that the target inspection personnel rotates the mobile terminal;
if not, generating second rotation detection information for indicating that the target inspection personnel does not rotate the mobile terminal;
and adding the unique identifier of the current equipment and the corresponding first rotation detection information or the second rotation detection information into the code scanning authenticity detection information.
Further, the movement sensing data includes: respectively acquiring two pieces of acceleration sensing data separated by preset time;
correspondingly, the code scanning detection module comprises: a shake detection unit for performing the following:
acquiring a difference value between the two pieces of acceleration sensing data;
judging whether the difference value between the two acceleration sensing data is larger than an acceleration threshold value or not;
if so, generating first shaking detection information for indicating that the user terminal of the target inspection personnel shakes;
if not, generating second shaking detection information for indicating that the user terminal of the target patrol personnel does not shake;
and adding the unique identifier of the current equipment and the corresponding first shaking detection information or the second shaking detection information into the code scanning authenticity detection information.
Further, the data acquisition module is specifically configured to execute the following:
if a two-dimensional code scanning function starting message of the mobile terminal of the target inspection personnel is received, and/or if a personnel approach signal acquired by a human body approach sensor arranged at the current equipment is received, judging that the target inspection personnel reaches the current equipment in the inspection path;
and continuously receiving mobile sensing data collected by a sensor arranged at the mobile terminal of the target inspection personnel at preset time intervals, and stopping receiving the mobile sensing data until receiving the two-dimensional code information of the current equipment sent by the mobile terminal of the target inspection personnel.
Further, still include: a trajectory detection module to perform the following:
receiving two-dimensional code information of the current equipment sent by a mobile terminal of the target inspection personnel;
respectively acquiring pre-stored position information of the current equipment and position information of the previous equipment in the routing inspection path according to the two-dimension code information of the current equipment, and acquiring GPS track information of the mobile terminal from the previous equipment to the current equipment;
judging whether the starting node of the GPS track information is the same as the position information of the previous equipment or not, and judging whether the ending node of the GPS track information is the same as the position information of the current equipment or not;
if the starting node is the same as the position information of the previous equipment and the ending node is the same as the position information of the current equipment, generating first track detection information which is used for indicating that the routing inspection track of the target routing inspection personnel corresponds to a preset track;
if the starting node and the last equipment have different position information and/or the ending node and the current equipment have different position information, generating second track detection information for indicating that the routing inspection track of the target routing inspection personnel does not correspond to a preset track;
and adding the unique identifier of the current equipment and the corresponding first track detection information or the second track detection information into the personnel movement detection information.
Further, still include: a time-consuming detection module to perform:
receiving two-dimensional code information of the current equipment sent by a mobile terminal of the target inspection personnel;
acquiring the consumed time and the newly added counting steps of the mobile terminal from the previous equipment to the current equipment;
generating the current patrol score of the target patrol inspector according to the consumed duration and the newly added step count;
and adding the unique identifier of the current equipment and the corresponding patrol score into the personnel movement detection information.
Further, the elapsed time detection module comprises: an insensible patrol authentication unit for performing the following:
generating the current patrol score of the target patrol inspector according to the consumed duration and the newly added step count by applying a preset non-inductive patrol authentication formula;
the non-inductive patrol authentication formula is used for expressing the corresponding relation between the sum result of the time parameter and the step number parameter and the patrol score;
the time parameter is obtained based on the consumed time and a preset dynamic assignment, the step number parameter is obtained based on the newly added step counting number and the average step number, and the average step number is obtained based on the newly added step counting number and the consumed time.
In a third aspect, the present application provides an electronic device, including a memory, a processor, and a computer program stored in the memory and executable on the processor, wherein the processor implements the method for detecting the device polling operation when executing the program.
In a fourth aspect, the present application provides a computer-readable storage medium having stored thereon a computer program which, when executed by a processor, implements the method of detecting a device inspection job.
According to the technical scheme, the detection method and the detection device for the equipment inspection operation, which are provided by the application, comprise the following steps: if the target inspection personnel with the mobile terminal is detected to reach the current equipment in the inspection path, periodically acquiring the mobile sensing data of the mobile terminal until the two-dimensional code information of the current equipment sent by the mobile terminal is received; generating code scanning authenticity detection information for indicating whether the target inspection personnel carries out field code scanning at the current equipment or not according to a comparison result between the mobile sensing data and the corresponding preset conditions; based on sweep a yard authenticity detection information and obtain behind the two-dimensional code information of received current equipment the personnel of target inspection personnel remove the detection information, generate the target inspection personnel is in the operation testing result of patrolling and examining of current equipment department, can effectively detect the yard authenticity of sweeping of the equipment department of inspection personnel in patrolling and examining the route to can realize sweeping yard authenticity and the acquisition of the personnel removal situation of patrolling and examining simultaneously, can effectively improve the authenticity and the reliability that equipment patrols and examines the operation and detect, and then can effectively improve and be patrolled and examined the security and the reliability that equipment deposited or operated.
Drawings
In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.
Fig. 1 is a schematic flow chart of a detection method of equipment inspection work in the embodiment of the present application.
Fig. 2 is a first specific flowchart of step 200 in the method for detecting the device inspection operation in the embodiment of the present application.
Fig. 3 is a second specific flowchart of step 200 in the method for detecting device inspection work in the embodiment of the present application.
Fig. 4 is a third specific flowchart of step 200 in the method for detecting the device inspection operation in the embodiment of the present application.
Fig. 5 is a fourth specific flowchart of step 200 in the method for detecting device inspection work in the embodiment of the present application.
Fig. 6 is a schematic specific flowchart of step 100 in the method for detecting the device inspection work in the embodiment of the present application.
Fig. 7 is a schematic specific flowchart of steps 011 to 016 in the method for detecting device inspection in the embodiment of the present application.
Fig. 8 is a schematic specific flowchart of steps 021 to 024 in the detection method for equipment inspection operation in the embodiment of the present application.
Fig. 9 is a logic diagram of a detection system for equipment inspection work according to an application example of the present application.
Fig. 10 is a logic diagram for detecting and determining inspection work of the device according to the application example of the present application.
Fig. 11 is a flowchart of an non-inductive patrol authentication algorithm provided in an application example of the present application.
Fig. 12 is a first configuration diagram of the inspection device for equipment inspection work in the embodiment of the present application.
Fig. 13 is a schematic structural diagram of a code scanning detection module in the detection apparatus for equipment inspection work in the embodiment of the present application.
Fig. 14 is a second configuration diagram of the inspection device for equipment inspection work in the embodiment of the present application.
Fig. 15 is a third schematic structural diagram of the inspection device for equipment inspection work in the embodiment of the present application.
Fig. 16 is a schematic structural diagram of a specific time consumption detection module in the detection apparatus for equipment inspection work in the embodiment of the present application.
Fig. 17 is a schematic structural diagram of an electronic device in the embodiment of the present application.
Detailed Description
In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.
The patrol and management of security equipment of large enterprises are always high in cost and low in efficiency. In the past, security departments of enterprises have manually recorded security personnel after completing patrols, and confirmed the conditions of all patrolling points in a mode of regularly summarizing record lists. And manual recording has the following problems:
the first disadvantage is that: the reliability is low. When the enterprise has more organizations and more security personnel, the inspection quality and the registration accuracy of all the people cannot be ensured.
The second disadvantage is that: the timeliness is low. When the mechanism level is more, statistics and reports are required layer by layer, and the safety management department of the headquarters of the mechanism is difficult to know the patrol condition at the first time. Thereby generating great potential safety hazard.
The third disadvantage is that: the workload is large. After the patrol, the phenomena of omission and wrong check are easy to occur, and finally the patrol is caused again, so that the workload is increased.
Therefore, firstly, a detection mode of equipment inspection operation realized by a mobile APP code scanning technology and a map positioning technology is provided based on the problems, security personnel record inspection information in a code scanning mode, and a background acquisition mobile end sensor improves accuracy and timeliness. The existing card-punching app carries out patrol of security personnel by scanning/photographing and positioning two-dimensional codes. However, with the appearance of the substitute card punching tool and the existence of objective and objective reasons that the two-dimensional code image on the equipment can be photographed and stored in advance, the effectiveness of the equipment inspection method can not be guaranteed any more by detecting whether the inspection personnel really performs the equipment inspection through code scanning.
Based on this, in view of the problem that the inspection operation detection result is inaccurate due to code scanning cheating of an inspector in the inspection process, the application provides embodiments of a detection method of equipment inspection operation, a detection device of equipment inspection operation, electronic equipment and a computer readable storage medium respectively, if it is detected that a target inspector with a mobile terminal reaches a current equipment in an inspection path, mobile sensing data of the mobile terminal are periodically collected until two-dimensional code information of the current equipment sent by the mobile terminal is received; generating code scanning authenticity detection information for indicating whether the target inspection personnel carries out field code scanning at the current equipment or not according to a comparison result between the mobile sensing data and the corresponding preset conditions; based on sweep a yard authenticity detection information and obtain behind the two-dimensional code information of received current equipment the personnel of target inspection personnel remove the detection information, generate the target inspection personnel is in the operation testing result of patrolling and examining of current equipment department, can effectively detect the yard authenticity of sweeping of the equipment department of inspection personnel in patrolling and examining the route to can realize sweeping yard authenticity and the acquisition of the personnel removal situation of patrolling and examining simultaneously, can effectively improve the authenticity and the reliability that equipment patrols and examines the operation and detect, and then can effectively improve and be patrolled and examined the security and the reliability that equipment deposited or operated.
In one or more embodiments of the present application, a satellite positioning technology is a technology for performing point location measurement by using an artificial earth satellite, and it is realized that 4 satellites can be observed at any time and any point on the earth at the same time, so as to implement functions of navigation, positioning, and the like.
In one or more embodiments of the present application, the two-dimensional code technology is a pattern that is distributed on a plane (in two-dimensional directions) according to a certain rule by using a certain specific geometric figure, is black and white, and records data symbol information; the concept of '0' and '1' bit stream which forms the internal logic base of computer is skillfully utilized in coding, a plurality of geometric shapes corresponding to binary system are used for representing literal numerical information, and the information is automatically read by an image input device or an optoelectronic scanning device so as to realize the automatic processing of the information: it has some commonality of barcode technology: each code system has its specific character set; each character occupies a certain width; has certain checking function and the like. Meanwhile, the method also has the function of automatically identifying information of different rows and processing the graph rotation change points.
In order to solve the problem that the inspection result of the inspection operation is inaccurate due to code scanning cheating of an inspection worker in the inspection process, the application provides an embodiment of a detection method of the equipment inspection operation, and referring to fig. 1, the detection method of the equipment inspection operation specifically comprises the following contents:
step 100: and if the target inspection personnel with the mobile terminal is detected to reach the current equipment in the inspection path, periodically acquiring the mobile sensing data of the mobile terminal until the two-dimensional code information of the current equipment sent by the mobile terminal is received.
In step 100, when the patrolman patrols the equipment, the patrolman can scan the two-dimensional code of the equipment by using the security patrol code scanning function on the mobile terminal (for example, a mobile phone) APP, and after the code scanning function of the system is opened, the background can cyclically acquire mobile sensing data every 2000 ms. It can be understood that, when the enterprise organization is more, under the more circumstances of security personnel, can guarantee the authenticity of patrolling through sweeping the sign indicating number mode, assist and can also avoid the circumstances such as replacing the post with the authentication mode of enterprise, geographical positioning information can guarantee the position unification nature of equipment and people, avoids subsides sign indicating number and equipment separation.
Step 200: and generating code scanning authenticity detection information for indicating whether the target inspection personnel scans the codes on site at the current equipment currently according to the comparison result between the mobile sensing data and the corresponding preset conditions.
Step 300: and generating a patrol operation detection result of the target patrol inspection personnel at the current equipment based on the code scanning authenticity detection information and the personnel movement detection information of the target patrol inspection personnel acquired after the received two-dimensional code information of the current equipment.
It can be understood that, after the inspection operation detection result corresponding to the original current device is obtained, the original current device in the inspection path may be switched to the previous device, and the next device of the original current device may be switched to the current device, and then the step 100 is returned to perform the inspection operation detection of the next device in the inspection path.
According to the detection method for the equipment inspection operation, the code scanning authenticity of the inspection personnel at the equipment in the inspection path can be effectively detected, the code scanning authenticity and the acquisition of the moving situation of the inspection personnel can be simultaneously realized, the authenticity and the reliability of the equipment inspection operation detection can be effectively improved, and the safety and the reliability of the storage or the operation of the inspected equipment can be effectively improved.
In order to further improve the validity of the code scanning authenticity detection through direction detection, in an embodiment of the detection method for device inspection work provided by the present application, the mobile sensing data includes: referring to fig. 2, the step 200 of the method for detecting the device inspection operation specifically includes the following steps:
step 211: determining target direction information according to pre-stored setting position information of a two-dimensional code image of the current device, wherein the target direction information comprises: a horizontal or vertical direction;
step 212: judging whether the direction information corresponding to the direction sensing data is the same as the target direction information or not; if so, go to step 213, otherwise go to step 214.
Step 213: and generating first direction detection information which is used for indicating that the code scanning direction of the target inspection personnel at the current equipment corresponds to the setting position of the two-dimensional code image.
Step 214: and generating second direction detection information which is used for indicating that the code scanning direction of the target inspection personnel at the current equipment does not correspond to the setting position of the two-dimensional code image.
Step 215: and adding the unique identifier of the current equipment and the corresponding first direction detection information or the second direction detection information into the code scanning authenticity detection information.
According to the detection method for the equipment inspection operation, the inspection personnel can effectively detect the using direction of the mobile terminal held by the equipment in the code scanning process of the equipment, the reliability and the efficiency of the detection process are high, and the authenticity, the reliability and the efficiency of the equipment inspection operation detection can be effectively improved.
In order to further improve the validity of code scanning authenticity detection through inclination angle detection, in an embodiment of the detection method for equipment inspection work provided by the application, the mobile sensing data includes: referring to fig. 3, the step 200 of the method for detecting a device inspection operation may further include the following steps:
step 221: and determining a target inclination angle range according to the pre-stored setting position information of the two-dimensional code image of the current equipment.
Step 222: and judging whether the inclination angle corresponding to the direction sensing data is within the target inclination angle range.
If yes, go to step 223; if not, go to step 224.
Step 223: and generating first inclination angle detection information which is used for indicating that the code scanning inclination angle of the target inspection personnel at the current equipment corresponds to the setting position of the two-dimensional code image.
Step 224: and generating second inclination angle detection information which is used for indicating that the code scanning inclination angle of the target inspection personnel at the current equipment does not correspond to the setting position of the two-dimensional code image.
Step 225: and adding the unique identifier of the current equipment and the corresponding first inclination angle detection information or the second inclination angle detection information into the code scanning authenticity detection information.
According to the detection method for the equipment inspection operation, the inclination angle of the mobile terminal held by the inspection personnel can be effectively detected in the code scanning process of the equipment by the inspection personnel, the reliability and the efficiency of the detection process are high, and the authenticity, the reliability and the efficiency of the equipment inspection operation detection can be further effectively improved.
In order to further improve the validity of code scanning authenticity detection through inclination angle detection, in an embodiment of the detection method for equipment inspection work provided by the application, the mobile sensing data includes: referring to fig. 4, the step 200 of the method for detecting inspection work of equipment may further include the following steps:
step 231: judging whether the rotation sensing data corresponds to a rotation angle or not; if yes, go to step 232, otherwise go to step 233.
Step 232: and generating first rotation detection information for indicating that the target inspection personnel rotates the mobile terminal.
Step 233: and generating second rotation detection information for indicating that the target inspection personnel does not rotate the mobile terminal.
Step 234: and adding the unique identifier of the current equipment and the corresponding first rotation detection information or the second rotation detection information into the code scanning authenticity detection information.
According to the detection method for the equipment inspection operation, whether the mobile terminal held by the inspection personnel rotates or not in the process of scanning the code of the equipment can be effectively detected by the inspection personnel, the reliability and the efficiency of the detection process are high, and the authenticity, the reliability and the efficiency of the equipment inspection operation detection can be further effectively improved.
In order to further improve the validity of code scanning authenticity detection through acceleration difference detection, in an embodiment of the detection method for device inspection work provided by the present application, the mobile sensing data includes: referring to fig. 5, the step 200 of the method for detecting inspection work of equipment may further include the following steps:
step 241: and acquiring a difference value between the two pieces of acceleration sensing data.
Step 242: judging whether the difference value between the two acceleration sensing data is larger than an acceleration threshold value or not; if yes, go to step 243, otherwise go to step 244.
Step 243: and generating first shaking detection information for indicating that the user terminal of the target inspection personnel shakes.
Step 244: and generating second shaking detection information for indicating that the user terminal of the target patrol personnel does not shake.
Step 245: and adding the unique identifier of the current equipment and the corresponding first shaking detection information or the second shaking detection information into the code scanning authenticity detection information.
It is understood that the mobile terminals mentioned in one or more embodiments of the present application may be mobile phones, and the mobile sensing data mentioned in one or more embodiments of the present application may be received from a sensor component configured in the mobile phone itself; for example, the direction sensing information and the inclination angle sensing information may be obtained by a direction sensor in a mobile phone, the rotation sensing information may be obtained by a gyro sensor in the mobile phone, and the acceleration sensing information may be obtained by an acceleration sensor and a gravitational acceleration sensor in the mobile phone.
It is understood that the four specific implementations of the step 200 respectively mentioned in the above embodiments of the present application may be executed individually, or all of them, or only any two or three of them may be executed, and the specific execution type and number may be selected according to the setting of the sensor in the mobile phone and the data communication amount in the practical application.
According to the detection method for the equipment inspection operation, whether the inspection personnel shake the mobile terminal held by the equipment in the code scanning process of the equipment can be effectively detected, the reliability and efficiency of the detection process are high, and the authenticity, reliability and efficiency of the equipment inspection operation detection can be further effectively improved.
In order to improve the sensitivity of mobile sensing data acquisition, in an embodiment of the method for detecting a device inspection operation provided by the present application, referring to fig. 6, step 100 in the method for detecting a device inspection operation specifically includes the following contents:
step 110: and if a two-dimensional code scanning function starting message of the mobile terminal of the target inspection personnel is received, and/or if a personnel approach signal acquired by a human body approach sensor arranged at the current equipment is received, judging that the target inspection personnel reaches the current equipment in the inspection path.
It can be understood that the human body proximity sensor is based on the Doppler technical principle, adopts a special microwave microprocessor, a planar induction antenna and components, has high detection sensitivity, wide detection range and very reliable work, generally has no false alarm, can stably work within the temperature range of-15 to +60 ℃, is incomparable with an alarm circuit consisting of infrared rays, ultrasonic waves and pyroelectric elements and a conventional microwave circuit, and is a common product for safety precaution and automatic monitoring at present.
Step 120: and continuously receiving mobile sensing data collected by a sensor arranged at the mobile terminal of the target inspection personnel at preset time intervals, and stopping receiving the mobile sensing data until receiving the two-dimensional code information of the current equipment sent by the mobile terminal of the target inspection personnel.
According to the detection method for the equipment inspection operation, the sensitivity, the accuracy and the timeliness of mobile sensing data acquisition can be effectively improved, so that accurate and effective data base can be improved for subsequent inspection personnel to scan code authenticity detection, and the efficiency of code authenticity detection of the inspection personnel can be further improved.
In order to improve the effectiveness of the person movement detection information through trajectory detection, in an embodiment of the method for detecting a device inspection job provided by the present application, referring to fig. 7, the method for detecting a device inspection job further includes the following steps after step 200 and before step 300:
step 011: receiving two-dimensional code information of the current equipment sent by a mobile terminal of the target inspection personnel;
step 012: according to the two-dimension code information of the current equipment, the position information of the current equipment and the position information of the previous equipment in the routing inspection path are respectively acquired, and the GPS track information of the mobile terminal from the previous equipment to the current equipment is acquired.
Step 013: and judging whether the starting node of the GPS track information is the same as the position information of the previous equipment or not, and judging whether the ending node of the GPS track information is the same as the position information of the current equipment or not.
Step 014: and if the position information of the starting node is the same as that of the previous equipment and the position information of the ending node is the same as that of the current equipment, generating first track detection information which is used for indicating that the routing inspection track of the target routing inspection personnel corresponds to a preset track.
Step 015: and if the starting node and the last equipment have different position information and/or the ending node and the current equipment have different position information, generating second track detection information for indicating that the routing inspection track of the target routing inspection personnel does not correspond to a preset track.
Step 016: and adding the unique identifier of the current equipment and the corresponding first track detection information or the second track detection information into the personnel movement detection information.
According to the detection method for the equipment inspection operation, the detection of the authenticity of the moving track of the inspection personnel can be further detected on the basis of code scanning authenticity detection, the authenticity and the reliability of the equipment inspection operation detection can be effectively improved, and the safety and the reliability of storage or operation of the inspected equipment can be effectively improved.
In order to improve the effectiveness of the personnel movement detection information through time consumption detection, in an embodiment of the detection method for the equipment inspection work provided by the present application, referring to fig. 8, the following contents are further specifically included after step 200 and before step 300 in the detection method for the equipment inspection work:
step 021: receiving two-dimensional code information of the current equipment sent by a mobile terminal of the target inspection personnel;
step 022: acquiring the consumed time and the newly added counting steps of the mobile terminal from the previous equipment to the current equipment;
step 023: generating the current patrol score of the target patrol inspector according to the consumed duration and the newly added step count;
and 024: and adding the unique identifier of the current equipment and the corresponding patrol score into the personnel movement detection information.
According to the detection method for the equipment inspection operation, the inspection personnel can further detect the detection of the time-consuming authenticity of the inspection personnel on the basis of code scanning authenticity detection, the authenticity and the reliability of the equipment inspection operation detection can be effectively improved, and the safety and the reliability of storage or operation of the inspected equipment can be effectively improved.
In addition, the embodiment of the present application further designs an insensible patrol authentication algorithm for verifying the patrol work, so as to ensure effective implementation of the patrol work and comprehensively improve the patrol level of security equipment of an enterprise, and specifically, in an embodiment of the method for detecting the equipment patrol work provided by the present application, the step 023 in the method for detecting the equipment patrol work specifically includes the following contents:
and generating the current patrol score of the target patrol inspector according to the consumed duration and the newly added step count by using a preset non-inductive patrol authentication formula.
The non-inductive patrol authentication formula is used for expressing the corresponding relation between the sum result of the time parameter and the step number parameter and the patrol score; the time parameter is obtained based on the consumed time and a preset dynamic assignment, the step number parameter is obtained based on the newly added step counting number and the average step number, and the average step number is obtained based on the newly added step counting number and the consumed time.
From the above description, the detection method for the equipment inspection operation provided by the embodiment of the application can reduce the workload and the work influence on the inspection personnel on the basis of effectively improving the authenticity and the reliability of the equipment inspection operation detection through the application of the non-inductive inspection authentication mode, and can effectively improve the user experience of the inspection personnel.
In order to further explain the scheme, the application also provides a specific application example of the detection method for the equipment inspection operation, which is realized by the detection system for the equipment inspection operation. The inspection mode can ensure the accuracy of inspection and the timeliness of data reporting, and strengthen the monitoring of security personnel.
The logic diagram of the detection system for the equipment inspection operation is shown in fig. 9 and comprises a website security inspection management page, a mobile phone APP, a server entrance, a website security inspection client and qualified national centers of a cluster server. The website safety inspection client protects the dual-computer hot standby load balancing equipment, the cluster server comprises a load balancing server 1 and a load balancing server n, and n is a positive integer greater than 1. The national center comprises a Shandong center, a Hubei center, an Anhui center and the like, and the Shandong center comprises a platform special server of a business department and a special server of a jujube village; the Hubei center comprises a platform special server of a business department (M + N) and a special server of Huzhou; the Anhui center comprises a platform special server of a business department, a platform special server of Anhui and the like. Wherein M and N respectively represent the number of the central business offices in Hubei province.
The detection method for equipment inspection operation provided by the application example specifically comprises the following contents:
s1: and generating a unique two-dimensional code identifier for each piece of equipment to be patrolled, and rating and setting the time consumption of normal inspection of the patrolling equipment according to the complexity of the equipment.
S2: when security personnel patrol the equipment, a security patrol code scanning function on the mobile phone APP is used, the two-dimensional code of the equipment is scanned, after the code scanning function is opened, the sensor data are circularly acquired by the background every 2000ms, the use direction of the mobile phone is judged, and whether the shaking amplitude (vertical swinging is 25 degrees) of the mobile phone accords with a normal scanning behavior or not is judged. Examples are: the two-dimensional code of the device is attached to the stand column, the two-dimensional code scanned by a normal mobile phone is in a vertical state accompanied by slight shaking, and if the data of the sensor is checked to be unchanged or checked to be in a flat state by a background, the two-dimensional code is probably false data sent by a simulator.
Taking an android client as an example, an SDK (Software Development Kit) can provide 11 kinds of sensor information. The mobile information in this application example includes direction information, inclination information, rotation information, acceleration of gravity information, wherein, direction information and inclination information can acquire through direction sensor, and rotation information can acquire through gyroscope sensor, and acceleration of gravity information can acquire through acceleration sensor and acceleration of gravity sensor, but because the existence of gravity, when the mobile device is static when putting on the desktop, acceleration sensor also has data acquisition. Therefore, whether the mobile phone shakes to a certain extent or not can be judged according to the change of the acceleration.
And (3) solving the difference value of the acceleration at a short time interval, comparing the difference value with a preset shaking detection threshold value K, and if the difference value is greater than the threshold value K, determining whether the mobile phone shakes to a certain degree or not, so that the normal code scanning behavior is met. The smaller the shake detection threshold K is, the higher the sensitivity to shake is. Assuming that the mobile device is taken as the origin of the space coordinate system, deltaX, deltaY, deltaZ respectively represent the acceleration difference of the mobile device on the X-axis Y-axis Z-axis. Since the acceleration is a vector, the square-opening process can be performed by using the sqrt () function in the math function in Java, and specifically, the acceleration change D can be calculated by the following formula (1):
D=Math.sqrt(deltaX*deltaX+deltaY*deltaY+deltaZ*deltaZ) (1)
in formula (1), if the acceleration difference D is greater than the shake detection threshold K, it is determined that the mobile device has normal shake, where "+" in formula (1) represents multiplication, and deltaX is obtained by squaring deltaX. And whether the code scanning behavior accords with normal logic or not is judged by processing the data information of the acceleration sensor, so that the effective implementation of the patrol work is further ensured.
S3: and after the two-dimensional code is scanned, downloading the geographic position information of the equipment and the normal inspection time.
S4: gather direction sensor, pedometer, location data, combine the time stamp to patrol and examine the data check, specifically include as follows:
1) checking whether the track between the position of the device and the previous device conforms to the acquired data; and then acquiring a starting point and an end point of the inspection, comparing the positions of the two points with the downloaded actual geographic position, for example, acquiring a GPS walking track by using an android using a Baidu map API, and comparing whether the GPS walking track is consistent with the starting point and the end point of the inspection.
2) And (3) checking whether the consumption time of the normal route plus the normal inspection time is within a threshold value by applying a formula (2).
Formula (2) is a calculation formula of the non-inductive patrol authentication algorithm:
Figure BDA0002529695190000181
in the formula (2), ρ and γ are weighting factors, and the sum of these is 1. A represents the number of devices rated a,
Figure BDA0002529695190000191
presentation ratingAverage length of time required for equipment patrol for a. B.
Figure BDA0002529695190000192
C、
Figure BDA0002529695190000196
Similarly. And rho and gamma initialization assignment can be dynamically adjusted according to actual requirements.
Figure BDA0002529695190000194
The initial assignment of the walking steps of the patrol work can record the index data through the trial operation stage, and the average value is taken for assignment. Wherein,
Figure BDA0002529695190000195
and the total time length of patrol required by various devices under the theoretical condition is shown. And comparing the time with the actual patrol duration, and judging the patrol working quality by taking the time as a dimension. If the actual patrol time is short without careful inspection, the calculation result of the formula G is low.
When the patrol work is finished and the calculation score G of the non-inductive patrol authentication algorithm is more than or equal to 0.6, the patrol work meets the requirements, and the uploaded patrol data has high availability. And when the score G is less than 0.6, prompting inspection staff to check the work flow and whether to continue uploading data or not.
After the inspection operation detection result of the target inspection personnel at the current equipment is obtained, a detection judgment logic process shown in fig. 10 can be included, namely whether the next equipment exists in the current inspection path is judged, if yes, information of equipment code scanning performed by the inspection personnel after the inspection is started is received, and if not, the inspection is finished; after the equipment scans the codes, scanning information is acquired, positioning acquisition is carried out, and then data is uploaded.
S5: and (5) patrolling the next device until the code scanning information of all the devices is uploaded.
S6: and calculating the availability of the patrol data according to the patrol working duration, the patrol equipment rating and the patrol working motion trail by a non-inductive patrol algorithm. And after the availability reaches the standard, the data can be uploaded in a summary way. And feeding back prompt information to the inspection staff to determine whether to upload the information when the information does not reach the standard. A flowchart of the non-inductive patrol authentication algorithm is shown in fig. 11.
S7: the data is sent to the central database node, and the upper management personnel can check the patrol content in time.
S8: the data is sent to each sub-node of the enterprise, and each node can be connected with local conditions.
From the above description, the detection method for the equipment inspection operation provided by the embodiment of the application utilizes the mobile phone APP to increase the realization of the inspection of the security equipment, and simultaneously, designs the non-inductive inspection authentication algorithm to ensure the effective implementation of the inspection work, ensures the usability of the inspection data, and provides a convenient, efficient and safe mobile inspection method. The specific effects are discussed as follows:
1) the reliability is high. When enterprise organization is more, under the more circumstances of security personnel, can guarantee the authenticity of patrolling through sweeping the sign indicating number mode, assist and can also avoid the circumstances such as replacing the post with the authentication mode of enterprise, geographical positioning information can guarantee the position unification nature of equipment and people, avoids subsides sign indicating number and equipment separation.
2) And establishing a non-inductive patrol algorithm by taking the complexity of equipment patrol work, the patrol time of each equipment, the total patrol work time and the like as influence factors, evaluating the availability of patrol data, and if the availability is low after the algorithm evaluation, continuing to carry out patrol work to ensure the availability of the patrol data. The effective implementation of the patrol work is ensured, and the potential safety hazard is further reduced.
3) The timeliness is high. The scanned data is reported to a background system in time, and superior management personnel can check the patrol condition in a multi-dimensional way from detail to summary.
4) The workload is small. The patrol condition can be accurately known according to the reported data, and the automatic check function is assisted, so that the patrol condition can be timely found and timely repaired according to the reported data even if the missed check condition occurs, and the recheck cost is greatly reduced.
5) The cost is low. The code scanning mode uses the mobile phone of the security personnel, and extra equipment purchasing cost for enterprises is avoided.
In terms of software, in order to solve the problem that the inspection result of the inspection operation is inaccurate due to code scanning cheating of an inspector in the inspection process, the application provides an embodiment of a device inspection operation detection apparatus for implementing all or part of the content in the device inspection operation detection method, and referring to fig. 12, the device inspection operation detection apparatus specifically includes the following content:
the data acquisition module 10 is configured to periodically acquire the mobile sensing data of the mobile terminal until receiving the two-dimensional code information of the current device sent by the mobile terminal, if it is detected that a target inspection worker with the mobile terminal has reached the current device in the inspection path.
And the code scanning detection module 20 is configured to generate code scanning authenticity detection information used for indicating whether the target inspection staff performs field code scanning at the current equipment currently according to a comparison result between the mobile sensing data and the corresponding preset conditions.
And the operation detection result generation module 30 is used for generating the inspection operation detection result of the target inspection personnel at the current equipment based on the code scanning authenticity detection information and the personnel movement detection information of the target inspection personnel acquired after the received two-dimensional code information of the current equipment.
According to the detection device for the equipment inspection operation, the code scanning authenticity of the inspection personnel at the equipment in the inspection path can be effectively detected, the code scanning authenticity and the acquisition of the moving situation of the inspection personnel can be simultaneously realized, the authenticity and the reliability of the equipment inspection operation detection can be effectively improved, and the safety and the reliability of the storage or the operation of the inspection equipment can be effectively improved.
In order to further improve the effectiveness of the code scanning authenticity detection through direction detection, in an embodiment of the detection apparatus for equipment inspection work provided by the present application, the mobile sensing data includes: direction sensing data, referring to fig. 13, the code scanning detection module 20 of the detection apparatus for the equipment inspection work includes: a direction detection unit 21, the direction detection unit 21 being configured to perform the following:
determining target direction information according to pre-stored setting position information of a two-dimensional code image of the current device, wherein the target direction information comprises: a horizontal or vertical direction; judging whether the direction information corresponding to the direction sensing data is the same as the target direction information or not;
if yes, generating first direction detection information for indicating that the code scanning direction of the target inspection personnel at the current equipment corresponds to the setting position of the two-dimensional code image;
if not, generating second direction detection information for indicating that the code scanning direction of the target inspection personnel at the current equipment does not correspond to the setting position of the two-dimensional code image;
and adding the unique identifier of the current equipment and the corresponding first direction detection information or the second direction detection information into the code scanning authenticity detection information.
According to the detection device for the equipment inspection operation, the inspection personnel can effectively detect the using direction of the mobile terminal held by the equipment in the process of scanning codes of the equipment, the reliability and efficiency of the detection process are high, and the authenticity, reliability and efficiency of the equipment inspection operation detection can be effectively improved.
In order to further improve the validity of code scanning authenticity detection through inclination angle detection, in an embodiment of the detection device for equipment inspection work provided by the application, the mobile sensing data comprises: the direction sensing data, referring to fig. 13, the code scanning detection module 20 in the detection device for the equipment inspection work further includes: a tilt angle detection unit 22, the tilt angle detection unit 22 being configured to perform:
determining a target inclination angle range according to pre-stored setting position information of a two-dimensional code image of the current equipment;
judging whether the inclination angle corresponding to the direction sensing data is within the target inclination angle range;
if so, generating first inclination angle detection information for indicating that the code scanning inclination angle of the target inspection personnel at the current equipment corresponds to the setting position of the two-dimensional code image;
if not, generating second inclination angle detection information for indicating that the code scanning inclination angle of the target inspection personnel at the current equipment does not correspond to the setting position of the two-dimensional code image;
and adding the unique identifier of the current equipment and the corresponding first inclination angle detection information or the second inclination angle detection information into the code scanning authenticity detection information.
According to the detection device for the equipment inspection operation, the inclination angle of the mobile terminal held by the inspection personnel can be effectively detected in the process of scanning codes for the equipment by the inspection personnel, the reliability and efficiency of the detection process are high, and the authenticity, reliability and efficiency of the equipment inspection operation detection can be further effectively improved.
In order to further improve the validity of code scanning authenticity detection through inclination angle detection, in an embodiment of the detection device for equipment inspection work provided by the application, the mobile sensing data comprises: the code scanning detection module 20 in the detection apparatus for the equipment inspection work, referring to fig. 13, includes: a rotation detection unit 23, the rotation detection unit 23 being configured to perform:
judging whether the rotation sensing data corresponds to a rotation angle or not;
if so, generating first rotation detection information for indicating that the target inspection personnel rotates the mobile terminal;
if not, generating second rotation detection information for indicating that the target inspection personnel does not rotate the mobile terminal;
and adding the unique identifier of the current equipment and the corresponding first rotation detection information or the second rotation detection information into the code scanning authenticity detection information.
According to the detection device for the equipment inspection operation, whether the inspection personnel rotate the mobile terminal held by the equipment in the code scanning process can be effectively detected, the reliability and efficiency of the detection process are high, and the authenticity, reliability and efficiency of the equipment inspection operation detection can be further effectively improved.
In order to further improve the effectiveness of code scanning authenticity detection through acceleration difference detection, in an embodiment of the detection apparatus for equipment inspection work provided by the present application, the mobile sensing data includes: referring to fig. 13, the two acceleration sensing data acquired separately at a predetermined time interval, in the detection apparatus for the equipment inspection work, the code scanning detection module 20 includes: a shake detection unit 24, the shake detection unit 24 being configured to perform:
acquiring a difference value between the two pieces of acceleration sensing data;
judging whether the difference value between the two acceleration sensing data is larger than an acceleration threshold value or not;
if so, generating first shaking detection information for indicating that the user terminal of the target inspection personnel shakes;
if not, generating second shaking detection information for indicating that the user terminal of the target patrol personnel does not shake;
and adding the unique identifier of the current equipment and the corresponding first shaking detection information or the second shaking detection information into the code scanning authenticity detection information.
According to the detection device for the equipment inspection operation, whether the inspection personnel shake the mobile terminal held by the equipment in the code scanning process can be effectively detected, the reliability and efficiency of the detection process are high, and the authenticity, reliability and efficiency of the equipment inspection operation detection can be further effectively improved.
In order to improve the sensitivity of mobile sensing data acquisition, in an embodiment of the detection apparatus for device inspection work provided in the present application, a data acquisition module in the detection apparatus for device inspection work is specifically configured to perform the following:
if a two-dimensional code scanning function starting message of the mobile terminal of the target inspection personnel is received, and/or if a personnel approach signal acquired by a human body approach sensor arranged at the current equipment is received, judging that the target inspection personnel reaches the current equipment in the inspection path;
and continuously receiving mobile sensing data collected by a sensor arranged at the mobile terminal of the target inspection personnel at preset time intervals, and stopping receiving the mobile sensing data until receiving the two-dimensional code information of the current equipment sent by the mobile terminal of the target inspection personnel.
According to the detection device for the equipment inspection operation, the sensitivity, the accuracy and the timeliness of the mobile sensing data acquisition can be effectively improved, and then the code authenticity detection can be improved for follow-up inspection personnel on the basis of accurate and effective data, and the code authenticity detection efficiency of the inspection personnel can be further improved.
In order to improve the effectiveness of the information of detecting the movement of the person through the track detection, in an embodiment of the detection apparatus for the equipment inspection work provided by the present application, referring to fig. 14, the detection apparatus for the equipment inspection work further includes the following contents:
a trajectory detection module 01, the trajectory detection module 01 being configured to perform the following:
receiving two-dimensional code information of the current equipment sent by a mobile terminal of the target inspection personnel;
respectively acquiring pre-stored position information of the current equipment and position information of the previous equipment in the routing inspection path according to the two-dimension code information of the current equipment, and acquiring GPS track information of the mobile terminal from the previous equipment to the current equipment;
judging whether the starting node of the GPS track information is the same as the position information of the previous equipment or not, and judging whether the ending node of the GPS track information is the same as the position information of the current equipment or not;
if the starting node is the same as the position information of the previous equipment and the ending node is the same as the position information of the current equipment, generating first track detection information which is used for indicating that the routing inspection track of the target routing inspection personnel corresponds to a preset track;
if the starting node and the last equipment have different position information and/or the ending node and the current equipment have different position information, generating second track detection information for indicating that the routing inspection track of the target routing inspection personnel does not correspond to a preset track;
and adding the unique identifier of the current equipment and the corresponding first track detection information or the second track detection information into the personnel movement detection information.
According to the detection device for the equipment inspection operation, the detection device can further detect the detection of the authenticity of the moving track of the inspection personnel on the basis of scanning code authenticity detection, the authenticity and the reliability of the equipment inspection operation detection can be effectively improved, and the safety and the reliability of storage or operation of the inspection equipment can be effectively improved.
In order to improve the effectiveness of the personnel movement detection information through time consumption detection, in an embodiment of the detection apparatus for equipment inspection work provided by the present application, referring to fig. 15, the detection apparatus for equipment inspection work further includes the following contents:
a time-consuming detection module 02, the time-consuming detection module 02 being configured to perform the following:
receiving two-dimensional code information of the current equipment sent by a mobile terminal of the target inspection personnel;
acquiring the consumed time and the newly added counting steps of the mobile terminal from the previous equipment to the current equipment;
generating the current patrol score of the target patrol inspector according to the consumed duration and the newly added step count;
and adding the unique identifier of the current equipment and the corresponding patrol score into the personnel movement detection information.
According to the detection device for the equipment inspection operation, the detection device can further detect the detection of the time-consuming authenticity of the inspection personnel on the basis of scanning the code authenticity detection, the authenticity and the reliability of the equipment inspection operation detection can be effectively improved, and the safety and the reliability of the storage or the operation of the inspection equipment can be effectively improved.
In order to design an insensible patrol authentication algorithm to check the patrol work, ensure effective implementation of the patrol work, and comprehensively improve the patrol level of security equipment of an enterprise, particularly, in an embodiment of the detection device for the equipment patrol work provided by the application, referring to fig. 16, a time-consuming detection module 02 in the detection device for the equipment patrol work comprises: a non-inductive patrol authentication unit 03, the non-inductive patrol authentication unit 03 configured to perform:
generating the current patrol score of the target patrol inspector according to the consumed duration and the newly added step count by applying a preset non-inductive patrol authentication formula;
the non-inductive patrol authentication formula is used for expressing the corresponding relation between the sum result of the time parameter and the step number parameter and the patrol score;
the time parameter is obtained based on the consumed time and a preset dynamic assignment, the step number parameter is obtained based on the newly added step counting number and the average step number, and the average step number is obtained based on the newly added step counting number and the consumed time.
According to the detection device for the equipment inspection operation, through the application of the non-inductive inspection authentication mode, the workload and the work influence of the inspection personnel can be reduced on the basis of effectively improving the authenticity and the reliability of the equipment inspection operation detection, and the user experience of the inspection personnel can be effectively improved.
In terms of hardware, in order to solve the problem that the inspection result of the inspection operation is inaccurate due to code scanning cheating of an inspector in the inspection process, the application provides an embodiment of an electronic device for implementing all or part of the content of the inspection operation detection method of the device, and the electronic device specifically includes the following contents:
fig. 17 is a schematic block diagram of a system configuration of an electronic device 9600 according to an embodiment of the present application. As shown in fig. 17, the electronic device 9600 can include a central processor 9100 and a memory 9140; the memory 9140 is coupled to the central processor 9100. Notably, this fig. 17 is exemplary; other types of structures may also be used in addition to or in place of the structure to implement telecommunications or other functions.
In one embodiment, the detection function of the device polling operation may be integrated into the central processor. Wherein the central processor may be configured to control:
step 100: and if the target inspection personnel with the mobile terminal is detected to reach the current equipment in the inspection path, periodically acquiring the mobile sensing data of the mobile terminal until the two-dimensional code information of the current equipment sent by the mobile terminal is received.
In step 100, when the patrolman patrols the equipment, the patrolman can scan the two-dimensional code of the equipment by using the security patrol code scanning function on the mobile terminal (for example, a mobile phone) APP, and after the code scanning function of the system is opened, the background can cyclically acquire mobile sensing data every 2000 ms. It can be understood that, when the enterprise organization is more, under the more circumstances of security personnel, can guarantee the authenticity of patrolling through sweeping the sign indicating number mode, assist and can also avoid the circumstances such as replacing the post with the authentication mode of enterprise, geographical positioning information can guarantee the position unification nature of equipment and people, avoids subsides sign indicating number and equipment separation.
Step 200: and generating code scanning authenticity detection information for indicating whether the target inspection personnel scans the codes on site at the current equipment currently according to the comparison result between the mobile sensing data and the corresponding preset conditions.
Step 300: and generating a patrol operation detection result of the target patrol inspection personnel at the current equipment based on the code scanning authenticity detection information and the personnel movement detection information of the target patrol inspection personnel acquired after the received two-dimensional code information of the current equipment.
It can be understood that, after the inspection operation detection result corresponding to the original current device is obtained, the original current device in the inspection path may be switched to the previous device, and the next device of the original current device may be switched to the current device, and then the step 100 is returned to perform the inspection operation detection of the next device in the inspection path.
According to the description, the electronic equipment provided by the embodiment of the application can effectively detect the code scanning authenticity of the routing inspection personnel at the equipment in the routing inspection path, can simultaneously realize code scanning authenticity and acquisition of the moving situation of the routing inspection personnel, can effectively improve the authenticity and reliability of equipment inspection operation detection, and further can effectively improve the safety and reliability of storage or operation of the routing inspection equipment.
In another embodiment, the detection device of the device inspection work may be configured separately from the central processor 9100, for example, the detection device of the device inspection work may be configured as a chip connected to the central processor 9100, and the detection function of the device inspection work is realized by the control of the central processor.
As shown in fig. 17, the electronic device 9600 may further include: a communication module 9110, an input unit 9122, an audio processor 9130, a display 9160, and a power supply 9170. It is noted that the electronic device 9600 also does not necessarily include all of the components shown in fig. 17; in addition, the electronic device 9600 may further include components not shown in fig. 17, which can be referred to in the related art.
As shown in fig. 17, a central processor 9100, sometimes referred to as a controller or operational control, can include a microprocessor or other processor device and/or logic device, which central processor 9100 receives input and controls the operation of the various components of the electronic device 9600.
The memory 9140 can be, for example, one or more of a buffer, a flash memory, a hard drive, a removable media, a volatile memory, a non-volatile memory, or other suitable device. The information relating to the failure may be stored, and a program for executing the information may be stored. And the central processing unit 9100 can execute the program stored in the memory 9140 to realize information storage or processing, or the like.
The input unit 9122 provides input to the central processor 9100. The input unit 9122 is, for example, a key or a touch input device. Power supply 9170 is used to provide power to electronic device 9600. The display 9160 is used for displaying display objects such as images and characters. The display may be, for example, an LCD display, but is not limited thereto.
The memory 9140 can be a solid state memory, e.g., Read Only Memory (ROM), Random Access Memory (RAM), a SIM card, or the like. There may also be a memory that holds information even when power is off, can be selectively erased, and is provided with more data, an example of which is sometimes called an EPROM or the like. The memory 9140 could also be some other type of device. Memory 9140 includes a buffer memory 9141 (sometimes referred to as a buffer). The memory 9140 may include an application/function storage portion 9142, the application/function storage portion 9142 being used for storing application programs and function programs or for executing a flow of operations of the electronic device 9600 by the central processor 9100.
The memory 9140 can also include a data store 9143, the data store 9143 being used to store data, such as contacts, digital data, pictures, sounds, and/or any other data used by an electronic device. The driver storage portion 9144 of the memory 9140 may include various drivers for the electronic device for communication functions and/or for performing other functions of the electronic device (e.g., messaging applications, contact book applications, etc.).
The communication module 9110 is a transmitter/receiver 9110 that transmits and receives signals via an antenna 9111. The communication module (transmitter/receiver) 9110 is coupled to the central processor 9100 to provide input signals and receive output signals, which may be the same as in the case of a conventional mobile communication terminal.
Based on different communication technologies, a plurality of communication modules 9110, such as a cellular network module, a bluetooth module, and/or a wireless local area network module, may be provided in the same electronic device. The communication module (transmitter/receiver) 9110 is also coupled to a speaker 9131 and a microphone 9132 via an audio processor 9130 to provide audio output via the speaker 9131 and receive audio input from the microphone 9132, thereby implementing ordinary telecommunications functions. The audio processor 9130 may include any suitable buffers, decoders, amplifiers and so forth. In addition, the audio processor 9130 is also coupled to the central processor 9100, thereby enabling recording locally through the microphone 9132 and enabling locally stored sounds to be played through the speaker 9131.
An embodiment of the present application further provides a computer-readable storage medium capable of implementing all the steps in the method for detecting a device inspection job in the foregoing embodiment, where the computer-readable storage medium stores a computer program, and when the computer program is executed by a processor, the computer program implements all the steps in the method for detecting a device inspection job in which an execution subject is a server or a client in the foregoing embodiment, for example, when the processor executes the computer program, the processor implements the following steps:
step 100: and if the target inspection personnel with the mobile terminal is detected to reach the current equipment in the inspection path, periodically acquiring the mobile sensing data of the mobile terminal until the two-dimensional code information of the current equipment sent by the mobile terminal is received.
In step 100, when the patrolman patrols the equipment, the patrolman can scan the two-dimensional code of the equipment by using the security patrol code scanning function on the mobile terminal (for example, a mobile phone) APP, and after the code scanning function of the system is opened, the background can cyclically acquire mobile sensing data every 2000 ms. It can be understood that, when the enterprise organization is more, under the more circumstances of security personnel, can guarantee the authenticity of patrolling through sweeping the sign indicating number mode, assist and can also avoid the circumstances such as replacing the post with the authentication mode of enterprise, geographical positioning information can guarantee the position unification nature of equipment and people, avoids subsides sign indicating number and equipment separation.
Step 200: and generating code scanning authenticity detection information for indicating whether the target inspection personnel scans the codes on site at the current equipment currently according to the comparison result between the mobile sensing data and the corresponding preset conditions.
Step 300: and generating a patrol operation detection result of the target patrol inspection personnel at the current equipment based on the code scanning authenticity detection information and the personnel movement detection information of the target patrol inspection personnel acquired after the received two-dimensional code information of the current equipment.
It can be understood that, after the inspection operation detection result corresponding to the original current device is obtained, the original current device in the inspection path may be switched to the previous device, and the next device of the original current device may be switched to the current device, and then the step 100 is returned to perform the inspection operation detection of the next device in the inspection path.
From the above description, the computer-readable storage medium provided by the embodiment of the application can effectively detect the code scanning authenticity of the routing inspection personnel at the equipment in the routing inspection path, can simultaneously realize the code scanning authenticity and the acquisition of the moving situation of the routing inspection personnel, can effectively improve the authenticity and the reliability of equipment routing inspection operation detection, and further can effectively improve the safety and the reliability of storage or operation of the routing inspection equipment.
As will be appreciated by one skilled in the art, embodiments of the present invention may be provided as a method, apparatus, or computer program product. Accordingly, the present invention may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present invention may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.
The present invention is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (devices), and computer program products according to embodiments of the invention. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.
These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.
These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.
The principle and the implementation mode of the invention are explained by applying specific embodiments in the invention, and the description of the embodiments is only used for helping to understand the method and the core idea of the invention; meanwhile, for a person skilled in the art, according to the idea of the present invention, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present invention.

Claims (20)

1. A detection method for equipment inspection operation is characterized by comprising the following steps:
if the target inspection personnel with the mobile terminal is detected to reach the current equipment in the inspection path, periodically acquiring the mobile sensing data of the mobile terminal until the two-dimensional code information of the current equipment sent by the mobile terminal is received;
generating code scanning authenticity detection information for indicating whether the target inspection personnel carries out field code scanning at the current equipment or not according to a comparison result between the mobile sensing data and the corresponding preset conditions;
and generating a patrol operation detection result of the target patrol inspection personnel at the current equipment based on the code scanning authenticity detection information and the personnel movement detection information of the target patrol inspection personnel acquired after the received two-dimensional code information of the current equipment.
2. The method for detecting equipment inspection work according to claim 1, wherein the movement sensing data includes: direction sensing data;
correspondingly, according to the comparison result between the mobile sensing data and the corresponding preset condition, code scanning authenticity detection information for indicating whether the target inspection personnel scans the codes on site at the current equipment currently is generated, and the method comprises the following steps:
determining target direction information according to pre-stored setting position information of a two-dimensional code image of the current device, wherein the target direction information comprises: a horizontal or vertical direction;
judging whether the direction information corresponding to the direction sensing data is the same as the target direction information or not;
if yes, generating first direction detection information for indicating that the code scanning direction of the target inspection personnel at the current equipment corresponds to the setting position of the two-dimensional code image;
if not, generating second direction detection information for indicating that the code scanning direction of the target inspection personnel at the current equipment does not correspond to the setting position of the two-dimensional code image;
and adding the unique identifier of the current equipment and the corresponding first direction detection information or the second direction detection information into the code scanning authenticity detection information.
3. The method for detecting inspection work of equipment according to claim 2, wherein code scanning authenticity detection information indicating whether the target inspector is currently scanning codes on site at the current equipment is generated according to the comparison result between the mobile sensing data and the corresponding preset conditions, and further comprising:
determining a target inclination angle range according to pre-stored setting position information of a two-dimensional code image of the current equipment;
judging whether the inclination angle corresponding to the direction sensing data is within the target inclination angle range;
if so, generating first inclination angle detection information for indicating that the code scanning inclination angle of the target inspection personnel at the current equipment corresponds to the setting position of the two-dimensional code image;
if not, generating second inclination angle detection information for indicating that the code scanning inclination angle of the target inspection personnel at the current equipment does not correspond to the setting position of the two-dimensional code image;
and adding the unique identifier of the current equipment and the corresponding first inclination angle detection information or the second inclination angle detection information into the code scanning authenticity detection information.
4. The method for detecting equipment inspection work according to claim 1, wherein the movement sensing data includes: rotating the sensing data;
correspondingly, according to the comparison result between the mobile sensing data and the corresponding preset condition, code scanning authenticity detection information for indicating whether the target inspection personnel scans the codes on site at the current equipment currently is generated, and the method comprises the following steps:
judging whether the rotation sensing data corresponds to a rotation angle or not;
if so, generating first rotation detection information for indicating that the target inspection personnel rotates the mobile terminal;
if not, generating second rotation detection information for indicating that the target inspection personnel does not rotate the mobile terminal;
and adding the unique identifier of the current equipment and the corresponding first rotation detection information or the second rotation detection information into the code scanning authenticity detection information.
5. The method for detecting equipment inspection work according to claim 1, wherein the movement sensing data includes: respectively acquiring two pieces of acceleration sensing data separated by preset time;
correspondingly, according to the comparison result between the mobile sensing data and the corresponding preset condition, code scanning authenticity detection information for indicating whether the target inspection personnel scans the codes on site at the current equipment currently is generated, and the method comprises the following steps:
acquiring a difference value between the two pieces of acceleration sensing data;
judging whether the difference value between the two acceleration sensing data is larger than an acceleration threshold value or not;
if so, generating first shaking detection information for indicating that the user terminal of the target inspection personnel shakes;
if not, generating second shaking detection information for indicating that the user terminal of the target patrol personnel does not shake;
and adding the unique identifier of the current equipment and the corresponding first shaking detection information or the second shaking detection information into the code scanning authenticity detection information.
6. The method for detecting the equipment inspection work according to claim 1, wherein if it is detected that the target inspection person with the mobile terminal has arrived at the current equipment in the inspection path, the method for periodically collecting the mobile sensing data of the mobile terminal until receiving the two-dimensional code information of the current equipment sent by the mobile terminal comprises the following steps:
if a two-dimensional code scanning function starting message of the mobile terminal of the target inspection personnel is received, and/or if a personnel approach signal acquired by a human body approach sensor arranged at the current equipment is received, judging that the target inspection personnel reaches the current equipment in the inspection path;
and continuously receiving mobile sensing data collected by a sensor arranged at the mobile terminal of the target inspection personnel at preset time intervals, and stopping receiving the mobile sensing data until receiving the two-dimensional code information of the current equipment sent by the mobile terminal of the target inspection personnel.
7. The method for detecting the equipment inspection work according to claim 1, wherein before generating the inspection work detection result of the target inspector at the current equipment based on the code scanning authenticity detection information and the person movement detection information of the target inspector acquired after receiving the two-dimensional code information of the current equipment, the method further comprises:
receiving two-dimensional code information of the current equipment sent by a mobile terminal of the target inspection personnel;
respectively acquiring pre-stored position information of the current equipment and position information of the previous equipment in the routing inspection path according to the two-dimension code information of the current equipment, and acquiring GPS track information of the mobile terminal from the previous equipment to the current equipment;
judging whether the starting node of the GPS track information is the same as the position information of the previous equipment or not, and judging whether the ending node of the GPS track information is the same as the position information of the current equipment or not;
if the starting node is the same as the position information of the previous equipment and the ending node is the same as the position information of the current equipment, generating first track detection information which is used for indicating that the routing inspection track of the target routing inspection personnel corresponds to a preset track;
if the starting node and the last equipment have different position information and/or the ending node and the current equipment have different position information, generating second track detection information for indicating that the routing inspection track of the target routing inspection personnel does not correspond to a preset track;
and adding the unique identifier of the current equipment and the corresponding first track detection information or the second track detection information into the personnel movement detection information.
8. The method for detecting the equipment inspection work according to claim 1, wherein before generating the inspection work detection result of the target inspector at the current equipment based on the code scanning authenticity detection information and the person movement detection information of the target inspector acquired after receiving the two-dimensional code information of the current equipment, the method further comprises:
receiving two-dimensional code information of the current equipment sent by a mobile terminal of the target inspection personnel;
acquiring the consumed time and the newly added counting steps of the mobile terminal from the previous equipment to the current equipment;
generating the current patrol score of the target patrol inspector according to the consumed duration and the newly added step count;
and adding the unique identifier of the current equipment and the corresponding patrol score into the personnel movement detection information.
9. The method for detecting the inspection work of the equipment according to claim 8, wherein the generating of the current inspection score of the target inspector according to the consumed duration and the newly added step count includes:
generating the current patrol score of the target patrol inspector according to the consumed duration and the newly added step count by applying a preset non-inductive patrol authentication formula;
the non-inductive patrol authentication formula is used for expressing the corresponding relation between the sum result of the time parameter and the step number parameter and the patrol score;
the time parameter is obtained based on the consumed time and a preset dynamic assignment, the step number parameter is obtained based on the newly added step counting number and the average step number, and the average step number is obtained based on the newly added step counting number and the consumed time.
10. The utility model provides a detection apparatus of operation is patrolled and examined to equipment which characterized in that includes:
the data acquisition module is used for periodically acquiring the mobile sensing data of the mobile terminal until receiving the two-dimensional code information of the current equipment sent by the mobile terminal if the fact that a target inspection personnel with the mobile terminal reaches the current equipment in the inspection path is detected;
the code scanning detection module is used for generating code scanning authenticity detection information for indicating whether the target inspection personnel carries out field code scanning at the current equipment or not according to a comparison result between the mobile sensing data and the corresponding preset conditions;
and the operation detection result generation module is used for generating the inspection operation detection result of the target inspection personnel at the current equipment based on the code scanning authenticity detection information and the personnel movement detection information of the target inspection personnel acquired after the received two-dimensional code information of the current equipment.
11. The inspection device for equipment inspection work according to claim 10, wherein the movement sensing data includes: direction sensing data;
correspondingly, the code scanning detection module comprises: a direction detection unit for performing the following:
determining target direction information according to pre-stored setting position information of a two-dimensional code image of the current device, wherein the target direction information comprises: a horizontal or vertical direction;
judging whether the direction information corresponding to the direction sensing data is the same as the target direction information or not;
if yes, generating first direction detection information for indicating that the code scanning direction of the target inspection personnel at the current equipment corresponds to the setting position of the two-dimensional code image;
if not, generating second direction detection information for indicating that the code scanning direction of the target inspection personnel at the current equipment does not correspond to the setting position of the two-dimensional code image;
and adding the unique identifier of the current equipment and the corresponding first direction detection information or the second direction detection information into the code scanning authenticity detection information.
12. The inspection device according to claim 11, wherein the code scanning detection module further includes: an inclination angle detection unit for performing the following:
determining a target inclination angle range according to pre-stored setting position information of a two-dimensional code image of the current equipment;
judging whether the inclination angle corresponding to the direction sensing data is within the target inclination angle range;
if so, generating first inclination angle detection information for indicating that the code scanning inclination angle of the target inspection personnel at the current equipment corresponds to the setting position of the two-dimensional code image;
if not, generating second inclination angle detection information for indicating that the code scanning inclination angle of the target inspection personnel at the current equipment does not correspond to the setting position of the two-dimensional code image;
and adding the unique identifier of the current equipment and the corresponding first inclination angle detection information or the second inclination angle detection information into the code scanning authenticity detection information.
13. The inspection device for equipment inspection work according to claim 10, wherein the movement sensing data includes: rotating the sensing data;
correspondingly, the code scanning detection module comprises: a rotation detection unit for performing the following:
judging whether the rotation sensing data corresponds to a rotation angle or not;
if so, generating first rotation detection information for indicating that the target inspection personnel rotates the mobile terminal;
if not, generating second rotation detection information for indicating that the target inspection personnel does not rotate the mobile terminal;
and adding the unique identifier of the current equipment and the corresponding first rotation detection information or the second rotation detection information into the code scanning authenticity detection information.
14. The inspection device for equipment inspection work according to claim 10, wherein the movement sensing data includes: respectively acquiring two pieces of acceleration sensing data separated by preset time;
correspondingly, the code scanning detection module comprises: a shake detection unit for performing the following:
acquiring a difference value between the two pieces of acceleration sensing data;
judging whether the difference value between the two acceleration sensing data is larger than an acceleration threshold value or not;
if so, generating first shaking detection information for indicating that the user terminal of the target inspection personnel shakes;
if not, generating second shaking detection information for indicating that the user terminal of the target patrol personnel does not shake;
and adding the unique identifier of the current equipment and the corresponding first shaking detection information or the second shaking detection information into the code scanning authenticity detection information.
15. The inspection device according to claim 10, wherein the data acquisition module is specifically configured to perform the following:
if a two-dimensional code scanning function starting message of the mobile terminal of the target inspection personnel is received, and/or if a personnel approach signal acquired by a human body approach sensor arranged at the current equipment is received, judging that the target inspection personnel reaches the current equipment in the inspection path;
and continuously receiving mobile sensing data collected by a sensor arranged at the mobile terminal of the target inspection personnel at preset time intervals, and stopping receiving the mobile sensing data until receiving the two-dimensional code information of the current equipment sent by the mobile terminal of the target inspection personnel.
16. The inspection device for equipment inspection according to claim 10, further comprising: a trajectory detection module to perform the following:
receiving two-dimensional code information of the current equipment sent by a mobile terminal of the target inspection personnel;
respectively acquiring pre-stored position information of the current equipment and position information of the previous equipment in the routing inspection path according to the two-dimension code information of the current equipment, and acquiring GPS track information of the mobile terminal from the previous equipment to the current equipment;
judging whether the starting node of the GPS track information is the same as the position information of the previous equipment or not, and judging whether the ending node of the GPS track information is the same as the position information of the current equipment or not;
if the starting node is the same as the position information of the previous equipment and the ending node is the same as the position information of the current equipment, generating first track detection information which is used for indicating that the routing inspection track of the target routing inspection personnel corresponds to a preset track;
if the starting node and the last equipment have different position information and/or the ending node and the current equipment have different position information, generating second track detection information for indicating that the routing inspection track of the target routing inspection personnel does not correspond to a preset track;
and adding the unique identifier of the current equipment and the corresponding first track detection information or the second track detection information into the personnel movement detection information.
17. The inspection device for equipment inspection according to claim 10, further comprising: a time-consuming detection module to perform:
receiving two-dimensional code information of the current equipment sent by a mobile terminal of the target inspection personnel;
acquiring the consumed time and the newly added counting steps of the mobile terminal from the previous equipment to the current equipment;
generating the current patrol score of the target patrol inspector according to the consumed duration and the newly added step count;
and adding the unique identifier of the current equipment and the corresponding patrol score into the personnel movement detection information.
18. The inspection device according to claim 17, wherein the time-consuming detection module includes: an insensible patrol authentication unit for performing the following:
generating the current patrol score of the target patrol inspector according to the consumed duration and the newly added step count by applying a preset non-inductive patrol authentication formula;
the non-inductive patrol authentication formula is used for expressing the corresponding relation between the sum result of the time parameter and the step number parameter and the patrol score;
the time parameter is obtained based on the consumed time and a preset dynamic assignment, the step number parameter is obtained based on the newly added step counting number and the average step number, and the average step number is obtained based on the newly added step counting number and the consumed time.
19. An electronic device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, wherein the processor implements the method of detecting a device inspection job of any one of claims 1 to 9 when executing the program.
20. A computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out a method of detecting a device inspection job according to any one of claims 1 to 9.
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