阅读说明：本技术 消防安全监测方法、装置、计算机设备和存储介质 (Fire safety monitoring method and device, computer equipment and storage medium ) 是由 马量 丁雪玲 傅东生 于 2020-03-31 设计创作，主要内容包括：本申请涉及一种消防安全监测方法、装置、计算机设备和存储介质。所述方法包括：接收携带数据指标和位置信息的消防数据,将消防数据与预设的安全数据进行比较,得到消防数据与预设的安全数据间的偏差程度,再根据偏差程度,确定消防数据的异常等级,进一步地,根据数据指标、异常等级和位置信息生成消防任务,发布消防任务,能够在发生消防异常情况时,得知消防异常情况发生的具体位置并根据数据指标和等级得到应急方案,向相关人员发布消防任务,使得相关人员可以根据消防任务了解消防异常情况,及时做出应急措施,提高了消防应急处理的及时性以及安全性。(The application relates to a fire safety monitoring method, a fire safety monitoring device, computer equipment and a storage medium. The method comprises the following steps: receiving the fire-fighting data carrying data indexes and position information, comparing the fire-fighting data with preset safety data, obtaining the deviation degree between the fire-fighting data and the preset safety data, determining the abnormal level of the fire-fighting data according to the deviation degree, further, generating a fire-fighting task according to the data indexes, the abnormal level and the position information, issuing the fire-fighting task, when the abnormal fire-fighting condition occurs, learning the specific position where the abnormal fire-fighting condition occurs and obtaining an emergency scheme according to the data indexes and the level, issuing the fire-fighting task to related personnel, enabling the related personnel to know the abnormal fire-fighting condition according to the fire-fighting task, and making emergency measures in time, thereby improving the timeliness and the safety of fire-fighting emergency treatment.)

1. A fire safety monitoring method, the method comprising:

receiving fire-fighting data, wherein the fire-fighting data carries data indexes and position information;

comparing the fire fighting data with preset safety data to obtain the deviation degree between the fire fighting data and the preset safety data;

determining the abnormal grade of the fire fighting data according to the deviation degree;

and generating a fire fighting task according to the data index, the abnormal grade and the position information, and issuing the fire fighting task.

2. The method of claim 1, wherein the fire protection data includes video of a monitored site, the predetermined safety data includes safety locations of different objects, and comparing the fire protection data to the predetermined safety data to obtain a degree of deviation between the fire protection data and the predetermined safety data includes:

extracting the characteristics of each frame of the video of the monitored site to obtain the parameters of the object in each frame of the video of the monitored site;

identifying the object according to the parameters of the object to obtain the category and the position of the object;

and comparing the position of the object with a target safety position according to the category of the object to obtain the deviation degree between the position of the object and the target safety position.

3. The method of claim 1, wherein the generating a fire fighting task from the data indicator, the anomaly level, and the location information, the publishing the fire fighting task comprises:

searching a target emergency scheme in pre-stored emergency schemes according to the data indexes and the abnormal grade;

combining the target emergency plan with the location information to generate the fire-fighting task;

and sending the fire fighting task to a mobile terminal of a relevant person so that the relevant person can execute the fire fighting task.

4. The method of claim 3, wherein the fire fighting task comprises a projected task completion duration, and wherein after the sending the fire fighting task to the mobile terminal of the associated person, the method further comprises:

acquiring a release time point of the fire-fighting task, and acquiring a predicted completion time point of the fire-fighting task according to the release time point of the fire-fighting task and the predicted task completion time;

and when the state of the fire fighting task is not changed to be completed within a certain time range from the predicted completion time point, sending a time limit prompting message to the mobile terminal so that the relevant personnel can execute the fire fighting task on time.

5. The method of claim 4, wherein the step of the status of the fire fighting task not being changed to completed comprises:

receiving an image uploaded by the mobile terminal, wherein the image carries image position information;

according to the image position information, finding a fire fighting task corresponding to the image;

detecting the image to obtain the completion condition of the fire-fighting task corresponding to the image;

and when the completion condition of the fire-fighting task corresponding to the image meets the requirement, changing the state of the fire-fighting task corresponding to the image into the completed state.

6. The method of claim 1, further comprising:

obtaining a model of a monitored site, and generating a digital map according to the model;

matching the fire fighting task to a target position of the digital map according to the incidence relation between the position information and the digital map;

and displaying the matched digital map, wherein the matched digital map comprises the icon of the fire fighting task, and when the icon receives trigger information, displaying the fire fighting task.

7. The method of claim 1, wherein after said determining an anomaly level for said fire-fighting data based on said degree of deviation, said method further comprises:

acquiring the associated color of the abnormal grade;

acquiring a fire monitoring interface, wherein the fire monitoring interface comprises a data index control, and the data index control is associated with the fire data;

displaying a data indicator control associated with the fire protection data in the associated color on the fire monitoring interface.

8. A fire safety monitoring device, the device comprising:

the fire-fighting data receiving module is used for receiving fire-fighting data, and the fire-fighting data carries data indexes and position information;

the fire-fighting data analysis module is used for comparing the fire-fighting data with preset safety data to obtain the deviation degree between the fire-fighting data and the preset safety data; determining the abnormal grade of the fire fighting data according to the deviation degree;

and the fire-fighting task issuing module is used for generating a fire-fighting task according to the data index, the abnormal grade and the position information and issuing the fire-fighting task.

9. A computer device comprising a memory and a processor, the memory storing a computer program, characterized in that the processor, when executing the computer program, implements the steps of the method of any of claims 1 to 7.

10. A computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out the steps of the method of any one of claims 1 to 7.

Technical Field

The application relates to the technical field of computers, in particular to a fire safety monitoring method, a fire safety monitoring device, computer equipment and a storage medium.

Background

With the increasingly frequent socialization activities, the requirements for monitoring, analyzing and the like of the fire fighting conditions in public places are more and more obvious, and the method has great social and commercial values for fire fighting management and analysis in public places. For example, the scene of personnel gathering and high-density activity during the activity is monitored in the exhibition period in which construction arrangement is needed in the early stage of the activity, so that the fire fighting condition of the exhibition area can be monitored conveniently and safely managed, and the safety of the exhibition area is ensured.

In the traditional scheme, when monitoring the fire control condition unusual usually, need monitoring personnel and fire fighter to establish communication, inform the fire fighter to implement the rescue, the fire fighter can not know concrete fire control abnormal conditions in the very first time, can't in time make emergency measures, leads to the security lower.

Disclosure of Invention

In view of the above, there is a need to provide a fire safety monitoring method, device, computer equipment and storage medium capable of improving safety.

A fire safety monitoring method, the method comprising:

receiving fire-fighting data, wherein the fire-fighting data carries data indexes and position information;

comparing the fire fighting data with preset safety data to obtain the deviation degree between the fire fighting data and the preset safety data;

determining the abnormal grade of the fire fighting data according to the deviation degree;

and generating a fire fighting task according to the data index, the abnormal grade and the position information, and issuing the fire fighting task.

In one embodiment, the fire-fighting data includes video of a monitored site, the preset safety data includes safety positions of different objects, and comparing the fire-fighting data with the preset safety data to obtain a deviation degree between the fire-fighting data and the preset safety data includes:

extracting the characteristics of each frame of the video of the monitored site to obtain the parameters of the object in each frame of the video of the monitored site;

identifying the object according to the parameters of the object to obtain the category and the position of the object;

and comparing the position of the object with a target safety position according to the category of the object to obtain the deviation degree between the position of the object and the target safety position.

In one embodiment, the generating a fire fighting task according to the data index, the anomaly level and the location information, and the issuing the fire fighting task includes:

searching a target emergency scheme in pre-stored emergency schemes according to the data indexes and the abnormal grade;

combining the target emergency plan with the location information to generate the fire-fighting task;

and sending the fire fighting task to a mobile terminal of a relevant person so that the relevant person can execute the fire fighting task.

In one embodiment, the fire fighting task includes a predicted task completion duration, and after the sending the fire fighting task to the mobile terminal of the relevant person, the method further includes:

acquiring a release time point of the fire-fighting task, and acquiring a predicted completion time point of the fire-fighting task according to the release time point of the fire-fighting task and the predicted task completion time;

and when the state of the fire fighting task is not changed to be completed within a certain time range from the predicted completion time point, sending a time limit prompting message to the mobile terminal so that the relevant personnel can execute the fire fighting task on time.

In one embodiment, the step of the status of the fire fighting task not being changed to completed comprises:

receiving an image uploaded by the mobile terminal, wherein the image carries image position information;

according to the image position information, finding a fire fighting task corresponding to the image;

detecting the image to obtain the completion condition of the fire-fighting task corresponding to the image;

and when the completion condition of the fire-fighting task corresponding to the image meets the requirement, changing the state of the fire-fighting task corresponding to the image into the completed state.

In one embodiment, the method further comprises:

obtaining a model of a monitored site, and generating a digital map according to the model;

matching the fire fighting task to a target position of the digital map according to the incidence relation between the position information and the digital map;

and displaying the matched digital map, wherein the matched digital map comprises the icon of the fire fighting task, and when the icon receives trigger information, displaying the fire fighting task.

In one embodiment, after determining the abnormal level of the fire fighting data according to the deviation degree, the method further comprises:

acquiring the associated color of the abnormal grade;

acquiring a fire monitoring interface, wherein the fire monitoring interface comprises a data index control, and the data index control is associated with the fire data;

displaying a data indicator control associated with the fire protection data in the associated color on the fire monitoring interface.

A fire safety monitoring device, the device comprising:

the fire-fighting data receiving module is used for receiving fire-fighting data, and the fire-fighting data carries data indexes and position information;

the fire-fighting data analysis module is used for comparing the fire-fighting data with preset safety data to obtain the deviation degree between the fire-fighting data and the preset safety data; determining the abnormal grade of the fire fighting data according to the deviation degree;

and the fire-fighting task issuing module is used for generating a fire-fighting task according to the data index, the abnormal grade and the position information and issuing the fire-fighting task.

A computer device comprising a memory in which a computer program is stored and a processor, which when executing the computer program performs the steps in the above-described method embodiments.

A computer-readable storage medium, on which a computer program is stored which, when being executed by a processor, carries out the steps of the above-mentioned method embodiments.

The fire safety monitoring method, the fire safety monitoring device, the computer equipment and the storage medium receive the fire data carrying the data indexes and the position information, compare the fire data with the preset safety data to obtain the deviation degree between the fire data and the preset safety data, determine the abnormal grade of the fire data according to the deviation degree, and further, compared with the prior art, when the method generates fire fighting tasks according to the data indexes, the abnormal grade and the position information and distributes the fire fighting tasks, the specific position of the abnormal fire-fighting condition can be known, an emergency scheme can be obtained according to the data index and the grade, the fire-fighting task is issued to the related personnel, the fire-fighting emergency treatment system has the advantages that related personnel can know fire-fighting abnormal conditions according to fire-fighting tasks and can timely take emergency measures, and timeliness and safety of fire-fighting emergency treatment are improved.

Drawings

FIG. 1 is a diagram of an exemplary embodiment of a fire safety monitoring method;

FIG. 2 is a schematic flow chart of a fire safety monitoring method according to an embodiment;

FIG. 3 is a schematic flow chart diagram illustrating a method for calculating deviation of fire data according to one embodiment;

FIG. 4 is a schematic flow chart diagram of a fire fighting task generation method in one embodiment;

FIG. 5 is a schematic diagram of a list of contingency plans in one embodiment;

FIG. 6 is a schematic flow diagram of a fire task time limit supervision scheme in one embodiment;

FIG. 7 is a flow diagram illustrating a method for visualization of a fire fighting task according to one embodiment;

FIG. 8 is a diagram illustrating an interface of a matched digital map, in accordance with an embodiment;

FIG. 9 is an interface diagram of a list of related people in one embodiment;

FIG. 10 is an interface diagram illustrating display of exception levels in one embodiment;

FIG. 11 is a schematic flow chart of a method for monitoring fire safety in another embodiment;

FIG. 12 is a block diagram of a fire safety monitoring device according to an embodiment;

FIG. 13 is a diagram illustrating an internal structure of a computer device according to an embodiment.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

The fire safety monitoring method provided by the application can be applied to the application environment shown in fig. 1. The terminal 102 communicates with the sensor 104 and the mobile terminal 106 via a network, respectively. The number of the sensors 104 may be one or more, and as shown in fig. 1, 104a, 104b, and 104c are all sensors. The terminal 102 and the mobile terminal 106 may be, but are not limited to, various personal computers, notebook computers, smart phones, tablet computers, and portable wearable devices, and the sensor 104 may be, but is not limited to, various cameras, smoke sensors, combustible gas sensors, position sensors, and temperature sensors.

Specifically, the terminal 102 receives fire protection data sent by the sensor 104, and the fire protection data carries data indexes and position information. The terminal 102 compares the received fire-fighting data with preset safety data to obtain the deviation degree between the fire-fighting data and the preset safety data, and determines the abnormal grade of the fire-fighting data according to the deviation degree. Further, the terminal 102 generates fire protection data according to the data index, the abnormal level and the position information, and issues a fire protection task to the mobile terminal 106.

In one embodiment, as shown in fig. 2, a fire safety monitoring method is provided, which is described by taking the method as an example applied to the terminal in fig. 1, it is to be understood that the method may also be applied to a server, and may also be applied to a system including the terminal and the server, and implemented through interaction between the terminal and the server. In this embodiment, the method includes the steps of:

step 202, receiving fire protection data, wherein the fire protection data carries data indexes and position information.

The fire fighting data is data related to fire fighting, such as smoke concentration data and combustible gas concentration data. The data index is a category of data and is used for distinguishing and managing fire protection data, for example, the data index corresponding to the smoke concentration data is smoke, and the data index corresponding to the combustible gas concentration data is combustible gas. The position information is a position corresponding to the fire-fighting data and can be longitude and latitude information.

Specifically, the sensor collects fire-fighting data and sends the fire-fighting data to the terminal through network connection. And the terminal receives the fire-fighting data uploaded by the sensor. The fire-fighting data all carry data index and positional information, and the terminal can classify the fire-fighting data according to the data index, fixes a position the fire-fighting data according to the positional information.

For example, the smoke sensor a senses the smoke density of the monitored area a, and transmits the current smoke density data of 3% obs/m to the terminal. After the terminal receives the data uploaded by the smoke sensor A, the terminal can know that the data of 3% obs/m is the current smoke concentration of the detected area a. The smoke sensor A continuously sends the smoke concentration data of the monitored area a to the terminal, and when the terminal obtains abnormal data through analysis, the terminal can know that the smoke concentration data of the monitored area a is abnormal.

And step 204, comparing the fire fighting data with preset safety data to obtain the deviation degree between the fire fighting data and the preset safety data.

The preset safety data are preset by related personnel according to the fire fighting data, and the preset safety data corresponding to different fire fighting data are different.

Specifically, the terminal can search for preset safety data corresponding to the fire-fighting data according to the data indexes of the fire-fighting data. The data types of the fire fighting data are different due to the fact that the fire fighting data are different. For example, the data type of the fire protection data corresponding to the temperature sensor is a numerical value, and the data type of the fire protection data corresponding to the camera is a video or an image.

When the data type is a numerical value, the corresponding preset safety data can be set to be in a threshold range, for example, the corresponding preset safety data of the smoke concentration data can be set to be less than 5% obs/m, and when the smoke concentration data is greater than or equal to 5% obs/m, the monitored site can be dangerous. The terminal compares the fire-fighting data with the corresponding preset safety data, and the deviation degree between the fire-fighting data and the preset safety data can be obtained. For example, when the currently acquired smoke concentration data is 6% obs/m, the deviation degree between the current smoke concentration data and the preset safety data is 1% obs/m; and when the current collected smoke concentration data is 3% obs/m, the current smoke concentration data is in a preset safety data range.

When the data type is a video or an image, the corresponding preset safety data can be set as the safety position of an object in the video or the image, for example, the preset safety data corresponding to the safety helmet data can be set as the correct wearing position of the safety helmet, and when the video or the image collected by the camera is received to show that a constructor in a construction site does not wear the safety helmet, the deviation degree between the preset safety data corresponding to the safety helmet data is a constructor safety helmet wearing error.

And step 206, determining the abnormal grade of the fire fighting data according to the deviation degree.

Specifically, the fire manager can formulate an abnormal grade file according to actual conditions, associate the deviation degree between the fire data and the preset safety data with the abnormal grade, and store the formulated file to the terminal. Wherein different deviation degrees correspond to different anomaly levels. The greater the degree of deviation, the higher the abnormality level. After the terminal calculates the deviation degree between the fire-fighting data and the preset safety data, the terminal can search and obtain the abnormal grade corresponding to the fire-fighting data in the abnormal grade file according to the deviation degree between the fire-fighting data and the preset safety data. It should be understood that when the degree of deviation is no deviation, the fire fighting data is normal, and the corresponding abnormality level is 0.

In one embodiment, the terminal may display a fire monitoring interface, and after determining the abnormal level of the fire protection data, display the abnormal level of the fire protection data on the fire monitoring interface. In one embodiment, an abnormal level display control may be set on the fire monitoring interface, the abnormal level may be displayed on the abnormal level display control in a text form, or the abnormal level may be displayed on the abnormal level display control in a different color display manner. In other embodiments, the terminal may display the abnormal level of the fire data using other methods.

And step 208, generating a fire fighting task according to the data indexes, the abnormal levels and the position information, and issuing the fire fighting task.

The fire-fighting task is a task which needs to be executed by a fire-fighting manager according to abnormal fire-fighting conditions, and the detailed information of the fire-fighting task comprises the type of a fire-fighting accident, the grade of the fire-fighting accident and the place where the fire-fighting accident happens.

Specifically, the terminal determines the type of the fire-fighting accident according to the data index, determines the grade of the fire-fighting accident according to the abnormal grade, determines the place where the fire-fighting accident occurs according to the position information, and obtains the detailed information of the fire-fighting task, so that the fire-fighting task is generated. The terminal is connected with the mobile terminals of the relevant personnel through a network, and the fire-fighting task is sent to the mobile terminals of the relevant personnel. Wherein the person concerned is a person performing a fire fighting task.

In one embodiment, relevant personnel install individual soldier APP in mobile terminal, and the terminal can be released to individual soldier APP in the fire control task, and relevant personnel receive the fire control task through individual soldier APP.

In the fire safety monitoring method, the fire data carrying the data indexes and the position information are received, the fire data are compared with the preset safety data, the deviation degree between the fire data and the preset safety data is obtained, the abnormal level of the fire data is determined according to the deviation degree, further, the fire task is generated according to the data indexes, the abnormal level and the position information, the fire task is issued, when the abnormal fire condition occurs, the specific position of the abnormal fire condition is known, the emergency scheme is obtained according to the data indexes and the level, the fire task is issued to related personnel, the related personnel can know the abnormal fire condition according to the fire task, emergency measures can be made in time, and the timeliness and the safety of fire emergency treatment are improved.

In one embodiment, the fire protection data includes video of the monitored site, and the preset safety data includes safety locations of various objects, as shown in FIG. 3, step 204 includes:

step 302, extracting the characteristics of each frame of the video of the monitored site to obtain the parameters of the object in each frame of the video of the monitored site;

step 304, identifying the object according to the parameters of the object to obtain the category and the position of the object;

and step 306, comparing the position of the object with the target safety position according to the category of the object to obtain the deviation degree between the position of the object and the target safety position.

Wherein the parameters of the object comprise a position parameter and a category parameter of the object. The location parameters may reflect the location of the object in each frame of the video of the monitored site. The category parameter may reflect a category of the object.

Specifically, the terminal extracts the features of each frame of the video of the monitored site through a feature extraction algorithm, inputs the extracted features into a feature classifier, obtains the position parameters and the category parameters of the object in each frame of the video of the monitored site, and determines the category and the position of the object according to the position parameters and the category parameters of the object. The terminal compares the position of the object with the target safety position according to the type of the object, and can obtain the deviation degree between the position of the object and the target safety position.

For example, the monitored site is detected to contain combustible gas, at the moment, the target safety position of the monitored site for objects such as open flame is not a safety position at any position, and then the terminal identifies the objects in each frame of the video of the monitored site, finds that one open flame occurs in the monitored site, and obtains the deviation degree between the position of the open flame and the target safety position as that one illegal open flame is used.

In one embodiment, the terminal may perform feature extraction on each frame of the video of the monitored site through a haar algorithm, and perform feature classification through a cascade classifier.

In the embodiment, the terminal detects and identifies the video of the monitored site to obtain the deviation degree between the position of the object and the target safety position, so that the fire safety monitoring efficiency is improved, and the safety of the monitored site is ensured.

In one embodiment, as shown in FIG. 4, step 208 includes:

step 402, searching a target emergency scheme in pre-stored emergency schemes according to the data indexes and the abnormal levels;

step 404, combining the target emergency scheme and the position information to generate a fire-fighting task;

and step 406, sending the fire fighting task to the mobile terminal of the relevant person so that the relevant person can execute the fire fighting task.

The emergency scheme is an emergency treatment scheme which is made by fire-fighting management personnel aiming at different data indexes and different abnormal levels. The target emergency scheme refers to an emergency scheme corresponding to the current fire-fighting accident.

Specifically, the fire manager formulates an emergency scheme according to the conditions corresponding to different abnormal levels under different data indexes, associates the data indexes, the abnormal levels and the emergency scheme, and stores the formulated file to the terminal as shown in fig. 5. When the terminal detects that the fire-fighting data is abnormal, the target emergency scheme is searched in the pre-stored emergency schemes according to the data indexes and the abnormal levels of the abnormal fire-fighting data. Taking the emergency scheme list shown in fig. 5 as an example, when the data index of the abnormal fire-fighting data detected by the terminal is a and the abnormal level is 2, a target emergency scheme, that is, the emergency scheme b, can be found from the emergency scheme list.

Further, the terminal combines the target emergency scheme and the fire accident occurrence place to generate a fire fighting task, and the fire fighting task is sent to the mobile terminals of the related personnel through the network. Wherein, the content of the fire fighting task can be: and when a fire accident with a data index of XX and an abnormal grade of XX occurs in the XX position, please immediately implement an XX emergency scheme, wherein the content of the emergency scheme is XX.

In the embodiment, emergency schemes with different data indexes and different abnormal levels are formulated in advance, so that emergency measures can be taken in time when a fire accident occurs, firefighters can rescue in time, and safety is improved.

In one embodiment, the fire fighting task includes a projected task completion duration, as shown in fig. 6, after step 406, the method further includes:

step 602, acquiring a release time point of a fire fighting task, and acquiring a predicted completion time point of the fire fighting task according to the release time point and the predicted task completion time length of the fire fighting task;

and step 604, when the state of the fire-fighting task is not changed to be completed within a certain time range from the predicted completion time point, sending a time limit prompting message to the mobile terminal so that related personnel can execute the fire-fighting task on time.

Wherein the status of the fire fighting task includes pending and completed. The initial state of the fire-fighting task is a pending state, and when relevant personnel trigger the condition of completing the fire-fighting task, the terminal changes the state of the fire-fighting task to be completed.

Specifically, the terminal may generate the predicted task completion duration according to the complexity of the emergency plan and the accident occurrence location. The terminal obtains the release time point of the fire-fighting task after sending the fire-fighting task comprising the predicted task completion time length to the mobile terminal of the related personnel, and obtains the predicted completion time point of the fire-fighting task by adding the predicted task completion time length on the basis of the release time point of the fire-fighting task. When the state of the fire-fighting task is not changed into the finished state within a certain time range from the predicted completion time point, namely the fire-fighting task is still in a pending state, the terminal sends a time limit prompt message to the mobile terminal of the relevant personnel to remind the relevant personnel to execute the fire-fighting task on time, and the safety is improved.

For example, if the expected length of time for completion of the task is 30 minutes and the release time point of the fire fighting task is 14:30, then the expected completion time point of the fire fighting task is 15: 00. And when the ratio is 14:45, the state of the fire-fighting task is still in a pending state, and the terminal sends a time limit prompt message to the mobile terminal of the relevant personnel to remind the relevant personnel to execute the fire-fighting task on time.

In the embodiment, by setting the predicted task completion time, the related personnel can be supervised to complete the fire-fighting task on time after the fire-fighting task is released, the execution efficiency of the fire-fighting task is improved, and therefore the safety is improved.

In one embodiment, the step of the status of the fire fighting task not being changed to completed comprises: receiving an image uploaded by a mobile terminal, wherein the image carries image position information; according to the image position information, the fire-fighting task corresponding to the image is found; detecting the image to obtain the completion condition of the fire-fighting task corresponding to the image; and when the completion condition of the fire-fighting task corresponding to the image meets the requirement, changing the state of the fire-fighting task corresponding to the image into the completed state.

The image uploaded by the mobile terminal is an image of a fire accident scene. The image position information is the fire accident site.

Specifically, when the relevant personnel execute a fire fighting task, the mobile terminal is used for shooting a fire fighting accident site. Considering that a fire accident may occur in a short time, when a relevant person takes an image, the mobile terminal may be triggered to acquire current position information through the positioning system, the current position information is used as image position information, and the taken image and the image position information are uploaded to the terminal. The terminal can match the image position information with the position information of the fire-fighting task, so that the fire-fighting task corresponding to the image is searched.

In one embodiment, the mobile terminal may embed image location information into the image when performing image capture.

Further, the terminal may detect the image by using the methods provided in steps 302-306, and when it is detected that there is no deviation between the position of the object in the image and the target safety position, it indicates that the completion condition of the fire-fighting task corresponding to the image meets the requirement, and at this time, the terminal changes the state of the fire-fighting task corresponding to the image to be completed.

In one embodiment, when the completion condition of the fire fighting task corresponding to the image is detected to be not qualified, the terminal sends a task unqualified notice to the mobile terminal of the relevant person. Wherein the task fail notification includes fail details, e.g., XX data in XX position is not failed and needs to be readjusted.

In the embodiment, the completion condition of the fire-fighting task is obtained by detecting the image, and when the completion condition of the fire-fighting task meets the requirement, the state of the fire-fighting task is automatically changed into the completed state, so that the completion condition of the fire-fighting task is automatically supervised, and the fire-fighting safety is improved.

In one embodiment, as shown in fig. 7, the method further comprises:

step 702, obtaining a model of a monitored site, and generating a digital map according to the model;

step 704, matching the fire fighting task to the target position of the digital map according to the incidence relation between the position information and the digital map;

and step 706, displaying the matched digital map, wherein the matched digital map comprises an icon of the fire-fighting task, and when the icon receives the trigger information, displaying the fire-fighting task.

The model of the monitored site is obtained by establishing a model for the monitored site in advance by the terminal, and comprises the regional layout of the monitored site, such as the distribution of each venue in a convention and exhibition.

Specifically, the terminal acquires a model of the monitored site, and generates a digital map according to the model of the monitored site, wherein the digital map comprises the positions of all areas in the monitored site. Since the fire-fighting data is obtained by monitoring the monitored site, the position information of the fire-fighting data has an association relation with the position of each area in the monitored site, that is, the position information of the fire-fighting data and the digital map have an association relation. The terminal can match the fire-fighting task to the target position of the digital map according to the association relation between the position information of the fire-fighting data and the digital map, and the matched digital map is obtained. The terminal may display an icon of a fire fighting task on the target location as shown in fig. 8. The interface displays a digital map generated by a model of a monitored site, the '9, 11, 13 and 15' museums shown in the figure refer to different museums in the monitored site, the 'B2, B1, F1, F2 and F3' displayed on the right column refer to the floor of the monitored site, and related personnel can select the floor to be checked on the terminal. As can be seen from fig. 8, an icon of a fire fighting task appears in the hall 11 on the floor F1, that is, the hall 11 on the floor F1 has a fire accident and needs to go to perform the fire fighting task.

Further, when the icon of the fire-fighting task receives the trigger information, the terminal displays the fire-fighting task corresponding to the icon, and the fire-fighting manager can check the detailed information of the fire-fighting task. The trigger information may be, but is not limited to, a click operation.

In one embodiment, the fire fighting task may be published to the mobile terminals of the relevant personnel at a display interface of the fire fighting task. Specifically, a related person selection control is set in a display interface of the fire fighting task, and when the related person selection control receives the trigger information, a related person list is displayed, as shown in fig. 9. And the terminal receives the selection instruction of the relevant personnel and sends the fire-fighting task to the mobile terminal of the selected relevant personnel.

In the embodiment, the model of the monitored site is established, the digital map is generated, the fire fighting tasks are displayed at the corresponding positions of the digital map, visual management is realized, and the management effectiveness is improved.

In one embodiment, after step 206, the method further comprises: acquiring the associated color of the abnormal grade; acquiring a fire monitoring interface, wherein the fire monitoring interface comprises a data index control, and the data index control is associated with fire data; and displaying the data index control related to the fire fighting data in the related color on the fire fighting monitoring interface.

Specifically, after the terminal obtains the abnormal level of the fire accident, the terminal can acquire the associated color of the abnormal level, and the terminal can display the data index control related to the fire data in the associated color. For example, the first-level anomaly shows yellow, the second-level anomaly shows orange, and the third-level anomaly shows red.

In one embodiment, an anomaly classification dividing line may be set on the fire monitoring interface, as shown in fig. 10, two upper and lower anomaly classification dividing lines are set on the data indicator control, the lower dividing line is used for dividing the first-level anomaly and the second-level anomaly, the upper dividing line is used for dividing the second-level anomaly and the third-level anomaly, and the higher the anomaly classification is, the higher the anomaly classification is. When an abnormal level of fire protection data is detected, the corresponding abnormal level may be represented in a form similar to an arrow above the data index control. As can be seen from fig. 10, the construction quality corresponds to an abnormality level of 2, the helmet corresponds to an abnormality level of 1, and the open flame and smoke sensation correspond to an abnormality level of 3.

In this embodiment, managers can obtain the current abnormal situation of fire control more directly perceivedly through the fire control monitoring interface, improves the validity of fire control monitoring management.

In one embodiment, as shown in fig. 11, another fire safety monitoring method is provided, which is described by taking the example that the method is applied to the terminal in fig. 1, and includes the following steps:

1102, receiving fire-fighting data, wherein the fire-fighting data carries data indexes and position information;

1104, detecting the data type of the fire-fighting data;

step 1106, comparing the fire-fighting data with a preset safety threshold range when the data type of the fire-fighting data is a numerical value, so as to obtain the deviation degree of the fire-fighting data and the preset safety threshold range;

step 1108, when the data type of the fire-fighting data is a video, identifying the object in each frame of the video to obtain the category and the position of the object; comparing the position of the object with a target safety position according to the category of the object to obtain the deviation degree between the position of the object and the target safety position;

step 1110, determining an abnormal grade of the fire-fighting data according to the deviation degree, acquiring the associated color of the abnormal grade, and displaying the data index control associated with the fire-fighting data in the associated color;

step 1112, according to the data indexes and the abnormal levels, searching a target emergency scheme in pre-stored emergency schemes, and combining the target emergency scheme with the position information to generate a fire-fighting task;

step 1114, acquiring a model of the monitored site, generating a digital map according to the model, and matching the fire fighting task to the target position of the digital map according to the association relationship between the position information and the digital map;

step 1116, sending the matched digital map to a mobile terminal of a related person to enable the mobile terminal to display the matched digital map, wherein the matched digital map comprises an icon of a fire fighting task, and when the icon receives trigger information, the fire fighting task is displayed;

step 1118, acquiring a release time point and a predicted task completion time of the fire-fighting task, and acquiring a predicted completion time point of the fire-fighting task according to the release time point and the predicted task completion time of the fire-fighting task;

step 1120, when the state of the fire-fighting task is not changed to be completed within a certain time range from the predicted completion time point, sending a time limit prompting message to the mobile terminal so that related personnel can execute the fire-fighting task on time;

step 1122, receiving an image uploaded by the mobile terminal, wherein the image carries image position information, and searching a fire fighting task corresponding to the image according to the image position information;

and step 1124, detecting the image to obtain the completion condition of the fire-fighting task corresponding to the image, and changing the state of the fire-fighting task corresponding to the image to be completed when the completion condition of the fire-fighting task corresponding to the image meets the requirement.

According to the fire safety monitoring method, the fire fighting data are analyzed, the fire fighting task comprising the fire fighting accident site and the emergency scheme is generated, the fire fighting task is sent to the mobile terminal of the related personnel, the completion condition of the fire fighting task is supervised, the related personnel can know the specific abnormal fire fighting condition according to the fire fighting task, the emergency measures are made in time, and the timeliness and the safety of fire emergency treatment are improved.

It should be understood that although the various steps in the flowcharts of fig. 2-4, 6, 7, 11 are shown in order as indicated by the arrows, the steps are not necessarily performed in order as indicated by the arrows. The steps are not performed in the exact order shown and described, and may be performed in other orders, unless explicitly stated otherwise. Moreover, at least some of the steps in fig. 2-4, 6, 7, and 11 may include multiple steps or multiple stages, which are not necessarily performed at the same time, but may be performed at different times, and the order of performing the steps or stages is not necessarily sequential, but may be performed alternately or alternatingly with other steps or at least some of the other steps or stages.

In one embodiment, as shown in fig. 12, there is provided a fire safety monitoring device 1200 comprising: fire control data receiving module 1201, fire control data receiving module 1202 and fire control task issue module 1203, wherein:

a fire-fighting data receiving module 1201, configured to receive fire-fighting data, where the fire-fighting data carries data indexes and location information;

the fire-fighting data analysis module 1202 is configured to compare the fire-fighting data with preset safety data to obtain a deviation degree between the fire-fighting data and the preset safety data; determining the abnormal grade of the fire fighting data according to the deviation degree;

and a fire-fighting task issuing module 1203, configured to generate a fire-fighting task according to the data index, the abnormal level, and the location information, and issue the fire-fighting task.

In one embodiment, the fire protection data analysis module 1202 is further configured to perform feature extraction on each frame of the video of the monitored site, obtain parameters of an object in each frame of the video of the monitored site, and identify the object according to the parameters of the object, so as to obtain the category and the position of the object; and comparing the position of the object with the target safety position according to the category of the object to obtain the deviation degree between the position of the object and the target safety position.

In one embodiment, the fire-fighting task issuing module 1203 is further configured to find a target emergency scheme from pre-stored emergency schemes according to the data index and the abnormal level; combining the target emergency scheme with the position information to generate a fire-fighting task; and sending the fire fighting task to the mobile terminal of the relevant personnel so as to enable the relevant personnel to execute the fire fighting task.

In one embodiment, the fire safety monitoring apparatus 1200 further includes a fire task time limit supervision module 1204, configured to obtain a release time point of the fire task, and obtain an expected completion time point of the fire task according to the release time point and the expected task completion time of the fire task; and when the state of the fire fighting task is not changed to be completed within a certain time range from the predicted completion time point, sending a time limit prompting message to the mobile terminal so that related personnel can execute the fire fighting task on time.

In one embodiment, the fire safety monitoring apparatus 1200 further includes a fire task state changing module 1205 for receiving an image uploaded by the mobile terminal, where the image carries image location information; according to the image position information, the fire-fighting task corresponding to the image is found; detecting the image to obtain the completion condition of the fire-fighting task corresponding to the image; and when the completion condition of the fire-fighting task corresponding to the image meets the requirement, changing the state of the fire-fighting task corresponding to the image into the completed state.

In one embodiment, the fire safety monitoring apparatus 1200 further includes a fire mission digital map generation module 806, configured to obtain a model of the monitored site, and generate a digital map according to the model; matching the fire fighting task to the target position of the digital map according to the incidence relation between the position information and the digital map; and displaying the matched digital map, wherein the matched digital map comprises an icon of the fire fighting task, and when the icon receives the trigger information, displaying the fire fighting task.

In one embodiment, the fire safety monitoring apparatus 1200 further includes an abnormal level display module 1207 for acquiring an associated color of an abnormal level; acquiring a fire monitoring interface, wherein the fire monitoring interface comprises a data index control, and the data index control is associated with fire data; and displaying the data index control related to the fire fighting data in the related color on the fire fighting monitoring interface.

For specific definition of the fire safety monitoring device, reference may be made to the above definition of the fire safety monitoring method, which is not described herein again. All or part of the modules in the fire safety monitoring device can be realized by software, hardware and a combination thereof. The modules can be embedded in a hardware form or independent from a processor in the computer device, and can also be stored in a memory in the computer device in a software form, so that the processor can call and execute operations corresponding to the modules.

In one embodiment, a computer device is provided, which may be a terminal, and its internal structure diagram may be as shown in fig. 13. The computer device includes a processor, a memory, a communication interface, a display screen, and an input device connected by a system bus. Wherein the processor of the computer device is configured to provide computing and control capabilities. The memory of the computer device comprises a nonvolatile storage medium and an internal memory. The non-volatile storage medium stores an operating system and a computer program. The internal memory provides an environment for the operation of an operating system and computer programs in the non-volatile storage medium. The communication interface of the computer device is used for carrying out wired or wireless communication with an external terminal, and the wireless communication can be realized through WIFI, an operator network, NFC (near field communication) or other technologies. The computer program is executed by a processor to implement a fire safety monitoring method. The display screen of the computer equipment can be a liquid crystal display screen or an electronic ink display screen, and the input device of the computer equipment can be a touch layer covered on the display screen, a key, a track ball or a touch pad arranged on the shell of the computer equipment, an external keyboard, a touch pad or a mouse and the like.

Those skilled in the art will appreciate that the architecture shown in fig. 13 is merely a block diagram of some of the structures associated with the disclosed aspects and is not intended to limit the computing devices to which the disclosed aspects apply, as particular computing devices may include more or less components than those shown, or may combine certain components, or have a different arrangement of components.

In one embodiment, a computer device is provided, comprising a memory and a processor, the memory having a computer program stored therein, the processor implementing the following steps when executing the computer program: receiving fire-fighting data, wherein the fire-fighting data carries data indexes and position information; comparing the fire fighting data with preset safety data to obtain the deviation degree between the fire fighting data and the preset safety data; determining the abnormal grade of the fire fighting data according to the deviation degree; and generating a fire fighting task according to the data indexes, the abnormal level and the position information, and issuing the fire fighting task.

In one embodiment, the processor, when executing the computer program, further performs the steps of: extracting the characteristics of each frame of the video of the monitored site to obtain the parameters of the object in each frame of the video of the monitored site; identifying the object according to the parameters of the object to obtain the category and the position of the object; and comparing the position of the object with the target safety position according to the category of the object to obtain the deviation degree between the position of the object and the target safety position.

In one embodiment, the processor, when executing the computer program, further performs the steps of: searching a target emergency scheme in the pre-stored emergency schemes according to the data indexes and the abnormal levels; combining the target emergency scheme with the position information to generate a fire-fighting task; and sending the fire fighting task to the mobile terminal of the relevant personnel so as to enable the relevant personnel to execute the fire fighting task.

In one embodiment, the processor, when executing the computer program, further performs the steps of: acquiring a release time point of a fire-fighting task, and acquiring a predicted completion time point of the fire-fighting task according to the release time point and the predicted task completion time length of the fire-fighting task; and when the state of the fire fighting task is not changed to be completed within a certain time range from the predicted completion time point, sending a time limit prompting message to the mobile terminal so that related personnel can execute the fire fighting task on time.

In one embodiment, the processor, when executing the computer program, further performs the steps of: receiving an image uploaded by a mobile terminal, wherein the image carries image position information; according to the image position information, the fire-fighting task corresponding to the image is found; detecting the image to obtain the completion condition of the fire-fighting task corresponding to the image; and when the completion condition of the fire-fighting task corresponding to the image meets the requirement, changing the state of the fire-fighting task corresponding to the image into the completed state.

In one embodiment, the processor, when executing the computer program, further performs the steps of: obtaining a model of a monitored site, and generating a digital map according to the model; matching the fire fighting task to the target position of the digital map according to the incidence relation between the position information and the digital map; and displaying the matched digital map, wherein the matched digital map comprises an icon of the fire fighting task, and when the icon receives the trigger information, displaying the fire fighting task.

In one embodiment, the processor, when executing the computer program, further performs the steps of: acquiring the associated color of the abnormal grade; acquiring a fire monitoring interface, wherein the fire monitoring interface comprises a data index control, and the data index control is associated with fire data; and displaying the data index control related to the fire fighting data in the related color on the fire fighting monitoring interface.

In one embodiment, a computer-readable storage medium is provided, having a computer program stored thereon, which when executed by a processor, performs the steps of: receiving fire-fighting data, wherein the fire-fighting data carries data indexes and position information; comparing the fire fighting data with preset safety data to obtain the deviation degree between the fire fighting data and the preset safety data; determining the abnormal grade of the fire fighting data according to the deviation degree; and generating a fire fighting task according to the data indexes, the abnormal level and the position information, and issuing the fire fighting task.

In one embodiment, the computer program when executed by the processor further performs the steps of: extracting the characteristics of each frame of the video of the monitored site to obtain the parameters of the object in each frame of the video of the monitored site; identifying the object according to the parameters of the object to obtain the category and the position of the object; and comparing the position of the object with the target safety position according to the category of the object to obtain the deviation degree between the position of the object and the target safety position.

In one embodiment, the computer program when executed by the processor further performs the steps of: searching a target emergency scheme in the pre-stored emergency schemes according to the data indexes and the abnormal levels; combining the target emergency scheme with the position information to generate a fire-fighting task; and sending the fire fighting task to the mobile terminal of the relevant personnel so as to enable the relevant personnel to execute the fire fighting task.

In one embodiment, the computer program when executed by the processor further performs the steps of: searching a target emergency scheme in the pre-stored emergency schemes according to the data indexes and the abnormal levels; combining the target emergency scheme with the position information to generate a fire-fighting task; and sending the fire fighting task to the mobile terminal of the relevant personnel so as to enable the relevant personnel to execute the fire fighting task.

In one embodiment, the computer program when executed by the processor further performs the steps of: receiving an image uploaded by a mobile terminal, wherein the image carries image position information; according to the image position information, the fire-fighting task corresponding to the image is found; detecting the image to obtain the completion condition of the fire-fighting task corresponding to the image; and when the completion condition of the fire-fighting task corresponding to the image meets the requirement, changing the state of the fire-fighting task corresponding to the image into the completed state.

In one embodiment, the computer program when executed by the processor further performs the steps of: obtaining a model of a monitored site, and generating a digital map according to the model; matching the fire fighting task to the target position of the digital map according to the incidence relation between the position information and the digital map; and displaying the matched digital map, wherein the matched digital map comprises an icon of the fire fighting task, and when the icon receives the trigger information, displaying the fire fighting task.

In one embodiment, the computer program when executed by the processor further performs the steps of: acquiring the associated color of the abnormal grade; acquiring a fire monitoring interface, wherein the fire monitoring interface comprises a data index control, and the data index control is associated with fire data; and displaying the data index control related to the fire fighting data in the related color on the fire fighting monitoring interface.

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by hardware instructions of a computer program, which can be stored in a non-volatile computer-readable storage medium, and when executed, can include the processes of the embodiments of the methods described above. Any reference to memory, storage, database or other medium used in the embodiments provided herein can include at least one of non-volatile and volatile memory. Non-volatile Memory may include Read-Only Memory (ROM), magnetic tape, floppy disk, flash Memory, optical storage, or the like. Volatile Memory can include Random Access Memory (RAM) or external cache Memory. By way of illustration and not limitation, RAM can take many forms, such as Static Random Access Memory (SRAM) or Dynamic Random Access Memory (DRAM), among others.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.