CN115219654A - Operation safety monitoring method and device, computer equipment and storage medium - Google Patents

Abstract

The application relates to a method, a device, a computer device, a storage medium and a computer program product for monitoring operation safety. The method comprises the following steps: in the operation process, current data information which is reported by the smart band and is acquired by the smart band is acquired; the current data information comprises current sign information of an operator, current gas concentration information of the environment where the operator is located and current position information of the intelligent bracelet; detecting whether at least one operation state is abnormal or not according to the current data information; the at least one working state comprises at least one of a physiological state of the working personnel and an environment state of the working personnel; if an abnormal operation state exists in at least one operation state, based on the equipment number of the intelligent bracelet, calling historical position information of the intelligent bracelet in the operation process from the cloud server; and determining the escape path of the operator based on the historical position information and the current position information, and sending the escape path to the intelligent bracelet.

Description

Operation safety monitoring method and device, computer equipment and storage medium

Technical Field

The present application relates to the field of detection technologies, and in particular, to a method, an apparatus, a computer device, a storage medium, and a computer program product for monitoring job safety.

Background

With the development of industry, the working environment of workers is more and more complex and severe, and places such as cable ducts, underground drainage and pollution discharge ditches, mines and the like are extremely prone to poisoning of operators due to high concentration of harmful gas in the places, and severe accidents such as injury and death of the operators due to inflammable and explosive gas explosion in the places are caused. Therefore, there is a need for an operation safety monitoring method capable of detecting the working environment of an operator to ensure the personal safety of the operator.

Disclosure of Invention

In view of the foregoing, it is necessary to provide a work safety monitoring method, a work safety monitoring apparatus, a computer device, a computer readable storage medium, and a computer program product, which can ensure the personal safety of a worker.

In a first aspect, the present application provides a method for monitoring operation safety. The method comprises the following steps:

in the operation process, current data information which is reported by the intelligent bracelet at present and is acquired by the intelligent bracelet is acquired; the current data information comprises current sign information of an operator, current gas concentration information of the environment where the operator is located and current position information of the intelligent bracelet; detecting whether at least one operation state is abnormal or not according to the current data information; the at least one working state comprises at least one of a physiological state of the working personnel and an environment state of the working personnel; if an abnormal operation state exists in at least one operation state, calling historical position information of the intelligent bracelet in the operation process from the cloud server based on the equipment number of the intelligent bracelet; based on the historical position information and the current position information, the escape path of the operating personnel is determined, the escape path is sent to the intelligent bracelet, and the escape path is used for indicating the intelligent bracelet to prompt the operating personnel to escape.

In one embodiment, the current vital sign information includes current heart rate information of the operator and current blood oxygen information of the operator, and the current gas concentration information includes current concentration information of methane, current concentration information of ammonia, current concentration information of carbon monoxide, current concentration information of oxygen, and current concentration information of carbon dioxide.

In one embodiment, detecting whether at least one job status is abnormal according to the current data information includes:

if the current heart rate information is smaller than a first preset threshold value or the current blood oxygen information is smaller than a second preset threshold value, determining that the physiological state of the operator is abnormal; and if the current concentration information of at least one gas in the current concentration information of methane, the current concentration information of ammonia and the current concentration information of carbon monoxide is larger than a corresponding third preset threshold value, and/or if the current concentration information of at least one gas in the current concentration information of oxygen and the current concentration information of carbon dioxide is not in a corresponding preset range, determining that the environment state where the operating personnel is located is abnormal.

In one embodiment, after detecting whether at least one job status is abnormal according to the current data information, the method further includes:

if an abnormal operation state exists in at least one operation state, acquiring map information of an operation area corresponding to the operation process, and acquiring position information of the smart bracelet in real time; the map information comprises a plurality of exits; taking an exit which is closest to the position information acquired in real time in the plurality of exits as a target starting point, taking an intersection in the map information as a convergent point, and taking the position information acquired in real time as a target end point; and traversing the target starting point, the gathering point and the target end point, acquiring all search and rescue paths from the target starting point to the target end point, taking the search and rescue path with the shortest distance in all the search and rescue paths as the target search and rescue path, and pushing the target search and rescue path outwards, wherein the target search and rescue path is used for indicating search and rescue personnel to search and rescue the operating personnel.

In one embodiment, after the escape route is sent to the smart bracelet, the method further comprises:

acquiring the position information of the intelligent bracelet in real time, and judging whether the position information acquired in real time deviates from an escape path; if the intelligent bracelet deviates, the escape path of the operating personnel is determined again based on the historical position information of the intelligent bracelet in the operation process, the historical position information of the intelligent bracelet in the escape process and the position information obtained in real time, and the escape path is sent to the intelligent bracelet.

In one embodiment, after the escape route is sent to the smart bracelet, the method further comprises:

acquiring position information of the intelligent bracelet and data information of the intelligent bracelet in real time, and detecting whether at least one operation state is abnormal or not according to the data information acquired in real time; if an abnormal operation state exists in at least one operation state, map information of an operation area corresponding to the operation process is obtained, an intersection in the map information is used as a gathering point, position information obtained in real time is used as an escape starting point, an escape ending point is determined according to historical position information, and the gathering point between the escape starting point and the escape ending point is used as a target gathering point; and traversing the escape starting point, the target collection point and the escape end point, acquiring all escape paths from the escape starting point to the escape end point, taking the escape path with the shortest distance in all escape paths as a target escape path, and sending the target escape path to the intelligent bracelet.

In a second aspect, the application further provides an operation safety monitoring device. The device comprises:

the first acquisition module is used for acquiring current data information which is reported by the smart band and is acquired by the smart band in the current operation process; the current data information comprises current sign information of an operator, current gas concentration information of the environment where the operator is located and current position information of the intelligent bracelet;

the detection module is used for detecting whether at least one operation state is abnormal or not according to the current data information; the at least one working state comprises at least one of a physiological state of the working personnel and an environment state of the working personnel;

the calling module is used for calling historical position information of the intelligent bracelet in the current operation process from the cloud server based on the equipment number of the intelligent bracelet if the abnormal operation state exists in at least one operation state;

the first determining module is used for determining an escape path of the operating personnel based on the historical position information and the current position information, and sending the escape path to the intelligent bracelet, wherein the escape path is used for indicating the intelligent bracelet to prompt the operating personnel to escape.

In a third aspect, the application also provides a computer device. The computer device comprises a memory storing a computer program and a processor implementing the following steps when executing the computer program:

in the operation process, current data information which is reported by the intelligent bracelet at present and is acquired by the intelligent bracelet is acquired; the current data information comprises current sign information of an operator, current gas concentration information of the environment where the operator is located and current position information of the intelligent bracelet; detecting whether at least one operation state is abnormal or not according to the current data information; the at least one operating state comprises at least one of a physiological state of the operator and an environmental state of the operator; if an abnormal operation state exists in at least one operation state, calling historical position information of the intelligent bracelet in the operation process from the cloud server based on the equipment number of the intelligent bracelet; based on the historical position information and the current position information, the escape path of the operating personnel is determined, the escape path is sent to the intelligent bracelet, and the escape path is used for indicating the intelligent bracelet to prompt the operating personnel to escape.

In a fourth aspect, the present application further provides a computer-readable storage medium. The computer-readable storage medium, on which a computer program is stored which, when executed by a processor, carries out the steps of:

in the operation process, current data information which is reported by the smart band and is acquired by the smart band is acquired; the current data information comprises current physical sign information of an operator, current gas concentration information of the environment where the operator is located and current position information of the intelligent bracelet; detecting whether at least one operation state is abnormal or not according to the current data information; the at least one working state comprises at least one of a physiological state of the working personnel and an environment state of the working personnel; if an abnormal operation state exists in at least one operation state, based on the equipment number of the intelligent bracelet, calling historical position information of the intelligent bracelet in the operation process from the cloud server; based on the historical position information and the current position information, the escape path of the operating personnel is determined and sent to the intelligent bracelet, and the escape path is used for indicating the intelligent bracelet to prompt the operating personnel to escape.

In a fifth aspect, the present application further provides a computer program product. The computer program product comprising a computer program which when executed by a processor performs the steps of:

in the operation process, current data information which is reported by the smart band and is acquired by the smart band is acquired; the current data information comprises current sign information of an operator, current gas concentration information of the environment where the operator is located and current position information of the intelligent bracelet; detecting whether at least one operation state is abnormal or not according to the current data information; the at least one working state comprises at least one of a physiological state of the working personnel and an environment state of the working personnel; if an abnormal operation state exists in at least one operation state, calling historical position information of the intelligent bracelet in the operation process from the cloud server based on the equipment number of the intelligent bracelet; based on the historical position information and the current position information, the escape path of the operating personnel is determined and sent to the intelligent bracelet, and the escape path is used for indicating the intelligent bracelet to prompt the operating personnel to escape.

According to the operation safety monitoring method, the operation safety monitoring device, the computer equipment, the storage medium and the computer program product, at least one operation state is monitored based on the current data information, if an abnormal operation state exists in at least one operation state, the escape path of the operation personnel is determined based on the historical position information and the current position information, and the escape path is sent to the intelligent bracelet, so that the operation personnel can be helped to escape in time at the time of crisis, and the personal safety of the operation personnel can be further ensured. Because the environmental state corresponding to the acquisition time of each position information in the historical position information is normal, the escape route determined based on the historical position information is higher in safety, so that the operator can safely escape according to the escape route, and the operator can quickly escape according to the escape route because the place corresponding to the historical position information is reached by the operator.

Drawings

FIG. 1 is a schematic flow chart diagram illustrating a method for monitoring operational safety in one embodiment;

FIG. 2 is a schematic flow chart diagram illustrating a method for monitoring operational safety in one embodiment;

FIG. 3 is a block diagram of an embodiment of a work safety monitoring system;

FIG. 4 is a logic block diagram illustrating operation of the operation safety monitoring system under a good communication condition according to an embodiment;

FIG. 5 is a logic block diagram illustrating operation of the operation safety monitoring system under poor communication conditions in one embodiment;

FIG. 6 is a logic block diagram that illustrates the operation of the job safety monitoring system in one embodiment;

FIG. 7 is a block diagram of an embodiment of an operation safety monitoring device;

FIG. 8 is a diagram of an internal structure of a computer device in one 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.

It will be understood that, as used herein, the terms "first," "second," and the like may be used herein to describe various terms, but these terms are not limited by these terms unless otherwise specified. These terms are only used to distinguish one term from another. For example, the first preset threshold and the second preset threshold may be the same or different without departing from the scope of the present application.

With the development of industry, the working environment of workers is more and more complex and severe, such as cable ducts, underground drainage and sewage drainage ditches, mines and other places, which are easy to cause poisoning of operators due to the high concentration of harmful gases in the places, and severe accidents of casualties caused by inflammable and explosive gases in the places. Therefore, there is a need for an operation safety monitoring method capable of detecting the working environment of an operator to ensure the personal safety of the operator.

In view of the problems in the related art, embodiments of the present invention provide a method for monitoring job safety, which may be applied to a server, a terminal, or a system including a terminal and a server, and is implemented by interaction between the terminal and the server. The server may be implemented by an independent server or a server cluster composed of a plurality of servers. The terminal can be but not limited to various personal computers, notebook computers, smart phones, tablet computers, internet of things equipment and portable wearable equipment, and the internet of things equipment can be smart sound boxes, smart televisions, smart air conditioners, smart vehicle-mounted equipment and the like. The portable wearable device can be a smart watch, a smart bracelet, a head-mounted device, and the like. It should be noted that, the numbers of "a plurality" and the like mentioned in the embodiments of the present application each refer to a number of "at least two", for example, "a plurality" refers to "at least two".

In an embodiment, as shown in fig. 1, a method for monitoring job safety is provided, which is exemplified by applying the method to a server, and the method includes the following steps:

102. in the operation process, current data information which is reported by the intelligent bracelet at present and is acquired by the intelligent bracelet is acquired; the current data information comprises current physical sign information of an operator, current gas concentration information of the environment where the operator is located and current position information of the intelligent bracelet.

The current data information may be data information of the current time, or data information acquired by the smart band at a plurality of different times in the current time period, which is not specifically limited in the embodiment of the present application. If the current data information is the data information at the current moment, under the condition, if the data information is collected every 0.1 second by the smart band, the collected current data information can be reported every 0.1 second by the smart band. For example, the time when the smart band last reports the collected current data information is 10: 3 minutes, the time when the smart band currently reports the collected current data information is 10: 3 minutes 1 second, and the current data information at this time is the data information collected by the smart band at 10: 3 minutes 1 second.

If the current data information is the data information acquired by the intelligent bracelet at a plurality of different moments in the current time period, under the condition, the intelligent bracelet can report the acquired current data information to the server every 3-5 seconds. For example, the smart band reports the collected current data information to the server every 3 seconds, the smart band collects the data information every 0.5 seconds, and the time when the smart band reports the collected current data information last time is 10 o' clock and 3 min. The moment of the current data information collected by the smart band reported currently is 10 o ' clock 3 min 3 sec, and the current data information at this moment is the data information collected by the smart band in the time period of 10 o ' clock 3 min to 10 o ' clock 3 min 3 sec, that is, the current data information includes the data information collected by the smart band at 10 o ' clock 3 min 0.5 sec, the data information collected by the smart band at 10 o ' clock 3 min 1 sec, the data information collected by the smart band at 10 o ' clock 3 min 1.5 sec, the data information collected by the smart band at 10 o ' clock 3 min 2 sec, the data information collected by the smart band at 10 o ' clock 3 min 2.5 sec, and the data information collected by the smart band at 10 o ' clock 3 min 3 sec. The sampling interval of the intelligent bracelet is determined by combining with actual conditions, the intelligent bracelet which is used for collecting data information every 0.5 second is only an implementation mode, and the limitation on the sampling interval of the intelligent bracelet is not caused.

It can be understood that, if the current data information is data information at the current time, correspondingly, the current location information is location information of the smart bracelet at the current time, in this case, the current location information may be referred to for explanation of the current sign information and the current gas concentration information, and details are not described here. If the current data information is data information acquired by the smart band at a plurality of different moments in the current time period, correspondingly, the current position information is position information of the smart band acquired by the smart band at a plurality of different moments in the current time period, and under the condition, the current position information can be referred to for explaining the current sign information and the current gas concentration information, and is not repeated here.

104. Detecting whether at least one operation state is abnormal or not according to the current data information; the at least one operational state includes at least one of a physiological state of the operator and an environmental state of the operator.

For example, the current vital sign information may include current heart rate information of the operator, and the current gas concentration information may include current concentration information of oxygen and current concentration information of carbon dioxide. Accordingly, detecting whether at least one job status is abnormal according to the current data information may include: if the current heart rate information is smaller than a first preset threshold value, determining that the physiological state of the operator is abnormal; and if the current concentration information of at least one gas in the current concentration information of the oxygen and the current concentration information of the carbon dioxide is not in the corresponding preset range, determining that the environment state of the operator is abnormal.

Specifically, after step 104, the method may further include: and if the abnormal operation state exists in at least one operation state, controlling the intelligent bracelet to alarm based on a preset alarm mode, wherein the preset alarm mode comprises voice alarm, vibration alarm and acousto-optic alarm. The method and the device can remind the operating personnel to check the escape path in time under the condition that the abnormal operation state exists in at least one operation state, so that the operating personnel can escape in time, and the personal safety of the operating personnel can be further ensured.

106. If an abnormal operation state exists in the at least one operation state, based on the equipment number of the intelligent bracelet, historical position information of the intelligent bracelet in the operation process is called from a cloud server.

Wherein, if there is an abnormal operation state in the at least one operation state, the operation state may include three conditions: the physiological state of the operator is abnormal and the environmental state of the operator is normal, the physiological state of the operator is normal and the environmental state of the operator is abnormal, and the physiological state of the operator is abnormal and the environmental state of the operator is abnormal.

All data information collected by a certain intelligent bracelet can be stored in the cloud server. Every data information in all data information and the equipment number of this intelligence bracelet have a mapping relation. Because the data information that a plurality of intelligent bracelet gathered may be stored in the cloud ware, map through the equipment number with the collection equipment that each data information and each data information correspond to can be based on the equipment number of a certain intelligent bracelet, the data information of this intelligent bracelet is transferred out fast.

108. Based on the historical position information and the current position information, the escape path of the operating personnel is determined and sent to the intelligent bracelet, and the escape path is used for indicating the intelligent bracelet to prompt the operating personnel to escape.

Wherein step 108 may represent that if there is an abnormal operation status in at least one operation status, the operator may return along the original path. That is, the escape path may be an original path when the worker reaches the current position. It should be noted that, because the environmental state corresponding to the collection time of each position information in the historical position information is normal, the safety of the escape route determined based on the historical position information is higher, so that the operator can escape safely according to the escape route, and because the place corresponding to the historical position information is reached by the operator, the operator can escape quickly according to the escape route. It should be noted that the escape path mentioned in step 108 may also be used as a search and rescue path, so that when an abnormal operation state exists in at least one operation state, the search and rescue worker can conveniently rescue the operator.

In the operation safety monitoring method, the current data information which is reported by the intelligent bracelet and is collected by the intelligent bracelet is obtained in the current operation process; the current data information comprises current sign information of an operator, current gas concentration information of the environment where the operator is located and current position information of the intelligent bracelet; detecting whether at least one operation state is abnormal or not according to the current data information; the at least one working state comprises at least one of a physiological state of the working personnel and an environment state of the working personnel; if an abnormal operation state exists in at least one operation state, calling historical position information of the intelligent bracelet in the operation process from the cloud server based on the equipment number of the intelligent bracelet; based on the historical position information and the current position information, the escape path of the operating personnel is determined and sent to the intelligent bracelet, and the escape path is used for indicating the intelligent bracelet to prompt the operating personnel to escape. Because at least one operating state is monitored based on the current data information, if an abnormal operating state exists in at least one operating state, the escape path of the operating personnel is determined based on the historical position information and the current position information, and the escape path is sent to the intelligent bracelet, so that the operating personnel can be helped to escape in time at the time of crisis, and the personal safety of the operating personnel can be further ensured. Because the environmental state corresponding to the acquisition time of each position information in the historical position information is normal, the escape route determined based on the historical position information has higher safety, so that the operator can safely escape according to the escape route, and the operator can quickly escape according to the escape route because the place corresponding to the historical position information is reached by the operator.

In one embodiment, the current vital sign information includes current heart rate information of the practitioner and current blood oxygenation information of the practitioner, and the current gas concentration information includes current concentration information of methane, current concentration information of ammonia, current concentration information of carbon monoxide, current concentration information of oxygen, and current concentration information of carbon dioxide.

The smart band can include a metal oxide semiconductor gas sensor, a catalytic combustion gas sensor and a solid electrolyte gas sensor, the smart band collects current concentration information of methane and current concentration information of ammonia based on the metal oxide semiconductor gas sensor, the smart band collects current concentration information of carbon monoxide based on the catalytic combustion gas sensor, the smart band collects current concentration information of oxygen and current concentration information of carbon dioxide based on the solid electrolyte gas sensor, and in practical application, the smart band can also collect concentration information of gas based on other sensors.

In this embodiment, the personal safety of the operator is ensured by monitoring the current heart rate information of the operator, the current blood oxygen information of the operator, the current concentration information of methane, the current concentration information of ammonia, the current concentration information of carbon monoxide, the current concentration information of oxygen and the current concentration information of carbon dioxide.

In one embodiment, detecting whether at least one job status is abnormal according to the current data information comprises:

if the current heart rate information is smaller than a first preset threshold value or the current blood oxygen information is smaller than a second preset threshold value, determining that the physiological state of the operator is abnormal; and if the current concentration information of at least one gas in the current concentration information of methane, the current concentration information of ammonia and the current concentration information of carbon monoxide is larger than a corresponding third preset threshold value, and/or if the current concentration information of at least one gas in the current concentration information of oxygen and the current concentration information of carbon dioxide is not in a corresponding preset range, determining that the environment state of the operator is abnormal.

The first preset threshold, the second preset threshold, the third preset threshold and the preset range can be determined according to actual conditions.

If the current heart rate information is the heart rate information acquired by the intelligent bracelet at a plurality of different moments in the current time period, if the heart rate information at a certain moment is less than a first preset threshold value in the heart rate information acquired at a plurality of different moments, the physiological state of the operator is determined to be abnormal. For the explanation of the other current data information, reference may be made to the explanation of the current heart rate information, which is not described herein in detail.

In one embodiment, after detecting whether at least one job status is abnormal according to the current data information, the method further includes:

if an abnormal operation state exists in at least one operation state, acquiring map information of an operation area corresponding to the operation process, and acquiring position information of the smart bracelet in real time; the map information comprises a plurality of exits; taking an exit which is closest to the position information acquired in real time in the plurality of exits as a target starting point, taking an intersection in the map information as a convergent point, and taking the position information acquired in real time as a target end point; and traversing the target starting point, the gathering point and the target end point, acquiring all search and rescue paths from the target starting point to the target end point, taking the search and rescue path with the shortest distance in all the search and rescue paths as the target search and rescue path, and pushing the target search and rescue path outwards, wherein the target search and rescue path is used for indicating search and rescue personnel to search and rescue the operating personnel.

The position information acquired in real time is the real-time position information of the intelligent bracelet.

In the embodiment, when an abnormal operation state exists in at least one operation state, a shortest search and rescue path is pushed to the search and rescue personnel, so that the operation personnel can be rescued in time, the operation personnel can be guaranteed not to miss the optimal rescue time, and the rescue efficiency of the operation personnel is improved.

In one embodiment, as shown in fig. 2, after the escape path is sent to the smart bracelet, the method further includes:

202. the method comprises the steps of acquiring the position information of the intelligent bracelet in real time and judging whether the position information acquired in real time deviates from an escape path.

After judging whether the position information acquired in real time deviates from the escape path, the method may further include: and controlling the intelligent bracelet to alarm the deviation path.

204. If the intelligent bracelet deviates, the escape path of the operating personnel is determined again based on the historical position information of the intelligent bracelet in the operation process, the historical position information of the intelligent bracelet in the escape process and the position information obtained in real time, and the escape path is sent to the intelligent bracelet.

It can be understood that, since the location corresponding to the historical location information in the current operation process is reached by the operator and the environment of each location is detected, the re-determined escape route has higher safety.

In this embodiment, because the in-process of fleing according to the route of fleing of operation personnel, judge whether the operation personnel skew the route of fleing in real time, when the operation personnel skew the route of fleing, then based on the historical position information of intelligent bracelet in this operation in-process, the historical position information of intelligent bracelet in the process of fleing and the position information that acquires in real time, confirm the route of fleing of operation personnel again, and send the route of fleing to intelligent bracelet, thereby when the operation personnel skew the route of fleing, can get back to on the original route as early as possible, and then help operation personnel in time flee, guarantee operation personnel's personal safety.

In one embodiment, after the escape path is sent to the smart bracelet, the method further comprises:

acquiring position information of the intelligent bracelet and data information of the intelligent bracelet in real time, and detecting whether at least one operation state is abnormal or not according to the data information acquired in real time;

if an abnormal operation state exists in at least one operation state, map information of an operation area corresponding to the operation process is obtained, an intersection in the map information is used as a gathering point, position information obtained in real time is used as an escape starting point, an escape ending point is determined according to historical position information, and the gathering point between the escape starting point and the escape ending point is used as a target gathering point; and traversing the escape starting point, the target collection point and the escape end point, acquiring all escape paths from the escape starting point to the escape end point, taking the escape path with the shortest distance in all escape paths as a target escape path, and sending the target escape path to the intelligent bracelet.

Specifically, determining the escape destination according to the historical location information may include: and determining the starting point of the current operation process based on the historical position information, and taking the starting point of the current operation process as an escape end point.

In this embodiment, in the process of escaping by an operator according to an escape path, whether at least one operation state is abnormal is detected, if an abnormal operation state exists in the at least one operation state, map information of an operation area corresponding to the operation process is acquired, an intersection in the map information is used as a collection point, position information acquired in real time is used as an escape starting point, an escape end point is determined according to historical position information, and a collection point between the escape starting point and the escape end point is used as a target collection point; and traversing the escape starting point, the target convergence point and the escape end point, acquiring all escape paths from the escape starting point to the escape end point, taking the escape path with the shortest distance in all escape paths as a target escape path, and sending the target escape path to the intelligent bracelet. Thereby ensuring the personal safety of the operating personnel and helping the operating personnel to escape in time.

In one embodiment, the smart band includes a battery, the method further comprising: and acquiring the residual electric quantity information of the battery in real time, and if the residual electric quantity information is lower than the preset electric quantity, controlling the battery to supply power to the intelligent bracelet in an interval manner.

In one embodiment, as shown in fig. 3, a job safety monitoring system is provided, which includes a smart band, a cloud server and a monitoring center;

and the intelligent bracelet is used for acquiring current data information and reporting the current data information to the monitoring center and the cloud server. Wherein, the gaseous intelligent bracelet of reporting to the police in figure 3 is intelligent bracelet promptly.

Specifically, the smart bracelet may include a gas sensor module, a position locating module, a heart rate blood oxygen module, a human-computer interaction module, a battery management module and a WIFI communication module; the gas sensor module is used for acquiring current gas concentration information of the environment where the operating personnel are located; the position positioning module is used for acquiring the current position information of the intelligent bracelet; the heart rate blood oxygen module is used for acquiring current physical sign information of the operating personnel; the man-machine interaction module is used for helping an operator to interact with the intelligent bracelet; and the battery management module is used for acquiring the residual electric quantity information of the battery in real time, and if the residual electric quantity information is lower than the preset electric quantity, controlling the battery to supply power to the intelligent bracelet in an intermittent manner.

The monitoring center is used for acquiring current data information which is reported by the smart band and is acquired by the smart band; the current data information comprises current physical sign information of an operator, current gas concentration information of the environment where the operator is located and current position information of the intelligent bracelet; detecting whether at least one operation state is abnormal or not according to the current data information; the at least one working state comprises at least one of a physiological state of the working personnel and an environment state of the working personnel; if an abnormal operation state exists in at least one operation state, based on the equipment number of the intelligent bracelet, calling historical position information of the intelligent bracelet in the operation process from the cloud server; determining an escape path of the operator based on the historical position information and the current position information, and sending the escape path to the smart bracelet, wherein the escape path is used for indicating the smart bracelet to prompt the operator to escape; obtaining map information of an operation area corresponding to the operation process, and obtaining position information of the intelligent bracelet in real time; the map information comprises a plurality of exits; taking an exit which is closest to the position information acquired in real time in the plurality of exits as a target starting point, taking an intersection in the map information as a gathering point, and taking the position information acquired in real time as a target end point; and traversing the target starting point, the gathering point and the target end point, acquiring all search and rescue paths from the target starting point to the target end point, taking the search and rescue path with the shortest distance in all the search and rescue paths as the target search and rescue path, and pushing the target search and rescue path outwards, wherein the target search and rescue path is used for indicating search and rescue personnel to search and rescue the operating personnel.

And the cloud server is used for storing the current data information reported by the intelligent bracelet and collected by the intelligent bracelet.

It should be noted that, for the explanation of the terms and steps related to the system, reference may be made to the explanation of the terms and steps in the operation safety monitoring method, and details are not repeated here.

The operation logic diagram of the system under the good communication condition may be as shown in fig. 4, and the operation logic diagram of the system under the bad communication condition may be as shown in fig. 5. An operation logic block diagram of the system may also be as shown in fig. 6, which is not specifically limited in this embodiment of the present application.

It should be understood that, although the steps in the flowcharts related to the embodiments as described above are sequentially displayed as indicated by arrows, the steps are not necessarily performed sequentially 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 a part of the steps in the flowcharts related to the embodiments described above 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 execution order of the steps or stages is not necessarily sequential, but may be rotated or alternated with other steps or at least a part of the steps or stages in other steps.

Based on the same inventive concept, the embodiment of the application also provides an operation safety monitoring device for realizing the operation safety monitoring method. The implementation scheme for solving the problem provided by the device is similar to the implementation scheme recorded in the method, so the specific limitations in one or more embodiments of the operation safety monitoring device provided below can be referred to the limitations of the operation safety monitoring method in the above, and details are not described herein again.

In one embodiment, as shown in fig. 7, there is provided a work safety monitoring device including: the device comprises an acquisition module, a detection module, a calling module and a determination module, wherein:

a first obtaining module 702, configured to obtain, in the process of the operation, current data information, which is currently reported by the smart band and is collected by the smart band; the current data information comprises current sign information of an operator, current gas concentration information of the environment where the operator is located and current position information of the intelligent bracelet;

a detection module 704, configured to detect whether at least one operation state is abnormal according to the current data information; the at least one working state comprises at least one of a physiological state of the working personnel and an environment state of the working personnel;

the calling module 706 is configured to, if an abnormal operation state exists in the at least one operation state, call historical position information of the smart band in the current operation process from the cloud server based on the device number of the smart band;

the first determining module 708 is configured to determine an escape path of the operator based on the historical position information and the current position information, and send the escape path to the smart band, where the escape path is used to instruct the smart band to prompt the operator to escape.

In one embodiment, the current vital sign information includes current heart rate information of the practitioner and current blood oxygenation information of the practitioner, and the current gas concentration information includes current concentration information of methane, current concentration information of ammonia, current concentration information of carbon monoxide, current concentration information of oxygen, and current concentration information of carbon dioxide.

In one embodiment, the detection module 704 includes:

the first determining unit is used for determining that the physiological state of the operator is abnormal if the current heart rate information is smaller than a first preset threshold value or the current blood oxygen information is smaller than a second preset threshold value;

and the second determining unit is used for determining that the environment state of the operating personnel is abnormal if the current concentration information of at least one gas is larger than a corresponding third preset threshold value and/or if the current concentration information of at least one gas is not in a corresponding preset range in the current concentration information of the oxygen and the current concentration information of the carbon dioxide.

In one embodiment, the apparatus further comprises:

the second acquisition module is used for acquiring map information of an operation area corresponding to the operation process if an abnormal operation state exists in at least one operation state, and acquiring position information of the smart bracelet in real time; the map information comprises a plurality of exits;

the second determining module is used for taking an exit which is closest to the position information acquired in real time in the plurality of exits as a target starting point, taking an intersection in the map information as a gathering point and taking the position information acquired in real time as a target end point;

and the third acquisition module is used for traversing the target starting point, the collection point and the target end point, acquiring all search and rescue paths from the target starting point to the target end point, taking the search and rescue path with the shortest distance in all the search and rescue paths as the target search and rescue path, and pushing the target search and rescue path outwards, wherein the target search and rescue path is used for indicating search and rescue personnel to search and rescue the operating personnel.

In one embodiment, the apparatus further comprises:

the fourth acquisition module is used for acquiring the position information of the intelligent bracelet in real time and judging whether the position information acquired in real time deviates from an escape path;

and the third determining module is used for re-determining the escape path of the operating personnel based on the historical position information of the intelligent bracelet in the operation process, the historical position information of the intelligent bracelet in the escape process and the position information acquired in real time if the intelligent bracelet deviates, and sending the escape path to the intelligent bracelet.

In one embodiment, the apparatus further comprises:

the fifth acquisition module is used for acquiring the position information of the intelligent bracelet and the data information of the intelligent bracelet in real time and detecting whether at least one operation state is abnormal or not according to the data information acquired in real time;

a sixth obtaining module, configured to, if an abnormal operation state exists in at least one of the operation states, obtain map information of an operation area corresponding to the operation process, use an intersection in the map information as a rendezvous point, use position information obtained in real time as an escape starting point, determine an escape ending point according to historical position information, and use a rendezvous point between the escape starting point and the escape ending point as a target rendezvous point; and traversing the escape starting point, the target collection point and the escape end point, acquiring all escape paths from the escape starting point to the escape end point, taking the escape path with the shortest distance in all escape paths as a target escape path, and sending the target escape path to the intelligent bracelet.

All or part of each module in the operation 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 server, and its internal structure diagram may be as shown in fig. 8. The computer device includes a processor, a memory, and a network interface 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, a computer program, and a database. The internal memory provides an environment for the operation of an operating system and computer programs in the non-volatile storage medium. The database of the computer equipment is used for storing current data information, historical position information, escape routes and all search and rescue route data. The network interface of the computer device is used for communicating with an external terminal through a network connection. The computer program is executed by a processor to implement a method of job security monitoring.

It will be appreciated by those skilled in the art that the configuration shown in fig. 8 is a block diagram of only a portion of the configuration associated with the present application, and is not intended to limit the computing device to which the present application may be applied, and that a particular computing device 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:

in the operation process, current data information which is reported by the smart band and is acquired by the smart band is acquired; the current data information comprises current sign information of an operator, current gas concentration information of the environment where the operator is located and current position information of the intelligent bracelet; detecting whether at least one operation state is abnormal or not according to the current data information; the at least one operating state comprises at least one of a physiological state of the operator and an environmental state of the operator; if an abnormal operation state exists in at least one operation state, based on the equipment number of the intelligent bracelet, calling historical position information of the intelligent bracelet in the operation process from the cloud server; based on the historical position information and the current position information, the escape path of the operating personnel is determined and sent to the intelligent bracelet, and the escape path is used for indicating the intelligent bracelet to prompt the operating personnel to escape.

In one embodiment, the processor, when executing the computer program, the current vital sign information includes current heart rate information of the practitioner and current blood oxygenation information of the practitioner, and the current gas concentration information includes current concentration information of methane, current concentration information of ammonia, current concentration information of carbon monoxide, current concentration information of oxygen, and current concentration information of carbon dioxide.

In one embodiment, the processor, when executing the computer program, further performs the steps of: if the current heart rate information is smaller than a first preset threshold value or the current blood oxygen information is smaller than a second preset threshold value, determining that the physiological state of the operator is abnormal; and if the current concentration information of at least one gas in the current concentration information of methane, the current concentration information of ammonia and the current concentration information of carbon monoxide is larger than a corresponding third preset threshold value, and/or if the current concentration information of at least one gas in the current concentration information of oxygen and the current concentration information of carbon dioxide is not in a corresponding preset range, determining that the environment state where the operating personnel is located is abnormal.

In one embodiment, the processor, when executing the computer program, further performs the steps of: if an abnormal operation state exists in at least one operation state, acquiring map information of an operation area corresponding to the operation process, and acquiring position information of the smart bracelet in real time; the map information comprises a plurality of exits; taking an exit which is closest to the position information acquired in real time in the plurality of exits as a target starting point, taking an intersection in the map information as a gathering point, and taking the position information acquired in real time as a target end point; and traversing the target starting point, the gathering point and the target end point, acquiring all search and rescue paths from the target starting point to the target end point, taking the search and rescue path with the shortest distance in all the search and rescue paths as the target search and rescue path, and pushing the target search and rescue path outwards, wherein the target search and rescue path is used for indicating search and rescue personnel to search and rescue the operating personnel.

In one embodiment, the processor, when executing the computer program, further performs the steps of: acquiring position information of the intelligent bracelet in real time, and judging whether the position information acquired in real time deviates from an escape path; if the intelligent bracelet deviates, the escape path of the operating personnel is determined again based on the historical position information of the intelligent bracelet in the operation process, the historical position information of the intelligent bracelet in the escape process and the position information obtained in real time, and the escape path is sent to the intelligent bracelet.

In one embodiment, the processor, when executing the computer program, further performs the steps of: acquiring position information of the intelligent bracelet and data information of the intelligent bracelet in real time, and detecting whether at least one operation state is abnormal or not according to the data information acquired in real time; if an abnormal operation state exists in at least one operation state, map information of an operation area corresponding to the operation process is obtained, an intersection in the map information is used as a gathering point, position information obtained in real time is used as an escape starting point, an escape ending point is determined according to historical position information, and the gathering point between the escape starting point and the escape ending point is used as a target gathering point; and traversing the escape starting point, the target collection point and the escape end point, acquiring all escape paths from the escape starting point to the escape end point, taking the escape path with the shortest distance in all escape paths as a target escape path, and sending the target escape path to the intelligent bracelet.

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:

in the operation process, current data information which is reported by the smart band and is acquired by the smart band is acquired; the current data information comprises current physical sign information of an operator, current gas concentration information of the environment where the operator is located and current position information of the intelligent bracelet; detecting whether at least one operation state is abnormal or not according to the current data information; the at least one working state comprises at least one of a physiological state of the working personnel and an environment state of the working personnel; if an abnormal operation state exists in at least one operation state, based on the equipment number of the intelligent bracelet, calling historical position information of the intelligent bracelet in the operation process from the cloud server; based on the historical position information and the current position information, the escape path of the operating personnel is determined, the escape path is sent to the intelligent bracelet, and the escape path is used for indicating the intelligent bracelet to prompt the operating personnel to escape.

In one embodiment, the computer program, when executed by the processor, includes current heart rate information for the practitioner and current blood oxygenation information for the practitioner, and the current gas concentration information includes current concentration information for methane, current concentration information for ammonia, current concentration information for carbon monoxide, current concentration information for oxygen, and current concentration information for carbon dioxide.

In one embodiment, the computer program when executed by the processor further performs the steps of: if the current heart rate information is smaller than a first preset threshold value or the current blood oxygen information is smaller than a second preset threshold value, determining that the physiological state of the operator is abnormal; and if the current concentration information of at least one gas in the current concentration information of methane, the current concentration information of ammonia and the current concentration information of carbon monoxide is larger than a corresponding third preset threshold value, and/or if the current concentration information of at least one gas in the current concentration information of oxygen and the current concentration information of carbon dioxide is not in a corresponding preset range, determining that the environment state where the operating personnel is located is abnormal.

In one embodiment, the computer program when executed by the processor further performs the steps of: if an abnormal operation state exists in at least one operation state, acquiring map information of an operation area corresponding to the operation process, and acquiring position information of the smart bracelet in real time; the map information comprises a plurality of exits; taking an exit which is closest to the position information acquired in real time in the plurality of exits as a target starting point, taking an intersection in the map information as a convergent point, and taking the position information acquired in real time as a target end point; and traversing the target starting point, the gathering point and the target end point, acquiring all search and rescue paths from the target starting point to the target end point, taking the search and rescue path with the shortest distance in all the search and rescue paths as the target search and rescue path, and pushing the target search and rescue path outwards, wherein the target search and rescue path is used for indicating search and rescue personnel to search and rescue the operating personnel.

In one embodiment, the computer program when executed by the processor further performs the steps of: acquiring position information of the intelligent bracelet in real time, and judging whether the position information acquired in real time deviates from an escape path; if the intelligent bracelet deviates, the escape path of the operating personnel is determined again based on the historical position information of the intelligent bracelet in the operation process, the historical position information of the intelligent bracelet in the escape process and the position information obtained in real time, and the escape path is sent to the intelligent bracelet.

In one embodiment, the computer program when executed by the processor further performs the steps of: acquiring position information of the intelligent bracelet and data information of the intelligent bracelet in real time, and detecting whether at least one operation state is abnormal or not according to the data information acquired in real time; if an abnormal operation state exists in at least one operation state, map information of an operation area corresponding to the operation process is obtained, an intersection in the map information is used as a gathering point, position information obtained in real time is used as an escape starting point, an escape ending point is determined according to historical position information, and the gathering point between the escape starting point and the escape ending point is used as a target gathering point; and traversing the escape starting point, the target convergence point and the escape end point, acquiring all escape paths from the escape starting point to the escape end point, taking the escape path with the shortest distance in all escape paths as a target escape path, and sending the target escape path to the intelligent bracelet.

In one embodiment, a computer program product is provided, comprising a computer program which, when executed by a processor, performs the steps of:

in the operation process, current data information which is reported by the smart band and is acquired by the smart band is acquired; the current data information comprises current sign information of an operator, current gas concentration information of the environment where the operator is located and current position information of the intelligent bracelet; detecting whether at least one operation state is abnormal or not according to the current data information; the at least one working state comprises at least one of a physiological state of the working personnel and an environment state of the working personnel; if an abnormal operation state exists in at least one operation state, based on the equipment number of the intelligent bracelet, calling historical position information of the intelligent bracelet in the operation process from the cloud server; based on the historical position information and the current position information, the escape path of the operating personnel is determined and sent to the intelligent bracelet, and the escape path is used for indicating the intelligent bracelet to prompt the operating personnel to escape.

In one embodiment, the computer program, when executed by the processor, includes current heart rate information for the practitioner and current blood oxygenation information for the practitioner, and the current gas concentration information includes current concentration information for methane, current concentration information for ammonia, current concentration information for carbon monoxide, current concentration information for oxygen, and current concentration information for carbon dioxide.

In one embodiment, the computer program when executed by the processor further performs the steps of: if the current heart rate information is smaller than a first preset threshold value or the current blood oxygen information is smaller than a second preset threshold value, determining that the physiological state of the operator is abnormal; and if the current concentration information of at least one gas in the current concentration information of methane, the current concentration information of ammonia and the current concentration information of carbon monoxide is larger than a corresponding third preset threshold value, and/or if the current concentration information of at least one gas in the current concentration information of oxygen and the current concentration information of carbon dioxide is not in a corresponding preset range, determining that the environment state where the operating personnel is located is abnormal.

In one embodiment, the computer program when executed by the processor further performs the steps of: if an abnormal operation state exists in at least one operation state, acquiring map information of an operation area corresponding to the operation process, and acquiring position information of the smart bracelet in real time; the map information comprises a plurality of exits; taking an exit which is closest to the position information acquired in real time in the plurality of exits as a target starting point, taking an intersection in the map information as a gathering point, and taking the position information acquired in real time as a target end point; and traversing the target starting point, the gathering point and the target end point, acquiring all search and rescue paths from the target starting point to the target end point, taking the search and rescue path with the shortest distance in all the search and rescue paths as the target search and rescue path, and pushing the target search and rescue path outwards, wherein the target search and rescue path is used for indicating search and rescue personnel to search and rescue the operating personnel.

In one embodiment, the computer program when executed by the processor further performs the steps of: acquiring position information of the intelligent bracelet in real time, and judging whether the position information acquired in real time deviates from an escape path; if the intelligent bracelet deviates, the escape path of the operating personnel is determined again based on the historical position information of the intelligent bracelet in the operation process, the historical position information of the intelligent bracelet in the escape process and the position information obtained in real time, and the escape path is sent to the intelligent bracelet.

In one embodiment, the computer program when executed by the processor further performs the steps of: acquiring position information of the intelligent bracelet and data information of the intelligent bracelet in real time, and detecting whether at least one operation state is abnormal or not according to the data information acquired in real time; if an abnormal operation state exists in at least one operation state, map information of an operation area corresponding to the operation process is obtained, an intersection in the map information is used as a gathering point, position information obtained in real time is used as an escape starting point, an escape ending point is determined according to historical position information, and the gathering point between the escape starting point and the escape ending point is used as a target gathering point; and traversing the escape starting point, the target convergence point and the escape end point, acquiring all escape paths from the escape starting point to the escape end point, taking the escape path with the shortest distance in all escape paths as a target escape path, and sending the target escape path to the intelligent bracelet.

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 may be implemented by hardware instructions of a computer program, which may be stored in a non-volatile computer-readable storage medium, and when executed, may 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 specific and detailed, but not to be understood 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.

Claims (10)

1. An operation safety monitoring method is characterized by comprising the following steps:

in the operation process, current data information which is reported by the smart band and collected by the smart band is obtained; the current data information comprises current sign information of an operator, current gas concentration information of the environment where the operator is located and current position information of the intelligent bracelet;

detecting whether at least one operation state is abnormal or not according to the current data information; the at least one working state comprises at least one of a physiological state of the operator and an environmental state of the operator;

if an abnormal operation state exists in the at least one operation state, based on the equipment number of the intelligent bracelet, calling historical position information of the intelligent bracelet in the operation process from a cloud server;

and determining an escape path of the operator based on the historical position information and the current position information, and sending the escape path to the intelligent bracelet, wherein the escape path is used for indicating the intelligent bracelet to prompt the operator to escape.

2. The method of claim 1, wherein the current vital sign information includes current heart rate information of the practitioner and current blood oxygenation information of the practitioner, and the current gas concentration information includes current concentration information of methane, current concentration information of ammonia, current concentration information of carbon monoxide, current concentration information of oxygen, and current concentration information of carbon dioxide.

3. The method of claim 2, wherein said detecting whether at least one job status is abnormal based on said current data information comprises:

if the current heart rate information is smaller than a first preset threshold value or the current blood oxygen information is smaller than a second preset threshold value, determining that the physiological state of the operator is abnormal;

if the current concentration information of at least one gas in the current concentration information of methane, ammonia and carbon monoxide is larger than a corresponding third preset threshold value, and/or if the current concentration information of at least one gas in the current concentration information of oxygen and the current concentration information of carbon dioxide is not in a corresponding preset range, determining that the environmental state of the operator is abnormal.

4. The method according to claim 1, wherein after detecting whether at least one job status is abnormal according to the current data information, the method further comprises:

if an abnormal operation state exists in the at least one operation state, acquiring map information of an operation area corresponding to the operation process, and acquiring position information of the intelligent bracelet in real time; the map information comprises a plurality of outlets;

taking an exit which is closest to the position information acquired in real time in a plurality of exits as a target starting point, taking an intersection in the map information as a convergent point, and taking the position information acquired in real time as a target end point;

traversing the target starting point, the gathering point and the target end point, acquiring all search and rescue paths from the target starting point to the target end point, taking the search and rescue path with the shortest distance in all the search and rescue paths as a target search and rescue path, and pushing the target search and rescue path outwards, wherein the target search and rescue path is used for indicating search and rescue personnel to search and rescue the operating personnel.

5. The method according to claim 1, wherein after the sending the escape path to the smart bracelet, further comprising:

acquiring the position information of the intelligent bracelet in real time, and judging whether the position information acquired in real time deviates from the escape path;

and if the intelligent bracelet deviates, re-determining the escape path of the operating personnel based on the historical position information of the intelligent bracelet in the operation process, the historical position information of the intelligent bracelet in the escape process and the position information acquired in real time, and sending the escape path to the intelligent bracelet.

6. The method according to claim 1, wherein after the sending the escape path to the smart bracelet, further comprising:

acquiring position information of the intelligent bracelet and data information of the intelligent bracelet in real time, and detecting whether at least one operation state is abnormal or not according to the data information acquired in real time;

if an abnormal operation state exists in the at least one operation state, map information of an operation area corresponding to the operation process is obtained, an intersection in the map information is used as a gathering point, position information obtained in real time is used as an escape starting point, an escape ending point is determined according to the historical position information, and a gathering point between the escape starting point and the escape ending point is used as a target gathering point; and traversing the escape starting point, the target collection point and the escape end point, acquiring all escape paths from the escape starting point to the escape end point, taking the escape path with the shortest distance in all escape paths as a target escape path, and sending the target escape path to the smart bracelet.

7. An operational safety monitoring device, the device comprising:

the first acquisition module is used for acquiring current data information which is reported by the smart band and is acquired by the smart band in the current operation process; the current data information comprises current sign information of an operator, current gas concentration information of the environment where the operator is located and current position information of the intelligent bracelet;

the detection module is used for detecting whether at least one operation state is abnormal or not according to the current data information; the at least one working state comprises at least one of a physiological state of the working personnel and an environmental state of the working personnel;

the calling module is used for calling historical position information of the intelligent bracelet in the operation process from a cloud server based on the equipment number of the intelligent bracelet if the abnormal operation state exists in the at least one operation state;

the first determining module is used for determining an escape path of the operator based on the historical position information and the current position information, and sending the escape path to the intelligent bracelet, wherein the escape path is used for indicating the intelligent bracelet to prompt the operator to escape.

8. 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 6.

9. 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 according to any one of claims 1 to 6.

10. A computer program product comprising a computer program, characterized in that the computer program realizes the steps of the method of any one of claims 1 to 6 when executed by a processor.

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