CN112116246B - Risk processing method and device - Google Patents

Abstract

The invention provides a risk processing method and a risk processing device, which are used for solving the problems that risks cannot be found timely and effectively and corresponding solutions cannot be provided in the prior art. According to the embodiment of the invention, the occurring risk type is determined according to whether the value of the first parameter acquired by the sensor is located in the threshold range corresponding to the sensor, the target risk plan is determined according to the corresponding relation between each parameter range of the risk type and the risk plan, the solution of the risk of the current situation can be accurately determined, each task is issued to the terminal corresponding to each identifier according to the identifier of each task and the corresponding terminal recorded in the target risk plan, and field workers are reminded to solve the current risk before the task in time.

Description

Risk processing method and device

Technical Field

The embodiment of the invention relates to the field of data processing, in particular to a risk processing method and device.

Background

With the continuous progress of society, the living standard is gradually improved, the urban transportation is developed more and more quickly, if risks occur in transportation places such as airports, subway exits, railway stations and the like, the risks become main factors threatening the normal operation of transportation and safe traveling of passengers, and if the risks occur in the transportation places and the risks cannot be solved in time, the consequences which are difficult to estimate are caused.

In the prior art, when a risk just occurs, a field worker cannot find the risk in time, if the risk can be found in time and the risk which occurs in time is solved, the risk cannot be greatly influenced, so that the risk can be found timely and effectively, a corresponding solution is provided, and the main technical problem in the field of risk identification is solved.

Disclosure of Invention

The invention provides a risk processing method, a risk processing device, risk processing equipment and a risk processing medium, which are used for solving the problem that risks cannot be timely and effectively found and corresponding solutions cannot be provided in the prior art.

In a first aspect, an embodiment of the present invention provides a risk processing method, where the method includes:

determining a threshold range corresponding to each sensor deployed in a current scene, acquiring a target value of a first detection parameter acquired by the sensor, judging whether the target value of the first detection parameter is within the threshold range, and if not, determining the occurrence risk type according to the target value of the first detection parameter acquired by the sensor;

determining a target risk plan corresponding to the parameter value range in which the target value of the first detection parameter is located according to the corresponding relation between each stored parameter value range corresponding to the risk type and the risk plan;

and issuing each task to the terminal corresponding to each identifier according to each task and the identifier of the corresponding terminal recorded in the target risk plan.

In a second aspect, an embodiment of the present invention further provides a risk processing apparatus, where the apparatus includes:

the processing module is used for determining a threshold range corresponding to each sensor deployed in a current scene, acquiring a target value of a first detection parameter acquired by the sensor, judging whether the target value of the first detection parameter is within the threshold range, and if not, determining the occurring risk type according to the target value of the first detection parameter acquired by the sensor;

the determining module is used for determining a target risk plan corresponding to the parameter value range in which the target value of the first detection parameter is located according to the corresponding relation between each stored parameter value range corresponding to the risk type and the risk plan;

and the sending module is used for issuing each task to the terminal corresponding to each identifier according to each task and the identifier of the corresponding terminal recorded in the target risk plan.

In a third aspect, the present invention also provides an electronic device, which at least comprises a processor and a memory, wherein the processor is configured to implement the steps of the risk processing method according to any one of the above when executing the computer program stored in the memory.

In a fourth aspect, the present invention also provides a computer-readable storage medium storing a computer program, which when executed by a processor, performs the steps of any of the risk processing methods described above.

According to the embodiment of the invention, the occurring risk type is determined according to whether the value of the first parameter acquired by the sensor is positioned in the threshold range corresponding to the sensor or not, the target risk plan is determined according to the corresponding relation between each parameter range of the risk type and the risk plan, the solution of the risk of the current situation can be accurately determined, each task is issued to the terminal corresponding to each identification according to the identification of each task and the corresponding terminal recorded in the target risk plan, and field workers are reminded to solve the current risk before the tasks are timely.

Drawings

In order to more clearly illustrate the technical solution of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on the drawings without creative efforts.

Fig. 1 is a schematic diagram of a risk identification and risk resolution process according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of a risk protocol provided by an embodiment of the present invention;

fig. 3 is a schematic diagram of a task issued to a terminal according to an embodiment of the present invention;

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

FIG. 5 is a schematic diagram of a detailed implementation process of risk processing according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of a risk processing apparatus according to an embodiment of the present invention;

FIG. 7 is a schematic diagram of another risk processing system according to an embodiment of the present invention;

fig. 8 is an electronic device according to an embodiment of the present invention.

Detailed Description

To make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings, and it is apparent that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

In order to find risks in time and provide an effective solution, thereby improving the efficiency of solving the risks, embodiments of the present invention provide a risk processing method, apparatus, device, and medium.

Fig. 1 is a schematic diagram of a risk identification and risk resolution process provided in an embodiment of the present invention, where the process includes the following steps:

s101: and determining a threshold range corresponding to each sensor deployed in the current scene, judging whether a target value of a first detection parameter acquired by the sensor is within the threshold range, and if not, determining the occurring risk type according to the target value of the first detection parameter acquired by the sensor.

The risk identification and risk solution method provided by the embodiment of the invention is applied to electronic equipment, and the electronic equipment can be intelligent equipment such as a sensor, a PC (personal computer) or a server and the like.

In order to accurately determine whether a risk occurs in a current scene and a corresponding risk type, the embodiment of the invention detects the risk based on the value of the parameter acquired by each sensor deployed in the current scene. And because each sensor will collect the target value of the corresponding first detection parameter based on its function, in a normal situation, that is, when the current scene has no risk, the target value of the first detection parameter will generally be within the set threshold range, and when the target value of the first detection parameter collected by the sensor is not within the set threshold range, it indicates that the current scene has a risk. And because the first target detection parameters acquired by each sensor are different, and the threshold ranges corresponding to the occurrence risks are different, the threshold range corresponding to each sensor can be set according to specific conditions.

In order to accurately determine whether a risk occurs and a type of the risk, in an embodiment of the present invention, for each sensor deployed in a current scene, it is determined whether a value of first detection data acquired by the sensor is within a threshold range corresponding to the sensor, if so, it indicates that a target value of a first detection parameter acquired by the sensor is within a normal range, that is, no risk occurs in the current scene, and if not, it indicates that a first target detection parameter acquired by the sensor is already within an abnormal range, that is, a risk occurs in the current scene.

Because the installation position of each sensor is fixed, and the first target detection parameter acquired by the sensor is also fixed, when the target value of the first detection parameter acquired by the sensor is not located in the corresponding threshold range, the occurring risk type is determined according to the type of the first target detection parameter detected by the sensor, or the occurring risk type is determined according to the risk type which is configured in advance and can be detected by each sensor, when the target value of the first detection parameter acquired by a certain sensor is determined not to be located in the corresponding threshold range, the risk type which can be detected by the sensor is determined, and the risk type is taken as the risk type of the risk occurring in the current scene.

The sensors used in the embodiments of the present invention are installed at a plurality of positions, and are not limited herein.

S102: and determining a target risk plan corresponding to the parameter value range in which the target value of the first detection parameter is located according to the stored corresponding relation between each parameter value range corresponding to the risk type and the risk plan.

When a risk occurs, the risk needs to be solved, the severity of the risk is different, and the corresponding risk plans are different. In order to accurately determine a solution for risks occurring in a current scene, in the embodiments of the present invention, risk plans corresponding to various types of risk types are pre-stored, and even if the risk types are the same, because different values of detection parameters of the risk types cause risks of the risk types at different degrees, a corresponding relationship between parameter value ranges and the risk plans may be pre-set, where the parameter value ranges are not overlapped, and the risk plans corresponding to different parameter value ranges are the same or different, and generally the risk plans corresponding to different parameter value ranges are different.

In the embodiment of the present invention, the risk plan carries the corresponding responsible department and each task of the responsible department, wherein the corresponding task may include the materials and the quantity to be called, and the risk plan may further include information about experts and communication methods related to the corresponding risk processing.

Wherein, the risk plan that all kinds of risk types correspond includes: a scheme for removing ice and snow; a flood prevention plan; a plan for preventing the platform; a vehicle smoking and spontaneous combustion disposal plan; vehicle oil leakage disposal plans, and the like.

S103: and issuing each task to the terminal corresponding to each identifier according to each task and the identifier of the corresponding terminal recorded in the target risk plan.

In order to accurately issue each task recorded in the target risk plan to each terminal, the electronic device pre-stores the identifier of each terminal, and each task recorded in the target risk plan has the identifier of the corresponding terminal, so that each task can be accurately issued to the terminal corresponding to each identifier.

According to the embodiment of the invention, the occurring risk type is determined according to whether the value of the first parameter acquired by the sensor is positioned in the threshold range corresponding to the sensor or not, the target risk plan is determined according to the corresponding relation between each parameter range of the risk type and the risk plan, the solution of the risk of the current situation can be accurately determined, each task is issued to the terminal corresponding to each identification according to the identification of each task and the corresponding terminal recorded in the target risk plan, and field workers are reminded to solve the current risk before the tasks are timely.

Example 2:

in order to determine the target risk plan more accurately so as to solve the risk effectively, on the basis of the above embodiments, in the embodiment of the present invention, after determining the type of the occurring risk, the method includes:

judging whether the risk type needs to acquire other detection parameters, if so, acquiring a target value of a second detection parameter according to pre-stored acquisition information of other detection parameters;

the determining, according to the stored correspondence between each parameter value range corresponding to the risk type and the risk plan, the target risk plan corresponding to the parameter value range in which the target value of the first detection parameter is located includes:

and according to the stored corresponding relation between each parameter value range corresponding to the risk type and the risk plan, taking the risk plan corresponding to the parameter value range in which the target value of the first detection parameter and the target value of the second detection parameter are located as a target risk plan.

In the embodiment of the invention, in order to more accurately determine the target risk plan, risk types needing to acquire other detection parameters are preset. And after the occurrence risk type is determined, judging whether the risk type needs to acquire other detection parameters, and if so, acquiring a target value of a second detection parameter according to the pre-stored acquisition information of the other detection parameters of the risk type. In the embodiment of the present invention, for the purpose of distinguishing, the other detection parameters are referred to as second detection parameters, and the second detection parameters may include multiple detection parameters or may include only one detection parameter.

The acquisition information of the detection parameters includes acquisition address information of the detection parameters, specifically, after the electronic device is networked, the information of the corresponding other detection parameters is acquired according to the acquisition address information, and how to acquire the specific detection parameters is not limited herein.

Taking the flood risk as an example for explanation, since the sensor can only detect the change of the water level at the current position, when the detected water level exceeds the threshold range corresponding to the sensor, the flood risk is determined, and since the target risk plan is determined only based on the water level, which may have an inaccurate problem, the flood risk is preset with other detection parameters to be acquired, where the other detection parameters include: and the weather condition and the precipitation in the preset time period are preset, so that the electronic equipment acquires the values of the weather condition and the precipitation in the preset time period according to the flood risk pre-stored acquisition information of the weather condition and the precipitation in the preset time period.

Taking the fire risk as an example for explanation, since the sensor can detect the smoke concentration of the current scene, when the smoke concentration is detected to exceed the threshold range corresponding to the sensor, the fire risk is determined, and since the fire risk does not need to acquire other detection parameters, the values of other detection parameters are not acquired.

And when determining that the target value of the first detection parameter and the risk plan corresponding to the parameter value range in which the target value of the second detection parameter are located are the target risk plans, determining based on the target values of the detection parameters is required, so that the values of the detection parameters acquired by the sensor are required to be acquired first, and because the electronic device for determining the risk types and the electronic device for determining the corresponding target risk plans according to the target values of the detection parameters may not be one electronic device, there may be a problem of transmission failure.

When a risk occurs, the risk needs to be solved, the severity of the risk is different, and the corresponding risk plans are different. In order to accurately determine a solution for the risk occurring in the current scene, the embodiment of the present invention prestores risk plans corresponding to various risk types, and even if the risk types are the same, because different values of detection parameters causing the risk types cause risks of the risk types of different degrees, a corresponding relationship between each parameter value range and the risk plans may be preset, wherein the parameter value ranges are not overlapped, and the risk plans corresponding to different parameter value ranges are the same or different, and generally the risk plans corresponding to different parameter value ranges are different. Therefore, the parameter range where the target value of the first detection parameter is located and the risk plan corresponding to the parameter range where the target value of the second detection parameter is located are screened from the risk plans corresponding to the risks of the type as target risk plans.

The parameter range corresponding to the first detection parameter is generally different from the parameter range corresponding to the second detection parameter.

In order to determine the target risk plan more accurately, in the embodiments of the present invention, on the basis of the above embodiments, the taking the risk plan corresponding to the parameter value range in which the target value of the first detection parameter and the target value of the second detection parameter are located as the target risk plan includes:

judging whether a risk plan corresponding to a parameter value range in which the target value of the first detection parameter is located and a parameter value range in which the target value of the second detection parameter is located exists;

if so, taking the corresponding risk plan as a target risk plan;

if the first detection parameter and the second detection parameter do not exist, a first deviation between the target value and the parameter value range of the first detection parameter and a second deviation between the target value and the parameter value range of the second detection parameter are determined in a risk plan corresponding to the risk type, and a target risk plan is determined according to the first deviation, the second deviation and the priority of the preset first detection parameter and the preset second detection parameter.

Since it may be that all the target values of the first detection parameters and the target values of the second detection parameters are not within the parameter value ranges corresponding to the risk plans, in order to accurately determine the target risk plans, in the embodiment of the present invention, it is determined whether a risk plan corresponding to the parameter value range in which the target value of the first detection parameter is located and the parameter value range in which the target value of the second detection parameter is located exists, if so, it is determined that a risk plan completely matching the current risk degree exists, and the existing risk plan is used as the target risk plan, and if not, the target risk plan is determined in the risk plans of the risk type.

Specifically, when determining whether there are risk plans corresponding to a parameter value range in which a target value of a first detection parameter is located and a parameter value range in which a target value of a second detection parameter is located, for each risk plan, according to the parameter value range (referred to as a first parameter value range) of the first detection parameter corresponding to the risk plan and the parameter value range (referred to as a second parameter value range) of the second detection parameter, determining whether a first parameter value range in which the target value of the first detection parameter is located and a second parameter value range in which the target value of the second detection parameter is located correspond to the same risk plan, and if corresponding to the same risk plan, taking the risk plan as the target risk plan.

If the first parameter value range in which the target value of the first detection parameter is located corresponds to a different risk plan than the second parameter value range in which the target value of the second detection parameter is located, for each risk plan, according to the first parameter value range and the second parameter value range corresponding to the risk plan, a first deviation between the target value of the first detection parameter and a boundary value in the first parameter value range, which is closer to the target value of the first detection parameter, is determined, and a second deviation between the target value of the second detection parameter and a boundary value in the second parameter value range, which is closer to the target value of the second detection parameter, is determined.

When determining the deviation, firstly judging whether the value of the detection parameter is larger than the maximum value of the corresponding parameter value range or smaller than the minimum value of the corresponding parameter value range, and if the value of the detection parameter is larger than the maximum value of the corresponding parameter value range, determining the deviation of the detection parameter according to the maximum value of the corresponding parameter value range and the value of the detection parameter; and if the value of the detection parameter is smaller than the minimum value of the corresponding parameter value range, determining the deviation of the detection parameter according to the minimum value of the corresponding parameter value range and the value of the detection parameter.

After the first deviation and the second deviation are determined, the target risk plan is determined according to the first deviation, the second deviation and the preset priorities of the first detection parameter and the second detection parameter, specifically, the risk plan corresponding to the parameter value range where the target value of the detection parameter with the highest priority is located is determined at first, if only one risk plan is determined, the risk plan is determined to be the target risk plan, if a plurality of risk plans are determined, whether the risk plan corresponding to the parameter value range where the target value of the detection parameter with the second priority is located exists in the determined risk plans is judged, if the risk plan corresponding to the parameter value range where the target value of the detection parameter with the second priority is located does not exist, the risk plan with the minimum deviation determined by the detection parameter is determined to be the target risk plan, and if a plurality of risk plans still exist in the risk plan with the minimum deviation, the target risk plan is determined continuously according to the method according to the detection parameter with the third priority and the corresponding parameter value range in the risk plans. Specifically, how to determine the target risk plan is not limited herein.

Taking an example of determining the target risk according to the priority, the second detection parameter includes two detection parameters, the priority of the second detection parameter is lower than the priority of the first detection parameter, and there is no first parameter value range where the target value of the first detection parameter is located, and there is no second parameter value range where the target value of the second detection parameter is located, and the same risk plan is corresponding to the second parameter value range, so that the risk plan with a high priority, that is, corresponding to the first parameter value range where the target value of the first detection parameter is located, is first screened, and the risk plan with the minimum deviation between the second parameter value range and the target value of the second detection parameter in the screened risk plans is taken as the target risk plan.

Fig. 2 is a schematic diagram of a risk plan according to an embodiment of the present invention, where fig. 2 includes content and duration of each task and identification information of a terminal corresponding to the task.

The risk plan carries the corresponding responsible department and each task of the responsible department, wherein the corresponding task can include the material and quantity required to be called, and in addition, the risk plan can also include the information such as the expert and communication mode related to the corresponding risk processing.

For example, after the ice and snow risk is determined, the corresponding responsible department and the tasks of the responsible department carried in the ice and snow removing plan include: tasks for the first department, tasks for the second department, tasks for the third department, tasks for the fourth department, tasks for the fifth department, and so on.

Wherein the task of the first department is to send the snow removal tool to each snow removal post; the second department has the task of timely cleaning accumulated snow on the lane, reminding an approaching vehicle of slowing down and slowly moving and preventing unsafe events caused by wet and slippery roads; the third department has the tasks of timely cleaning accumulated snow at the entrance and the exit of the vehicle under the condition of ensuring the safety of the third department and guiding the vehicles in the yard to leave the yard in order; the task of the fourth door is to make service work, ensure that the passenger smoothly takes the taxi to drive away, arrange personnel to a nearby trunk road to guide the taxi to directly enter a passenger-taking position to pull the passenger; the task of the fifth department is to clear accumulated snow around posts and on ramps in time, prevent vehicles from passing due to wet and slippery roads, remind vehicles entering the field to slow down and slow down, and prevent unsafe events caused by wet and slippery roads.

For example, after determining that a taxi gasoline leakage risk occurs, the corresponding responsible department and each task of the responsible department carried in the taxi oil leakage emergency disposal plan include: tasks of the first department, tasks of the second department, tasks of the third department, tasks of the fourth department, tasks of the fifth department, etc.

The first department is tasked with setting a safety isolation zone for emergency, evacuating surrounding vehicles and people and strictly forbidding the approach of open fire; the task of the second department is to contact a traffic police to pull the oil leaking vehicle away from the parking lot; the third department uses fire-fighting sand to bury the leaked oil on the ground and contacts the property cleaning site; the task of the fourth door is to remove the safety isolation belt after the property is cleared on site; the task of the fifth department is to take the help of emergency personnel and the traffic police, and then the on-site rescue work is completed in a matching way.

For example, when it is determined that the backlog risk of the vehicle at the exit of the parking area occurs, the corresponding responsible department and each task of the responsible department carried in the backlog risk emergency disposal plan of the vehicle at the exit of the parking area include: tasks for the first department, tasks for the second department, tasks for the third department, tasks for the fourth department, etc.

The task of the first department is to know the flight dynamics of the current day, particularly the delay condition of the flight after the flight, and reserve personnel in advance to make emergency operation preparation; the second department has the task of arranging personnel to put the conical caps into lanes in advance so as to relieve road congestion and avoid scraping and collision accidents caused by the fact that vehicles compete for lanes and rush to run; the task of the third department is to open other channels; the fourth department is tasked with arranging emergency personnel to divert backlogged vehicles or guiding passengers to leave from the remaining parking lots.

Example 3:

in order to accurately obtain the target value of the first detection parameter and further accurately determine the target risk plan, on the basis of the foregoing embodiments, in an embodiment of the present invention, the obtaining the target value of the first detection parameter acquired by the sensor includes:

receiving values of a set number of first detection parameters collected by a sensor;

judging whether the difference value between the value of the first detection parameter and the values of other first detection parameters is within a preset first difference value range or not aiming at the value of each first detection parameter, and if so, taking the value of the first detection parameter as the value of the screened first detection parameter;

and determining a target value of the first detection parameter according to the screened value of the first detection parameter.

The value of the first detection parameter acquired by the sensor is not necessarily very accurate, so that in order to ensure the accuracy of risk determination and ensure the accuracy of the target wind plan, the value of the first detection parameter acquired by the sensor is received, and when the risk is determined to occur, the values of the first detection parameters acquired by the sensor in a set number are received.

And determining the target value of the first detection parameter according to the received values of the set number of first detection parameters, wherein in order to ensure the target value of the first detection parameter, a first difference range is pre-stored in the electronic device, and if the values of the first detection parameter acquired at a certain time are different from the values of other first detection parameters, it is indicated that the values of the detection parameters acquired at this time are wrong, so that whether the differences between the values of the first detection parameter and the values of the remaining first detection parameters are within the preset first difference range is determined for all the values of the first detection parameters, and if so, the value of the first detection parameter is taken as the value of the screened first detection parameter, and the target value of the first detection parameter is determined according to all the values of the screened first detection parameters.

The target value of the first detection parameter may be determined according to an average value of the first detection parameter, or may be determined in other manners. Specifically, how to determine the target value of the first detection parameter is not limited herein.

In order to accurately obtain the target value of the second detection parameter and further accurately determine the target risk plan, on the basis of the foregoing embodiments, in an embodiment of the present invention, the obtaining the target value of the second detection parameter includes:

receiving the acquired values of the set number of second detection parameters;

judging whether the difference value between the value of the second detection parameter and the values of other second detection parameters is within a preset second difference value range or not aiming at the value of each second detection parameter, and if so, taking the value of the second detection parameter as the value of the screened second detection parameter;

and determining a target value of the second detection parameter according to the screened value of the second detection parameter.

Since the value of the second detection parameter obtained according to the pre-saved information obtained for the second detection parameter is not necessarily very accurate, in order to ensure the accuracy of the risk determination and to ensure the accuracy of the target wind pattern plan, the embodiment of the present invention obtains the values of the second detection parameter of the set number, and determines the target value of the second detection parameter according to the obtained values of the second detection parameter of the set number.

The process of determining the target value of the second detection parameter is the same as the process of determining the target value of the first detection parameter, and is not described herein again.

Example 4:

in order to enable the terminal to receive the corresponding issued task, on the basis of the foregoing embodiments, the method in the embodiment of the present invention further includes:

and judging whether the task received by the terminal is read within a determined time length or not aiming at the terminal corresponding to each identifier, and if not, issuing the corresponding task to the terminal again.

In order to avoid serious influence caused by untimely task processing due to the fact that a task received by a terminal is not read, the task is not read, the embodiment of the invention executes a timing program in the electronic equipment aiming at the terminal corresponding to each identifier, judges whether the task received by the terminal is read regularly, if so, the electronic equipment receives the notification that the task has been read by the terminal, and if not, the electronic equipment sends the corresponding task to the terminal again in other modes.

Taking a terminal as a mobile phone as an example for explanation, the electronic device issues the task to the APPs corresponding to the mobile phones, executes a timing program inside the electronic device, and determines whether the task issued to the APP of the mobile phone is read, and if the task is not read and exceeds a certain time length, the electronic device issues the task to the mobile phones corresponding to the identifiers again in a short message manner.

Fig. 3 is a schematic diagram of a task issued to a terminal according to an embodiment of the present invention, where fig. 3 includes a current risk type, a place to be processed, a corresponding task, and a corresponding identifier.

Example 5:

in order to grasp the processing progress of the risk in real time, on the basis of the above embodiments, in an embodiment of the present invention, the method includes:

and aiming at the terminal receiving each task, acquiring the position information of the terminal according to a set time interval.

In order to grasp the progress of risk processing, in the embodiment of the present invention, the electronic device acquires the location information of each terminal according to a set time interval, where the terminal may perform positioning through any one of GPS positioning, base station positioning, and WIFI positioning, so as to acquire the location information of the terminal, and the terminal may send the location information to the electronic device after networking.

In order to grasp the processing progress of the risk in real time, on the basis of the above embodiments, in an embodiment of the present invention, the method includes:

and acquiring a notification containing task progress information sent by the terminal.

In order to grasp the progress of the risk processing, in the embodiment of the invention, the terminal reports the progress to the electronic device according to the current progress of the processing, so that the electronic device acquires the notification containing the task progress information sent by the terminal.

In order to grasp the processing progress of the risk in real time, on the basis of the above embodiments, in an embodiment of the present invention, the method includes:

and acquiring the corresponding monitoring video of the current scene aiming at each image acquisition device deployed in the current scene.

Because the safety of each traffic is particularly important, a plurality of image acquisition devices are installed, and when a risk occurs, the electronic device acquires a corresponding monitoring video of a current scene aiming at each image acquisition device deployed in the current scene.

Fig. 4 is a schematic view of a monitoring end of an electronic device according to an embodiment of the present invention. As shown in fig. 4, the bottom diagram of the schematic diagram of the monitoring end is a map of a current scene where a risk occurs, the upper left corner of the schematic diagram of the monitoring end is a currently processed risk type, the right side of the schematic diagram of the monitoring end is a summary of each task issued by the electronic device and a notification containing task progress information sent by the terminal, and the schematic diagram of the monitoring end indicates current position information of each terminal and a position where the image collector is located, and a monitoring video corresponding to the current scene can be obtained through the position of the image collector in the schematic diagram of the monitoring end.

Fig. 5 is a schematic diagram of a detailed implementation process of risk processing provided in an embodiment of the present invention, where the process includes:

s501: and acquiring a target value of the first detection parameter acquired by the sensor.

S502: and judging whether the target value of the first detection parameter is within a preset threshold range, if so, executing S501, and if not, executing S503.

S503: the type of risk that occurs is determined.

And determining the type of the occurring risk according to the target value of the first detection parameter acquired by the sensor.

S504: and judging whether the second detection parameter needs to be acquired or not, if so, executing S505, and if not, executing S506.

S505: and acquiring the value of the second detection parameter. And performs S506.

S506: and judging whether the target values of the acquired detection parameters and the types of the occurrence risks are successfully sent, if so, executing S507, and if not, executing S508.

And sending the target value of the acquired detection parameter and the type of the occurrence risk to a part for determining a risk plan.

S507: a target risk plan is determined. And S511 is performed.

And according to the stored corresponding relation between each parameter value range corresponding to the risk type and the risk plan, taking the risk plan corresponding to the parameter value range in which the target value of the first detection parameter and the target value of the second detection parameter are located as the target risk plan.

S508: it is determined whether the transmission frequency exceeds a frequency threshold, if so, S509 is performed, and if not, S510 is performed.

S509: and sending the target value of the acquired detection parameter and the type of the occurrence risk to the terminal. And S513 is performed.

S510: the target values of the detection parameters and the type of occurrence risk are retransmitted. And S506 is performed.

And sending the obtained target value of the detection parameter and the type of the occurrence risk to a part for determining a risk plan again.

S511: and sending each task in the target risk plan to a terminal corresponding to each task identifier.

S512: it is determined whether a task received by the terminal is read within a certain time period, if so, S513 is performed, and if not, S514 is performed.

S513: and the monitoring platform monitors the progress.

S514: and issuing the corresponding task to the terminal again. And S513 is performed.

Example 6:

fig. 6 is a schematic structural diagram of a risk processing apparatus according to an embodiment of the present invention, and based on the foregoing embodiments, the risk processing apparatus according to an embodiment of the present invention further includes:

a processing module 601, configured to determine, for each sensor deployed in a current scene, a threshold range corresponding to the sensor, obtain a target value of a first detection parameter acquired by the sensor, determine whether the target value of the first detection parameter is within the threshold range, and if not, determine an occurrence risk type according to the target value of the first detection parameter acquired by the sensor;

a determining module 602, configured to determine, according to a corresponding relationship between each stored parameter value range corresponding to the risk type and a risk plan, a target risk plan corresponding to a parameter value range in which a target value of the first detection parameter is located;

a sending module 603, configured to issue each task to a terminal corresponding to each identifier according to each task and the identifier of the corresponding terminal recorded in the target risk plan.

Further, the processing module 601 is specifically configured to determine whether the risk type needs to acquire another detection parameter, and if so, acquire a target value of a second detection parameter according to pre-stored acquisition information of the other detection parameter; and according to the stored corresponding relation between each parameter value range corresponding to the risk type and the risk plan, taking the risk plan corresponding to the parameter value range in which the target value of the first detection parameter and the target value of the second detection parameter are located as a target risk plan.

Further, the processing module 601 is specifically configured to receive the obtained values of the set number of second detection parameters; judging whether the difference value between the value of the second detection parameter and the values of other second detection parameters is within a preset second difference value range or not aiming at the value of each second detection parameter, and if so, taking the value of the second detection parameter as the value of the screened second detection parameter; and determining a target value of the second detection parameter according to the screened value of the second detection parameter.

Further, the determining module 602 is specifically configured to determine whether a risk plan corresponding to a parameter value range in which the target value of the first detection parameter is located and a parameter value range in which the target value of the second detection parameter is located exists; if so, taking the corresponding risk plan as a target risk plan; if the first deviation and the second deviation are not in the preset priority, determining a first deviation between the target value of the first detection parameter and the parameter value range and a second deviation between the target value of the second detection parameter and the parameter value range in the risk plan corresponding to the risk type, and determining a target risk plan according to the first deviation, the second deviation and the preset priority of the first detection parameter and the second detection parameter.

Further, the processing module 601 is specifically configured to receive values of a set number of first detection parameters acquired by a sensor; judging whether the difference value between the value of the first detection parameter and the values of other first detection parameters is within a preset first difference value range or not aiming at the value of each first detection parameter, and if so, taking the value of the first detection parameter as the value of the screened first detection parameter; and determining a target value of the first detection parameter according to the screened value of the first detection parameter.

Further, the apparatus further comprises:

and the judging module is used for judging whether the task received by the terminal is read within a determined time length aiming at the terminal corresponding to each identifier, and if not, the corresponding task is issued to the terminal again.

Further, the apparatus further comprises:

the acquisition module is used for acquiring the position information of the terminal according to a set time interval aiming at the terminal receiving each task; acquiring a notification which is sent by a terminal and contains task progress information; and acquiring a corresponding monitoring video of the current scene aiming at each image acquisition device deployed in the current scene.

In this embodiment of the present invention, fig. 7 is a schematic structural diagram of another risk processing system provided in this embodiment of the present invention, as shown in fig. 7:

the system comprises a risk source identification system 701, an auxiliary judging module 702, a plan management module 703 control module 704, an information transmission module 705, a monitoring platform terminal 706 and a terminal 707.

The risk source identification system 701 is equivalent to the processing module 601 in fig. 6, and is configured to determine, for each sensor deployed in a current scene, a threshold range corresponding to the sensor, acquire a target value of a first detection parameter acquired by the sensor, determine whether the target value of the first detection parameter is within the threshold range, and if not, determine an occurring risk type according to the target value of the first detection parameter acquired by the sensor.

The auxiliary studying and judging module 702 and the plan managing module 703, which are equivalent to the determining module 602 in fig. 6, are configured to determine the target risk plan corresponding to the parameter value range where the target value of the first detection parameter is located according to the stored corresponding relationship between each parameter value range corresponding to the risk type and the risk plan.

A control module 704 and an information transmission module 705, configured to issue each task to a terminal corresponding to each identifier according to each task and the identifier of the corresponding terminal recorded in the target risk plan. This part of the functionality corresponds to the sending module 603 in fig. 6.

The control module 704 and the information transmission module 705 are configured to, for a terminal corresponding to each identifier, determine whether a task received by the terminal is read within a certain time length, and if not, re-issue the corresponding task to the terminal. This portion of the functionality corresponds to decision block 604 in fig. 6.

The information transmission module 705 and the monitoring platform terminal 706 are configured to, for a terminal that receives each task, obtain location information of the terminal at a set time interval; acquiring a notice which is sent by a terminal and contains task progress information; and acquiring a corresponding monitoring video of the current scene aiming at each image acquisition device deployed in the current scene. This part of the functionality corresponds to the acquisition module 606 in fig. 6.

Wherein the system further comprises:

a terminal 707, configured to receive a delivered task; transmitting the position information according to a set time interval; a notification is sent containing task progress information.

Example 7:

on the basis of the foregoing embodiments, an embodiment of the present invention further provides an electronic device, as shown in fig. 8, including: the system comprises a processor 801, a communication interface 802, a memory 803 and a communication bus 804, wherein the processor 801, the communication interface 802 and the memory 803 are communicated with each other through the communication bus 804.

The memory 803 has stored therein a computer program which, when executed by the processor 801, causes the processor 801 to perform the steps of:

determining a threshold range corresponding to each sensor deployed in a current scene, acquiring a target value of a first detection parameter acquired by the sensor, judging whether the target value of the first detection parameter is within the threshold range, and if not, determining the occurrence risk type according to the target value of the first detection parameter acquired by the sensor;

determining a target risk plan corresponding to the parameter value range in which the target value of the first detection parameter is located according to the corresponding relation between each stored parameter value range corresponding to the risk type and the risk plan;

and issuing each task to the terminal corresponding to each identifier according to each task and the identifier of the corresponding terminal recorded in the target risk plan.

Further, the processor 801 is further configured to determine whether the risk type requires to acquire other detection parameters, and if so, acquire a target value of a second detection parameter according to pre-stored acquisition information of other detection parameters;

the determining, according to the stored correspondence between each parameter value range corresponding to the risk type and the risk plan, the target risk plan corresponding to the parameter value range in which the target value of the first detection parameter is located includes:

and according to the stored corresponding relation between each parameter value range corresponding to the risk type and the risk plan, taking the risk plan corresponding to the parameter value range in which the target value of the first detection parameter and the target value of the second detection parameter are located as the target risk plan.

Further, the processor 801 is further configured to receive the obtained values of the set number of second detection parameters;

judging whether the difference value between the value of the second detection parameter and the values of other second detection parameters is within a preset second difference value range or not according to the value of each second detection parameter, and if so, taking the value of the second detection parameter as the value of the screened second detection parameter;

and determining a target value of the second detection parameter according to the screened value of the second detection parameter.

Further, the processor 801 is further configured to determine whether a risk plan corresponding to a parameter value range in which the target value of the first detection parameter is located and a parameter value range in which the target value of the second detection parameter is located exists;

if so, taking the corresponding risk plan as a target risk plan;

if the first detection parameter and the second detection parameter do not exist, a first deviation between the target value and the parameter value range of the first detection parameter and a second deviation between the target value and the parameter value range of the second detection parameter are determined in a risk plan corresponding to the risk type, and a target risk plan is determined according to the first deviation, the second deviation and the priority of the preset first detection parameter and the preset second detection parameter.

Further, the processor 801 is further configured to receive values of a set number of first detection parameters collected by a sensor;

judging whether the difference value between the value of the first detection parameter and the values of other first detection parameters is within a preset first difference value range or not aiming at the value of each first detection parameter, and if so, taking the value of the first detection parameter as the value of the screened first detection parameter;

and determining a target value of the first detection parameter according to the screened value of the first detection parameter.

Further, the processor 801 is further configured to determine, for a terminal corresponding to each identifier, whether a task received by the terminal is read within a certain time length, and if not, re-issue the corresponding task to the terminal.

Further, the processor 801 is further configured to, for a terminal that receives each task, obtain location information of the terminal at a set time interval.

Further, the processor 801 is further configured to obtain a notification that includes task progress information and is sent by the terminal.

Further, the processor 801 is further configured to acquire a corresponding monitoring video of the current scene for each image acquisition device deployed in the current scene.

The communication bus mentioned in the above server may be a Peripheral Component Interconnect (PCI) bus, an Extended Industry Standard Architecture (EISA) bus, or the like. The communication bus may be divided into an address bus, a data bus, a control bus, etc. For ease of illustration, only one thick line is shown, but this is not intended to represent only one bus or type of bus.

The communication interface 802 is used for communication between the above-described electronic apparatus and other apparatuses.

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

The Processor may be a general-purpose Processor, including a central processing unit, a Network Processor (NP), and the like; but may also be a Digital instruction processor (DSP), an application specific integrated circuit, a field programmable gate array or other programmable logic device, discrete gate or transistor logic, discrete hardware components, etc.

Example 8:

on the basis of the foregoing embodiments, an embodiment of the present invention further provides a computer-readable storage medium, in which a computer program executable by an electronic device is stored, and when the program is run on the electronic device, the electronic device is caused to execute the following steps:

the memory having stored therein a computer program that, when executed by the processor, causes the processor to perform the steps of:

determining a threshold range corresponding to each sensor deployed in a current scene, acquiring a target value of a first detection parameter acquired by the sensor, judging whether the target value of the first detection parameter is within the threshold range, and if not, determining the occurrence risk type according to the target value of the first detection parameter acquired by the sensor;

determining a target risk plan corresponding to the parameter value range in which the target value of the first detection parameter is located according to the stored corresponding relation between each parameter value range corresponding to the risk type and the risk plan;

and issuing each task to the terminal corresponding to each identifier according to each task and the identifier of the corresponding terminal recorded in the target risk plan.

Further, after determining the type of risk that occurred, the method includes:

judging whether the risk type needs to acquire other detection parameters, if so, acquiring a target value of a second detection parameter according to pre-stored acquisition information of other detection parameters;

the determining, according to the stored correspondence between each parameter value range corresponding to the risk type and the risk plan, the target risk plan corresponding to the parameter value range in which the target value of the first detection parameter is located includes:

and according to the stored corresponding relation between each parameter value range corresponding to the risk type and the risk plan, taking the risk plan corresponding to the parameter value range in which the target value of the first detection parameter and the target value of the second detection parameter are located as a target risk plan.

Further, the obtaining of the target value of the second detection parameter includes:

receiving the obtained values of the set number of second detection parameters;

judging whether the difference value between the value of the second detection parameter and the values of other second detection parameters is within a preset second difference value range or not according to the value of each second detection parameter, and if so, taking the value of the second detection parameter as the value of the screened second detection parameter;

and determining a target value of the second detection parameter according to the screened value of the second detection parameter.

Further, the taking the risk plan corresponding to the parameter value range in which the target value of the first detection parameter and the target value of the second detection parameter are located as the target risk plan includes:

judging whether a risk plan corresponding to a parameter value range in which the target value of the first detection parameter is located and a parameter value range in which the target value of the second detection parameter is located exists;

if so, taking the corresponding risk plan as a target risk plan;

if the first deviation and the second deviation are not in the preset priority, determining a first deviation between the target value of the first detection parameter and the parameter value range and a second deviation between the target value of the second detection parameter and the parameter value range in the risk plan corresponding to the risk type, and determining a target risk plan according to the first deviation, the second deviation and the preset priority of the first detection parameter and the second detection parameter.

Further, the acquiring the target value of the first detection parameter acquired by the sensor includes:

receiving values of a set number of first detection parameters collected by a sensor;

judging whether the difference value between the value of the first detection parameter and the values of other first detection parameters is within a preset first difference value range or not aiming at the value of each first detection parameter, and if so, taking the value of the first detection parameter as the value of the screened first detection parameter;

and determining a target value of the first detection parameter according to the screened value of the first detection parameter.

Further, the method further comprises:

and judging whether the task received by the terminal is read within a determined time length or not aiming at the terminal corresponding to each identifier, and if not, issuing the corresponding task to the terminal again.

Further, the method comprises:

and acquiring the position information of the terminal according to a set time interval aiming at the terminal receiving each task.

Further, the method comprises:

and acquiring a notification which is sent by the terminal and contains task progress information.

Further, the method comprises:

and acquiring a corresponding monitoring video of the current scene aiming at each image acquisition device deployed in the current scene.

According to the embodiment of the invention, the occurring risk type is determined according to whether the value of the first parameter acquired by the sensor is located in the threshold range corresponding to the sensor, the target risk plan is determined according to the corresponding relation between each parameter range of the risk type and the risk plan, the solution of the risk of the current situation can be accurately determined, each task is issued to the terminal corresponding to each identifier according to the identifier of each task and the corresponding terminal recorded in the target risk plan, and field workers are reminded to solve the current risk before the task in time.

As will be appreciated by one skilled in the art, embodiments of the present application may be provided as a method, system, or computer program product. Accordingly, the present application may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present application may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

For the system/apparatus embodiments, since they are substantially similar to the method embodiments, the description is relatively simple, and reference may be made to some descriptions of the method embodiments for relevant points.

The present application is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to the application. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

While preferred embodiments of the present invention have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. Therefore, it is intended that the appended claims be interpreted as including the preferred embodiment and all changes and modifications that fall within the scope of the invention.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present application without departing from the spirit and scope of the application. Thus, if such modifications and variations of the present application fall within the scope of the claims of the present application and their equivalents, the present application is intended to include such modifications and variations as well.

Claims (8)

1. A method of risk management, the method comprising:

determining a threshold range corresponding to each sensor deployed in a current scene, acquiring a target value of a first detection parameter acquired by the sensor, judging whether the target value of the first detection parameter is within the threshold range, and if not, determining the occurrence risk type according to the target value of the first detection parameter acquired by the sensor;

determining a target risk plan corresponding to the parameter value range in which the target value of the first detection parameter is located according to the stored corresponding relation between each parameter value range corresponding to the risk type and the risk plan;

issuing each task to a terminal corresponding to each identifier according to each task and the identifier of the corresponding terminal recorded in the target risk plan;

after determining the type of risk that occurred, the method includes:

judging whether the risk type needs to acquire other detection parameters, if so, acquiring a target value of a second detection parameter according to pre-stored acquisition information of other detection parameters;

the determining, according to the stored correspondence between each parameter value range corresponding to the risk type and the risk plan, the target risk plan corresponding to the parameter value range in which the target value of the first detection parameter is located includes:

according to the stored corresponding relation between each parameter value range corresponding to the risk type and a risk plan, taking the risk plan corresponding to the parameter value range in which the target value of the first detection parameter and the target value of the second detection parameter are located as a target risk plan;

the taking the risk plan corresponding to the parameter value range in which the target value of the first detection parameter and the target value of the second detection parameter are located as the target risk plan includes:

judging whether a risk plan corresponding to a parameter value range in which the target value of the first detection parameter is located and a parameter value range in which the target value of the second detection parameter is located exists;

if so, taking the corresponding risk plan as a target risk plan;

if the first deviation and the second deviation are not in the preset first detection parameter and second detection parameter range, determining a target risk plan in a risk plan corresponding to the risk type;

when the deviation is determined, if the value of the detection parameter is larger than the maximum value of the corresponding parameter value range, determining the deviation of the detection parameter according to the maximum value of the corresponding parameter value range and the value of the detection parameter; and if the value of the detection parameter is smaller than the minimum value of the corresponding parameter value range, determining the deviation of the detection parameter according to the minimum value of the corresponding parameter value range and the value of the detection parameter.

2. The method of claim 1, wherein the obtaining the target value of the second detection parameter comprises:

receiving the obtained values of the set number of second detection parameters;

judging whether the difference value between the value of the second detection parameter and the values of other second detection parameters is within a preset second difference value range or not according to the value of each second detection parameter, and if so, taking the value of the second detection parameter as the value of the screened second detection parameter;

and determining a target value of the second detection parameter according to the screened value of the second detection parameter.

3. The method of claim 1, wherein said obtaining a target value for the first sensed parameter acquired by the sensor comprises:

receiving values of a set number of first detection parameters collected by a sensor;

judging whether the difference value between the value of the first detection parameter and the values of other first detection parameters is within a preset first difference value range or not aiming at the value of each first detection parameter, and if so, taking the value of the first detection parameter as the value of the screened first detection parameter;

and determining a target value of the first detection parameter according to the screened value of the first detection parameter.

4. The method of claim 1, further comprising:

and judging whether the task received by the terminal is read within a determined time length or not aiming at the terminal corresponding to each identifier, and if not, issuing the corresponding task to the terminal again.

5. The method according to claim 1, characterized in that it comprises:

and acquiring the position information of the terminal according to a set time interval aiming at the terminal receiving each task.

6. The method according to claim 1, characterized in that it comprises:

and acquiring a notification containing task progress information sent by the terminal.

7. The method according to claim 1, characterized in that it comprises:

and acquiring a corresponding monitoring video of the current scene aiming at each image acquisition device deployed in the current scene.

8. A risk processing apparatus, characterized in that the apparatus comprises:

the processing module is used for determining a threshold range corresponding to each sensor deployed in a current scene, acquiring a target value of a first detection parameter acquired by the sensor, judging whether the target value of the first detection parameter is within the threshold range, and if not, determining the occurrence risk type according to the target value of the first detection parameter acquired by the sensor;

a determining module, configured to determine, according to a correspondence between each stored parameter value range corresponding to the risk type and a risk plan, a target risk plan corresponding to a parameter value range in which a target value of the first detection parameter is located;

the sending module is used for issuing each task to the terminal corresponding to each identifier according to each task and the identifier of the corresponding terminal recorded in the target risk plan;

the processing module is specifically configured to determine whether the risk type requires acquisition of other detection parameters, and if so, acquire a target value of a second detection parameter according to pre-stored acquisition information of other detection parameters; according to the stored corresponding relation between each parameter value range corresponding to the risk type and a risk plan, taking the risk plan corresponding to the parameter value range in which the target value of the first detection parameter and the target value of the second detection parameter are located as a target risk plan;

the determining module is specifically configured to determine whether a risk plan corresponding to a parameter value range in which the target value of the first detection parameter is located and a parameter value range in which the target value of the second detection parameter is located exists; if so, taking the corresponding risk plan as a target risk plan; if the first detection parameter and the second detection parameter do not exist in the risk plan corresponding to the risk type, determining a first deviation between the target value and the parameter value range of the first detection parameter and a second deviation between the target value and the parameter value range of the second detection parameter, and determining a target risk plan according to the first deviation, the second deviation and the priority of the preset first detection parameter and second detection parameter;

when the deviation is determined, if the value of the detection parameter is larger than the maximum value of the corresponding parameter value range, determining the deviation of the detection parameter according to the maximum value of the corresponding parameter value range and the value of the detection parameter; and if the value of the detection parameter is smaller than the minimum value of the corresponding parameter value range, determining the deviation of the detection parameter according to the minimum value of the corresponding parameter value range and the value of the detection parameter.

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