CN110876037A - Inspection method, device, equipment and system - Google Patents

Inspection method, device, equipment and system Download PDF

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Publication number
CN110876037A
CN110876037A CN201811015150.4A CN201811015150A CN110876037A CN 110876037 A CN110876037 A CN 110876037A CN 201811015150 A CN201811015150 A CN 201811015150A CN 110876037 A CN110876037 A CN 110876037A
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CN
China
Prior art keywords
inspection
image
scene
current
rectification
Prior art date
Application number
CN201811015150.4A
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Chinese (zh)
Inventor
郑金荣
陈振波
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杭州海康威视系统技术有限公司
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Priority to CN201811015150.4A priority Critical patent/CN110876037A/en
Publication of CN110876037A publication Critical patent/CN110876037A/en

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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04NPICTORIAL COMMUNICATION, e.g. TELEVISION
    • H04N7/00Television systems
    • H04N7/18Closed circuit television systems, i.e. systems in which the signal is not broadcast
    • H04N7/181Closed circuit television systems, i.e. systems in which the signal is not broadcast for receiving images from a plurality of remote sources

Abstract

The embodiment of the invention provides a polling method, a polling device, polling equipment and a polling system, wherein the polling method comprises the following steps: determining a current inspection scene according to the inspection task; acquiring an image acquired aiming at the current inspection scene as an image to be processed; searching a compliance image corresponding to the current inspection scene in a pre-stored compliance image; comparing the image to be processed with the searched compliant image to obtain a polling result of the current polling scene; it is obvious, through the contrast of image in this scheme, obtain the result of patrolling and examining, need not dispatch the personnel of patrolling and examining, this scheme is the automatic scheme of patrolling and examining that does not rely on the manual work.

Description

Inspection method, device, equipment and system

Technical Field

The invention relates to the technical field of monitoring, in particular to a polling method, a polling device, polling equipment and a polling system.

Background

In some cases, some scenes typically need to be inspected. For example, a community is usually required to be patrolled, whether the situations of garbage bin overflow, garbage on a lawn and the like exist or not is checked, or the situation of property in an office building is also required to be patrolled and examined, and the like.

Most of the existing inspection schemes are manually executed, for example, related personnel are dispatched to each scene, and whether the situation in the scene is in compliance or not is manually judged. At present, an automatic routing inspection scheme which does not depend on manual work is needed.

Disclosure of Invention

The embodiment of the invention aims to provide a routing inspection method, a device, equipment and a system, so as to provide an automatic routing inspection scheme independent of manpower.

In order to achieve the above object, an embodiment of the present invention provides a polling method, including:

determining a current inspection scene according to the inspection task;

acquiring an image acquired aiming at the current inspection scene as an image to be processed;

searching a compliance image corresponding to the current inspection scene in a pre-stored compliance image;

and comparing the image to be processed with the searched compliant image to obtain the inspection result of the current inspection scene.

Optionally, the inspection task includes inspection items, inspection time periods and inspection frequencies corresponding to each inspection scene; according to the inspection task, the current inspection scene is determined, and the method comprises the following steps:

determining a current inspection scene and an inspection item corresponding to the current inspection scene according to the inspection time period and the inspection frequency corresponding to each inspection scene;

comparing the image to be processed with the found compliant image to obtain a polling result of the current polling scene, comprising the following steps:

and comparing the image to be processed with the searched compliant image based on the inspection item corresponding to the current inspection scene to obtain an inspection result under the inspection item corresponding to the current inspection scene.

Optionally, the acquiring an image acquired for the current inspection scene as an image to be processed includes:

determining image acquisition equipment corresponding to the current inspection scene as target image acquisition equipment according to pre-acquired configuration information;

and acquiring an image acquired by the target image acquisition equipment aiming at the current inspection scene as an image to be processed.

Optionally, the method further includes:

and aiming at each inspection scene, calculating the score of the inspection scene according to a plurality of inspection results of the inspection scene in a preset time period.

Optionally, after obtaining the inspection result of the current inspection scene, the method further includes:

and if the inspection result of the current inspection scene is not in compliance, generating a question list aiming at the current inspection scene.

Optionally, after the generating the question list for the current inspection scene, the method further includes:

after a rectification prompt aiming at the question list is received, determining a routing inspection scene corresponding to the rectification prompt as a rectification scene;

acquiring an image collected aiming at the rectification scene as a rectification image;

searching a compliance image corresponding to the rectification scene in a pre-stored compliance image;

comparing the rectification image with a compliance image corresponding to the rectification scene to obtain a polling result of the rectification scene as a rectification result;

and if the rectification result is in compliance, closing the question sheet aiming at the rectification scene.

In order to achieve the above object, an embodiment of the present invention further provides an inspection device, including:

the first determining module is used for determining the current inspection scene according to the inspection task;

the first acquisition module is used for acquiring the image acquired aiming at the current inspection scene as an image to be processed;

the first searching module is used for searching a compliance image corresponding to the current inspection scene in a pre-stored compliance image;

and the first comparison module is used for comparing the image to be processed with the searched compliant image to obtain the inspection result of the current inspection scene.

Optionally, the inspection task includes inspection items, inspection time periods and inspection frequencies corresponding to each inspection scene;

the first determining module is specifically configured to: determining a current inspection scene and an inspection item corresponding to the current inspection scene according to the inspection time period and the inspection frequency corresponding to each inspection scene;

the first comparison module is specifically configured to: and comparing the image to be processed with the searched compliant image based on the inspection item corresponding to the current inspection scene to obtain an inspection result under the inspection item corresponding to the current inspection scene.

Optionally, the first obtaining module is specifically configured to:

determining image acquisition equipment corresponding to the current inspection scene as target image acquisition equipment according to pre-acquired configuration information; and acquiring an image acquired by the target image acquisition equipment aiming at the current inspection scene as an image to be processed.

Optionally, the apparatus further comprises:

and the calculating module is used for calculating the score of each inspection scene according to a plurality of inspection results of the inspection scene in a preset time period.

Optionally, the apparatus further comprises:

and the generation module is used for generating a question list aiming at the current inspection scene if the inspection result of the current inspection scene is not in compliance.

Optionally, the apparatus further comprises:

the second determining module is used for determining the routing inspection scene corresponding to the corrected prompt as a corrected scene after the corrected prompt aiming at the question list is received;

the second acquisition module is used for acquiring the image acquired aiming at the rectification scene as a rectification image;

the second searching module is used for searching a compliance image corresponding to the rectification scene in a compliance image stored in advance;

the second comparison module is used for comparing the rectification image with the compliance image corresponding to the rectification scene to obtain a polling result of the rectification scene as a rectification result;

and the closing module is used for closing the question list aiming at the rectification scene under the condition that the rectification result is in compliance.

In order to achieve the above object, an embodiment of the present invention further provides an electronic device, including a processor and a memory; a memory for storing a computer program; and the processor is used for realizing any inspection method when executing the program stored in the memory.

In order to achieve the above object, an embodiment of the present invention further provides an inspection system, including: the image acquisition equipment and the server are arranged at each inspection scene;

the image acquisition equipment is used for acquiring images aiming at the inspection scene where the image acquisition equipment is located;

the server is used for determining a current inspection scene according to the inspection task; acquiring an image acquired by the image acquisition equipment at the current inspection scene aiming at the current inspection scene as an image to be processed; searching a compliance image corresponding to the current inspection scene in a pre-stored compliance image; and comparing the image to be processed with the searched compliant image to obtain the inspection result of the current inspection scene.

Optionally, the system further includes:

the terminal equipment is used for configuring the inspection items, the image acquisition equipment, the inspection time periods and the inspection frequency corresponding to each inspection scene; sending configuration information to the server, the configuration information including: the inspection item, the image acquisition equipment, the inspection time period and the inspection frequency corresponding to each inspection scene;

the server is further used for determining a current inspection scene, an inspection item corresponding to the current inspection scene and image acquisition equipment corresponding to the current inspection scene according to the configuration information; and comparing the image to be processed with the searched compliant image based on the inspection item corresponding to the current inspection scene to obtain an inspection result under the inspection item corresponding to the current inspection scene.

Optionally, the server includes: a cloud server, an access server, an image server and an intelligent analysis server,

the cloud server is used for determining an access server corresponding to the current inspection scene according to the inspection task; sending an image acquisition instruction to the determined access server;

the access server is used for sending a picture capturing instruction to the image acquisition equipment under the management of the access server after receiving the image acquisition instruction;

the image acquisition equipment is used for capturing an image to be processed from the image acquired aiming at the inspection scene where the image acquisition equipment is located after receiving the image capturing instruction, storing the captured image to be processed into an image server, and sending the storage address of the image to be processed in the image server to the access server;

the access server is further used for sending the received storage address to the cloud server;

the cloud server is also used for sending a comparison instruction to the intelligent analysis server;

the intelligent analysis server is used for acquiring the storage address from the cloud server after receiving the comparison instruction, and acquiring the to-be-processed image corresponding to the storage address from the image server; acquiring a compliance image corresponding to the current inspection scene from the image server; comparing the image to be processed with the compliant image to obtain a polling result of the current polling scene; and sending the inspection result to the cloud server.

When the scheme is applied to inspection, the current inspection scene is determined according to the inspection task; acquiring an image acquired aiming at the current inspection scene as an image to be processed; searching a compliance image corresponding to the current inspection scene in a pre-stored compliance image; comparing the image to be processed with the searched compliant image to obtain a polling result of the current polling scene; it is obvious, through the contrast of image in this scheme, obtain the result of patrolling and examining, need not dispatch the personnel of patrolling and examining, this scheme is the automatic scheme of patrolling and examining that does not rely on the manual work.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a first schematic flow chart of a polling method according to an embodiment of the present invention;

FIG. 2 is a second flowchart of the inspection method according to the embodiment of the present invention

Fig. 3 is a schematic structural diagram of an inspection device according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of an electronic device according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of an inspection system according to an embodiment of the present invention;

fig. 6 is an interaction schematic diagram of an inspection system according to an embodiment of the present invention; .

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the 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 invention.

In order to solve the above technical problems, embodiments of the present invention provide a method, an apparatus, a device, and a system for routing inspection, where the method and the apparatus may be applied to various electronic devices, and are not limited specifically. First, the inspection method provided by the embodiment of the invention is described in detail below. For convenience of description, the execution main body is referred to as an inspection apparatus in the following embodiments.

Fig. 1 is a first schematic flow chart of the inspection method provided in the embodiment of the present invention, including:

s101: and determining the current polling scene according to the polling task.

For example, the user terminal may issue the polling task to the polling device. As an implementation mode, the polling task can comprise polling items, polling time periods and polling frequencies corresponding to each polling scene. The polling scene can be set according to actual conditions, for example, positions such as a doorway, a cell building doorway, a lawn, a public security post and the like can be used as the polling scene in a community environment; for another example, in an office building environment, positions such as a doorway, a front desk, a corridor and the like of the office building can be used as polling scenes and are not listed one by one.

In one case, one inspection scene can be provided with one image acquisition device, and one inspection scene corresponds to one inspection item; in other words, a plurality of inspection items can be preset, one image acquisition device is arranged under one inspection item, and the acquisition range of one image acquisition device is used as an inspection scene. The polling item is also the content to be polled, and for example, the polling item in the cell environment may include: whether the garbage bin overflows, whether the property personnel wear the work clothes, etc. are not listed one by one. For example, an image acquisition device may be set near the trash can for an inspection item "whether the trash can overflows", and an acquisition range of the image acquisition device is used as an inspection scene.

Or, a plurality of image acquisition devices can be arranged in one inspection scene, and one inspection scene can also correspond to a plurality of inspection items, which is also possible. For example, can stop as a scene of patrolling and examining with the cell peace post, this scene of patrolling and examining corresponds two items of patrolling and examining: one is whether the property personnel are on duty or not, and the other is whether the property personnel wear the work clothes or not. To these two items of patrolling and examining, can set up an image acquisition equipment, also can set up the different image acquisition equipment of many visual angles.

As described above, the polling task may further include a polling period and a polling frequency corresponding to each polling scene, and the polling device may determine the current polling scene and the polling item corresponding to the current polling scene according to the polling period and the polling frequency corresponding to each polling scene. For example, the polling task includes: scene A: and (3) inspection period: 9: 00 to 21: 00, the polling frequency is once per hour; scene B: and (3) inspection period: 20: 00-6: 00, the polling frequency is once every half hour. Like this, patrol and examine equipment and receive this task of patrolling and examining after, can formulate by oneself and patrol and examine the plan, for example, 9: 00 to 21: 00, determining the scene A as the current inspection scene at each integral point, and determining an inspection item corresponding to the scene A; 20: 00-6: and (00) determining the scene B as the current inspection scene by each half point, and determining the inspection item corresponding to the scene B.

S102: and acquiring an image acquired aiming at the current inspection scene as an image to be processed.

As described above, one or more image capturing devices may be set in one inspection scene, that is, there is a corresponding relationship between the inspection scene and the image capturing devices, and the inspection device may obtain configuration information in advance, where the configuration information includes the corresponding relationship. In this way, the inspection equipment can determine the image acquisition equipment corresponding to the current inspection scene as target image acquisition equipment according to the pre-acquired configuration information; and acquiring an image acquired by the target image acquisition equipment aiming at the current inspection scene as an image to be processed.

For example, after the inspection device determines the target image acquisition device, the inspection device can immediately send an image acquisition instruction to the target image acquisition device; and after receiving the instruction, the target image acquisition equipment sends the currently acquired image to the inspection equipment. The target image acquisition equipment can select the image with higher definition to send to the inspection equipment in a plurality of images acquired in the current time period.

Or the inspection equipment can acquire the image acquired by the target image acquisition equipment through other intermediate equipment. For example, the inspection equipment can send an image acquisition instruction to the access server, and the access server sends a grab instruction to the target image acquisition equipment after receiving the image acquisition instruction; and after receiving the image capturing instruction, the target image acquisition equipment sends the currently acquired image to the access server, and the access server sends the image to the inspection equipment. The specific cases are not listed.

S103: and searching a compliance image corresponding to the current inspection scene in the pre-stored compliance images.

In this embodiment, the compliance image corresponding to each inspection scene is stored in advance. In the foregoing one case, the inspection task may include an inspection item corresponding to each inspection scene, where the inspection item is content to be inspected, and one or more compliance images may be configured under each inspection item. For example, a compliance image that the trash can does not overflow can be configured for the patrol item of "whether the trash can overflows", one or more compliance images that the property personnel wear the work clothes can be configured for the patrol item of "whether the property personnel wear the work clothes", and the like, which are not listed.

In this case, the compliance image configured under the inspection item can be acquired according to the inspection item corresponding to the current inspection scene.

S104: and comparing the image to be processed with the searched compliant image to obtain the inspection result of the current inspection scene.

As described above, the inspection task may include an inspection item corresponding to each inspection scene, where the inspection item is a content to be inspected; thus, S104 may include: and comparing the image to be processed with the searched compliant image based on the inspection item corresponding to the current inspection scene to obtain an inspection result under the inspection item corresponding to the current inspection scene.

For example, if the inspection item is "whether the trash can overflows", when the to-be-processed image is compared with the found compliant image, the trash can areas in the two images can be identified, the identified trash can areas are compared, and whether the trash can overflows in the inspection scene corresponding to the to-be-processed image is judged according to the comparison result.

As another example, if the inspection item is "whether the property person wears the work clothes", when the to-be-processed image is compared with the found compliant image, the human body regions in the two images can be identified, the identified human body regions are compared, and whether the human body region in the to-be-processed image wears the work clothes is determined according to the comparison result.

It is obvious, through the contrast of image in this scheme, obtain the result of patrolling and examining, need not dispatch the personnel of patrolling and examining, this scheme is the automatic scheme of patrolling and examining that does not rely on the manual work.

As described above, the polling task may include the polling period and the polling frequency corresponding to each polling scene, that is, for one polling scene, the polling scene may be polled for multiple times in the polling period corresponding to the polling scene, so that multiple polling results of the polling scene are obtained. As an embodiment, for each inspection scene, a score of the inspection scene may be calculated according to a plurality of inspection results of the inspection scene within a preset time period.

And calculating the score of the patrol scene in the preset time period, namely scoring the condition of the patrol scene in the preset time period. The preset time period can be understood as a period for scoring the patrol condition. The preset time period is not necessarily the same as the polling time period, and for example, the preset time period may be one day, one week, or one month. Or, the preset time period may also be the same as the patrol inspection time period, that is, each patrol inspection time period of the patrol inspection scene is scored.

The score criterion may be preset, for example, assuming that the preset time period is one day, the scene a is inspected 10 times in the day, the inspection item is "whether the trash can overflows", if the number of times of the inspection result "overflowing" exceeds 3 times, the score is lower than 6 points, and if the number of times of the inspection result "overflowing" is 0, the score is 10 points full. Alternatively, the score criterion may be other, and is not limited specifically.

The scenes may be managed according to their scores. For example, if a scene score continues to be high, the manager of the scene may be rewarded. The specific management measures are not the key points of the scheme and are not listed one by one.

As an implementation manner, after the inspection result of the current inspection scene is obtained, if the inspection result of the current inspection scene is not compliant, a question list for the current inspection scene is generated. The generated question list can be sent to the relevant manager, so that the manager can correct the question list.

The problem list may include a polling result corresponding to the polling item, for example, the polling item is "whether the trash can overflows", the polling result is "overflow", and the like. The question list may also include scene names and locations. And the manager corresponding to the scene, and the like. The specific contents of the question list are not limited.

Or, after calculating the score of the inspection scene according to a plurality of inspection results of the inspection scene within a preset time period, judging whether the score is smaller than a preset threshold, and if so, generating a question list of the inspection scene.

As an embodiment, after generating the question sheet for the current patrol scenario, the method may further include:

after a rectification prompt aiming at the question list is received, determining a routing inspection scene corresponding to the rectification prompt as a rectification scene;

acquiring an image collected aiming at the rectification scene as a rectification image;

searching a compliance image corresponding to the rectification scene in a pre-stored compliance image;

comparing the rectification image with a compliance image corresponding to the rectification scene to obtain a polling result of the rectification scene as a rectification result;

and if the rectification result is in compliance, closing the question sheet aiming at the rectification scene.

For example, after the generated question list is sent to the relevant personnel for rectification, if rectification is completed, a rectified prompt aiming at the question can be sent to the inspection equipment. And after the routing inspection equipment receives the rectification prompt, determining the routing inspection scene corresponding to the rectification prompt as the rectification scene. And then, re-acquiring the image of the rectified scene, re-comparing the acquired image with the compliance image corresponding to the rectified scene, and judging whether the rectified scene is compliant or not. This process is similar to that described above and will not be described further.

If the inspection equipment is in compliance, the inspection equipment closes the question list, or the question list can be filed. If not, the question sheet may be put in a re-adjusted state until the scene is compliant.

Referring now to fig. 2, a specific embodiment is provided:

the user can carry out the configuration of patrolling and examining of multiple aspects through terminal equipment in advance, for example, configuration is patrolled and examined the item, is patrolled and examined the scene, is patrolled and examined the task to the configuration.

For example, the tour entry may include a major category and a minor category, with one or more minor categories under the major category. Taking a cell as an example, the broad categories may include: hygiene, property services, etc.; the hygiene categories may include: whether the garbage bin overflows, whether have rubbish on the road, whether have rubbish on the lawn a plurality of subclasses such as, can include under the property service class: whether the property personnel leave the post or not, whether the property personnel wear work clothes or not and the like are not listed. The inspection item can be set according to actual conditions, and is not limited specifically.

One or more compliance images can be configured under each subclass of inspection items, for example, one or more compliance images which are not overflowed by the garbage can be configured for the subclass of inspection item of 'whether the garbage can overflows', one or more compliance images which are worn by the property personnel by the work clothes can be configured for the subclass of inspection item of 'whether the property personnel wear the work clothes', and the like, which are not listed one by one.

The configuration of the patrol scene can be configured with various information as follows: the scene name, the image acquisition device information (such as the IP address of the image acquisition device or the name of the image acquisition device) set in the scene, the patrol item corresponding to the scene, and so on.

The polling time period and polling frequency corresponding to each polling scene can be configured by configuring the polling task. Or, in one case, the configured inspection items may also belong to the inspection task.

The configured polling items, polling scenes and polling tasks are collectively called as configuration information, and the terminal equipment issues the configuration information to polling equipment.

And the inspection equipment determines the inspection scene at the current moment according to the inspection task, namely the current inspection scene. For example, the polling task includes: scene A: and (3) inspection period: 9: 00 to 21: 00, the polling frequency is once per hour; scene B: and (3) inspection period: 20: 00-6: 00, the polling frequency is once every half hour. After the routing inspection equipment receives the routing inspection task, the routing inspection plan which is set by the routing inspection equipment is as follows: 9: 00 to 21: 00, each integral point patrols the scene A; 20: 00-6: and each half point in 00 patrols scene B. Assume that the current time is 10: 00, determining the scene A as the current inspection scene.

As described above, the configuration information includes: the method comprises the steps that image acquisition equipment information (such as an IP address of the image acquisition equipment or the name of the image acquisition equipment) set in a scene, a routing inspection item corresponding to the scene and a compliance image under the routing inspection item are set; therefore, the inspection equipment can determine the information of the image acquisition equipment set in the current inspection scene, the inspection item corresponding to the current inspection scene and the compliance image according to the received configuration information.

For convenience of description, the image capturing apparatus set in the current inspection scene is referred to as a target image capturing apparatus. The inspection equipment can directly send an image acquisition instruction to the target image acquisition equipment, or the inspection equipment can also send the image acquisition instruction to the target image acquisition equipment through intermediate equipment; after the target image acquisition equipment receives the instruction, the image with higher definition is selected from a plurality of images acquired in the current time period and sent to the inspection equipment. For convenience of description, the image selected by the target image acquisition device is referred to as a to-be-processed image, and the to-be-processed image is an image reflecting the current situation of the current inspection scene.

And the inspection equipment compares the image to be processed with the compliance image corresponding to the current inspection scene based on the inspection item corresponding to the current inspection scene to obtain an inspection result.

For example, if the inspection item is "whether the trash can overflows", when the to-be-processed image is compared with the compliance image, the trash can areas in the two images can be identified, the identified trash can areas are compared, whether the trash can overflows in the inspection scene corresponding to the to-be-processed image is judged according to the comparison result, and the judgment result can be used as the inspection result.

As another example, if the inspection item is "whether the property person wears the work clothes", when the to-be-processed image is compared with the compliance image, the human body regions in the two images can be identified, the identified human body regions are compared, whether the human body region in the to-be-processed image wears the work clothes is determined according to the comparison result, and the determination result can be used as the inspection result.

If the inspection result is not in compliance, the inspection equipment can generate a question list according to the inspection result. The problem list may include a polling result corresponding to the polling item, for example, the polling item is "whether the trash can overflows", the polling result is "overflow", and the like. The question list may also include scene names and locations. And the manager corresponding to the scene, and the like. The specific contents of the question list are not limited.

Or, in another case, for each inspection scene, the inspection can be performed for multiple times in the corresponding inspection time period, so that multiple inspection results of the inspection scene are obtained. The score of each inspection scene can be calculated according to a plurality of inspection results of the inspection scene in a preset time period.

And calculating the score of the patrol scene in the preset time period, namely scoring the condition of the patrol scene in the preset time period. The preset time period can be understood as a period for scoring the patrol condition. The preset time period is not necessarily the same as the polling time period, and for example, the preset time period may be one day, one week, or one month. Or, the preset time period may also be the same as the patrol inspection time period, that is, each patrol inspection time period of the patrol inspection scene is scored.

The score criterion may be preset, for example, assuming that the preset time period is one day, the scene a is inspected 10 times in the day, the inspection item is "whether the trash can overflows", if the number of times of the inspection result "overflowing" exceeds 3 times, the score is lower than 6 points, and if the number of times of the inspection result "overflowing" is 0, the score is 10 points full. Alternatively, the acquisition criterion may be other, and is not particularly limited.

In this case, the question sheet of the inspection scene may be regenerated in a case where the score of the inspection scene is smaller than the preset threshold.

The generated question sheet can be sent to a designated rectifying staff, and the rectifying staff rectifies the scene which is not in compliance. If the rectification is completed, a rectified prompt aiming at the problem can be sent to the inspection equipment. And after the routing inspection equipment receives the rectification prompt, determining the routing inspection scene corresponding to the rectification prompt as the rectification scene. And then, re-acquiring the image of the rectified scene, re-comparing the acquired image with the compliance image corresponding to the rectified scene, and judging whether the rectified scene is compliant or not. This process is similar to that described above and will not be described further.

If the inspection equipment is in compliance, the inspection equipment closes the question list, or the question list can be filed. If not, the question sheet may be put in a re-adjusted state until the scene is compliant.

According to the scheme, the question list can be automatically generated, the scene score can be automatically obtained, and the management efficiency is improved.

In the embodiment of fig. 2, the inspection device is only a general name, and in a specific implementation manner, the inspection device may be one server or may be composed of a plurality of servers. For example, the inspection equipment may include a cloud server, an access server, an image server, and an intelligent analysis server: the cloud server can interact with the terminal equipment and is used for receiving the inspection task issued by the terminal equipment and feeding the problem list back to the terminal equipment, or the cloud server can also score an inspection scene; the access server can manage the image acquisition equipment; the image server may be used to store images, such as compliance images and pending images; the intelligent analysis server can compare the standard image with the image to be processed, and the like. The execution steps of each server may be adjusted according to actual situations, and are not particularly limited.

Corresponding to the above method embodiment, an embodiment of the present invention further provides an inspection apparatus, as shown in fig. 3, including:

the first determining module 301 is configured to determine a current inspection scene according to the inspection task;

a first obtaining module 302, configured to obtain an image acquired for the current inspection scene as an image to be processed;

the first searching module 303 is configured to search for a compliance image corresponding to the current inspection scene from pre-stored compliance images;

the first comparison module 304 is configured to obtain a polling result of the current polling scene by comparing the image to be processed with the found compliant image.

As an implementation mode, the inspection task comprises inspection items, inspection time periods and inspection frequency corresponding to each inspection scene;

the first determining module 301 is specifically configured to: determining a current inspection scene and an inspection item corresponding to the current inspection scene according to the inspection time period and the inspection frequency corresponding to each inspection scene;

the first comparison module 304 is specifically configured to: and comparing the image to be processed with the searched compliant image based on the inspection item corresponding to the current inspection scene to obtain an inspection result under the inspection item corresponding to the current inspection scene.

As an implementation manner, the first obtaining module 302 is specifically configured to:

determining image acquisition equipment corresponding to the current inspection scene as target image acquisition equipment according to pre-acquired configuration information; and acquiring an image acquired by the target image acquisition equipment aiming at the current inspection scene as an image to be processed.

As an embodiment, the apparatus further comprises: and the calculating module (not shown in the figure) is used for calculating the score of each inspection scene according to a plurality of inspection results of the inspection scene in a preset time period.

As an embodiment, the apparatus further comprises: and the generating module (not shown in the figure) is used for generating a question list aiming at the current inspection scene if the inspection result of the current inspection scene is not in compliance.

As an embodiment, the apparatus further comprises: a second determination module, a second acquisition module, a second lookup module, a second comparison module, and a shutdown module (not shown), wherein,

the second determining module is used for determining the routing inspection scene corresponding to the corrected prompt as a corrected scene after the corrected prompt aiming at the question list is received;

the second acquisition module is used for acquiring the image acquired aiming at the rectification scene as a rectification image;

the second searching module is used for searching a compliance image corresponding to the rectification scene in a compliance image stored in advance;

the second comparison module is used for comparing the rectification image with the compliance image corresponding to the rectification scene to obtain a polling result of the rectification scene as a rectification result;

and the closing module is used for closing the question list aiming at the rectification scene under the condition that the rectification result is in compliance.

When the scheme is applied to inspection, the current inspection scene is determined according to the inspection task; acquiring an image acquired aiming at the current inspection scene as an image to be processed; searching a compliance image corresponding to the current inspection scene in a pre-stored compliance image; comparing the image to be processed with the searched compliant image to obtain a polling result of the current polling scene; it is obvious, through the contrast of image in this scheme, obtain the result of patrolling and examining, need not dispatch the personnel of patrolling and examining, this scheme is the automatic scheme of patrolling and examining that does not rely on the manual work.

An embodiment of the present invention further provides an electronic device, as shown in fig. 4, including a processor 401 and a memory 402; a memory 402 for storing a computer program; the processor 401 is configured to implement any of the above-described polling methods when executing the program stored in the memory.

The Memory mentioned in the above electronic device may include a Random Access Memory (RAM) or a Non-Volatile Memory (NVM), such as at least one disk Memory. Optionally, the memory may also be at least one memory device located remotely from the processor.

The Processor may be a general-purpose Processor, including a Central Processing Unit (CPU), a Network Processor (NP), and the like; but may also be a Digital Signal Processor (DSP), an Application Specific Integrated Circuit (ASIC), a Field Programmable Gate Array (FPGA) or other Programmable logic device, discrete Gate or transistor logic device, discrete hardware component.

An embodiment of the present invention further provides a computer-readable storage medium, where a computer program is stored in the computer-readable storage medium, and when the computer program is executed by a processor, the computer program implements any of the inspection methods described above.

An embodiment of the present invention further provides an inspection system, as shown in fig. 5, including: an image acquisition device (image acquisition device 1, image acquisition device 2 … … image acquisition device N) and a server at each inspection scene;

the image acquisition equipment is used for acquiring images aiming at the inspection scene where the image acquisition equipment is located;

the server is used for determining a current inspection scene according to the inspection task; acquiring an image acquired by the image acquisition equipment at the current inspection scene aiming at the current inspection scene as an image to be processed; searching a compliance image corresponding to the current inspection scene in a pre-stored compliance image; and comparing the image to be processed with the searched compliant image to obtain the inspection result of the current inspection scene.

As an embodiment, the system further comprises:

the terminal equipment is used for configuring the inspection items, the image acquisition equipment, the inspection time periods and the inspection frequency corresponding to each inspection scene; sending configuration information to the server, the configuration information including: the inspection item, the image acquisition equipment, the inspection time period and the inspection frequency corresponding to each inspection scene;

the server is further used for determining a current inspection scene, an inspection item corresponding to the current inspection scene and image acquisition equipment corresponding to the current inspection scene according to the configuration information; and comparing the image to be processed with the searched compliant image based on the inspection item corresponding to the current inspection scene to obtain an inspection result under the inspection item corresponding to the current inspection scene.

As an embodiment, the server includes: a cloud server, an access server, an image server and an intelligent analysis server,

the cloud server is used for determining an access server corresponding to the current inspection scene according to the inspection task; sending an image acquisition instruction to the determined access server;

the access server is used for sending a picture capturing instruction to the image acquisition equipment under the management of the access server after receiving the image acquisition instruction;

the image acquisition equipment is used for capturing an image to be processed from the image acquired aiming at the inspection scene where the image acquisition equipment is located after receiving the image capturing instruction, storing the captured image to be processed into an image server, and sending the storage address of the image to be processed in the image server to the access server;

the access server is further used for sending the received storage address to the cloud server;

the cloud server is also used for sending a comparison instruction to the intelligent analysis server;

the intelligent analysis server is used for acquiring the storage address from the cloud server after receiving the comparison instruction, and acquiring the to-be-processed image corresponding to the storage address from the image server; acquiring a compliance image corresponding to the current inspection scene from the image server; comparing the image to be processed with the compliant image to obtain a polling result of the current polling scene; and sending the inspection result to the cloud server.

In one embodiment, the cloud server is further configured to generate a question list for the current inspection scene if the inspection result of the current inspection scene is not compliant.

Referring now to fig. 6, a specific embodiment is provided:

the user can carry out the configuration of patrolling and examining of multiple aspects through terminal equipment in advance, for example, configuration is patrolled and examined the item, is patrolled and examined the scene, is patrolled and examined the task to the configuration.

For example, the tour entry may include a major category and a minor category, with one or more minor categories under the major category. Taking a cell as an example, the broad categories may include: hygiene, property services, etc.; the hygiene categories may include: whether the garbage bin overflows, whether have rubbish on the road, whether have rubbish on the lawn a plurality of subclasses such as, can include under the property service class: whether the property personnel leave the post or not, whether the property personnel wear work clothes or not and the like are not listed. The inspection item can be set according to actual conditions, and is not limited specifically.

One or more compliance images can be configured under each subclass of inspection items, for example, one or more compliance images which are not overflowed by the garbage can be configured for the subclass of inspection item of 'whether the garbage can overflows', one or more compliance images which are worn by the property personnel by the work clothes can be configured for the subclass of inspection item of 'whether the property personnel wear the work clothes', and the like, which are not listed one by one. The configured compliance image may be stored in an image server.

The configuration of the patrol scene can be configured with various information as follows: the scene name, the image acquisition device information (such as the IP address of the image acquisition device or the name of the image acquisition device) set in the scene, the patrol item corresponding to the scene, and so on.

The polling time period and polling frequency corresponding to each polling scene can be configured by configuring the polling task. Or, in one case, the configured inspection items may also belong to the inspection task.

The configured polling items (which can be contained in the polling tasks), the polling scenes and the polling tasks are collectively referred to as configuration information, and the terminal equipment issues the configuration information to the cloud server.

And the cloud server determines the current inspection scene, the image acquisition equipment information set in the current inspection scene, the inspection item corresponding to the current inspection scene and the compliance image according to the configuration information. As described above, the compliance image may be stored in the image server, and the cloud server may determine a storage location of the compliance image corresponding to the current inspection scene in the image server.

For convenience of description, the image capturing apparatus set in the current inspection scene is referred to as a target image capturing apparatus. The cloud server sends an image acquisition instruction to the access server, and the access server sends a picture capture instruction to the target image acquisition equipment after receiving the image acquisition instruction.

And after receiving the image capturing instruction, the target image acquisition equipment captures an image to be processed from the image acquired aiming at the inspection scene where the target image acquisition equipment is located, stores the captured image to be processed into the image server, and sends the storage address of the image to be processed in the image server to the access server. And the access server sends the received storage address to the cloud server.

And the cloud server sends a comparison instruction to the intelligent analysis server.

After receiving the comparison instruction, the intelligent analysis server acquires a storage address of the image to be processed and a storage position of a compliant image corresponding to the current inspection scene in the image server from the cloud server; acquiring an image to be processed and a compliance image corresponding to the current inspection scene from an image server according to the storage address and the storage position; the intelligent analysis server compares the image to be processed with the compliant image based on the inspection item corresponding to the current inspection scene to obtain an inspection result of the current inspection scene; and sending the inspection result to a cloud server.

In addition, the cloud server can also generate a question sheet aiming at the current inspection scene under the condition that the inspection result of the current inspection scene is not in compliance, the question sheet is sent to a specified rectification personnel, and the rectification personnel rectify the scene which is not in compliance.

The cloud server can also calculate the score of each inspection scene according to a plurality of inspection results of the inspection scene in a preset time period.

The cloud server can also determine the routing inspection scene corresponding to the corrected prompt as a corrected scene after receiving the corrected prompt aiming at the question list; acquiring an image collected aiming at the rectification scene as a rectification image; searching a compliance image corresponding to the rectification scene in a pre-stored compliance image; comparing the rectification image with a compliance image corresponding to the rectification scene to obtain a polling result of the rectification scene as a rectification result; and if the rectification result is in compliance, closing the question sheet aiming at the rectification scene.

According to the scheme, the question list can be automatically generated, the scene score can be automatically obtained, and the management efficiency is improved.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

All the embodiments in the present specification are described in a related manner, and the same and similar parts among the embodiments may be referred to each other, and each embodiment focuses on the differences from the other embodiments. In particular, for the system embodiment, since it is substantially similar to the method embodiment, the description is simple, and for the relevant points, reference may be made to the partial description of the method embodiment.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the scope of the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention shall fall within the protection scope of the present invention.

Claims (16)

1. A routing inspection method is characterized by comprising the following steps:
determining a current inspection scene according to the inspection task;
acquiring an image acquired aiming at the current inspection scene as an image to be processed;
searching a compliance image corresponding to the current inspection scene in a pre-stored compliance image;
and comparing the image to be processed with the searched compliant image to obtain the inspection result of the current inspection scene.
2. The method according to claim 1, wherein the inspection task comprises inspection items, inspection time periods and inspection frequencies corresponding to each inspection scene; according to the inspection task, the current inspection scene is determined, and the method comprises the following steps:
determining a current inspection scene and an inspection item corresponding to the current inspection scene according to the inspection time period and the inspection frequency corresponding to each inspection scene;
comparing the image to be processed with the found compliant image to obtain a polling result of the current polling scene, comprising the following steps:
and comparing the image to be processed with the searched compliant image based on the inspection item corresponding to the current inspection scene to obtain an inspection result under the inspection item corresponding to the current inspection scene.
3. The method according to claim 1, wherein the acquiring the image acquired for the current inspection scene as the image to be processed comprises:
determining image acquisition equipment corresponding to the current inspection scene as target image acquisition equipment according to pre-acquired configuration information;
and acquiring an image acquired by the target image acquisition equipment aiming at the current inspection scene as an image to be processed.
4. The method of claim 1, further comprising:
and aiming at each inspection scene, calculating the score of the inspection scene according to a plurality of inspection results of the inspection scene in a preset time period.
5. The method according to claim 1, after obtaining the inspection result of the current inspection scene, further comprising:
and if the inspection result of the current inspection scene is not in compliance, generating a question list aiming at the current inspection scene.
6. The method of claim 5, further comprising, after the generating a question sheet for the current inspection scene:
after a rectification prompt aiming at the question list is received, determining a routing inspection scene corresponding to the rectification prompt as a rectification scene;
acquiring an image collected aiming at the rectification scene as a rectification image;
searching a compliance image corresponding to the rectification scene in a pre-stored compliance image;
comparing the rectification image with a compliance image corresponding to the rectification scene to obtain a polling result of the rectification scene as a rectification result;
and if the rectification result is in compliance, closing the question sheet aiming at the rectification scene.
7. An inspection device, comprising:
the first determining module is used for determining the current inspection scene according to the inspection task;
the first acquisition module is used for acquiring the image acquired aiming at the current inspection scene as an image to be processed;
the first searching module is used for searching a compliance image corresponding to the current inspection scene in a pre-stored compliance image;
and the first comparison module is used for comparing the image to be processed with the searched compliant image to obtain the inspection result of the current inspection scene.
8. The device according to claim 7, wherein the inspection task comprises inspection items, inspection time periods and inspection frequencies corresponding to each inspection scene;
the first determining module is specifically configured to: determining a current inspection scene and an inspection item corresponding to the current inspection scene according to the inspection time period and the inspection frequency corresponding to each inspection scene;
the first comparison module is specifically configured to: and comparing the image to be processed with the searched compliant image based on the inspection item corresponding to the current inspection scene to obtain an inspection result under the inspection item corresponding to the current inspection scene.
9. The apparatus of claim 7, wherein the first obtaining module is specifically configured to:
determining image acquisition equipment corresponding to the current inspection scene as target image acquisition equipment according to pre-acquired configuration information; and acquiring an image acquired by the target image acquisition equipment aiming at the current inspection scene as an image to be processed.
10. The apparatus of claim 7, further comprising:
and the calculating module is used for calculating the score of each inspection scene according to a plurality of inspection results of the inspection scene in a preset time period.
11. The apparatus of claim 7, further comprising:
and the generation module is used for generating a question list aiming at the current inspection scene if the inspection result of the current inspection scene is not in compliance.
12. The apparatus of claim 11, further comprising:
the second determining module is used for determining the routing inspection scene corresponding to the corrected prompt as a corrected scene after the corrected prompt aiming at the question list is received;
the second acquisition module is used for acquiring the image acquired aiming at the rectification scene as a rectification image;
the second searching module is used for searching a compliance image corresponding to the rectification scene in a compliance image stored in advance;
the second comparison module is used for comparing the rectification image with the compliance image corresponding to the rectification scene to obtain a polling result of the rectification scene as a rectification result;
and the closing module is used for closing the question list aiming at the rectification scene under the condition that the rectification result is in compliance.
13. An electronic device comprising a processor and a memory;
a memory for storing a computer program;
a processor for implementing the method steps of any of claims 1-6 when executing a program stored in the memory.
14. An inspection system, comprising: the image acquisition equipment and the server are arranged at each inspection scene;
the image acquisition equipment is used for acquiring images aiming at the inspection scene where the image acquisition equipment is located;
the server is used for determining a current inspection scene according to the inspection task; acquiring an image acquired by the image acquisition equipment at the current inspection scene aiming at the current inspection scene as an image to be processed; searching a compliance image corresponding to the current inspection scene in a pre-stored compliance image; and comparing the image to be processed with the searched compliant image to obtain the inspection result of the current inspection scene.
15. The system of claim 14, further comprising:
the terminal equipment is used for configuring the inspection items, the image acquisition equipment, the inspection time periods and the inspection frequency corresponding to each inspection scene; sending configuration information to the server, the configuration information including: the inspection item, the image acquisition equipment, the inspection time period and the inspection frequency corresponding to each inspection scene;
the server is further used for determining a current inspection scene, an inspection item corresponding to the current inspection scene and image acquisition equipment corresponding to the current inspection scene according to the configuration information; and comparing the image to be processed with the searched compliant image based on the inspection item corresponding to the current inspection scene to obtain an inspection result under the inspection item corresponding to the current inspection scene.
16. The system of claim 15, wherein the server comprises: a cloud server, an access server, an image server and an intelligent analysis server,
the cloud server is used for determining an access server corresponding to the current inspection scene according to the inspection task; sending an image acquisition instruction to the determined access server;
the access server is used for sending a picture capturing instruction to the image acquisition equipment under the management of the access server after receiving the image acquisition instruction;
the image acquisition equipment is used for capturing an image to be processed from the image acquired aiming at the inspection scene where the image acquisition equipment is located after receiving the image capturing instruction, storing the captured image to be processed into an image server, and sending the storage address of the image to be processed in the image server to the access server;
the access server is further used for sending the received storage address to the cloud server;
the cloud server is also used for sending a comparison instruction to the intelligent analysis server;
the intelligent analysis server is used for acquiring the storage address from the cloud server after receiving the comparison instruction, and acquiring the to-be-processed image corresponding to the storage address from the image server; acquiring a compliance image corresponding to the current inspection scene from the image server; comparing the image to be processed with the compliant image to obtain a polling result of the current polling scene; and sending the inspection result to the cloud server.
CN201811015150.4A 2018-08-31 2018-08-31 Inspection method, device, equipment and system CN110876037A (en)

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