CN115457674B - Park safety management method, device and storage medium - Google Patents

Abstract

The invention discloses a park safety management method, equipment and storage medium, wherein the method comprises the following steps: acquiring a patrol type of a patrol place in a park, and determining or generating a safety mark of the patrol place according to the patrol type; acquiring a patrol result of a patrol place corresponding to the security mark, and determining the security level of the security mark according to the patrol result; the security mark and the security level are displayed on a 3D campus image. According to the invention, the safety mark and the safety level are displayed on the 3D park image, so that corresponding staff can be reminded in time, and the comprehensiveness and timeliness of park safety management are improved.

Description

Park safety management method, device and storage medium

Technical Field

The invention relates to the technical field of intelligent management, in particular to a park safety management method, device and storage medium.

Background

With rapid development and deep application of technologies such as global Internet of things, big data, cloud computing and artificial intelligence, the intelligent park is increasingly large in scale in order to meet the requirements of school management, industry production and scientific experiments. In order to meet the management needs of the campus, the existing smart campus usually adopts to install cameras as many as possible in the campus, and transmits monitoring data to the cloud, so that remote visibility and recall are ensured. However, even if video pictures shot by different cameras are combined for viewing and analysis, the scene panoramic outline still cannot be formed in the brain of the monitoring personnel, so that the real situation of the scene cannot be determined, the working effect of the safety supervision of the park is greatly reduced, and the comprehensive management efficiency of the park is lower.

Disclosure of Invention

The invention mainly aims to provide a park safety management method, equipment and storage medium, which aim to solve the problem of low efficiency of how to improve park safety management.

In order to achieve the above object, the present invention provides a method for managing campus security, the method for managing campus security comprising the steps of:

acquiring a patrol type of a patrol place in a park, and determining or generating a safety mark of the patrol place according to the patrol type;

acquiring a patrol result of a patrol place corresponding to the security mark, and determining the security level of the security mark according to the patrol result;

the security mark and the security level are displayed on a 3D campus image.

In one embodiment, the step of determining the security level of the security mark according to the inspection result includes:

determining a first evaluation result according to the inspection result and the monitoring information of the inspection place corresponding to the security mark; and/or the number of the groups of groups,

determining a target security mark associated with the security mark, and determining a second evaluation result according to the inspection result and monitoring information of the inspection site corresponding to the target security mark;

and determining the security level of the security mark according to the first evaluation result and/or the second evaluation result.

In an embodiment, the step of determining the first evaluation result according to the inspection result and the monitoring information of the inspection location corresponding to the security mark includes:

determining a security assessment dimension of the security mark, wherein the security assessment dimension comprises at least one of equipment dimension, environment dimension and historical inspection result dimension;

determining at least one of equipment information and environment information corresponding to the security mark according to the monitoring information, and/or determining a historical inspection result associated with the security mark according to the inspection result;

determining a first sub-score corresponding to the equipment dimension according to the equipment information associated with the security mark, and/or determining a second sub-score corresponding to the environment dimension according to the environment information associated with the security mark, and/or determining a third sub-score corresponding to the historical inspection result dimension according to the historical inspection result associated with the security mark;

determining a security score corresponding to the security marker according to at least one of the first sub-score, the second sub-score and the third sub-score;

and determining the first evaluation result according to the safety score.

In one embodiment, the step of determining the security level of the security mark according to the inspection result includes:

determining the inspection times in the current period of the security mark according to the inspection result;

determining a numerical interval in which the inspection times are located;

and determining the security level associated with the numerical value interval according to the current time period, and taking the security level associated with the numerical value interval as the security level of the security mark.

In an embodiment, the method further comprises:

dividing the campus into a plurality of areas according to the security mark;

determining the inspection period and the inspection task of the security mark in the area, and determining the inspection task of the area according to the inspection period and the inspection task in the area;

determining a patrol level of the security mark in the area, and determining an access condition of the area according to the patrol level, wherein the access condition comprises a white list of patrol personnel meeting permission of the patrol personnel to enter the area and/or a period of patrol time meeting permission of the patrol personnel to enter the area.

In one embodiment, the step of dividing the campus into a plurality of areas based on the security indicia comprises:

determining the inspection type and the inspection place of the security mark;

determining key security marks of a preset inspection type in the security marks, and determining the distance and value between each security mark and each key security mark according to the inspection place;

and if the distance sum value is smaller than a preset threshold value, determining the area according to the inspection places corresponding to the security marks and the inspection places corresponding to the key security marks.

In an embodiment, after the step of displaying the security mark and the security level on the 3D campus image, the method further includes:

responding to a first selection operation of a user on the security mark, and acquiring at least one of to-be-inspected items, inspection results and real-time monitoring videos corresponding to the security mark;

and displaying at least one of the to-be-inspected item, the inspection result and the real-time video stream.

In an embodiment, after the step of displaying the security mark and the security level on the 3D campus image, the method further includes:

responding to a second selection operation of the user, and acquiring position information of preset personnel and/or vehicles in the park, wherein the position information comprises the current position and/or an active route;

displaying the position information of the preset personnel and/or vehicles on the 3D park image;

after the preset time period, if the preset personnel and/or the person do not leave the park, outputting prompt information.

To achieve the above object, the present invention also provides a campus security management apparatus including a memory, a processor, and a campus security management program stored in the memory and executable on the processor, which when executed by the processor, implements the respective steps of the campus security management method as described above.

To achieve the above object, the present invention also provides a computer-readable storage medium storing a campus security management program which, when executed by a processor, implements the steps of the campus security management method described above.

The invention provides a park safety management method, equipment and a storage medium, which are used for acquiring the patrol type of patrol places in a park and determining or generating safety marks of the patrol places according to the patrol type; acquiring a patrol result of a patrol place corresponding to the security mark, and determining the security level of the security mark according to the patrol result; on the 3D campus image, security markers and security levels are displayed. Through show security mark and security level on the 3D garden image, can in time remind corresponding staff, improve the comprehensiveness and the timeliness of garden safety control, improved the efficiency of garden management.

Drawings

Fig. 1 is a schematic hardware structure of a campus security management device according to an embodiment of the present invention;

FIG. 2 is a flow chart of a first embodiment of the campus security management method of the present invention;

FIG. 3 is a detailed flowchart of step S20 of a second embodiment of the campus security management method of the present invention;

FIG. 4 is a detailed flowchart of step S20 of a third embodiment of the campus security management method of the present invention;

fig. 5 is a flow chart of a fourth embodiment of the campus security management method of the present invention.

The achievement of the objects, functional features and advantages of the present invention will be further described with reference to the accompanying drawings, in conjunction with the embodiments.

Detailed Description

It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

The main solutions of the embodiments of the present invention are: acquiring the inspection type of the inspection site in the park, and determining or generating a security mark of the inspection site according to the inspection type; acquiring a patrol result of a patrol place corresponding to the security mark, and determining the security level of the security mark according to the patrol result; on the 3D campus image, security markers and security levels are displayed.

Through show security mark and security level on the 3D garden image, can in time remind corresponding staff, improve the comprehensiveness and the timeliness of garden safety control, improved the efficiency of garden management.

As one implementation, the campus security management device may be as shown in fig. 1.

The embodiment of the invention relates to park safety management equipment, which can be a server or a mobile terminal, wherein the mobile terminal comprises a mobile phone, a personal computer, a tablet personal computer and other equipment, and the park safety management equipment comprises: a processor 101, such as a CPU, a memory 102, and a communication bus 103. Wherein the communication bus 103 is used to enable connected communication among the components.

The memory 102 may be a high-speed RAM memory or a stable memory (non-volatile memory), such as a disk memory. As shown in fig. 1, a campus security manager may be included in memory 102, which is a computer-readable storage medium; and the processor 101 may be configured to invoke the campus security manager stored in the memory 102 and perform the following operations:

acquiring a patrol type of a patrol place in a park, and determining or generating a safety mark of the patrol place according to the patrol type;

acquiring a patrol result of a patrol place corresponding to the security mark, and determining the security level of the security mark according to the patrol result;

the security mark and the security level are displayed on a 3D campus image.

In one embodiment, the processor 101 may be configured to invoke the campus security manager stored in the memory 102 and perform the following operations:

determining a first evaluation result according to the inspection result and the monitoring information of the inspection place corresponding to the security mark; and/or the number of the groups of groups,

determining a target security mark associated with the security mark, and determining a second evaluation result according to the inspection result and monitoring information of the inspection site corresponding to the target security mark;

and determining the security level of the security mark according to the first evaluation result and/or the second evaluation result.

In one embodiment, the processor 101 may be configured to invoke the campus security manager stored in the memory 102 and perform the following operations:

determining a security assessment dimension of the security mark, wherein the security assessment dimension comprises at least one of equipment dimension, environment dimension and historical inspection result dimension;

determining at least one of equipment information and environment information corresponding to the security mark according to the monitoring information, and/or determining a historical inspection result associated with the security mark according to the inspection result;

determining a first sub-score corresponding to the equipment dimension according to the equipment information associated with the security mark, and/or determining a second sub-score corresponding to the environment dimension according to the environment information associated with the security mark, and/or determining a third sub-score corresponding to the historical inspection result dimension according to the historical inspection result associated with the security mark;

determining a security score corresponding to the security marker according to at least one of the first sub-score, the second sub-score and the third sub-score;

and determining the first evaluation result according to the safety score.

In one embodiment, the processor 101 may be configured to invoke the campus security manager stored in the memory 102 and perform the following operations:

determining the inspection times in the current period of the security mark according to the inspection result;

determining a numerical interval in which the inspection times are located;

and determining the security level associated with the numerical value interval according to the current time period, and taking the security level associated with the numerical value interval as the security level of the security mark.

In one embodiment, the processor 101 may be configured to invoke the campus security manager stored in the memory 102 and perform the following operations:

dividing the campus into a plurality of areas according to the security mark;

determining the inspection period and the inspection task of the security mark in the area, and determining the inspection task of the area according to the inspection period and the inspection task in the area;

determining a patrol level of the security mark in the area, and determining an access condition of the area according to the patrol level, wherein the access condition comprises a white list of patrol personnel meeting permission of the patrol personnel to enter the area and/or a period of patrol time meeting permission of the patrol personnel to enter the area.

In one embodiment, the processor 101 may be configured to invoke the campus security manager stored in the memory 102 and perform the following operations:

determining the inspection type and the inspection place of the security mark;

determining key security marks of a preset inspection type in the security marks, and determining the distance and value between each security mark and each key security mark according to the inspection place;

and if the distance sum value is smaller than a preset threshold value, determining the area according to the inspection places corresponding to the security marks and the inspection places corresponding to the key security marks.

In one embodiment, the processor 101 may be configured to invoke the campus security manager stored in the memory 102 and perform the following operations:

responding to a first selection operation of a user on the security mark, and acquiring at least one of to-be-inspected items, inspection results and real-time monitoring videos corresponding to the security mark;

and displaying at least one of the to-be-inspected item, the inspection result and the real-time video stream.

In one embodiment, the processor 101 may be configured to invoke the campus security manager stored in the memory 102 and perform the following operations:

responding to a second selection operation of the user, and acquiring position information of preset personnel and/or vehicles in the park, wherein the position information comprises the current position and/or an active route;

displaying the position information of the preset personnel and/or vehicles on the 3D park image;

after the preset time period, if the preset personnel and/or the person do not leave the park, outputting prompt information.

Based on the hardware architecture of the above-mentioned park safety management device, an embodiment of the park safety management method of the present invention is presented.

Referring to fig. 2, fig. 2 is a first embodiment of the inventive campus security management method, which includes the steps of:

and step S10, acquiring the inspection type of the inspection site in the park, and determining or generating a security mark of the inspection site according to the inspection type.

Specifically, the type of patrolling and examining at the location in the campus is obtained, wherein the campus can be a school campus, an enterprise campus or a business campus, etc., and the corresponding patrol and examining at different parks are different. Alternatively, in a school campus, the patrol site may be a corridor, a fire passageway of a teaching building, a classroom or school enclosure, or the like. In an enterprise campus, the inspection site can be a machine room, a monitoring room, a fire-fighting channel or a lawn water spray pipe, etc.

The inspection type can be the type of equipment or facilities needing inspection in the inspection site; alternatively, at a school campus or business campus, the type of inspection at the inspection site may include a hydrant, fire extinguisher, stairs, camera or broadcasting equipment, etc. Alternatively, at the amusement park, the patrol type of the patrol place may include amusement rides, slides, narrow intersections, cameras, or the like.

The patrol type can be a place name of a patrol place, and optionally, in a campus park of a school, the patrol type of the patrol place comprises a first teaching building stair, a playground, a canteen or a canteen and the like. Optionally, in the enterprise campus, the patrol type of the patrol place includes a canteen or a fire-fighting channel, etc.

And determining or generating a security mark of the inspection place according to the inspection type. Alternatively, the security mark may be represented by a graphic, a number, a symbol, or the like. Alternatively, the safety mark of the fire extinguisher may be a pattern of fire extinguishers, the safety mark of the stairs may be a stick figure of the stairs, etc.

Step S20, a patrol result of a patrol place corresponding to the security mark is obtained, and the security level of the security mark is determined according to the patrol result.

Specifically, the inspection result of the inspection site corresponding to the security mark is obtained, and the inspection result may be an inspection result of the inspection site uploaded by a worker or an inspection robot. Optionally, the uploaded inspection result includes an inspection location, inspection content and inspection time, and the inspection result includes an inspection location a1, complete equipment, no surrounding damage trace and specific time.

The security level of the security mark is determined according to the inspection result, alternatively, the security level may be primary, secondary, or tertiary, where the number of security levels is not limited. The first-level indication is higher in safety of the corresponding inspection site, the second-level indication is common in safety of the corresponding inspection site, and the third-level indication is lower in safety of the corresponding inspection site. Alternatively, the security level may be represented by a different color and/or symbol, and illustratively, a red exclamation mark when the security level is three-level.

Optionally, determining a time period to which the current time belongs, and determining the crowd activity number according to the inspection result; and when the number of personnel activities in the current time period is larger than the preset number, determining the security level of the first type of security mark as high security and determining the security level of the second type of security mark as low security. Optionally, the first type is a hydrant, a machine room, a monitoring room, etc., and the second type is a stairway, etc.

And step S30, displaying the security mark and the security level on the 3D park image.

Specifically, the security mark and the security level are displayed on the 3D park image corresponding to the patrol place. Optionally, the patrol site corresponds to a specific pixel position of the 3D park image, and the security mark and the security level are displayed on the pixel position of the patrol site. Optionally, the security level is set at a preset position of the security mark, for example, the security level is set at the lower right corner of the security mark.

Optionally, after step S30, at least one of a to-be-inspected item, an inspection result and a real-time monitoring video corresponding to the security mark is obtained in response to a first selection operation of the security mark by the user; and displaying at least one of the to-be-inspected items, the inspection result and the real-time video stream. Optionally, when the security mark is a camera, clicking the security mark to display a real-time monitoring video of the camera. Optionally, clicking the security mark, displaying the inspection item and the inspection result corresponding to the security mark, so that the staff can check the input inspection item and inspection result in real time, and perform the inspection work of the corresponding inspection place. Alternatively, the first selection operation may be determined or generated from a user clicking on a button on the interface, optionally the button being a security marker. Alternatively, the first selection operation may be determined or generated from voice information, gesture information, or line-of-sight information of the user.

Optionally, after step S30, in response to a second selection operation by the user, obtaining location information of preset personnel and/or vehicles in the campus, where the location information includes a current location and/or an active route; displaying position information of preset personnel and/or vehicles on the 3D park image; after the preset time period, if the preset personnel and/or the person do not leave the park, outputting prompt information. Alternatively, the second selection operation may be determined or generated from a user clicking on a button on the interface, optionally the button being a security marker. Alternatively, the second selection operation may be determined or generated from voice information, gesture information, or line-of-sight information of the user.

In the technical scheme of the embodiment, the inspection type of the inspection site in the park is obtained, and the security mark of the inspection site is determined or generated according to the inspection type; acquiring a patrol result of a patrol place corresponding to the security mark, and determining the security level of the security mark according to the patrol result; on the 3D campus image, security markers and security levels are displayed. Through show security mark and security level on the 3D garden image, can in time remind corresponding staff, improve the comprehensiveness and the timeliness of garden safety control, improved the efficiency of garden management.

Referring to fig. 3, fig. 3 is a second embodiment of the campus security management method according to the present invention, based on the first embodiment, the step S20 includes:

step S21, determining a first evaluation result according to the inspection result and monitoring information of the inspection site corresponding to the security mark; and/or the number of the groups of groups,

step S22, determining a target security mark associated with the security mark, and determining a second evaluation result according to the inspection result and monitoring information of the inspection site corresponding to the target security mark;

step S23, determining the security level of the security mark according to the first evaluation result and/or the second evaluation result.

Specifically, the first evaluation result is determined according to the inspection result of the inspection site corresponding to the security mark and the monitoring information, wherein the monitoring information can be at least one of picture information, video information, audio information, smoke alarm or infrared sensor data and the like.

Optionally, determining a security assessment dimension of the security mark, wherein the security assessment dimension comprises at least one of a device dimension, an environment dimension and a historical inspection result dimension;

determining at least one of equipment information and environment information corresponding to the security mark according to the monitoring information and/or determining a historical inspection result related to the security mark according to the inspection result;

determining a first sub-score b1 corresponding to the equipment dimension according to the equipment information associated with the security mark, and/or determining a second sub-score b2 corresponding to the environment dimension according to the environment information associated with the security mark, and/or determining a third sub-score b3 corresponding to the history inspection result dimension according to the history inspection result associated with the security mark; determining a security score corresponding to the security mark according to at least one of the first sub-score b1, the second sub-score b2 and the third sub-score b3; optionally, the weight parameters corresponding to the respective sub-scores are determined, for example, the weight parameter of the first sub-score is m1, the weight parameter of the second sub-score is m2, the weight parameter of the third sub-score is m3, optionally, m1 > m3 > m2, and the security score S1 is as follows:

S1＝b1*m1+b2*m2+b3*m3；

and determining a first evaluation result according to the safety score. Optionally, the first evaluation result is determined according to the score range of the safety score. Optionally, the first evaluation result includes information such as a security score, whether to recommend a re-inspection, whether to recommend maintenance, whether to recommend an evacuated crowd, and the like.

The target security mark is a mark associated with the security mark, and accidents occur at the inspection location of the target security mark, so that the inspection location corresponding to the security mark can be influenced. Illustratively, the safety mark is a hydrant and the target safety mark is a stairway of the fire passageway.

And determining a second evaluation result according to the inspection result and the monitoring information of the inspection place corresponding to the target security mark. Optionally, determining a first sub-score c1 corresponding to the equipment dimension according to the equipment information associated with the target security mark, and/or determining a second sub-score c2 corresponding to the environment dimension according to the environment information associated with the target security mark, and/or determining a third sub-score c3 corresponding to the history inspection result dimension according to the history inspection result associated with the target security mark; determining a security score corresponding to the target security mark according to at least one of the first sub-score c1, the second sub-score c2 and the third sub-score c3; optionally, the weight parameters corresponding to the respective sub-scores are determined, for example, the weight parameter of the first sub-score is n1, the weight parameter of the second sub-score is n2, the weight parameter of the third sub-score is n3, optionally, n1 > n3 > n2, and the security score S2 is as follows:

S2＝c1*n1+c2*n2+c3*n3；

and determining a second evaluation result according to the safety score. Optionally, a second evaluation result is determined according to the score range of the safety score. Optionally, the second evaluation result includes information such as a security score, whether to recommend a re-inspection, whether to recommend maintenance, whether to recommend an evacuated crowd, and the like.

And determining the security level of the security mark according to the first evaluation result and/or the second evaluation result. Alternatively, the security level of the security mark may be determined according to the first evaluation result, alternatively, the security level of the security mark may be determined according to a score range to which the security score of the first evaluation result belongs, for example, the security score is 90 points, the score range is (80, 100), the security level corresponding to the score range is one level, and thus the security level of the security mark is one level, where one level indicates that the security is higher. Alternatively, the security level of the security mark may be determined according to whether maintenance is recommended in the first evaluation result, for example, if maintenance is recommended, the security level of the security mark is determined to be three-level, wherein three-level indicates that the security is low.

Alternatively, the security level of the security mark may be determined according to the first evaluation result, alternatively, the security level of the security mark may be determined according to a score range to which the security score of the second evaluation result belongs, for example, the security score is 50 points, the score range is (40, 60), the security level corresponding to the score range is three levels, and thus the security level of the security mark is three levels, where three levels represent that the security is low. Alternatively, the security level of the security mark may be determined according to whether maintenance is recommended in the second evaluation result, for example, if maintenance is not recommended, the security level of the security mark is determined to be a level, where the level indicates that the security is higher.

Optionally, a security level of the security tag is determined according to the first evaluation result and the second evaluation result. Optionally, the composite score S is determined according to the security score S1 of the first evaluation result and the security score of the second evaluation result S2, and optionally, the composite score S is shown in the following formula:

S＝a1*S1+a2*S2；

wherein S is a comprehensive score, S1 is a safety score of a first evaluation result, S2 is a safety score of a second evaluation result, and a1 and a2 are weight parameters, and optionally, a1 is more than a2.

And determining the security level of the security mark according to the comprehensive score S. Optionally, the security level of the security mark is determined according to the score range to which the composite score belongs, for example, the composite score is 70 score, the score range (60, 80) belongs, and the security level corresponding to the score range is two-level, so that the security level of the security mark is two-level, wherein the two-level represents security generally.

Optionally, determining the security level according to the evaluation conclusion in the first evaluation result and the evaluation conclusion in the second evaluation result, optionally, suggesting maintenance by the first evaluation result, and determining the security level as lower if maintenance is not suggested by the second evaluation result. Optionally, the first evaluation result does not suggest maintenance, and the second evaluation result suggests maintenance, and the security level is determined to be security-general. Optionally, the first evaluation result suggests maintenance, and the second evaluation result suggests maintenance, and the security level is determined to be very low.

In the technical scheme of the embodiment, a first evaluation result is determined according to the inspection result and the monitoring information of the inspection site corresponding to the security mark; and/or determining a target security mark associated with the security mark, and determining a second evaluation result according to the inspection result and the monitoring information of the inspection site corresponding to the target security mark; and determining the security level of the security mark according to the first evaluation result and/or the second evaluation result. The security level is determined according to the inspection result and the monitoring information, the accuracy of the determined security level is improved, the security level of each security mark is timely output, corresponding staff is timely reminded, and the comprehensiveness and timeliness of park security management are improved.

Referring to fig. 4, fig. 4 is a third embodiment of the campus security management method according to the present invention, based on the first or second embodiment, the step S20 includes:

step S24, determining the inspection times in the current time period of the security mark according to the inspection result;

step S25, determining a numerical interval in which the inspection times are located;

and step S26, determining the security level associated with the numerical value interval according to the current time period, and taking the security level associated with the numerical value interval as the security level of the security mark.

Specifically, the number of inspection times in the current period of the security mark is determined according to the inspection result, and optionally, the current period is a continuous period, such as one day. Alternatively, the current period may be a discontinuous period of time, for example two days, after sunrise in the daytime, i.e. morning and before sunset.

And determining the numerical interval of the inspection times, for example, 5 times, the numerical interval of the inspection times (2, 9), the inspection times (11) and the numerical interval of the inspection times (10, 15). And determining the security level associated with the numerical value interval according to the current time period, and taking the security level associated with the numerical value interval as the security level of the security mark. The number of rounds in one day is 5, the numerical interval where the number of rounds is determined to be (4, 9), and the security level associated with the numerical interval (4, 9) is two, wherein the two levels represent general security. The number of inspection times in one day is 11, a numerical interval where the number of inspection times is determined to be (10, 15), and a security level associated with the numerical interval (10, 15) is one level, wherein the one level indicates higher security. Optionally, the security levels associated with different numerical intervals are different in different time periods, and illustratively, when the time period is one day, the security level associated with the numerical interval (4, 9) is generally the security, and when the time period is half a day, the security level associated with the numerical interval (4, 9) is higher in security.

In the technical scheme of the embodiment, the inspection times in the current period of the security mark are determined according to the inspection result; determining a numerical interval in which the inspection times are located; and determining the security level associated with the numerical value interval according to the current time period, and taking the security level associated with the numerical value interval as the security level of the security mark. The security level is determined according to the inspection times, the security level of each security mark is output in time, corresponding staff is reminded in time, and the comprehensiveness and timeliness of park security management are improved.

Referring to fig. 5, fig. 5 is a fourth embodiment of the campus security management method according to the present invention, based on any one of the first to third embodiments, the method further includes:

step S50, dividing the park into a plurality of areas according to the security marks;

step S60, determining the inspection period and the inspection task of the security mark in the area, and determining the inspection task of the area according to the inspection period and the inspection task in the area;

step S70, determining the inspection level of the security mark in the area, and determining the admission condition of the area according to the inspection level, wherein the admission condition comprises a white list of inspection personnel meeting admission to the area and/or a period of time for which inspection time meets admission to the area.

Specifically, because the campus is bigger, staff can be according to the difference of dividing work, take charge of a certain area of the campus, for example fire control area, dining room area or playground area etc.. The campus is divided into a plurality of regions according to the security mark, optionally each region is displayed on the 3D image, optionally the region may be marked by a dotted line to intuitively embody the region shape and area.

The campus is divided into a plurality of areas based on the security indicia. Optionally, determining the inspection type of the security mark, and determining a preset range determination area corresponding to the security mark of the preset inspection type. Optionally, the inspection location of the security marks is determined, the distance and value between the security marks are determined, and if the distance and value between the security marks are smaller than a preset threshold value, the area is determined according to each security mark. Optionally, determining the inspection type and the inspection location of the security mark; determining key security marks of a preset inspection type in the security marks, and determining the distance and value between each security mark and the key security mark according to the inspection site; if the distance sum value is smaller than the preset threshold value, determining an area according to the inspection places corresponding to the safety marks and the inspection places corresponding to the key safety marks.

The patrol tasks corresponding to different areas are different, optionally, the patrol period and the patrol task of the security mark in the area are determined, and the patrol period is b1 day for one time, and the patrol task is used for detecting whether the equipment operates normally or not; the security mark a2 is inspected once in the period of b2 days, and the inspection task is to detect whether the equipment is complete or not. And determining the patrol task of the area according to the patrol period and the patrol task in the area. Optionally, the patrol task includes a patrol route, a patrol time or a patrol event, and the like. The inspection route is exemplified by the security mark a1 to the security mark a2, the inspection time is the c-th day, and the inspection item includes detecting whether the device corresponding to the security mark a1 operates normally or not, and detecting whether the device corresponding to the security mark a2 is complete or not.

The admission conditions of different areas are different, optionally, the inspection level of the security mark in the area is determined, the admission conditions of the area are determined according to the inspection level, the admission conditions comprise that inspection personnel meet a white list for admitting the area, and/or the inspection time meets the time period for admitting the area. Illustratively, the inspection level of the security mark is higher, such as the security mark is a laboratory facility, and the whitelist admitted is determined to be a professional staff, and the time period admitted is 8 pm to 8 am. Illustratively, the security tag has a low inspection level, such as a playground, and the whitelist to grant access is determined to be all staff and the period of time to grant access is all days.

In the technical solution of this embodiment, a campus is divided into a plurality of areas according to security marks; determining the inspection period and the inspection task of the security mark in the area, and determining the inspection task of the area according to the inspection period and the inspection task in the area; determining a patrol level of the security mark in the area, and determining an admittance condition of the area according to the patrol level, wherein the admittance condition comprises a white list that patrol personnel can admit to the area, and/or a period of time that patrol time can admit to the area. Divide the garden according to the security mark for the management regionalization of garden avoids the too big garden security management that leads to of management scope to be low, improves the security management efficiency of garden.

The present invention also provides a campus security management apparatus comprising a memory, a processor, and a campus security management program stored in the memory and executable on the processor, which when executed by the processor, implements the steps of the method of campus security management as described in the above embodiments.

The present invention also provides a computer readable storage medium storing a campus security management program which, when executed by a processor, implements the steps of the method of campus security management described in the above embodiments.

The foregoing embodiment numbers of the present invention are merely for the purpose of description, and do not represent the advantages or disadvantages of the embodiments.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, system, 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, system, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, system, article, or apparatus that comprises the element.

From the above description of the embodiments, it will be clear to those skilled in the art that the above-described embodiment system may be implemented by means of software plus necessary general purpose hardware platform, but of course may also be implemented by means of hardware, but in many cases the former is a preferred embodiment. Based on such understanding, the technical solution of the present invention may be embodied essentially or in a part contributing to the prior art in the form of a software product stored in a computer readable storage medium (e.g. ROM/RAM, magnetic disk, optical disk) as described above, comprising instructions for causing a terminal device (which may be a mobile phone, a computer, a parking management device, an air conditioner, or a network device, etc.) to execute the system according to the embodiments of the present invention.

The foregoing description is only of the preferred embodiments of the present invention, and is not intended to limit the scope of the invention, but rather is intended to cover any equivalents of the structures or equivalent processes disclosed herein or in the alternative, which may be employed directly or indirectly in other related arts.

Claims (7)

1. A method of campus security management, the method comprising:

the method comprises the steps of obtaining a patrol type of a patrol place in a park, determining or generating a security mark of the patrol place according to the patrol type, wherein the patrol type comprises the type of equipment or facilities needing patrol in the patrol place, and the security mark comprises a graphic representation;

the method for obtaining the inspection result of the inspection place corresponding to the security mark, determining the security level of the security mark according to the inspection result comprises the following steps: determining a first evaluation result according to the inspection result and the monitoring information of the inspection place corresponding to the security mark; determining a target security mark associated with the security mark, and determining a second evaluation result according to the inspection result and monitoring information of the inspection site corresponding to the target security mark; determining the security level of the security mark according to the first evaluation result and the second evaluation result; the target security mark is a mark associated with the security mark, wherein an accident occurs at a patrol place of the target security mark, and the patrol place corresponding to the security mark is influenced;

wherein, the step of determining a first evaluation result according to the inspection result and the monitoring information of the inspection site corresponding to the security mark includes: determining a security check dimension of the security mark, wherein the security check dimension comprises a device dimension, an environment dimension and a historical inspection result dimension; determining equipment information and environment information corresponding to the security mark according to the monitoring information, and determining a historical inspection result associated with the security mark according to the inspection result; determining a first sub-score corresponding to the equipment dimension according to the equipment information associated with the security mark, determining a second sub-score corresponding to the environment dimension according to the environment information associated with the security mark, and determining a third sub-score corresponding to the history inspection result dimension according to the history inspection result associated with the security mark; determining a security score corresponding to the security marker according to the first sub-score, the second sub-score and the third sub-score; determining the first evaluation result according to the safety score;

displaying the security mark and the security level on a 3D campus image;

dividing the campus into a plurality of areas according to the security mark, including: determining the inspection type and the inspection place of the security mark; determining key security marks of a preset inspection type in the security marks, and determining the distance and value between each security mark and each key security mark according to the inspection place; if the distance sum value is smaller than a preset threshold value, determining the area according to the inspection places corresponding to the security marks and the inspection places corresponding to the key security marks; the patrol tasks corresponding to different areas are different, and the admission conditions of the different areas are different;

and determining the inspection period and the inspection task of the security mark in the area, and determining the inspection task of the area according to the inspection period and the inspection task in the area.

2. The campus security management method of claim 1, wherein the step of determining the security level of the security mark based on the inspection result comprises:

determining the inspection times in the current period of the security mark according to the inspection result;

determining a numerical interval in which the inspection times are located;

and determining the security level associated with the numerical value interval according to the current time period, and taking the security level associated with the numerical value interval as the security level of the security mark.

3. The campus security management method of claim 1, wherein the method further comprises:

determining a patrol level of the security mark in the area, and determining an access condition of the area according to the patrol level, wherein the access condition comprises a white list of patrol personnel meeting permission of the patrol personnel to enter the area and/or a period of patrol time meeting permission of the patrol personnel to enter the area.

4. The campus security management method of any one of claims 1-3, wherein after the step of displaying the security mark and the security level on the 3D campus image, further comprising:

responding to a first selection operation of a user on the security mark, and acquiring at least one of to-be-inspected items, inspection results and real-time monitoring videos corresponding to the security mark;

and displaying at least one of the to-be-inspected item, the inspection result and the real-time video stream.

5. The campus security management method of any one of claims 1-3, wherein after the step of displaying the security mark and the security level on the 3D campus image, further comprising:

responding to a second selection operation of the user, and acquiring position information of preset personnel and/or vehicles in the park, wherein the position information comprises the current position and/or an active route;

displaying the position information of the preset personnel and/or vehicles on the 3D park image;

after the preset time period, if the preset personnel and/or the person do not leave the park, outputting prompt information.

6. A campus security management apparatus comprising a memory, a processor, and a campus security management program stored in the memory and executable on the processor, the campus security management program when executed by the processor implementing the steps of the method of any one of claims 1 to 5.

7. A computer readable storage medium storing a campus security management program which when executed by a processor performs the steps of the method of any one of claims 1 to 5.