CN109993431B - Operator position information supervision method and system - Google Patents

Abstract

The application provides a worker position information supervision method and system, comprising the following steps: acquiring position information uploaded by a positioning device; judging whether the current time of the system is contained in a preset time interval range or not; when the current time of the system is included in a preset time interval range, acquiring identification information and position information of the positioning device, acquiring a first set identifier matched with the identification information, and acquiring an effective operation area corresponding to the first set identifier; judging whether the position information is positioned in the effective operation area or not; when the position information is not located in the effective operation area, warning information is generated, and the warning information at least comprises identification information of the positioning device, so that reasonable supervision of operators is realized.

Description

Operator position information supervision method and system

Technical Field

The invention relates to the technical field of monitoring equipment, in particular to a method and a system for supervising position information of operators.

Background

In mountain areas, mountains and mountains are more, transmission lines are deeply hidden among mountain forests, when the whole transmission line is operated, the span of the operation length can reach hundreds of kilometers (even thousands of kilometers for extra-high voltage lines), and the operation site is characterized by multiple points, long line and wide range. In order to avoid the influence on the daily life of residents caused by long-time power failure, the power failure time of the power transmission line is limited, so that the power transmission line in a mountain area has the advantages of more total amount of operation constructors, wide distribution range and long distance when the power transmission line is in operation, but the safety supervision personnel and management personnel are limited in number, the monitoring and synchronous simultaneous management of each operation site cannot be realized in the traditional management mode, a large amount of time is used for telephone communication connection, and the time utilization efficiency is low. In addition, due to project sub-division and other reasons, construction operation work of the same line may need to be responsible by a plurality of construction units, the sources of operators and management staff are wide, quality is uneven, the activity of the staff is random, and the staff leaves or enters a working site and cannot be effectively monitored, so that a scheme capable of effectively supervising the construction operators is urgently needed.

Disclosure of Invention

In view of this, the embodiment of the invention provides a method and a system for supervising the position information of an operator, so as to realize supervision of the operator.

In order to achieve the above object, the embodiment of the present invention provides the following technical solutions:

a worker location information supervision method, comprising:

acquiring position information uploaded by a positioning device;

judging whether the current time of the system is contained in a preset time interval range or not;

when the current time of the system is included in a preset time interval range, acquiring identification information and position information of the positioning device, acquiring a first set identifier matched with the identification information, and acquiring an effective operation area corresponding to the first set identifier;

judging whether the position information is positioned in the effective operation area or not;

when the position information is not located in the effective operation area, generating warning information, wherein the warning information at least comprises identification information of the positioning device;

wherein, the definition of the effective operation area is as follows: at least one working area matched with the first set identifier is stored in a system applying the method, wherein one working area is matched with an effective identifier, and the working area matched with the effective identifier is an effective working area.

Optionally, in the above method for supervising the position information of an operator, the obtaining the position information uploaded by the positioning device includes:

acquiring longitude and latitude information and a user elevation value uploaded by the positioning device, and taking the longitude and latitude information and the user elevation value as position information of the positioning device;

the position information is judged whether to be positioned in the effective operation area or not; when the position information is not located in the effective operation area, generating warning information specifically includes:

acquiring a preset elevation range corresponding to the effective operation area and a longitude and latitude coordinate range corresponding to the effective operation area based on an electronic map;

judging whether the longitude and latitude information is positioned in the longitude and latitude coordinate range or not;

judging whether the user elevation value is positioned in the preset elevation range or not;

and generating warning information when the longitude and latitude information is not located in the longitude and latitude coordinate range or the user elevation value is not located in the preset elevation range.

Optionally, in the above method for supervising the position information of an operator, the generating the warning information includes:

judging whether the identification information is contained in a preset leave list or not, and generating warning information when the identification information is not contained in the preset leave list.

Optionally, in the above method for supervising position information of an operator, the determining whether the latitude and longitude information is located in the latitude and longitude coordinate range includes:

and acquiring the operation object coordinates of each operation object in the effective area range, judging whether the operation object coordinates with the distance from the longitude and latitude information in a preset range exist or not, if so, indicating that the longitude and latitude information is in the longitude and latitude coordinate range, and if not, indicating that the longitude and latitude information is not in the longitude and latitude coordinate range.

Optionally, in the above method for supervising position information of an operator, the determining whether the user elevation value is within the preset elevation range includes:

judging whether the identification information of the positioning device belongs to a first type identification for performing high-altitude operation;

when the identification information belongs to a first type identification, acquiring the operation object coordinates of each operation object in the effective area range;

the operation object coordinate closest to the longitude and latitude information is called and is recorded as a target coordinate;

acquiring an elevation value of the target coordinate and marking the elevation value as a target elevation value;

acquiring a height value of an aerial work object at the target coordinate;

Correcting the target elevation value based on the elevation value of the aerial work object;

and judging whether the difference value between the user elevation value and the corrected target elevation value is within a preset range or not.

Optionally, in the above method for supervising the position information of the operator, after generating the warning information, the method further includes:

acquiring a communication address of a terminal matched with the effective operation area or the first set identifier;

sending the warning information to a target terminal corresponding to the communication address;

judging whether the warning information is effective or not according to the feedback result of the target terminal, and if so, updating the number of times of warning information corresponding to the identification information of the positioning device in a preset list.

A worker location information supervision system comprising:

the positioning device is used for positioning the physical coordinate position of the positioning device and generating position information matched with the current position of the positioning device;

the server system acquires the identification information and the position information of the positioning device when the current time of the system is contained in a preset time interval range, acquires a first set identifier matched with the identification information, acquires an effective operation area corresponding to the first set identifier, judges whether the position information is positioned in the effective operation area, and generates warning information when the position information is not positioned in the effective operation area, wherein the warning information at least comprises the identification information of the positioning device, and the definition of the effective operation area is as follows: the server system stores at least one operation area matched with the first set identifier, wherein one operation area is matched with an effective identifier, and the operation area matched with the effective identifier is an effective operation area;

And the communication device is used for realizing data interaction between the positioning device and the server system.

Preferably, in the above operator position information monitoring system, the positioning device is specifically configured to:

acquiring longitude and latitude information of a position where the user is located and a user elevation value, and taking the longitude and latitude information and the user elevation value as the position information of the positioning device;

the server system is specifically configured to, when determining whether the location information is located within the effective operation area and when generating the alert information when the location information is not located within the effective operation area:

acquiring a preset elevation range corresponding to the effective operation area and a longitude and latitude coordinate range corresponding to the effective operation area based on an electronic map, judging whether the longitude and latitude information is located in the longitude and latitude coordinate range, and judging whether the user elevation value is located in the preset elevation range; and generating warning information when the longitude and latitude information is not located in the longitude and latitude coordinate range or the user elevation value is not located in the preset elevation range.

Preferably, in the above operator position information monitoring system, when determining whether the latitude and longitude information is within the latitude and longitude coordinate range, the server system is specifically configured to:

And acquiring the operation object coordinates of each operation object in the effective area range, judging whether the operation object coordinates with the distance from the longitude and latitude information in a preset range exist or not, if so, indicating that the longitude and latitude information is in the longitude and latitude coordinate range, and if not, indicating that the longitude and latitude information is not in the longitude and latitude coordinate range.

Preferably, in the above operator position information monitoring system, the determining whether the user elevation value is within the preset elevation range includes:

judging whether the identification information of the positioning device belongs to a first type identification for performing high-altitude operation;

when the identification information belongs to a first type identification, acquiring the operation object coordinates of each operation object in the effective area range;

the operation object coordinate closest to the longitude and latitude information is called and is recorded as a target coordinate;

acquiring an elevation value of the target coordinate and marking the elevation value as a target elevation value;

acquiring a height value of an aerial work object at the target coordinate;

correcting the target elevation value based on the elevation value of the aerial work object;

and judging whether the difference value between the user elevation value and the corrected target elevation value is within a preset range or not.

Preferably, in the above operator position information monitoring system, the server system is specifically configured to:

judging whether the identification information is contained in a preset leave list or not, and generating warning information when the identification information is not contained in the preset leave list.

Preferably, in the above operator position information monitoring system, after generating the warning information, the method further includes:

acquiring a communication address of a terminal matched with the effective operation area;

sending the warning information to a target terminal corresponding to the communication address;

judging whether the warning information is effective or not according to the feedback result of the target terminal, and if so, updating the number of times of warning information corresponding to the identification information of the positioning device in a preset list.

Preferably, in the worker position information monitoring system, the positioning device includes a wearable device with a positioning function and an air pressure altimeter for positioning the elevation value of the user.

Based on the technical scheme, in the operator position information supervision scheme disclosed in the above embodiment of the present invention, first, position information uploaded by a positioning device is acquired, the position information uploaded by the positioning device is used as position information of an operator, identification information of the positioning device is acquired, a first set identifier matched with the identification information is acquired through the identification information, an effective operation area (an ongoing operation area of a team to which the operator belongs) corresponding to the first set identifier is acquired, whether the position information is located in the effective operation area is judged, when the position information is not located in the effective operation area, the condition that the operator wearing the positioning device has a private guard exists is indicated, warning information is generated, and the warning information at least comprises the identification information of the positioning device, so that reasonable supervision of the operator is realized.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings that are required to be used in the embodiments or the description of the prior art will be briefly described below, and it is obvious that the drawings in the following description are only embodiments of the present invention, and that other drawings can be obtained according to the provided drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic flow chart of a method for supervising position information of an operator according to an embodiment of the present application;

fig. 2 is a schematic flow chart of a method for supervising position information of an operator according to an embodiment of the present application;

fig. 3 is a schematic flow chart of a method for supervising position information of an operator according to an embodiment of the present application;

fig. 4 is a schematic structural diagram of an operator position information supervision system according to an embodiment of the present disclosure.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The application provides a worker position information supervision method and system capable of supervising workers.

Fig. 1 is a flow chart of a method for supervising position information of an operator according to an embodiment of the present application, referring to fig. 1, the method may include:

step S101: acquiring position information uploaded by a positioning device;

the positioning device may include an intelligent terminal commonly used in the prior art and having a positioning function, for example, a mobile phone with a positioning function, a wearable device, etc., in the technical scheme disclosed in the embodiment of the invention, the wearable device with a positioning function may be used as the positioning device, and the wearable device may be an intelligent bracelet with a positioning function, an intelligent helmet, etc., and of course, the positioning device may also be a positioning device with a positioning function only, and in order to facilitate use by a user, the positioning device may be mounted on a safety helmet of an operator.

Step S102: judging whether the current time of the system is contained in a preset time interval range, if so, executing step S103, otherwise, not responding to the position information;

when the worker performs the construction work, the worker has a predetermined work time, and the time zone range constituted by the work time is referred to as the predetermined time zone range, and for example, the time zone constituted by the start and end of the work plan can be understood. When the position information uploaded by the positioning device is obtained, if the current time of the system is not in the preset time interval range, the position information is ignored, and of course, the method can also judge whether to obtain the position information sent by the positioning device according to the preset time interval range, namely, the method can only obtain the position information uploaded by the positioning device in the preset time interval range.

Step S103: when the current time of the system is included in a preset time interval range, acquiring identification information and position information of the positioning device, acquiring a first set identifier matched with the identification information, and acquiring an effective operation area corresponding to the first set identifier;

when the position information uploaded by the positioning device is acquired, the identification information for representing the identity information of the positioning device is also acquired.

In actual construction, the engineering is usually performed by a team, the team includes a plurality of operators, the identification information of the positioning device corresponding to each operator is matched with the same first set identification, the first set identification is used as the identification of the team, when the transmission line works on the whole line, the same team can work in different working areas, therefore, before the scheme is executed, a plurality of working areas matched with the first set identification are prestored in a system executing the method, and of course, different teams can be matched with a plurality of identical or different working areas.

If the task in a certain working area in charge of the team is completed, the working area may be marked as an invalid identifier, an area in progress of the job may be marked as a valid identifier, an area in incomplete and non-in progress of the job may be marked as an identifier to be worked, and it should be noted that marking a certain working area by a certain first set identifier does not affect marking of the working area by other set identifiers, for example, the first set identifier a marks the first working area a as a valid identifier, and the second set identifier B may mark the first working area a as an invalid identifier or an identifier to be worked.

That is, in the present method, the definition of the effective job area is: at least one working area matched with the first set identifier is stored in a system applying the method, wherein one working area is matched with an effective identifier, and the working area matched with the effective identifier is an effective working area.

Step S104: judging whether the position information is positioned in the effective operation area or not;

in this step, after obtaining the position information sent by the positioning device (the position information sent by the positioning device may represent the position information of the operator), the coordinate range of the effective operation area is obtained, whether the position information sent by the positioning device is included in the coordinate range of the effective operation area is judged, when the position information is included in the coordinate range of the effective operation area, it is indicated that the operator wearing the positioning device is operating in the effective operation area, when the position information is not included in the coordinate range of the effective operation area, it is indicated that the operator wearing the operation device has left the operation area, there is a possibility of leaving the work privately, and the operation is performed in a non-thick step S105, so as to generate warning information;

Step S105: when the position information is not located in the effective operation area, generating warning information, wherein the warning information at least comprises identification information of the positioning device;

in this step, the warning information includes at least identification information of the positioning device, and further may further include a name and a unit to which the operator matches with the identification information.

When the operator position information supervision method disclosed in the above embodiment of the present application is executed, firstly, the position information uploaded by the positioning device is obtained, the position information uploaded by the positioning device is used as the position information of the operator, the identification information of the positioning device is obtained, the identification information can be used as the identity of the operator wearing the positioning device, the first set identification matched with the identification information is obtained, the effective operation area (the operation area in progress by the team to which the operator belongs) corresponding to the first set identification is obtained, whether the position information is located in the effective operation area is judged, when the position information is not located in the effective operation area, the possibility that the operator wearing the positioning device is away from the guard is indicated, and warning information is generated, wherein the warning information at least comprises the identification information of the positioning device, so that the reasonable supervision of the operator is realized.

Further, in order to prevent the situation that the operator does not start the positioning device and the system applying the method cannot monitor the operator, in the technical scheme disclosed in the above embodiment of the present application, the detected identification information is matched according to the preset identification information list to obtain the unobtainable identification information, whether the unobtainable identification information exists in the preset leave list is judged, if so, it is indicated that the working condition of the operator corresponding to the identification information is normal, and if not, the warning information matched with the unobtainable identification information is output.

Further, when the power transmission line is operated, the work types of operators are different, the responsible objects and the working contents are different, and conventionally, the operators can be divided into ground operators and high-altitude operators, when the ground operators are monitored, the position information sent by the positioning device only needs to include longitude and latitude information, but when the high-altitude operators are monitored, the position information sent by the positioning device also needs to include elevation information besides the longitude and latitude information, and the elevation information is used for representing the altitude of the position where the positioning device is located.

For this, referring to fig. 2, in the method disclosed in the foregoing embodiment of the present application, the obtaining the location information uploaded by the positioning device may specifically be:

step S201: acquiring longitude and latitude information and a user elevation value uploaded by the positioning device, and taking the longitude and latitude information and the user elevation value as position information of the positioning device;

the altitude corresponding to the air pressure value is obtained through a preset mapping relation between the air pressure value and the altitude, and the obtained altitude is used as a user altitude value.

The position information is judged whether to be positioned in the effective operation area or not; when the position information is not located in the effective operation area, generating warning information specifically includes:

step S202: acquiring a preset elevation range corresponding to the effective operation area and a longitude and latitude coordinate range corresponding to the effective operation area based on an electronic map;

after the effective operation area is determined, the effective operation area is searched on an electronic map, and an elevation range corresponding to the effective operation area is obtained through the electronic map, wherein when the elevation range is obtained, the elevation range corresponding to the effective operation area can be directly called from a mapping list of a preset elevation range and the operation area, and the elevation range of the effective operation area can also be obtained through the following modes:

Determining the position information of each operation object in the effective operation area from the electronic map, acquiring the elevation value of the operation object with the lowest elevation value based on the elevation value (altitude) corresponding to the position information of each operation object in the electronic map, marking the elevation value as the lowest elevation value, acquiring the elevation value of the operation object with the highest elevation value, marking the elevation value as the highest elevation value, and taking the elevation range formed by the lowest elevation value and the highest elevation value as the elevation range required by the method.

Step S203: judging whether the longitude and latitude information is positioned in the longitude and latitude coordinate range or not;

the method specifically refers to judging whether longitude and latitude information which is sent by the positioning device and used for representing the position of the positioning device is contained in a longitude and latitude coordinate range corresponding to the effective operation area.

Step S204: judging whether the user elevation value is positioned in the preset elevation range or not;

the method specifically refers to judging whether the user elevation value sent by the positioning device and used for representing the position of the positioning device is contained in the preset elevation range or not.

Step S205: generating warning information when the longitude and latitude information is not located in the longitude and latitude coordinate range or the user elevation value is not located in the preset elevation range;

If the user is at rest under the mountain, the user elevation value is necessarily lower than the minimum elevation value in the preset elevation range, so that the possibility of private off duty exists for the operator, and warning information is generated.

Further, when the worker leaves the post, the worker may have already passed the superior audit and approval, and the generated warning information is an error signal, for this purpose, in order to prevent the false generation of the warning information, in the scheme disclosed in the foregoing embodiment of the present application, the generating the warning information may include:

judging whether the identification information is contained in a preset leave-out list or not, and generating warning information when the identification information is not contained in the preset leave-out list;

in the scheme, if the operator leaves the post, the operator can report to the upper level in advance, after the request is approved, the identification information corresponding to the operator can be written into a preset leave list, when the warning information is acquired, whether the identification information corresponding to the warning information is contained in the preset leave list is judged first, and when the identification information is not contained in the preset leave list, the warning information is generated.

In transmission line, the target object that needs to carry out the operation is interval distribution to the distance between the different target objects is great, in order to more accurate judgement operating personnel be located the operation region, the application still discloses a judgement longitude and latitude information be located the concrete scheme when latitude and longitude coordinate scope, the scheme includes:

and acquiring operation object coordinates of each operation object in the effective area range, judging whether operation object coordinates with the distance from the longitude and latitude information in a preset range exist or not, if yes, indicating that the longitude and latitude information is in the longitude and latitude coordinate range, and if not, indicating that the longitude and latitude information is not in the longitude and latitude coordinate range, namely, the longitude and latitude coordinate range corresponding to the operation object is a plurality of longitude and latitude coordinate ranges which are formed by taking each operation object in the effective operation area as a center and taking the preset distance as a radius.

When the scheme is executed, the operation object coordinates corresponding to each operation object in the effective operation area can be determined based on the electronic map, each operation object coordinate corresponds to a circular area with a preset radius, whether the longitude and latitude information sent by the positioning device is located in a certain circular area or not is judged, if yes, the operation is carried out by the user, otherwise, the operation is carried out by the user, if not, the operation is not carried out by the user, namely, the longitude and latitude information is not located in the longitude and latitude coordinate range is judged.

Further, the application further discloses a scheme for judging whether the user elevation value is located in the preset elevation range, referring to fig. 3, the scheme includes:

step S301: judging whether the identification information of the positioning device belongs to a first type identification for performing high-altitude operation;

in the scheme disclosed in the application, after the identification information of the positioning device is obtained, whether the identification information belongs to a first type of identification for performing overhead operation is also required to be judged, and when the identification information belongs to the first type of identification, the height value of the operation object is also required to be considered when the height value judgment is performed;

when the user is not in the first type of identification, only the scheme of judging whether the user elevation value is in the preset elevation range described in the technical scheme disclosed in the embodiment is needed.

Step S302: when the identification information belongs to a first type identification, acquiring the operation object coordinates of each operation object in the effective area range;

step S303: the operation object coordinate closest to the longitude and latitude information is called and is recorded as a target coordinate;

Defaulting the operation object corresponding to the operation object coordinate to be an aerial operation object which is operated by a user;

step S304: acquiring an elevation value of the target coordinate and marking the elevation value as a target elevation value;

the elevation value of the target coordinate refers to the elevation value of the ground where the aerial work object is located;

step S305: acquiring a height value of an aerial work object at the target coordinate;

the height value is the height value of the highest position of the aerial work object from the ground;

step S306: correcting the target elevation value based on the elevation value of the aerial work object;

that is, the sum of the elevation value of the target coordinates and the elevation value of the aerial work object is used as the corrected target elevation value;

step S307: judging whether the difference value between the user elevation value and the corrected target elevation value is within a preset range or not;

when the difference value is within a preset range, indicating that an operator is working, judging that the user elevation value is in the preset elevation range, otherwise, indicating that the user elevation value is working, and judging that the user elevation value is not in the preset elevation range.

Further, the operator may need to go to other places due to some working conditions, so that the coordinate information generated by the positioning device is not located in the effective working area, and in this case, in order to prevent the generation of the warning information from being output by mistake, in the scheme disclosed in the foregoing embodiment of the present application, after the generation of the warning information, the method further includes:

Acquiring a communication address of a terminal matched with the effective operation area or the first set identifier;

sending the warning information to a target terminal corresponding to the communication address;

judging whether the warning information is effective or not according to the feedback result of the target terminal, and if so, updating the number of times of warning information corresponding to the identification information of the positioning device in a preset list.

In this scheme, a team corresponding to each first set identifier may preset a supervisor, pre-establish a mapping relationship between a communication address of the supervisor and the first set identifier, after generating warning information, send the warning information to a target terminal corresponding to the communication address, verify warning content by a person holding the target terminal, determine whether an operator corresponding to the positioning device is in a violation state, and after verifying, feedback information for characterizing whether the warning information is correct through the target terminal, and determine whether the warning information is valid according to the feedback information, for example, when a feedback result indicates that the warning information is correct, indicate whether the warning information is valid, or else indicate that the warning information is invalid, at this time, update the number of times of warning information corresponding to the identification information of the positioning device in a preset list, that is, update the number of violations of the operator carrying the positioning device.

The embodiment also discloses a worker position information supervision system, and the specific working contents of each part in the system are referred to the contents of the embodiment of the method

The operator position information monitoring system provided in the embodiments of the present application will be described below, and the operator position information monitoring system described below and the operator position information monitoring method described above may be referred to correspondingly.

Referring to fig. 4, the worker location information supervision system disclosed in the embodiment of the present application may include:

the positioning device 100 is used for positioning the physical coordinate position of the positioning device and generating position information matched with the current position of the positioning device;

the server system 200, which corresponds to the method disclosed in any of the foregoing embodiments of the present application, obtains the identification information and the location information of the positioning device when the current time of the system is included in the preset time interval range, obtains the first set identifier matched with the identification information, obtains the effective working area corresponding to the first set identifier, determines whether the location information is located in the effective working area, and generates alert information when the location information is not located in the effective working area, where the alert information at least includes the identification information of the positioning device, and the definition of the effective working area is: the server system stores at least one operation area matched with the first set identifier, wherein one operation area is matched with an effective identifier, and the operation area matched with the effective identifier is an effective operation area;

And the communication device 300 is used for realizing data interaction between the positioning device and the server system.

Corresponding to the method, the positioning device is specifically used for:

acquiring longitude and latitude information of a position where the positioning device is positioned and a user elevation value, wherein the longitude and latitude information and the user elevation value are used as position information of the positioning device, and the positioning device comprises wearable equipment with a positioning function and an air pressure altimeter for positioning the user elevation value;

corresponding to the above method, the server system is specifically configured to, when determining whether the location information is located within the effective operation area and when the location information is not located within the effective operation area, generate alert information:

acquiring a preset elevation range corresponding to the effective operation area and a longitude and latitude coordinate range corresponding to the effective operation area based on an electronic map, judging whether the longitude and latitude information is located in the longitude and latitude coordinate range, and judging whether the user elevation value is located in the preset elevation range; and generating warning information when the longitude and latitude information is not located in the longitude and latitude coordinate range or the user elevation value is not located in the preset elevation range.

Corresponding to the above method, when judging whether the latitude and longitude information is within the latitude and longitude coordinate range, the server system is specifically configured to:

and acquiring the operation object coordinates of each operation object in the effective area range, judging whether the operation object coordinates with the distance from the longitude and latitude information in a preset range exist or not, if so, indicating that the longitude and latitude information is in the longitude and latitude coordinate range, and if not, indicating that the longitude and latitude information is not in the longitude and latitude coordinate range.

Corresponding to the above method, the determining whether the user elevation value is within the preset elevation range includes:

judging whether the identification information of the positioning device belongs to a first type identification for performing high-altitude operation;

when the identification information belongs to a first type identification, acquiring the operation object coordinates of each operation object in the effective area range;

the operation object coordinate closest to the longitude and latitude information is called and is recorded as a target coordinate;

acquiring an elevation value of the target coordinate and marking the elevation value as a target elevation value;

acquiring a height value of an aerial work object at the target coordinate;

Correcting the target elevation value based on the elevation value of the aerial work object;

and judging whether the difference value between the user elevation value and the corrected target elevation value is within a preset range or not.

Corresponding to the method, the server system is specifically configured to, when generating the warning information:

judging whether the identification information is contained in a preset leave list or not, and generating warning information when the identification information is not contained in the preset leave list.

Corresponding to the method, after generating the warning information, the method further comprises the following steps:

acquiring a communication address of a terminal matched with the effective operation area;

sending the warning information to a target terminal corresponding to the communication address;

judging whether the warning information is effective or not according to the feedback result of the target terminal, and if so, updating the number of times of warning information corresponding to the identification information of the positioning device in a preset list.

For convenience of description, the above system is described as being functionally divided into various modules, respectively. Of course, the functions of each module may be implemented in the same piece or pieces of software and/or hardware when implementing the present application.

In this specification, each embodiment is described in a progressive manner, and identical and similar parts of each embodiment are all referred to each other, and each embodiment mainly describes differences from other embodiments. In particular, for a system or system embodiment, since it is substantially similar to a method embodiment, the description is relatively simple, with reference to the description of the method embodiment being made in part. The systems and system embodiments described above are merely illustrative, wherein the elements illustrated as separate elements may or may not be physically separate, and the elements shown as elements may or may not be physical elements, may be located in one place, or may be distributed over a plurality of network elements. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of this embodiment. Those of ordinary skill in the art will understand and implement the present invention without undue burden.

Those of skill would further appreciate that the various illustrative elements and algorithm steps described in connection with the embodiments disclosed herein may be implemented as electronic hardware, computer software, or combinations of both, and that the various illustrative elements and steps are described above generally in terms of functionality in order to clearly illustrate the interchangeability of hardware and software. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the solution. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present invention.

The steps of a method or algorithm described in connection with the embodiments disclosed herein may be embodied directly in hardware, in a software module executed by a processor, or in a combination of the two. The software modules may be disposed in Random Access Memory (RAM), memory, read Only Memory (ROM), electrically programmable ROM, electrically erasable programmable ROM, registers, hard disk, a removable disk, a CD-ROM, or any other form of storage medium known in the art.

It is further noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (6)

1. A worker position information supervision method, characterized by comprising:

acquiring position information uploaded by a positioning device;

judging whether the current time of the system is contained in a preset time interval range or not;

when the current time of the system is included in a preset time interval range, acquiring identification information and position information of the positioning device, acquiring a first set identifier matched with the identification information, and acquiring an effective operation area corresponding to the first set identifier; the team comprises a plurality of operators, the identification information of the positioning device corresponding to each operator is matched with the same first set identification, and the first set identification is used as the identification of the team where the operator is located;

Judging whether the position information is positioned in the effective operation area or not;

when the position information is not located in the effective operation area, generating warning information, wherein the warning information at least comprises identification information of the positioning device;

wherein, the definition of the effective operation area is as follows: at least one operation area matched with the first set identifier is stored in a system applying the method, wherein one operation area is matched with an effective identifier, and the operation area matched with the effective identifier is an effective operation area;

the obtaining the position information uploaded by the positioning device includes: acquiring longitude and latitude information and a user elevation value uploaded by the positioning device, and taking the longitude and latitude information and the user elevation value as position information of the positioning device; the position information is judged whether to be positioned in the effective operation area or not; when the position information is not located in the effective operation area, generating warning information specifically includes: acquiring a preset elevation range corresponding to the effective operation area and a longitude and latitude coordinate range corresponding to the effective operation area based on an electronic map; judging whether the longitude and latitude information is positioned in the longitude and latitude coordinate range or not; judging whether the user elevation value is positioned in the preset elevation range or not; generating warning information when the longitude and latitude information is not located in the longitude and latitude coordinate range or the user elevation value is not located in the preset elevation range;

The determining whether the user elevation value is within the preset elevation range includes: judging whether the identification information of the positioning device belongs to a first type identification for performing high-altitude operation; when the identification information belongs to a first type identification, acquiring the operation object coordinates of each operation object in the effective area range; the operation object coordinate closest to the longitude and latitude information is called and is recorded as a target coordinate; acquiring an elevation value of the target coordinate and marking the elevation value as a target elevation value; acquiring a height value of an aerial work object at the target coordinate; correcting the target elevation value based on the elevation value of the aerial work object, wherein the target elevation value is the sum of the elevation value of the target coordinate and the elevation value of the aerial work object; and judging whether the difference value between the user elevation value and the corrected target elevation value is within a preset range or not.

2. The method for supervising the operator position information according to claim 1, wherein the determining whether the latitude and longitude information is within the latitude and longitude coordinate range includes:

and acquiring the operation object coordinates of each operation object in the effective area range, judging whether the operation object coordinates with the distance from the longitude and latitude information in a preset range exist or not, if so, indicating that the longitude and latitude information is in the longitude and latitude coordinate range, and if not, indicating that the longitude and latitude information is not in the longitude and latitude coordinate range.

3. The worker position information supervision method according to claim 1, further comprising, after generating the warning information:

acquiring a communication address of a terminal matched with the effective operation area or the first set identifier;

sending the warning information to a target terminal corresponding to the communication address;

judging whether the warning information is effective or not according to the feedback result of the target terminal, and if so, updating the number of times of warning information corresponding to the identification information of the positioning device in a preset list.

4. A worker position information supervision system, comprising:

the positioning device is used for positioning the physical coordinate position of the positioning device and generating position information matched with the current position of the positioning device;

the server system acquires the identification information and the position information of the positioning device when the current time of the system is contained in a preset time interval range, acquires a first set identifier matched with the identification information, acquires an effective operation area corresponding to the first set identifier, judges whether the position information is positioned in the effective operation area, and generates warning information when the position information is not positioned in the effective operation area, wherein the warning information at least comprises the identification information of the positioning device, and the definition of the effective operation area is as follows: the server system stores at least one operation area matched with the first set identifier, wherein one operation area is matched with an effective identifier, and the operation area matched with the effective identifier is an effective operation area; the team comprises a plurality of operators, the identification information of the positioning device corresponding to each operator is matched with the same first set identification, and the first set identification is used as the identification of the team where the operator is located;

The communication device is used for realizing data interaction between the positioning device and the server system;

the positioning device is specifically used for: acquiring longitude and latitude information of a position where the user is located and a user elevation value, and taking the longitude and latitude information and the user elevation value as the position information of the positioning device; the server system is specifically configured to, when determining whether the location information is located within the effective operation area and when generating the alert information when the location information is not located within the effective operation area: acquiring a preset elevation range corresponding to the effective operation area and a longitude and latitude coordinate range corresponding to the effective operation area based on an electronic map, judging whether the longitude and latitude information is located in the longitude and latitude coordinate range, and judging whether the user elevation value is located in the preset elevation range; generating warning information when the longitude and latitude information is not located in the longitude and latitude coordinate range or the user elevation value is not located in the preset elevation range;

the determining whether the user elevation value is within the preset elevation range includes: judging whether the identification information of the positioning device belongs to a first type identification for performing high-altitude operation; when the identification information belongs to a first type identification, acquiring the operation object coordinates of each operation object in the effective area range; the operation object coordinate closest to the longitude and latitude information is called and is recorded as a target coordinate; acquiring an elevation value of the target coordinate and marking the elevation value as a target elevation value; acquiring a height value of an aerial work object at the target coordinate; correcting the target elevation value based on the elevation value of the aerial work object, wherein the target elevation value is the sum of the elevation value of the target coordinate and the elevation value of the aerial work object; and judging whether the difference value between the user elevation value and the corrected target elevation value is within a preset range or not.

5. The worker position information supervision system according to claim 4, wherein the server system is configured to, when determining whether the latitude and longitude information is within the latitude and longitude coordinate range:

and acquiring the operation object coordinates of each operation object in the effective area range, judging whether the operation object coordinates with the distance from the longitude and latitude information in a preset range exist or not, if so, indicating that the longitude and latitude information is in the longitude and latitude coordinate range, and if not, indicating that the longitude and latitude information is not in the longitude and latitude coordinate range.

6. The worker position information supervision system according to claim 4, further comprising, after generating the warning information:

acquiring a communication address of a terminal matched with the effective operation area;

sending the warning information to a target terminal corresponding to the communication address;

judging whether the warning information is effective or not according to the feedback result of the target terminal, and if so, updating the number of times of warning information corresponding to the identification information of the positioning device in a preset list.

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