CN115061430A

CN115061430A - Security management system, method, device, storage medium and information processing cloud platform

Info

Publication number: CN115061430A
Application number: CN202210273861.1A
Authority: CN
Inventors: 不公告发明人
Original assignee: Fenzhong Gongyan Beijing Technology Co ltd
Current assignee: Fenzhong Gongyan Beijing Technology Co ltd
Priority date: 2017-12-31
Filing date: 2017-12-31
Publication date: 2022-09-16
Also published as: CN108319234A; CN108319234B

Abstract

An embodiment of the present disclosure provides a security management system, including: the system comprises an information processing cloud platform and at least one mobile terminal connected with the information processing cloud platform; the mobile terminal is used for sending scene description parameters to the information processing cloud platform, and the scene description parameters comprise scene parameters, equipment safety parameters and user parameters corresponding to the mobile terminal; the information processing cloud platform is used for receiving scene description parameters sent by the mobile terminal, determining a scene where the mobile terminal is located and a corresponding safety management flow according to the scene parameters, evaluating the safety condition of equipment and/or personnel in the scene where the mobile terminal is located according to the equipment safety parameters and the scene parameters, determining the association degree between a user corresponding to the mobile terminal and the scene where the mobile terminal is located according to the user parameters, grouping the user corresponding to the mobile terminal to a working group for managing the scene where the mobile terminal is located when the association degree is greater than a preset threshold value, and sending the safety management flow to all the mobile terminals of the working group.

Description

Security management system, method, device, storage medium and information processing cloud platform

Technical Field

The embodiment of the disclosure relates to the field of production and life safety protection, in particular to a safety management system, a method, equipment, a storage medium and an information processing cloud platform.

Background

Security is a constant theme for enterprises. At present, most high-risk operations and fatal operations of enterprises in China are in an uncontrollable and uncontrolled state, major accidents and serious accidents cannot be thoroughly controlled, and the safety production situation of most enterprises is severe.

In order to improve the safe production level, enterprises do a great deal of work from technical means and management means for preventing accidents and an automatic control system, and the equipment level and the automatic control level are continuously improved. Particularly, a robot replaces a human, a process improvement is adopted to reduce human to become an important direction of current and future safety production work, and large-scale enterprises at home and abroad make active attempts to monitor production data, equipment operation conditions and personnel conditions by means of robots, production automation control systems, industrial video monitoring and detecting devices and the like, and implement automation operation, online security management and safety monitoring.

The method has the problems of complicated equipment and facilities, high manufacturing cost, high technical difficulty, poor connection and integration among different systems, incapability of realizing full coverage and the like. More importantly, the safety management system and the method which replace people by machines and reduce people by process improvement are characterized in that people are taken as opposite surfaces of safety production, the system and the method which purely mechanically replace people and reduce people are taken as targets and means, and the system and the method which are combined by man and machine are lacked, so that the important functions of people which are taken as main bodies of safety production and the most important factors cannot be exerted, and the initiative, the enthusiasm, the responsibility, the creativity and the flexibility of people cannot be organically combined with automatic operation and management control.

In addition, because the robot replaces people and the process improvement reduces the high requirements of the automatic control system of people on capital, enterprise information management, construction period and internal and external environments of enterprises, the large-scale enterprises with great capital and technical strength can not realize full coverage of automatic control and no dead angle, and the difficulty in establishing the automatic control system is higher for the vast middle and small enterprises lacking capital and technical strength.

Disclosure of Invention

The embodiment of the disclosure provides a security management system, a security management method, a security management device, a storage medium, and an information processing cloud platform, wherein a set of security management system and a security management method organically combining personnel, hardware and software are established, so that the maximum utilization of existing resources and the maximum participation of personnel are realized, and the security management system has the advantages of wide coverage, high fusion, low cost and strong practicability.

In a first aspect, the present disclosure provides a security management system, including: the system comprises an information processing cloud platform and at least one mobile terminal connected with the information processing cloud platform;

the mobile terminal is used for sending scene description parameters to the information processing cloud platform, wherein the scene description parameters comprise scene parameters, equipment safety parameters and user parameters corresponding to the mobile terminal;

the information processing cloud platform is used for receiving scene description parameters sent by the mobile terminal, determining a scene where the mobile terminal is located and a corresponding safety management process according to the scene parameters, evaluating the safety condition of equipment and/or personnel in the scene where the mobile terminal is located according to the equipment safety parameters and the scene parameters, determining the association degree between a user corresponding to the mobile terminal and the scene where the mobile terminal is located according to the user parameters, grouping the user corresponding to the mobile terminal to a working group for managing the scene where the mobile terminal is located when the association degree is greater than a preset threshold value, and sending the safety management process to all the mobile terminals of the working group.

With reference to the first aspect, in a first possible implementation manner of the first aspect, the security management system provided by the present disclosure further includes: and the scene perception unit is used for acquiring scene description parameters of a scene where the mobile terminal is located and sending the scene description parameters to the information processing cloud platform.

With reference to the first possible implementation manner of the first aspect, in a second possible implementation manner of the first aspect, the scene sensing unit includes an acquisition subunit, a sending subunit, and a human-computer interaction interface, where the acquisition subunit is configured to acquire scene parameters and device security parameters of a scene where the mobile terminal is located, the sending subunit is configured to send the scene parameters and the device security parameters of the scene where the mobile terminal is located to the information processing cloud platform, and the human-computer interaction interface is configured to receive an input instruction.

With reference to the first aspect, in a third possible implementation manner of the first aspect, the information processing cloud platform is further configured to generate and send, to the mobile terminal, a dynamic risk potential map for describing security statuses of each device and/or person in a scene where the mobile terminal is located according to the scene description parameters.

With reference to the third possible implementation manner of the first aspect, in a fourth possible implementation manner of the first aspect, the information processing cloud platform is further configured to generate and send warning information to the mobile terminal according to the scene description parameter when it is determined that the mobile terminal is located in a scene with devices and/or people whose security statuses do not meet the standard.

With reference to the third or fourth possible implementation manner of the first aspect, in a fifth possible implementation manner of the first aspect, the information processing cloud platform is further configured to generate and send a workflow instruction for a device and/or a person whose security status does not meet the standard to the mobile terminal when it is determined that the device and/or the person whose security status does not meet the standard exists in a scene where the mobile terminal is located according to the scene description parameters;

the mobile terminal is further configured to receive the workflow instruction to instruct the mobile terminal to monitor a completion progress of a task specified by the workflow instruction.

With reference to the fifth possible implementation manner of the first aspect, in a sixth possible implementation manner of the first aspect, the workflow instruction includes at least one of: the system comprises a work track recording instruction, a task hastening instruction and a node management and control instruction.

With reference to the first aspect, in a seventh possible implementation manner of the first aspect, the information processing cloud platform is further configured to determine, according to the scene description parameter, emergency rescue equipment in a scene where the mobile terminal is located, and generate and send, to the mobile terminal, an emergency rescue equipment facility map used for describing positions of the emergency rescue equipment in a working group corresponding to the scene where the mobile terminal is located.

With reference to the seventh possible implementation manner of the first aspect, in an eighth possible implementation manner of the first aspect, the information processing cloud platform is further configured to generate a sharing instruction and a sharing state for each emergency rescue equipment facility in the working group, and set at least one first aid equipment facility of the emergency rescue equipment facilities in the sharing state when receiving the sharing instruction for the at least one first aid equipment facility.

With reference to the seventh or eighth possible implementation manner of the first aspect, in a ninth possible implementation manner of the first aspect, the information processing cloud platform is further configured to, when receiving an unlocking instruction for the emergency rescue equipment facility in the shared state, authorize the usage right and the usage description of the emergency rescue equipment facility in the shared state to the terminal device that sends the unlocking instruction.

With reference to any one of the seventh to ninth possible implementation manners of the first aspect, in a tenth possible implementation manner of the first aspect, the information processing cloud platform is further configured to push emergency rescue equipment facilities near the location of the mobile terminal to the mobile terminal when receiving the burst signal.

With reference to the first aspect, in an eleventh possible implementation manner of the first aspect, the user parameter includes at least one of: user identification, user characteristic attribute corresponding to the scene and user authority.

With reference to the first aspect, in a twelfth possible implementation manner of the first aspect, the scene parameter includes at least one of: scene labels, element parameters, temperature parameters, humidity parameters, gas parameters, smoke parameters, identification parameters of field personnel, position parameters, fatigue physiological parameters and working state parameters.

With reference to the first aspect, in a thirteenth possible implementation manner of the first aspect, the information processing cloud platform is further configured to generate, according to the scene description parameter, security information and a security situation report corresponding to a scene where the mobile terminal is located.

With reference to the thirteenth possible implementation manner of the first aspect, in a fourteenth possible implementation manner of the first aspect, the information processing cloud platform is further configured to send, to the mobile terminal, security information and a security posture analysis report that are indicated by the security information display instruction when the security information display instruction sent by the mobile terminal is received.

With reference to the thirteenth possible implementation manner or the fourteenth possible implementation manner of the first aspect, in a fifteenth possible implementation manner of the first aspect, the security information includes at least one of the following: the system comprises the current safety general situation, risk early warning, potential safety hazards, safety tasks, operation management, equipment information, emergency rescue equipment sharing information and working group members.

With reference to the first aspect, in a sixteenth possible implementation manner of the first aspect, the information processing cloud platform is further configured to receive a security control instruction sent by the mobile terminal, where the security control instruction includes an operation for the scene description parameter.

With reference to the sixteenth possible implementation manner of the first aspect, in a seventeenth possible implementation manner of the first aspect, the safety control instruction includes at least one of: the method comprises the steps of work group member card punching operation, safety problem multimedia form uploading operation, standardized operation, safety task establishing operation, work group member communication operation, rescue facility and equipment sharing operation and work group internal data and information sharing operation.

In a second aspect, the present disclosure provides a security management method applied to an information processing cloud platform, where the method includes:

receiving scene description parameters sent by a mobile terminal, wherein the scene description parameters comprise scene parameters, equipment safety parameters and user parameters corresponding to the mobile terminal;

determining a scene where the mobile terminal is located and a corresponding safety management process according to the scene parameters, evaluating the safety condition of equipment and/or personnel in the scene where the mobile terminal is located according to the equipment safety parameters and the scene parameters, determining the association degree of a user corresponding to the mobile terminal and the scene where the mobile terminal is located according to the user parameters, grouping the user corresponding to the mobile terminal to a working group for managing the scene where the mobile terminal is located when the association degree is greater than a preset threshold value, and sending the safety management process to all the mobile terminals grouped to the working group.

With reference to the second aspect, in a first possible implementation manner of the second aspect, the scene description parameters sent by the scene sensing unit are received.

With reference to the second aspect, in a second possible implementation manner of the second aspect, the security management method further includes: and generating and sending a dynamic risk potential map for the safety condition of each device and/or personnel in the scene where the mobile terminal is located to the mobile terminal according to the scene description parameters.

With reference to the second possible implementation manner of the second aspect, in a third possible implementation manner of the second aspect, the security management method further includes: according to the scene description parameters, when the situation that the mobile terminal is located in is determined to have equipment and/or personnel with unqualified safety conditions, generating and sending a workflow instruction aiming at the equipment and/or personnel with unqualified safety conditions to the mobile terminal; wherein the workflow instructions include at least one of: the system comprises a work track recording instruction, a task hastening instruction and a node management and control instruction.

With reference to the second aspect, in a fourth possible implementation manner of the second aspect, the security management method further includes: according to the scene description parameters, determining emergency rescue equipment in the scene where the mobile terminal is located, and generating and sending an emergency rescue equipment facility map used for describing the position of each emergency rescue equipment in a working group corresponding to the scene where the mobile terminal is located to the mobile terminal.

With reference to the fourth possible implementation manner of the second aspect, in a fifth possible implementation manner of the second aspect, the security management method further includes: generating a sharing instruction and a sharing state for each emergency rescue equipment facility in the work group, and setting at least one first-aid rescue equipment facility in the sharing state when receiving the sharing instruction for the at least one first-aid rescue equipment facility in each emergency rescue equipment facility.

With reference to the fourth or fifth possible implementation manner of the second aspect, in a sixth possible implementation manner of the second aspect, the security management method further includes:

when an unlocking instruction aiming at the emergency rescue equipment in the shared state is received, authorizing the use permission and the use description of the emergency rescue equipment in the shared state to the terminal equipment sending the unlocking instruction.

With reference to the fifth possible implementation manner of the second aspect, in a seventh possible implementation manner of the second aspect, the security management method further includes:

and when receiving the burst signal, pushing emergency rescue equipment facilities near the position where the mobile terminal is located to the mobile terminal.

With reference to the second possible implementation manner of the second aspect, in an eighth possible implementation manner of the second aspect, the security management method further includes: generating and sending warning information to the mobile terminal when equipment and/or personnel with unqualified safety conditions in the scene where the mobile terminal is located are determined; and/or

When the situation that the mobile terminal is located in is determined to have equipment and/or personnel with unqualified safety conditions, generating and sending a workflow instruction aiming at the equipment and/or personnel with unqualified safety conditions to the mobile terminal so as to instruct the mobile terminal to monitor the completion progress of a task specified by the workflow instruction.

With reference to the second aspect, in a ninth possible implementation manner of the second aspect, the security management method further includes: and generating safety information and a safety situation report corresponding to the scene where the mobile terminal is located according to the scene description parameters.

With reference to the ninth possible implementation manner of the second aspect, in a tenth possible implementation manner of the second aspect, the security management method further includes: and when receiving a safety information display instruction sent by the mobile terminal, sending safety information and a safety situation report indicated by the safety information display instruction to the mobile terminal.

With reference to the second aspect, in an eleventh possible implementation manner of the second aspect, the security management method further includes: and receiving a safety control instruction sent by the mobile terminal, wherein the safety control instruction comprises operation aiming at the scene description parameters.

In a third aspect, the present disclosure provides an electronic device comprising:

a memory for storing at least one machine instruction;

a processor for loading the at least one machine instruction, the at least one machine instruction causing the processor to perform the method of the second aspect or any of the first to eleventh aspects.

In a fourth aspect, the present disclosure provides a machine-readable storage medium having stored thereon machine instructions which, when executed by a processor, implement the method of the second aspect or any of the first to eleventh aspects.

In a fifth aspect, the present disclosure provides an information processing cloud platform, comprising:

the system comprises a receiving program module, a processing module and a display module, wherein the receiving program module is used for receiving scene description parameters sent by a mobile terminal, and the scene description parameters comprise scene parameters, equipment safety parameters and user parameters corresponding to the mobile terminal;

and the processing program module is used for determining the scene where the mobile terminal is located and the corresponding safety management process according to the scene parameters, evaluating the safety condition of equipment and/or personnel in the scene where the mobile terminal is located according to the equipment safety parameters and the scene parameters, determining the association degree between the user corresponding to the mobile terminal and the scene where the mobile terminal is located according to the user parameters, grouping the users corresponding to the mobile terminal to a working group for managing the scene where the mobile terminal is located when the association degree is greater than a preset threshold value, and sending the safety management process to all the mobile terminals of the working group.

With reference to the fifth aspect, in a first possible implementation manner of the fifth aspect, the receiving program module is further configured to: and receiving the scene description parameters sent by the scene perception unit.

With reference to the fifth aspect, in a second possible implementation manner of the fifth aspect, the processing program module is further configured to: and generating and sending a dynamic risk potential map for the safety condition of each device and/or personnel in the scene where the mobile terminal is located to the mobile terminal according to the scene description parameters.

With reference to the second possible implementation manner of the fifth aspect, in a third possible implementation manner of the fifth aspect, the processing program module is further configured to: generating and sending warning information to the mobile terminal when equipment and/or personnel with unqualified safety conditions in the scene describing the mobile terminal are determined; and/or

When it is determined that the mobile terminal is located in a scene with devices and/or persons whose security conditions do not meet the standard, the method is further used for generating and sending a workflow instruction for the devices and/or persons whose security conditions do not meet the standard to the mobile terminal so as to instruct the mobile terminal to monitor the completion progress of the task specified by the workflow instruction.

With reference to the fifth aspect, in a fourth possible implementation manner of the fifth aspect, the processing program module is further configured to: and generating safety information and a safety situation report corresponding to the scene where the mobile terminal is located according to the scene description parameters.

With reference to the fourth possible implementation manner of the fifth aspect, in a fifth possible implementation manner of the fifth aspect, the receiving program module is further configured to: and when receiving a safety information display instruction sent by the mobile terminal, sending safety information and a safety situation report indicated by the safety information display instruction to the mobile terminal.

With reference to the fifth aspect, in a sixth possible implementation manner of the fifth aspect, the receiving program module is further configured to: and receiving a safety control instruction sent by the mobile terminal, wherein the safety control instruction comprises operation aiming at the scene description parameters.

By the embodiment of the disclosure, users (which may be mobile terminal holders) corresponding to mobile terminals in a certain area can be determined to be located in the same scene according to the scene description parameters and grouped into the same working group, and the security management process is sent to all the mobile terminals grouped into the working group, so that the users corresponding to all the mobile terminals in the working group can participate in the security management process. The embodiment of the disclosure can furthest exert the subjective initiative of people by carrying out dynamic scene matching and networking on related personnel, realizes the maximum utilization of the existing resources and the maximum participation of the personnel, has wide coverage, high fusion, low cost and strong practicability, fills the blank and leak of the traditional safety management system and the automatic control system, and realizes the safety management of full coverage, no dead angle and the whole process.

Drawings

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

FIG. 1 is a schematic diagram of a security management system provided in some embodiments of the present disclosure;

FIG. 2 is a schematic diagram illustrating a security management system according to some other embodiments of the present disclosure;

FIG. 3 is a schematic diagram of a security management system according to some embodiments of the present disclosure;

FIG. 4 is a schematic flow chart of a security management system provided in some embodiments of the present disclosure;

FIG. 5 is a flow diagram of a security management method according to some embodiments of the present disclosure;

FIG. 6 is a flow diagram of a security management method according to certain further embodiments of the present disclosure;

fig. 7 is a program module diagram of an information processing cloud platform according to some embodiments of the present disclosure.

Detailed Description

To make the objects, technical solutions and advantages of the embodiments of the present disclosure more clear, the technical solutions of the embodiments of the present disclosure will be described clearly and completely with reference to the drawings in the embodiments of the present disclosure, and it is obvious that the described embodiments are some, but not all embodiments of the present disclosure. All other embodiments, which can be derived by a person skilled in the art from the embodiments disclosed herein without inventive step, are intended to be within the scope of the present disclosure.

The terminology used in the embodiments of the present application is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. As used in the examples of this application and the appended claims, the singular forms "a", "an", and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise, and "a plurality" typically includes at least two.

Referring to fig. 1, an embodiment of the present disclosure provides a security management system, including: the system comprises an information processing cloud platform and at least one mobile terminal connected with the information processing cloud platform. The information processing cloud platform is preset with a scene model and a safety management process corresponding to the scene model, the scene corresponding to the scene model is determined according to the scene description parameters, and it can be seen that the scene and the safety management process have a corresponding relationship. The working principle of the information processing cloud platform and the mobile terminal is as follows.

The mobile terminal is used for sending scene description parameters to the information processing cloud platform, wherein the scene description parameters comprise scene parameters, equipment safety parameters and user parameters corresponding to the mobile terminal.

The mobile terminal comprises but is not limited to a series of portable or wearable intelligent devices such as mobile phones and tablet computers, has networking and/or communication functions, has an operation function, is provided with a terminal program, and has a UI interface interacting with an information management cloud platform and an extensible interface module. The mobile terminal can integrate a scene perception unit to actively acquire the scene description parameters, and can also receive externally input scene description parameters through a human-computer interface, wherein the scene description parameters acquired by the external scene perception unit can be received, and the scene description parameters input by a user can also be received through a human-computer interaction interface.

The user parameters may include at least one of: user identification, user characteristic attribute corresponding to the scene and user authority. The user identifier may be a unique ID composed of letters, numbers and/or symbols, a unique barcode generated according to preset information, a two-dimensional code (for example, a visual two-dimensional code), or preset unique authentication information, for example: biometric data (fingerprint, iris, face image), identification card information. The user characteristic attribute (e.g., location) may refer to an attribute corresponding to a scene, and may be used to determine whether a scene where the mobile terminal is located is consistent with a scene corresponding to the user, where the user may be considered as a member of the working group of the scene when the scene is consistent with the scene, and the user may be considered as not a member of the working group of the scene when the scene is inconsistent with the scene. The user right may be a work right of the user, for example: administrators, members of ordinary workgroup.

The scene parameters may include at least one of: scene labels, element parameters, temperature parameters, humidity parameters, gas parameters, smoke parameters, identification parameters of field personnel, position parameters, fatigue physiological parameters and working state parameters. Wherein the scene tag may be an identifier of a scene to distinguish different scenes, such as: workshop, production line, location, activity, 001, etc. The element parameters may be chemical elements and predetermined concentrations, such as: sulfur S, mercury Hg. The gas parameter may be the gas in the air and a predetermined concentration, for example: CO and ozone O ₃ . The identification parameter may be a user identification, personnel information, etc. The fatigue physiological parameter may be working time, current physical health, rest time during working, etc. The working status parameter may be a degree of job conscience, a rate of correctness, a rate of task completion, a time to commute, a degree of behavioral criteria, or a degree of behavior being/not permitted, a manner of being/not permitted, etc. The element parameters, the temperature parameters, the humidity parameters, the gas parameters and the smoke parameters can have respective preset thresholds, and when the element parameters, the temperature parameters, the humidity parameters, the gas parameters and the smoke parameters are not higher than the respective preset thresholds, the scene parameters can be considered to be normal, and the safety condition of the scene reaches the standard. When the element parameter, the temperature parameter, the humidity parameter, the gas parameter and the smoke parameter are higher than the respective preset threshold values, the scene parameter can be considered as the scene parameterAnd if the scene is abnormal, the safety condition of the scene does not reach the standard.

Similarly, the identification parameter, the position parameter, the fatigue physiological parameter and the working state parameter of the field personnel can have respective preset thresholds, and when the identification parameter, the position parameter, the fatigue physiological parameter and the working state parameter of the field personnel are not higher than the respective preset thresholds, the scene parameter can be considered to be normal, and the safety condition of the scene personnel reaches the standard. When the identification parameters, the position parameters, the fatigue physiological parameters and the working state parameters of the field personnel are higher than the respective corresponding preset threshold values, the scene parameters can be considered to be abnormal, and the safety condition of the scene personnel does not reach the standard.

The device security parameters may include at least one of: device identification, model, type, location parameters, temperature parameters, operating conditions (including but not limited to stress, vibration, pressure, voltage, power, frequency, overload, undervoltage, leakage, etc.). The temperature parameter and the working state can have respective preset threshold values, and when the temperature parameter and the working state are not higher than the respective preset threshold values, the safety parameter of the equipment can be considered to be normal, the equipment works normally, and the safety condition reaches the standard. When the temperature parameter and the working state are higher than the respective corresponding preset threshold values, the safety parameter of the equipment can be considered to be abnormal, and the safety condition of the equipment does not reach the standard.

The information processing cloud platform is used for receiving scene description parameters sent by the mobile terminal, determining a scene where the mobile terminal is located and a corresponding safety management process according to the scene parameters, determining the association degree between a user corresponding to the mobile terminal and the scene where the mobile terminal is located according to the user parameters, grouping the user corresponding to the mobile terminal to a working group for managing the scene where the mobile terminal is located when the association degree is greater than a preset threshold value, and sending the safety management process to all the mobile terminals grouped to the working group. The information processing cloud platform is further used for evaluating the safety condition of the equipment and/or the safety condition of personnel in the scene where the mobile terminal is located according to the equipment safety parameters and the scene parameters.

The association degree indicates a degree of closeness of contact between a user corresponding to the mobile terminal and a scene, and specifically, the determination of the position, the identity authentication, or other user parameters such as a specific state and a specific parameter may be performed according to a preset condition, so as to determine whether the user corresponding to the mobile terminal has a strong association degree with the scene where the mobile terminal is located, thereby finally determining whether the user corresponding to the mobile terminal belongs to a group member in the scene where the mobile terminal is located or corresponds to the corresponding scene.

The user corresponding to the mobile terminal can be a mobile terminal holder, and the holder can be used as a work group member of a corresponding scene to perform work after being subjected to analysis, authentication and association of the information processing cloud platform.

In the embodiment of the disclosure, the information processing cloud platform may evaluate the security condition of the device and/or the security condition of the person in the scene where the mobile terminal is located according to the device security parameter and the scene parameterSo as to makeThe following conditions are:

(1) and the information processing cloud platform evaluates the safety condition of the equipment in the scene where the mobile terminal is located according to the equipment safety parameters and the scene parameters. For example, the safety condition of the device in the scene where the mobile terminal is located can be evaluated through a temperature parameter, an operating state, an element parameter, a temperature parameter, a humidity parameter, a gas parameter and a smoke parameter in the device safety parameters, the operating state and the scene parameters.

(2) And the information processing cloud platform evaluates the safety condition of the personnel in the scene where the mobile terminal is located according to the equipment safety parameters and the scene parameters. For example, the safety condition of the person in the scene where the mobile terminal is located can be evaluated through the identification parameters, the position parameters, the fatigue physiological parameters and the working state parameters of the field person in the device safety parameters, the working state parameters and the scene parameters.

(3) And the information processing cloud platform evaluates the safety condition of the equipment and the safety condition of personnel in the scene where the mobile terminal is located according to the equipment safety parameters and the scene parameters. For example, the safety condition of the device in the scene where the mobile terminal is located can be evaluated through a temperature parameter, an operating state parameter and an element parameter, a temperature parameter, a humidity parameter, a gas parameter and a smoke parameter in the device safety parameters, and the safety condition of the personnel in the scene where the mobile terminal is located can be evaluated according to an identification parameter, a position parameter, a fatigue physiological parameter and an operating state parameter of the field personnel in the scene parameters.

(4) And the information processing cloud platform evaluates the safety condition of the equipment in the scene where the mobile terminal is located according to the equipment safety parameters. For example, the safety condition of the device in the scene where the mobile terminal is located can be evaluated through the temperature parameter and the working state in the safety parameters of the device.

(5) And the information processing cloud platform evaluates the safety condition of personnel in the scene where the mobile terminal is located according to the equipment safety parameters. For example, the safety condition of the person in the scene where the mobile terminal is located can be evaluated through the temperature parameter and the working state in the device safety parameters.

(6) And the information processing cloud platform evaluates the safety condition of equipment and the safety condition of personnel in the scene where the mobile terminal is located according to the equipment safety parameters. For example, the safety condition of the device and the safety condition of the personnel in the scene where the mobile terminal is located can be evaluated through the temperature parameter and the working state in the device safety parameters.

(7) And the information processing cloud platform evaluates the safety condition of equipment in the scene of the mobile terminal according to the scene parameters. For example, the safety condition of the device in the scene where the mobile terminal is located can be evaluated through an element parameter, a temperature parameter, a humidity parameter, a gas parameter and a smoke parameter in the scene parameters.

(8) And the information processing cloud platform evaluates the safety condition of the personnel in the scene of the mobile terminal according to the scene parameters. For example, the safety condition of the personnel in the scene where the mobile terminal is located can be evaluated through the identification parameters, the position parameters, the fatigue physiological parameters and the working state parameters of the field personnel in the scene parameters.

(9) And the information processing cloud platform evaluates the safety condition of equipment and the safety condition of personnel in the scene of the mobile terminal according to the scene parameters. For example, the safety condition of the device in the scene of the mobile terminal can be evaluated through an element parameter, a temperature parameter, a humidity parameter, a gas parameter and a smoke parameter in the scene parameters, and the safety condition of the personnel in the scene of the mobile terminal can be evaluated through an identification parameter, a position parameter, a fatigue physiological parameter and an operating state parameter of the personnel in the scene parameters.

By the embodiment of the disclosure, users (which may be mobile terminal holders) corresponding to mobile terminals in a certain area can be determined to be located in the same scene according to the scene description parameters and grouped into the same working group, and the security management process is sent to all the mobile terminals grouped into the working group, so that the users corresponding to all the mobile terminals in the working group can participate in the security management process. The embodiment of the disclosure can furthest exert the subjective initiative of people by carrying out dynamic scene matching and networking on related personnel, realizes the maximum utilization of the existing resources and the maximum participation of the personnel, has wide coverage, high fusion, low cost and strong practicability, fills the blank and leak of the traditional safety management system and monitoring system, and realizes the full coverage and no dead angle of safety management.

In some optional embodiments described above, the information processing cloud platform is further configured to generate and send, to the mobile terminal, a dynamic risk potential map for describing the security status of each device and/or the security status of people in the scene where the mobile terminal is located according to the scene description parameter. The device safety parameters and the scene parameters may be described in the dynamic risk potential map, for example, a scene map including device information and person information is drawn according to the position parameters in the device safety parameters and in combination with the scene parameters, where the scene map has a device position highlight mark, and the device information is written in the description of the scene map, for example: model, temperature parameters, operating conditions (including but not limited to stress, vibration, pressure, voltage, power, frequency, overload, undervoltage, leakage, etc.), whether normal, etc., and personnel information such as: identification parameters, position parameters, fatigue physiological parameters, working state parameters and the like of field personnel. Through the embodiment of the disclosure, the safety condition and/or the personnel safety condition of each device in the scene where the mobile terminal is located can be observed clearly at a glance. Furthermore, the latest navigation route and method prompt for reaching each device and/or person in the scene map can be provided for the user corresponding to the mobile terminal by combining with the GPS, any device and/or person in the scene map can be reached more quickly, the working efficiency is improved, and the problem that some workers delay the whole work due to the fact that the workers do not know the road conditions and lack the method is solved.

In some optional embodiments, the information processing cloud platform is further configured to generate and send warning information to the mobile terminal when it is determined that the mobile terminal is located in a scene with devices and/or people whose security conditions do not meet the standard. When the information processing cloud platform determines that the safety condition of the corresponding equipment and/or personnel is not up to standard according to the equipment safety parameters and the scene parameters, warning information is sent to the mobile terminal, wherein the warning information comprises the equipment safety parameters and the scene parameters corresponding to the equipment and/or personnel with the unqualified safety condition, so that the equipment and/or personnel with the unqualified safety condition can be quickly found.

In some optional embodiments of the foregoing, according to the scene description parameter, when it is determined that the mobile terminal is located in a scene with devices and/or people whose security conditions do not meet the standard, the information processing cloud platform is further configured to generate and send a workflow instruction for the devices and/or people whose security conditions do not meet the standard to the mobile terminal. The mobile terminal is further configured to receive the workflow instruction to instruct the mobile terminal to monitor the completion progress of the task specified by the workflow instruction.

The safety management process comprises scene description parameters corresponding to equipment and/or personnel with unqualified safety conditions, tasks correspondingly generated aiming at the equipment and/or personnel with unqualified safety conditions and workflow instructions for monitoring and managing the generated tasks, wherein the workflow instructions at least comprise a work track recording instruction, a task hastening instruction and a node management and control instruction, the work track recording instruction is used for setting and recording tracks during work according to the generated tasks, the task hastening instruction is used for monitoring the completion progress of the tasks, and the node management and control instruction is used for setting managed and controlled workflow nodes according to the generated tasks. It should be understood that the parameters may also be described for the equipment security scenario corresponding to the equipment and/or personnel whose security condition is up to standard, and the task and workflow instruction generated corresponding to the equipment and/or personnel whose security condition is up to standard.

In some optional embodiments described above, the information processing cloud platform is further configured to generate, according to the scene description parameter, security information and a security situation report corresponding to a scene in which the mobile terminal is located. Optionally, the information processing cloud platform is further configured to send, when receiving a security information display instruction sent by the mobile terminal, security information and a security situation report indicated by the security information display instruction to the mobile terminal. The security information includes at least one of: the system comprises the current safety general situation, risk early warning, potential safety hazards, safety tasks, operation management and operation methods, equipment information, emergency rescue equipment sharing information and working group members. Based on the equipment safety parameters and the scene parameters, which equipment and personnel corresponding to the equipment and/or personnel with unqualified safety conditions have problems can be determined, so that risk early warning and potential safety hazards can be generated according to the information of the equipment and/or personnel with problems, and a safety situation report describing the equipment and/or personnel conditions and situations with unqualified safety conditions can be generated. It should be understood that the security posture report may describe the overall security condition of the devices and/or persons in the scene and generate the security posture report based on the overall security condition of the devices and/or persons in the scene, such as: when the information processing cloud platform detects that the safety condition of the staff in the working group A in the scene reaches the standard and the safety condition of the equipment in the fire extinguisher A does not reach the standard, a safety situation report of finding that the safety condition of the equipment in the fire extinguisher A does not reach the standard and the safety condition of the staff in the working group A reaches the standard is generated.

Meanwhile, in order to eliminate risk early warning and potential safety hazards, a corresponding safety management process can be generated for the equipment and/or personnel with the unqualified safety condition, and the corresponding safety management process comprises a task (namely a safety task) generated for the equipment and/or personnel with the unqualified safety condition and a workflow instruction for monitoring and managing the specific content of the safety task. From the above, the security management process can be regarded as a job management and operation method for task content.

In some optional embodiments described above, the information processing cloud platform is further configured to receive a security control instruction sent by the mobile terminal, where the security control instruction includes an operation for the scene description parameter. The security control instructions include at least one of: the method comprises the steps of work group member card punching operation, safety problem multimedia form uploading operation, standardized operation, safety task establishing operation, work group member communication operation, rescue facility and equipment sharing operation and work group internal data and information sharing operation.

Optionally, in the embodiment of the present disclosure, a workflow cooperative management technology may be adopted to complete the corresponding functions corresponding to the security management process and the security control instruction, such as a card punching function of a work group member, a multimedia table uploading function of a security problem, a standardized operation function, a function of establishing a security task, a communication function of the work group member, a rescue facility and equipment sharing function, and a work group internal data and information sharing function.

In some optional embodiments, the information processing cloud platform is further configured to determine, according to the scene description parameter, emergency rescue equipment in a scene where the mobile terminal is located, and generate and send, to the mobile terminal, an emergency rescue equipment facility map used for describing positions of the emergency rescue equipment in a work group corresponding to the scene where the mobile terminal is located.

Specifically, emergency rescue equipment facilities in the scene may be determined according to the type of the equipment safety parameters.

And determining the position of each emergency rescue equipment facility according to the position parameter in the equipment safety parameters, and drawing an emergency rescue equipment facility map containing each emergency rescue equipment facility by combining scene parameters. Wherein, the emergency rescue equipment facility map has the position emphasis label of the emergency rescue equipment, and the description of the emergency rescue equipment facility map indicates the equipment information, such as: model, temperature parameters, operating conditions (including but not limited to stress, vibration, pressure, voltage, power, frequency, overload, undervoltage, leakage, etc.), whether normal, etc.

In the prior art, although each public area has emergency rescue equipment, the emergency rescue equipment cannot be quickly known where each emergency rescue equipment is. Through the embodiment of the disclosure, the positions of all emergency rescue equipment facilities in the scene where the mobile terminal is located can be observed clearly at a glance.

In the embodiment of the present disclosure, in general, members in the same working group can see the positions of the emergency rescue equipment facilities in the scene where the mobile terminal is located, but members in other working groups cannot see the positions of the emergency rescue equipment facilities in the scene where the mobile terminal is located, for example: according to the equipment safety parameters in the scene parameters sent by the mobile terminal 1, an emergency rescue equipment facility map is generated, wherein the positions of the emergency rescue equipment facilities in the emergency rescue equipment facility map can be seen by the members of the working group of the user grouped to the same working group corresponding to the mobile terminal 1, and the positions of the emergency rescue equipment facilities in the emergency rescue equipment facility map cannot be seen by the members of the working group of the user not corresponding to the mobile terminal 1. To solve this problem, optionally, the information processing cloud platform is further configured to generate a sharing instruction and a sharing state for each emergency rescue equipment facility in the working group, and set at least one first rescue equipment facility in the sharing state when receiving the sharing instruction for the at least one first rescue equipment facility in the emergency rescue equipment facilities. Therefore, the mobile terminal can be shared by other working group members except the working group, so that the other working group members can also see the position of each emergency rescue equipment facility in the scene where the mobile terminal is located.

When the staff member needs to manage or use the corresponding first aid equipment facility, an unlocking instruction can be sent by the terminal equipment (such as a mobile terminal), and the unlocking instruction can be an authenticated password, a fingerprint and the like. The information processing cloud platform is further used for authorizing the use permission and the use description of the emergency rescue equipment facility in the shared state to the terminal equipment sending the unlocking instruction when the unlocking instruction aiming at the emergency rescue equipment facility in the shared state is received.

It should be understood that the terminal device may be a mobile electronic product such as a smart phone, a PAD, or other electronic terminals, and the application is not limited thereto.

When emergency rescue equipment needs to be used emergently in case of emergency, and in order to avoid that a user cannot find emergency rescue equipment facilities due to no understanding or scaring, the information processing cloud platform is further used for drawing a route map from the position information of the first emergency rescue equipment facility to the position of the terminal equipment sending the search instruction according to the position information of the first emergency rescue equipment facility aiming at the first emergency rescue equipment facility in each emergency rescue equipment, and sending the drawn route map and the use method to the terminal equipment sending the search instruction. For example, the terminal device a sends a search instruction of a fire extinguisher (emergency rescue equipment facility) to the information processing cloud platform, and after the information processing cloud platform searches the location of the fire extinguisher, a route map from the location of the fire extinguisher to the location of the terminal device a is drawn according to the location information of the fire extinguisher, and the route map and a use method of the fire extinguisher are sent to the terminal device a, so that a holder of the terminal device a can quickly find and use the fire extinguisher. Or, the embodiment of the disclosure may also push the emergency rescue equipment facility near the position where the mobile terminal is located to the mobile terminal when the information processing cloud platform receives an emergency signal such as a fire alarm, and the embodiment of the disclosure may directly push the emergency rescue equipment facility near the position where the working group member is located to the mobile terminal of the working group member, so that the working group member can quickly know the surrounding emergency rescue equipment facility. Optionally, a route map from the position of the staff member to the position of the nearest emergency rescue equipment facility may be further plotted, and the plotted route map is sent to the mobile terminal of the staff member, so that the staff member can quickly reach and use the nearest emergency rescue equipment facility. Wherein the first emergency rescue equipment facility is any one of the emergency rescue equipment.

In some embodiments of the present disclosure shown in fig. 2, different from the foregoing embodiments, the security management system further includes a scene sensing unit, configured to collect scene description parameters of a scene where the mobile terminal is located, and send the scene description parameters to the information processing cloud platform. For a detailed explanation of the scene description parameters, reference is made to the foregoing.

Scene perception is a novel intelligent technology which is characterized in that various important environmental information is acquired, fused and analyzed in real time by means of advanced sensing networks such as the Internet of things and computer equipment, and the environmental conditions are automatically judged by combining relevant knowledge. After the sensors and other various source information are collected and analyzed, the scene where the mobile terminal is located can be identified by a computer, even the historical behavior record of the mobile terminal corresponding to the user can be sensed within a certain time, and the security information and the security service which are obtained as required are provided for the user through a big data analysis and intelligent decision making system.

The scene sensing unit can identify the identity of personnel on site (including but not limited to identifying information by the biological characteristic data of the personnel), monitor fatigue physiological factors, monitor sensing and controlling capacity, monitor position and the like; identifying, location monitoring, and operational status monitoring (including but not limited to stress, vibration, pressure, voltage, power, frequency, overload, undervoltage, leakage, etc.) of equipment (broadly including machines, energy, raw materials, products, etc.) in a scene; and performing element identification, temperature monitoring, humidity monitoring, gas monitoring, smoke monitoring and the like on the environment in the scene. "on-site person" refers to all persons in the field, including mobile terminal holders and non-mobile terminal holders. Optionally, the scene sensing unit monitors various parameters related to people, equipment and environment through technologies such as bluetooth, two-dimensional codes, radio frequency identification RFID, WiFi, mobile geographic information system GIS, location-based service LBS, video camera device, various sensors and iBeacon.

The information processing cloud platform can perform fusion and aggregation through the user corresponding to the mobile terminal, the equipment in the scene where the mobile terminal is located, and the characteristics of the user or the holder of the mobile terminal in different scenes, find the association between the user and the holder of the mobile terminal, determine the association degree between the user and the holder of the mobile terminal, issue a corresponding safety management flow to the mobile terminal according to the scene, automatically control and adjust the safety condition of the equipment in the scene according to the change of the scene, and manage and control and adjust the safety condition of people in the scene through a workflow instruction and a task.

In an optional embodiment, the scene sensing unit includes an acquisition subunit and a sending subunit. The acquisition subunit and the sending subunit are installed in the field areas of equipment facilities, raw materials or tools, connecting devices and the like and are used for acquiring positioning, reading data, receiving information, authenticating users, recording associated information, uploading/submitting equipment technical information and operating parameters to the mobile terminal and the like. The system consists of a sensor network and accessories thereof, and is provided with an open interface and flexibly butted or distributed in each area in a scene.

Optionally, the scene sensing unit further includes a human-computer interaction interface for receiving an input instruction. Specifically, the scene sensing unit provides an operation interface of a human-computer interaction interface related to the current scene for the user, and the operation interface can input an operation instruction through the human-computer interaction interface and provide guidance information during instruction input. The scene perception unit collects scene description parameters of an area or a scene where a user is located, and organizes and stores the scene description parameters in an efficient mode.

Please refer to fig. 3And FIG. 4A workflow diagram of a security management system comprising a scene aware unit is shown. The embodiment of the disclosure provides a security management system and a management method thereof, comprising: the system comprises an information processing cloud platform, a scene perception unit and at least one mobile terminal connected with the information processing cloud platform. The information processing cloud platform is preset with a scene model and a safety management process corresponding to the scene model, the scene corresponding to the scene model is determined according to scene description parameters, and the scene and the safety management can be seenThe flows have a correspondence relationship.

The mobile terminal comprises but is not limited to a series of portable or wearable intelligent devices such as mobile phones and tablet computers, has networking and/or communication functions, has an operation function, is provided with a terminal program, and has a UI interface interacting with an information management cloud platform and an extensible interface module.

The user parameters may include at least one of: user identification, user characteristic attribute corresponding to the scene and user authority. The user identifier may be a unique ID composed of letters, numbers and/or symbols, a unique barcode generated according to preset information, a two-dimensional code (for example, a visual two-dimensional code), or preset unique authentication information, for example: biometric data (fingerprint, iris, face image), identification card information. The user characteristic attribute may be an attribute corresponding to a scene, and may be used to determine whether a scene where the mobile terminal is located is consistent with a scene corresponding to the user, where if the scene is consistent, the user may be considered as a work composer corresponding to the scene, and if the scene is not consistent, the user may be considered as not a work group member of the scene, for example: location. The user right may be a work right of the user, for example: administrators, members of ordinary workgroup.

The scene parameters may include at least one of: scene labels, element parameters, temperature parameters, humidity parameters, gas parameters, smoke parameters, identification parameters of field personnel, position parameters, fatigue physiological parameters and working state parameters. Wherein the scene tag may be an identifier of a scene to distinguish different scenes, such as: workshop, production line, location, activity, 001, etc. The element parameters may be chemical elements and predetermined concentrations, such as: sulfur S, mercury Hg. The gas parameter may be the gas in the air and a predetermined concentration, for example: CO and ozone O ₃ . The identification parameter may be a user identification, personnel information, etc. Physiological parameter of fatigueThe number may be work hours, current physical health, rest time during work, etc. The working state parameter may be a degree of work conscience, a rate of accuracy, a task completion rate, a time to work or off duty, a degree of behavior criteria, or a degree of behavior being/not allowed, a manner of being/not allowed, etc. The element parameters, the temperature parameters, the humidity parameters, the gas parameters and the smoke parameters can have respective preset thresholds, and when the element parameters, the temperature parameters, the humidity parameters, the gas parameters and the smoke parameters are not higher than the respective preset thresholds, the scene parameters can be considered to be normal, and the safety condition of the scene reaches the standard. When the element parameter, the temperature parameter, the humidity parameter, the gas parameter and the smoke parameter are higher than the respective corresponding preset threshold values, the scene parameter can be considered to be abnormal, and the safety condition of the scene does not reach the standard.

The device security parameters may include at least one of: model, position parameters, temperature parameters, operating conditions (including but not limited to stress, vibration, pressure, voltage, power, frequency, overload, undervoltage, leakage, etc.). The temperature parameter and the working state can have respective preset threshold values, and when the temperature parameter and the working state are not higher than the respective corresponding preset threshold values, the safety parameter of the equipment can be considered to be normal, the equipment works normally, and the safety condition reaches the standard. When the temperature parameter and the working state are higher than the respective corresponding preset threshold values, the safety parameter of the equipment can be considered to be abnormal, and the safety condition of the equipment does not reach the standard.

The information processing cloud platform is used for receiving scene description parameters sent by the mobile terminal, determining a scene where the mobile terminal is located and a corresponding safety management process according to the scene parameters, determining the association degree between a user corresponding to the mobile terminal and the scene where the mobile terminal is located according to the user parameters, grouping the user corresponding to the mobile terminal to a working group for managing the scene where the mobile terminal is located when the association degree is greater than a preset threshold value, and sending the safety management process to all the mobile terminals grouped to the working group. The information processing cloud platform is further used for evaluating the safety condition of the equipment in the scene where the mobile terminal is located according to the equipment safety parameters.

The association degree indicates a degree of closeness of contact between a user corresponding to the mobile terminal and a scene, and specifically, the determination of the location, the identity authentication, or other user parameters such as a specific state and a specific parameter may be performed under a preset condition, so as to determine whether the user corresponding to the mobile terminal has a strong association degree with the scene where the mobile terminal is located, thereby finally determining whether the user corresponding to the mobile terminal belongs to a member of an operating group in the scene where the mobile terminal is located or may correspond to the corresponding scene. That is, when a user has a strong degree of association with a scene, the grouping of the user as a member of the workgroup in the scene may be triggered.

The user corresponding to the mobile terminal can be a mobile terminal holder, and the holder can be used as a working group member of a corresponding scene to perform work after being subjected to analysis, authentication and association of the information processing cloud platform.

The scene sensing unit is used for collecting and transmitting scene description parameters, and can perform identity recognition (including but not limited to identity information confirmation through biological characteristic data of personnel), fatigue physiological factor monitoring, sensing and control capability monitoring, position monitoring and the like on site personnel; identifying, location monitoring, and operational status monitoring (including but not limited to stress, vibration, pressure, voltage, power, frequency, overload, undervoltage, leakage, etc.) of equipment (broadly including machines, energy, raw materials, products, etc.) in a scene; and performing element identification, temperature monitoring, humidity monitoring, gas monitoring, smoke monitoring and the like on the environment in the scene. "on-site personnel" refers to all personnel on the site, including mobile terminal holders and non-mobile terminal holders. Optionally, the scene sensing unit may be a functional module such as bluetooth, radio frequency identification RFID, WiFi, mobile geographic information system GIS, location-based service LBS, video camera device, various sensors and iBeacon, and may also monitor the above various parameters relating to people, equipment and environment through bluetooth, two-dimensional code, radio frequency identification RFID, WiFi, mobile geographic information system GIS, location-based service LBS, video camera device, various sensors and iBeacon.

The scene perception unit comprises a collection subunit and a sending subunit. The acquisition subunit and the sending subunit are installed in the field areas of equipment facilities, raw materials or tools, connecting devices and the like and are used for acquiring positioning, reading data, receiving information, authenticating users, recording associated information, uploading/submitting equipment technical information and operating parameters to the mobile terminal and the like. The system consists of a sensor network and accessories thereof, and is provided with an open interface and flexibly butted or distributed in each area in a scene. Specifically, the acquisition subunit is used for acquiring scene description parameters monitored by technologies such as Bluetooth, two-dimensional codes, radio frequency identification RFID, WiFi, mobile geographic information system GIS, location-based service LBS, video camera devices, various sensors and iBeacon, and the transmission subunit is used for transmitting the scene description parameters to the information processing cloud platform.

In addition, the scene perception unit also comprises a human-computer interaction interface used for receiving input instructions. Specifically, the scene sensing unit provides an operation interface of a human-computer interaction interface related to the current scene for the user, and the operation interface can input an operation instruction through the human-computer interaction interface and provide guidance information during instruction input. The scene perception unit collects scene description parameters of an area or a scene where a user is located, and organizes and stores the scene description parameters in an efficient mode.

In the embodiment of the disclosure, the information processing cloud platform is configured to search and receive information of the mobile terminal and the scene sensing unit, or receive information of the mobile terminal and/or open source network information, respond to a user behavior request, issue a formatted and modeled risk potential map and warning information, perform security posture analysis and display, implement functions such as flow management and control, output a workflow instruction, an optimization scheme, preset standards and thresholds, and perform control and cutoff.

In some optional embodiments described above, the structure of the information processing cloud platform includes:

the service layer faces to the mobile terminal, receives the request of the mobile terminal and feeds back information to the mobile terminal;

the facility layer is connected with the service layer and used for receiving the request of the service layer and opening the software subsystem according to the request;

the storage layer is connected with the facility layer and is used for storing data images generated by users in the process of using the software;

and the searching layer is connected with the storage layer and the open source network and is used for searching and receiving requests and information from the inside and the outside.

In some optional embodiments, the external functions of the information processing cloud platform include electronic tag management, record query statistics, data maintenance management, tracking and positioning management, process management, emergency management, resource sharing, visualization and modeling.

In some optional embodiments, the subsystems of the information processing cloud platform include a safety confirmation system, a hidden danger troubleshooting system, a regular inspection polling system, a standardized operation system, an intelligent assistant decision-making system, a list management system, a rescue equipment facility sharing system, a knowledge management system, and the like. The subsystems are grouped according to scenes and can be expanded at any time according to needs, on one hand, the subsystems transmit electronic tags and access information thereof with a central management system, on the other hand, access interfaces and service functions are provided for users of the mobile terminal, and scene information and operation instructions related to external interaction features are obtained.

In some optional embodiments, the information processing cloud platform sends out an instruction or an alarm through channels such as information, audio, video, telephone, talkback and the like, continuously collects and analyzes feedback information, and continuously interacts and processes operations.

The mobile terminal is used for butting the scene sensing unit and the information processing cloud platform, displaying the triggered interface and information, operating the operation module and the flow triggered by the scene, automatically/manually reading and inputting the field information, sending a request and information to the information processing cloud platform, receiving a feedback result of the information processing cloud platform, displaying a safety situation and an intelligent prompt and instruction sent by the information processing cloud platform, and butting the functional operation and the working flow of the information processing cloud platform.

The mobile terminal provides a platform for data acquisition output, security situation and information display, sharing and operation in a workgroup form for personnel, so that the members of the workgroup participate in security management work, and use and control corresponding intelligent application operation modules in the scope of the workgroup authority. The operation module comprises a workgroup management module, a guide module, an information display module, a function operation module and an information reading, inputting and sending module. All modules realize integrated integration, work group management and operation and data sharing under independent authority in a mobile terminal in a work group mode. After the scene where the mobile terminal is located is determined, the scene is automatically entered or the users corresponding to the mobile terminal are grouped into the corresponding working group (or the corresponding working group is entered through manually triggering the scene), so that the users corresponding to the mobile terminal perform the function module operation, display, read, enter and output information and operation instructions in the specific scene within the working group limit.

Optionally, the mobile terminal has an external interface, and can be docked with other systems or devices, and the interface is friendly, convenient and easy to use, and the interface is opened, and the systems and devices are related to flexible docking. The mobile terminal can effectively integrate the supplier ERP system and the customer information system at the same time.

The embodiment of the disclosure connects elements such as personnel, equipment, scenes and the like in a certain area, and extends an antenna for safety management to each 'unsafe behavior of people, abnormal operation or unsafe state of equipment (including unsafe state of objects), unsafe factors of environment and irregular flow of management' through detection sensing technology, man-machine interaction communication, data reading and input, wide interconnection and intercommunication, intellectualization and flow operation. Meanwhile, the perception information is intelligently processed and analyzed by utilizing a cloud computing technology, the fusion of people and the Internet of things in a certain area is realized, two-way interaction and information flow workflow are carried out, intelligent decision support, intelligent display and operation response are carried out on various safety requirements, the comprehensive perception of hidden danger risks, intelligent analysis, closed-loop control and crowdsourcing sharing in a dangerous environment are realized, and enterprises and organizations are helped to manage safety at any time and any place.

The embodiment of the disclosure aims at the characteristics of safety management of enterprises and business organizations, mainly adopts automatic reading intelligent operation and adopts manual operation as supplement, can be used in cooperation with the existing automatic system and effectively supplements the existing industrial control system to form a full-coverage system with a human center, effectively makes up the blank area of the industrial control system, improves the efficiency and accuracy of the industrial control system, can also be independently set and operated, provides a low-cost and quick configuration solution for enterprises without automatic control conditions or automatic control systems, and has the characteristics of low cost, convenient implementation, good matching performance, wide application range, flexibility and easy use.

The embodiment of the disclosure enriches security management forms and methods, and under different scenes, through a specific trigger condition, triggers a corresponding security management process under the scene to form different working groups, maintains corresponding security management work in a group manner, enables each mobile terminal in the scene to become a control platform for scene description parameters, mobile information acquisition, reception, hidden danger discovery, information processing and operation, realizes the organic combination of people, equipment, environment, production management, an automatic control system and an automatic monitoring system, plays the role and enthusiasm of each person, aggregates group wisdom, experience and action, effectively monitors and checks security risks and hidden dangers, interactively implements security education and training, automatically reads and processes data, crowdsourcing, human participation, flow management and standardized operation. The embodiment of the disclosure converts the traditional one-to-one and one-to-many mode of security management into a many-to-many and standardized operation and grouping management mode, so that each person in the area becomes a security beneficiary, a creator, a contributor and a propagator. Meanwhile, the embodiment of the disclosure also embodies differentiation thinking and methods, and performs differentiation implementation and differentiation management and control on different users, processes, environments, equipment and groups to form a security management system which is based on a mobile terminal and an internet of things technology, really serves public security, integrates public wisdom and behavior crowdsourcing and has a two-way effect, becomes a security management system which combines the inside and the outside, has opening and closing characteristics and fully covers industrial scenes and integrates the power of intelligent technology and groups, realizes dynamic full-person participation, trackable, high-efficiency and low-cost security management and security operation, and performs full-person, full-process, full-time monitoring, automatic pre-judgment, active precaution and intelligent processing.

Several aspects of the disclosure are described below.

1. Scenario trigger forming workgroup

The system converts a traditional service organization mode of organizing a system according to functions and taking the system as a center into a new mode of organizing services according to requirements and taking people as the center, which emphasizes the customization on demand and comprehensive fusion among applications, by an intelligent interface and scene perception capability and through multidimensional and multi-scale preference and scene analysis, recommendation, customization and fusion scene perception technologies.

The method comprises the steps of sensing scenes such as state change of equipment, activity of people, interaction between people and equipment, change of equipment and environment and the like through a scene sensing unit, recording sensing information in a scene information base according to a scene model, further analyzing the scenes, extracting characteristics of the sensing information to construct statistical characteristics and rules of daily activities, enabling the system to have self-learning and self-adaptive performance, and early warning dangerous scenes and abnormal scenes. The method comprises the steps of constructing an activity rule and early warning knowledge base according to rules of human and object interaction activities, knowledge and experience of environment on the activities and the like, setting different triggering conditions, automatically triggering a scene safety management module after a mobile terminal enters a specific scene, triggering the same region personnel in the same scene to automatically form a working group capable of being interconnected and communicated, giving different authorities according to identity and state identification of a user, and correspondingly displaying, pushing and operating safety management functions. After a working group is started and added, on one hand, the information processing cloud platform extracts a corresponding function module and a scene safety disposal plan from a scene management plan library aiming at a triggered scene or event, on the other hand, a scene sensing unit (such as various sensing devices and monitoring equipment) is converted into a management and working state from a daily monitoring working state, and on-site feedback information of a disposal process is provided for safety management so as to acquire a new regulation and control measure in time. In the above framework, the "activity rule and early warning knowledge base" constructed by system self-learning or artificial experience will continuously provide the latest knowledge and experience for the compilation and maintenance of the "scene safety disposal plan base".

The information processing cloud platform comprehensively analyzes personal attributes (age, sex, body state, behavior characteristics and the like), scene attributes (time, space, current business requirements, next scene and business requirements) and the like of the user according to trigger points and association rules and according to a database of the user, thereby providing the user with safety information required currently, and simultaneously, actively recommending related scenes and related business operations, stimulating the user to call out potential memory of safety, and performing information interaction and safety flow operation.

By setting different information boundaries and data, triggering and identifying according to conditions such as geographic position, identity characteristics, environment, equipment, process type and the like, defining the working group boundary, automatically identifying and grouping field personnel in the area into a specific working group range, grouping and classifying the field personnel, in a group scope, a work flow, an information display and prompt module and a function module under a scene are started, the system serves different safety requirements of people with different characteristics and targets in various industries, various scenes, and meets the personalized and differentiated requirements of safety service and safety management, a safety management system which is based on a mobile terminal and the technology and functions of the Internet of things, serves a social network, integrates public wisdom and behavior crowdsourcing and has a two-way effect is formed, and the system becomes a technical device and a system which are combined internally and externally, have opening and closing functions and fully cover industrial scenes.

2. Data acquisition and hidden trouble shooting

Based on the mobile terminal, each member in the working group performs data acquisition, hidden danger troubleshooting, reading and recording, reports found hidden danger information and uploads risk and hidden danger characters, images and video information at any time and any place. The mobile user can carry out data acquisition and hidden danger investigation at any time and any place in the target area where the mobile user is located, and safety management is implemented with group strength. Adopt two kinds of modes to carry out data acquisition, look for and discover hidden danger, one is: the mobile terminal actively senses the scene change of the mobile user, reads data and reports the data, actively analyzes and mines the sensed data by using the advantage of scene sensing, carries out statistical analysis on the sensed data on an information processing cloud platform, and predicts the behavior trend of the user so as to push related safety information and service; the other is that through the mobile terminal, the working group member in the area manually reads, inputs and scans information on the functional module, the information is structurally generated through the functional module of the mobile terminal, and a background manager confirms or processes the manually input data and hidden danger information, then transfers the data and the hidden danger information to a data and defect management system for processing, and can further edit and modify the returned data and defects and issue an operation instruction.

After data generated in the two modes are subjected to modeling calculation and data analysis of an information processing cloud platform, data information is excavated and utilized to form feedback and processing results, and the feedback and processing results are displayed on a mobile terminal in the forms of site security situation, risk potential display, work scoring, evaluation, suggestion and the like; performing archive management on key equipment, special equipment, emergency rescue equipment facilities and the like, and periodically providing equipment maintenance suggestions and early warning; by presetting different alarm rules in different scenes, once the behavior that a target violates a predefined rule is detected in the scene, the system can automatically give an alarm, simultaneously set and continuously update a detailed diagram or a configuration diagram of equipment facilities in the region, provide latest data, push a standard operation instruction on the day, a hidden danger rectification work instruction and the like, perform closed-loop management and treatment on the found problems, instruct corresponding members to execute and operate, further monitor, feed back and evaluate, and realize scene recombination and take new measures according to the requirements of evaluation results.

3. Secure punch-card and standardized operations

When field personnel pass in and out of the area, the scene sensing unit senses and reads the user identity and state and records the activity condition, the field track and the track. Access restrictions are set for special places and dangerous areas, the entrance and exit conditions are monitored in real time by reading the scene sensing unit, when field personnel who are not allowed or have no qualification for authorization enter the restricted areas, the system can flexibly change the dangerous level in the sensing range, automatically send out field warnings such as voice and the like, and also send out warning information to inform relevant personnel of immediate processing.

In a production operation and inspection working scene, before a field worker is on duty or after the field worker reaches a duty, the mobile terminal automatically activates a corresponding inspection table and an inspection program through a rule set by the scene, and performs list type inspection and card type checking confirmation and operation one by one on the duty and one by one according to an instruction of the information processing cloud platform and a preset safety inspection table and an inspection table list. Meanwhile, equipment and facility management and standardized operation can be carried out, and daily equipment maintenance and operation can be carried out according to a preset standardized operation list and technical data. Workflow information and field data, field text information, image data and the like generated in the card punching process are sent to the information processing cloud platform and are stored and processed in a modularized mode by the information processing cloud platform. The safety card punching also plays a role in the maintenance of the safety confirmation before work and after work, the safety education before work and the daily safety consciousness safety habit. Under the condition of dangerous operation, flow approval management and construction work order management are carried out through a dangerous operation list and a dangerous operation workflow, and risk identification, site confirmation, online invoicing and standardized operation before operation are achieved.

4. Safety situation visual display, intelligent analysis and operation

Based on the mobile terminal in the area, the information such as the condition and data, the running state, the running parameters, the defect condition and the like of the field equipment is collected and read and directly uploaded to the information processing cloud platform, and a corresponding record and data pool is formed. Meanwhile, the post personnel or the inspection personnel are subjected to mobile position positioning through a GPS signal and a GIS system, historical and real-time inspection routes are played back, point inspection daily reports, weekly reports, monthly reports, personnel arrival rates, crowd tracks, inspection omission rates, equipment availability rates and the like are manufactured, and analysis, prediction, deviation correction and evaluation schemes are carried out through big data analysis, machine analysis and calculation models. And (4) by combining a workflow engine technology, setting up work flows of safety training, safety inspection, dangerous work approval, accident emergency rescue and the like, and continuously optimizing, adjusting and continuously improving. And refining and drawing a standard flow chart, showing the business flow in a form of a graph, standardizing the business flow through visual data flow, realizing process control on each safety business, and comprehensively controlling the whole business process (including business progress tracking, inquiry of a person in charge of each link and the like).

Collecting risk and hidden danger information reported by a mobile terminal onto an information processing cloud platform, carrying out formatted storage, analysis, processing and feedback by the cloud platform, processing, analyzing and deciding by machines and special personnel, processing data by the information processing cloud platform by using a graphical analysis tool, making a visual model, displaying each item of data as a data chart, a risk and hidden danger map and visual warning information intuitively, automatically and dynamically generating warning, reminding and corresponding emergency measure plans, displaying major risk and hidden danger conditions in real time, dynamically and quantitatively evaluating the possibility and evolution process of accidents caused by hidden dangers, generating a risk and hidden danger warning comprehensive report by machines and manpower for major accident hidden dangers together, carrying out overall safety situation evaluation and warning prediction analysis, prompting safety risks, evaluating development trend and providing decision support and operation guidance, the intelligent data acquisition, alarm and analysis platform integrates the functions of data acquisition, fault alarm, record supervision, risk management and control, hidden danger troubleshooting and other systems seamlessly.

On the basis of generating reports and implementing early warning, the information processing cloud platform sends hidden danger data to related systems in the enterprise to generate defect maintenance work orders and hidden danger detail analysis, a computer background and management personnel distribute hidden danger elimination tasks to responsible personnel according to work types and levels to carry out rectification of equipment facilities and management links, the rectification process and results are dynamically displayed in the management system immediately, and according to corresponding approval authorities and flows, the cloud platform and the management personnel audit and evaluate rectification work, determine whether to eliminate hidden danger early warning or not, and correspondingly update a risk hidden danger map to form a work closed loop.

5. Shared and cooperative emergency rescue

Based on the system, a shared and cooperative socialized and regional emergency rescue system is established and formed, enterprise organizations and personnel in a specific region open and mark emergency resources in the region through position sharing and data sharing, an emergency resource distribution map is drawn by an information processing cloud platform, one or more unique emergency resources are disclosed in a certain region originally, and the emergency resources in the region are integrated and optimally used. Based on a plurality of mobile terminals, the information processing cloud platform dynamically and continuously gathers and updates information in different areas or accident scenes, emergency facilities and emergency resources, displays the position of the emergency facilities, information of rescue mechanisms and emergency experts, prompts corresponding emergency operation methods and action instructions and indicates an optimal route; in the emergency rescue process, the mobile terminal sends and displays an emergency treatment card, corresponding treatment methods under the emergency condition and the emergency of the area are listed, and normalization, scientificity and self-organization of emergency operation are realized through card emergency response, card type operation and response. Meanwhile, in emergency rescue, the rescue worker can forcibly activate the scene sensing service to obtain the accurate positions of the rescue worker and the required emergency facilities, dynamically display the surrounding environment condition, unlock the rescue equipment and track the track through the mobile terminal, and record the operation, the use condition and the parameter index. Under an emergency condition, each mobile terminal becomes an information acquisition and real-time information distribution point, provides real-time field data and field information, and helps an information processing cloud platform to react in real time and optimize an emergency scheme.

The system establishes a multi-dimensional collaborative sharing service platform and a collaborative working environment based on collaborative dimensions in different safety emergency management scenes, constructs a data collaborative relationship, a data collaborative and information processing collaborative platform through a multi-dimensional collaborative mode of information collaboration, user collaboration and cross-region collaborative, and integrates cross-industry, cross-region and cross-media multi-element complex systems to realize emergency linkage prevention and control information service, safety emergency disposal intellectualization, prevention and control precision and response real-time, so that resource sharing, information aggregation, crowd-sourcing processing and multi-dimensional collaboration are guaranteed, and an efficient and low-cost emergency linkage prevention and control system is constructed.

The main techniques adopted

A scene perception unit: the method is mainly used for sensing scene description parameters and monitoring scene parameters, equipment safety parameters and user parameters in the scene. The technology applied by the scene perception unit can be Bluetooth, two-dimension codes, radio frequency identification (RFI D), wireless fidelity (WiFi), a mobile Geographic Information System (GIS), a location-based service (LBS), a video camera device, various sensors and iBeacon, and at least one scene perception unit can form an acquisition network.

Taking the scene shown in fig. 4 as an example, it is assumed that a temperature sensor and a humidity sensor are arranged in the scene, and temperature parameters and humidity parameters in the scene can be acquired through the temperature sensor and the humidity sensor; two-dimensional codes or RFI D labels are arranged on the equipment in the scene, and the models and the equipment descriptions of the equipment are stored through the two-dimensional codes or the RFI D labels; the system is also provided with a camera to monitor the working state of field personnel (including a mobile terminal holder and a non-mobile terminal holder) in a scene; a biological sign acquisition sensor (e.g., a fingerprint sensor, an iris sensor) is also provided in the scene to acquire the user identification. The temperature sensor, the humidity sensor, the two-dimensional code or RFI D tag, the camera and the biological sign acquisition sensor can be regarded as acquisition subunits of the scene perception unit, and the acquisition subunits transmit acquired data to the information processing cloud platform through the transmission subunits after acquiring related data. The transmitting subunit may be a mobile communication module (e.g., 4G, 5G communication module), a WI FI module, a wired communication module (e.g., network card), etc.

Cloud computing middleware: in an information processing cloud platform, personalized secondary development is carried out on the existing cloud computing middleware, and the existing cloud computing middleware is deployed to a data center of a storage layer, so that unified management on bottom layer hardware resources is realized, and the hardware resources are flexibly allocated to an application layer according to needs. The cloud computing middleware shields the heterogeneity of bottom hardware and manages the hardware uniformly, and the cloud computing middleware is combined with virtual machine management software to provide an on-demand deployment function for applications.

Collaborative portal technology: the technology comprises the technologies of unified user management, unified user authentication, single sign-on, message service, service processing and the like, realizes the standardized management of portal content, connects heterogeneous systems, applications and data sources related to various services inside and outside an enterprise, and meets the requirements of seamless sharing and data exchange among a plurality of application systems, databases, data warehouses and other important systems of an information processing cloud platform.

Workflow cooperative management technology: the functions of asynchronous activity group, session cooperation activity, conference cooperation activity, safe card punching and work group management are realized at the mobile terminal, and corresponding attribute definition can be carried out. The service operation part is used for explaining and executing the process definition in the model definition, and scheduling control of the activities is added in the service operation part. The system supports fixed flow, free sequence flow, branch flow, concurrent flow, semi-free flow and no flow, and basically meets various complex workflow management requirements brought by various changes of management system, organization structure, personnel post, position, operation environment and flow in the safety management process.

The following are some scenarios in which embodiments of the present disclosure may be applied.

First implementation mode and disaster relief rescue

Corresponding to the security management system of fig. 1, for example. When a fire disaster happens to a building, the building and the surrounding area are used as the site of the fire accident, various site personnel such as fire fighters, wounded, passersby and the like are arranged in the area, and according to different triggering conditions such as whether the building is in the geographic range of the fire disaster, whether fire information and the correlation degree thereof are concerned and sent, whether the building is in the accessible range, and whether valuable emergency rescue resources, experts, technical personnel and the like are in the area with the fire disaster influence, the scene module and the working group function are triggered, and the building and the surrounding area are associated and grouped with the fire scene. After the emergency rescue and the working group management are carried out in an emergency working group mode after the association, the personnel share fire related information in the working group of the mobile terminal to obtain the accurate positions of related personnel and emergency resources, the mobile terminal is used for carrying out rescue equipment unlocking and track tracking, recording operation, use conditions and parameter indexes, carrying out collection, excavation, classification, verification, follow-up, sorting, release, transmission, directional transmission and the like of the emergency information, editing and releasing emergency rescue bulletins, carrying out panoramic summarization, analysis, fire information and safety situations, carrying out coordinated butt joint on the emergency resources, equipment facilities and a disaster relief organization, solving information asymmetry in a mode of sharing crowdsourcing and converging group intelligence force to cooperate with the emergency relief.

Second embodiment, factory floor Security

Corresponding to the security management system of fig. 2, for example. A safety monitoring system (as a scene sensing unit) is arranged in a workshop of a certain factory, a safety management platform (as an information processing cloud platform) is arranged in a central machine room, and after a mobile terminal holder enters the field, the safety monitoring system performs identity confirmation and other information monitoring on the mobile terminal holder to judge which scenes are included in the workshop and judge whether the mobile terminal holder meets the requirement of the degree of association with a certain scene in the workshop or not. If so, sending triggering information to the safety management platform, grouping the triggering information into the scene working group as a member of the scene, and implementing the operation of each functional module and the operation of the safety management workflow of the system; if not, the behavior and the state of the personnel are continuously monitored, and whether the personnel can threaten the scene safety is judged by the safety management platform.

The safety monitoring system continuously identifies, judges and associates various on-site personnel, carries out seamless access of the personnel and equipment, links and associates the values and the efficiencies of the personnel and the objects in safety management, and implements integrated safety management.

Third embodiment, group safety of tourism

Through the Internet of things means such as WIFI and radio frequency identification RFID on the vehicle, a person holding the mobile terminal enters the vehicle, namely, the person is triggered and grouped to a tourist group scene on the vehicle, and the person becomes a member of the safety work group of the tourist group. In the working group, the group leader and a preset management module implement the travel safety management under the scene of the vehicle, including safety notice issue, notification, reminding and prompting, risk display and emergency demonstration, meanwhile, members can provide suggestions and suggestions for vehicle management personnel, problems (including safety problems, service problems and the like) existing in the travel process are reported and fed back in the forms of characters, images, videos and the like, and the management personnel issue work instructions to related personnel to solve the found problems. In a working group, in addition to list type card punching, emergency measure instructions and standardized operations, dynamic panoramic display is carried out on a risk map and emergency guide in the transportation, in the traveling process and in various scenes along the way, meanwhile, safety rescue equipment and facility sharing information are preset, personnel with medical care skills in the same row can also display professions and skills and set themselves as shared emergency personnel to form a map-based emergency facility equipment and emergency personnel sharing map, meanwhile, a corresponding operation manual is added, when an emergency occurs, emergency equipment and help information are obtained according to the sharing map, and list type operation and card type emergency are carried out according to the operation manual and the instructions.

Fourth embodiment, school safety

Through this system with school administrator, religion staff, head of a family, student connect into common scene safety work group, school administrator and professor staff can develop hidden danger investigation and risk warning, safety education at any time, and the head of a family can look over the condition of student at school at any time, and the student also can contact head of a family and school administrator, professor staff at any time. The staff members can reflect the suggestions and the problems to the school side in the forms of characters, audios, videos, pictures and the like, supervise and urge the problems through work suggestions, safe free-hand shooting and hidden danger checking, the system keeps records and work tracks of the supervision and urge, corresponding results are made into a risk and hidden danger map and task nails, the safety situation is dynamically displayed, and closed-loop workflow management is implemented; meanwhile, the system is used for carrying out safety knowledge education and safety simulation emergency drilling, setting and sharing resources such as emergency equipment facilities, professional rescue personnel, experts and the like, providing an operation guide and a behavior guide in an emergency state, and guiding and activating corresponding equipment functions and emergency workflows under a new triggering condition. The safe and convenient shooting refers to taking a picture of a problematic place and acquiring a corresponding photo or picture.

Safety of personnel intensive places such as fifth implementation mode and subway

In public places such as subways and the like, when a person holding a mobile terminal enters, a system triggers a scene model in a certain range of the public place according to geographical position sensing, and a mobile terminal holder joins in a corresponding scene safety working group. Through the system, safety notice, emergency escape passage indication, safety operation list, emergency equipment and facility sharing map and emergency list in the scene are displayed in the working group; meanwhile, personnel with special emergency skills and professional abilities can preset labels on the identities of the personnel, display the abilities and characteristics of the personnel, and automatically carry out special labeling on the shared map by the system when joining the scene to form a resource matrix shared by equipment facilities, personnel, technology and experience within the scene range. When an emergency occurs, emergency equipment is obtained in the shortest time and the shortest distance according to the shared map and the emergency operation list, and matched with personnel with professional skills and experience in the scene, and the emergency equipment is operated according to the list and the operation manual. Meanwhile, the system can be connected to a specific preset expert and an external rescue mechanism in an audio, image and video mode, and can be used for remote display, remote operation and remote guidance.

Sixth embodiment, industrial and commercial organization safety management

According to the general production marshalling condition of an industrial enterprise, production posts, production lines (such as teams, workshops and the like) and factories and mines are used as scenes, scene marshalling is triggered through positions, identity recognition and the like, a safety working group is established, working procedures such as safety education, notification, information sending, technical training, post risk management and control, hidden danger investigation, safety confirmation, standardized operation, card type emergency, routing inspection and the like are carried out in the working group, and safety situation, a risk hidden danger map and emergency equipment facilities in the scene are displayed in real time; on the basis, managers (such as the group leader of each group) of each working group establish safe working groups with larger scenes (such as workshops) in a manual or identity recognition mode and the like, each safety working group consists of the managers of the working groups of each group, safety management work is carried out by taking the workshops as scene units and ranges, notifications, files, working instructions, standardized operation programs, shared emergency rescue equipment facilities and safe operation technical resources are issued, and the safety of the working groups of the workshop level is carried out; and then, triggering the factory and mine level working group scene by all workshop level working group administrators in the range of the factory and mine area in a manual or manual identification mode and the like, and implementing safety management work of the working group at the level of factory and mine units. The method comprises the steps of establishing a top-down safety management work group system in a three-level mode, issuing files and learning materials in the system, implementing risk management and control hidden danger troubleshooting workflow management, compiling and issuing a risk and hidden danger map, displaying a three-level safety situation and an analysis report, warning and reminding, sharing emergency rescue equipment facilities in a standardized operation area, and performing safety emergency cooperation and safety sharing. And forming a safety management system covering the whole factory and mine domains and the whole scene from top to bottom. In the three-level scene, if temporary joining personnel such as contractor personnel and external visitors exist, a temporary safety working group can be established through the system, and activities such as safety education, position positioning, trajectory tracking, internal communication, safety awareness confirmation and archiving, license management and the like are performed in the temporary safety working group.

Seventh implementation mode, foreign travel, business and study safety

With the increasing number of tourism, business, study and life in foreign countries, the importance of overseas security is increasing. Through the system, when a person holding the mobile terminal enters a certain country or a specific area, the system triggers the operation of overseas security scenes in the area according to the position change of the holder of the mobile terminal to form an overseas security working group in the specific area of the specific country, and members can receive local news, security information, cautionary matters, security situations, risk maps and security suggestions in the working group to obtain local basic information and local related knowledge and perform knowledge learning and behavior guidance in aspects of trip, accommodation, business activities, travel and the like according to a preset list. Local emergency rescue equipment facilities and mechanisms are displayed in the system and are supported and assisted by a one-touch help-seeking manner. In overseas security working groups, members can exchange messages with each other, release security experience, provide warning information, gather and process data, implement security crowdsourcing and mutual sharing, and under specific conditions, can obtain field support and service of personnel in the working groups. When leaving the country or region, the user exits the work group because the trigger condition disappears.

Referring to fig. 5, a security management method applied to an information processing cloud platform, which may be integrated in a device in a software or hardware form to operate, is shown. The security management method is specifically as follows.

400. Receiving scene description parameters sent by a mobile terminal, wherein the scene description parameters comprise scene parameters, equipment safety parameters and user parameters corresponding to the mobile terminal. The specific explanation of the scene description parameters is described in the foregoing security management system, and is not repeated here.

401. Determining the scene where the mobile terminal is located and the corresponding safety management process according to the scene parameters, determining the association degree between the user corresponding to the mobile terminal and the scene where the mobile terminal is located according to the user parameters, grouping the users corresponding to the mobile terminal to a working group for managing the scene where the mobile terminal is located when the association degree is greater than a preset threshold value, and sending the safety management process to all the mobile terminals of the working group.

By the embodiment of the disclosure, users (which may be mobile terminal holders) corresponding to mobile terminals in a certain area can be determined to be located in the same scene according to the scene description parameters and grouped into the same working group, and the security management process is sent to all the mobile terminals of the working group, so that the users corresponding to all the mobile terminals in the working group can participate in the security management process. The embodiment of the disclosure can furthest exert subjective initiative of people by carrying out dynamic scene matching and networking on related personnel, realizes the maximum utilization of the existing resources and the maximum participation of the personnel, has wide coverage, high fusion, low cost and strong practicability, fills the blank and loophole of the traditional safety management system and monitoring system, and realizes full coverage and no dead angle of safety management.

Optionally, in step 401, the information processing cloud platform may further evaluate the security status of the device and/or the person in the scene where the mobile terminal is located according to the device security parameter and the scene parameter. The specific evaluation process is described in the foregoing security management system, and is not described herein again.

Optionally, in step 400, the information processing cloud platform may further receive the scene description parameters sent by the scene sensing unit. The specific explanation process is described in the foregoing security management system, and is not described herein again.

Optionally, referring to fig. 6, the method further includes step 402: and generating and sending a dynamic risk potential map for the safety condition of each device and/or personnel in the scene where the mobile terminal is located to the mobile terminal according to the scene description parameters. The specific explanation process is described in the foregoing security management system, and is not described herein again.

Optionally, referring to fig. 6, the method further includes step 403: generating and sending warning information to the mobile terminal when equipment and/or personnel with unqualified safety conditions in the scene where the mobile terminal is located are determined; and/or

When the situation that the mobile terminal is located in is determined to have equipment and/or personnel with unqualified safety conditions, generating and sending a workflow instruction aiming at the equipment and/or personnel with unqualified safety conditions to the mobile terminal so as to instruct the mobile terminal to monitor the completion progress of a task specified by the workflow instruction. The specific explanation process is described in the foregoing security management system, and is not described herein again.

Optionally, referring to fig. 6, the method further includes step 404: and generating safety information and a safety situation report corresponding to the scene where the mobile terminal is located according to the scene description parameters. The specific explanation process is described in the foregoing security management system, and is not described herein again.

At this time, when a security information display instruction sent by the mobile terminal is received, the security information and the security situation report indicated by the security information display instruction are sent to the mobile terminal.

Optionally, referring to fig. 6, the method further includes step 405: and receiving a safety control instruction sent by the mobile terminal, wherein the safety control instruction comprises operation aiming at the scene description parameters. The specific explanation process is described in the foregoing security management system, and is not described herein again.

It should be understood that the

above steps

402, 403, 404, and 405 are not limited to a specific execution order, and they may be executed in an inverted order or in parallel.

Optionally, the security management method further includes: according to the scene description parameters, when the situation that the mobile terminal is located in is determined to have equipment and/or personnel with unqualified safety conditions, generating and sending a workflow instruction aiming at the equipment and/or personnel with unqualified safety conditions to the mobile terminal; wherein the workflow instructions include at least one of: the system comprises a work track recording instruction, a task hastening instruction and a node management and control instruction.

Optionally, the security management method further includes: according to the scene description parameters, determining emergency rescue equipment in the scene where the mobile terminal is located, and generating and sending an emergency rescue equipment facility map used for describing the position of each emergency rescue equipment in a working group corresponding to the scene where the mobile terminal is located to the mobile terminal.

Specifically, the emergency rescue equipment in the scene can be determined according to the type of the equipment safety parameters.

And determining the position of each emergency rescue equipment facility according to the position parameter in the equipment safety parameters, and drawing an emergency rescue equipment facility map containing each emergency rescue equipment facility by combining scene parameters. The emergency rescue equipment facility map has location emphasis labels of the emergency rescue equipment, and the description of the emergency rescue equipment facility map indicates the equipment information, such as: model, temperature parameters, operating conditions (including but not limited to stress, vibration, pressure, voltage, power, frequency, overload, undervoltage, leakage, etc.), whether normal, etc.

In the embodiment of the present disclosure, in general, members in the same working group can see the positions of the emergency rescue equipment facilities in the scene where the mobile terminal is located, but members in other working groups cannot see the positions of the emergency rescue equipment facilities in the scene where the mobile terminal is located, for example: according to the equipment safety parameters in the scene parameters sent by the mobile terminal 1, an emergency rescue equipment facility map is generated, wherein the members of the same working group of the user corresponding to the mobile terminal 1 can see the positions of the emergency rescue equipment facilities in the emergency rescue equipment facility map, and the members of the same working group of the user not corresponding to the mobile terminal 1 cannot see the positions of the emergency rescue equipment facilities in the emergency rescue equipment facility map. To solve this problem, optionally, the security management method further includes: and generating a sharing instruction and a sharing state for each emergency rescue equipment facility in the working group, and setting at least one first aid equipment facility in the sharing state when receiving the sharing instruction for the at least one first aid equipment facility in the emergency rescue equipment facilities. Therefore, the mobile terminal can be shared by other working group members except the working group, so that the other working group members can also see the positions of the emergency rescue equipment facilities in the scene where the mobile terminal is located.

When the staff member needs to manage or use the corresponding first aid equipment facility, an unlocking instruction can be sent by the terminal equipment (such as a mobile terminal), and the unlocking instruction can be an authenticated password, a fingerprint and the like. When the information processing cloud platform receives an unlocking instruction aiming at the emergency rescue equipment facility in the shared state, authorizing the use permission and the use instruction of the emergency rescue equipment facility in the shared state to the terminal equipment sending the unlocking instruction.

When emergency rescue equipment needs to be used emergently in case of emergency, in order to avoid the situation that a user cannot find emergency rescue equipment facilities due to no understanding or scaring, the information processing cloud platform further improves the embodiment of the disclosure, when receiving a search instruction for the first-aid rescue equipment facility, the information processing cloud platform draws a route map of the position information of the first-aid rescue equipment facility to the position of the terminal equipment sending the search instruction according to the position information of the first-aid rescue equipment facility, and sends the drawn route map to the terminal equipment sending the search instruction. Or, the embodiment of the disclosure may also push the emergency rescue equipment facility near the position where the mobile terminal is located to the mobile terminal when the information processing cloud platform receives an emergency signal such as a fire alarm, and the embodiment of the disclosure may directly push the emergency rescue equipment facility near the position where the working group member is located to the mobile terminal of the working group member, so that the working group member can quickly know the surrounding emergency rescue equipment facility. Optionally, a route map from the position of the staff member to the position of the nearest emergency rescue equipment facility may be further plotted, and the plotted route map is sent to the mobile terminal of the staff member, so that the staff member can quickly reach and use the nearest emergency rescue equipment facility. Wherein the first emergency rescue equipment facility is any one of the emergency rescue equipment.

The security management method based on the information processing cloud platform provided by the embodiment of the disclosure can be applied to the information processing cloud platform in the security management system provided by the foregoing implementation, and details are not repeated here.

An embodiment of the present disclosure further provides an electronic device, including:

a memory for storing at least one machine instruction;

a processor for loading the at least one machine instruction, the at least one machine instruction causing the processor to perform the method as described above.

Embodiments of the present disclosure also provide a machine-readable storage medium having stored thereon machine instructions which, when executed by a processor, implement a method as described above.

Referring to fig. 7, an embodiment of the present disclosure further provides an information processing cloud platform, including:

a receiving program module 600, configured to receive scene description parameters sent by a mobile terminal, where the scene description parameters include scene parameters, device security parameters, and user parameters corresponding to the mobile terminal;

a processing program module 601, configured to determine a scene where the mobile terminal is located according to the scene parameters, evaluate the security status of devices and/or people in the scene where the mobile terminal is located according to the device security parameters and the scene parameters, and group users corresponding to the mobile terminal into a working group that manages the scene where the mobile terminal is located according to the user parameters.

Optionally, the receiving program module 600 is further configured to: and receiving the scene description parameters sent by the scene perception unit.

Optionally, the processing program module 601 is further configured to: and generating and sending a dynamic risk hidden danger map for the safety condition of each device and/or person in the scene of the mobile terminal to the mobile terminal according to the scene description parameters.

Optionally, the processing program module 601 is further configured to: generating and sending warning information to the mobile terminal when equipment and/or personnel with unqualified safety conditions in the scene where the mobile terminal is located are determined; and/or

Optionally, the processing program module 601 is further configured to: and generating safety information and a safety situation report corresponding to the scene where the mobile terminal is located according to the scene description parameters.

Optionally, the receiving program module 600 is further configured to: and when receiving a safety information display instruction sent by the mobile terminal, sending safety information and a safety situation report indicated by the safety information display instruction to the mobile terminal.

Optionally, the receiving program module 600 is further configured to: and receiving a safety control instruction sent by the mobile terminal, wherein the safety control instruction comprises operation aiming at the scene description parameters.

The information processing cloud platform shown in fig. 7 is a program module corresponding to the method shown in fig. 5 to 6, and the working principle thereof is referred to the foregoing method embodiment, which is not described herein again.

It should be understood that the term "and/or" as used herein is merely one type of association that describes an associated object, meaning that three relationships may exist, e.g., a and/or B may mean: a exists alone, A and B exist simultaneously, and B exists alone. In addition, the character "/" herein generally indicates that the former and latter related objects are in an "or" relationship.

It should be understood that although the terms first, second, third, etc. may be used to describe XXX in the embodiments of the present application, these XXX should not be limited to these terms. These terms are used only to distinguish XXX. For example, a first XXX may also be referred to as a second XXX, and similarly, a second XXX may also be referred to as a first XXX, without departing from the scope of embodiments of the present application.

The words "if", as used herein, may be interpreted as "at … …" or "at … …" or "in response to a determination" or "in response to a detection", depending on the context. Similarly, the phrases "if determined" or "if detected (a stated condition or event)" may be interpreted as "when determined" or "in response to a determination" or "when detected (a stated condition or event)" or "in response to a detection (a stated condition or event)", depending on the context.

It is also noted that the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a good or system that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such good or system. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a commodity or system that includes the element.

The above-described embodiments of the apparatus are merely illustrative, and the units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of the present embodiment. One of ordinary skill in the art can understand and implement it without inventive effort. Through the above description of the embodiments, those skilled in the art will clearly understand that each embodiment can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware. Based on the understanding, the above technical solutions substantially or otherwise contributing to the prior art may be embodied in the form of a software product, which may be stored in a computer-readable storage medium, such as ROM/RAM, magnetic disk, optical disk, etc., and includes several instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to execute the method according to the various embodiments or some parts of the embodiments.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solutions of the present disclosure, not to limit them; although the present disclosure has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present disclosure.

Claims

1. A security management system, comprising: the system comprises an information processing cloud platform and at least one mobile terminal connected with the information processing cloud platform;

2. A safety management method is applied to an information processing cloud platform and comprises the following steps:

determining a scene where the mobile terminal is located and a corresponding safety management process according to the scene parameters, evaluating the safety condition of equipment and/or personnel in the scene where the mobile terminal is located according to the equipment safety parameters and the scene parameters, determining the association degree between a user corresponding to the mobile terminal and the scene where the mobile terminal is located according to the user parameters, grouping the user corresponding to the mobile terminal to a working group for managing the scene where the mobile terminal is located when the association degree is greater than a preset threshold value, and sending the safety management process to all the mobile terminals of the working group.

3. An electronic device, comprising:

a memory for storing at least one machine instruction;

a processor to load the at least one machine instruction, the at least one machine instruction to cause the processor to perform the method of claim 2.

4. A machine-readable storage medium having stored thereon machine instructions, which when executed by a processor, implement the method of claim 2.

5. An information processing cloud platform, comprising:

and the processing program module is used for determining the scene where the mobile terminal is located and a corresponding safety management process according to the scene parameters, evaluating the safety condition of equipment and/or personnel in the scene where the mobile terminal is located according to the equipment safety parameters and the scene parameters, determining the association degree between the user corresponding to the mobile terminal and the scene where the mobile terminal is located according to the user parameters, grouping the users corresponding to the mobile terminal to a working group for managing the scene where the mobile terminal is located when the association degree is greater than a preset threshold value, and sending the safety management process to all the mobile terminals of the working group.