CN111698645B - Position information acquisition method, device, computer equipment and storage medium - Google Patents

Abstract

The embodiment of the application belongs to the field of big data, and relates to a position information acquisition method, which comprises the following steps: inquiring a user account logged in the terminal when the terminal is detected not to be in the first area; inquiring an outgoing task of a user account to obtain a second area for a user with a terminal to go; determining positioning indication data according to the first area and the second area; the positioning indication data comprises a first duration, a first positioning frequency and a second positioning frequency; transmitting positioning indication data to a terminal to indicate the terminal to acquire position information according to a first positioning frequency in a first time period and acquire position information according to a second positioning frequency outside the first time period; and the receiving terminal obtains the position information according to the positioning indication data. The application also provides a position information acquisition device, a computer device and a storage medium. The present application also relates to blockchain techniques, which may be stored in blockchain nodes. The application reduces the consumption of resources.

Description

Position information acquisition method, device, computer equipment and storage medium

Technical Field

The present invention relates to the field of big data, and in particular, to a method, an apparatus, a computer device, and a storage medium for acquiring location information.

Background

With the development of internet technology, APP (Application software) for office use is increasing, so that the user's office requirement to a certain extent, such as looking at office tasks and business communication, can be met. For some employees who need frequent office outing, it is also often necessary to obtain their location information for supervision or statistics.

The traditional technology for acquiring the position information of the user through the APP comprises the steps of acquiring the position information of the user in real time by a positioning system and sending the position information to a background server. Thus, the terminal can consume excessive electric quantity when continuously locating for a long time, and the storage and transmission of a large amount of acquired position information can consume excessive resources, so that unnecessary resource waste is caused.

Disclosure of Invention

The embodiment of the application aims to provide a position information acquisition method, a position information acquisition device, computer equipment and a storage medium, so as to solve the problem of wasting more resources in long-time continuous positioning.

In order to solve the above technical problems, the embodiments of the present application provide a method for obtaining location information, which adopts the following technical schemes:

inquiring a user account logged in on a terminal when the terminal is detected not to be in a first area;

Inquiring an outgoing task of the user account to obtain a second area to which a user holding the terminal goes;

determining positioning indication data according to the first area and the second area; the positioning indication data comprises a first duration, a first positioning frequency and a second positioning frequency;

transmitting the positioning indication data to the terminal to indicate the terminal to acquire position information according to the first positioning frequency in the first time period and acquire position information according to the second positioning frequency outside the first time period;

and receiving the position information acquired by the terminal according to the positioning indication data.

Further, when the terminal is detected not to be in the first area, the step of querying the user account logged in on the terminal specifically includes:

when detecting that the real-time access terminal list is changed, acquiring terminal identifiers reduced by the real-time access terminal list;

and inquiring a user account corresponding to the terminal identifier in a user list.

Further, the step of determining positioning indication data according to the first area and the second area specifically includes:

generating a path planning request according to the first area and the second area;

The path planning request is sent to a path planning server;

receiving a path planning result returned by the path planning server according to the path planning request; the path planning result comprises a first duration;

determining a first positioning frequency according to the first time length;

determining a second positioning frequency based on a task class of the outgoing task;

and determining the first time length, the first positioning frequency and the second positioning frequency as positioning indication data.

Further, the step of determining the second positioning frequency based on the task category of the outgoing task specifically includes:

reading the category identification of the user outgoing task;

extracting historical time length data of the historical tasks which are the same as the category identifications from the historical task data;

and determining the second positioning frequency according to the historical duration data.

Further, the step of collecting the position information further includes:

monitoring whether the terminal leaves the second area or not through the collected position information;

and when the terminal is monitored to leave the second area, indicating the terminal to acquire position information according to the first positioning frequency.

Further, the method for obtaining position information further includes:

Generating position statistical information based on the acquired position information;

querying a management account associated with the user account;

and sending the position statistical information to a management terminal logged in by the management account number so that the management terminal displays the position statistical information.

Further, the step of generating the location statistics based on the obtained location information specifically includes:

marking each position point in the position information in the electronic map;

connecting the position points to generate a path trace diagram;

taking the path track diagram as position statistical information;

or alternatively, the process may be performed,

determining whether position information acquisition abnormality exists according to the number or acquisition time of each position point;

generating position abnormality information when position information acquisition abnormality exists;

and combining the path track graph and the position abnormality information to generate position statistical information.

In order to solve the above technical problem, an embodiment of the present application further provides a training device for generating a model, including:

the account inquiry module is used for inquiring a user account logged in the terminal when the terminal is detected not to be in the first area;

The task query module is used for querying an outgoing task of the user account to obtain a second area to which the user with the terminal goes;

the data determining module is used for determining positioning indication data according to the first area and the second area; the positioning indication data comprises a first duration, a first positioning frequency and a second positioning frequency;

the data sending module is used for sending the positioning indication data to the terminal; the positioning indication data are used for indicating the terminal to acquire position information according to the first positioning frequency in the first time period and acquire position information according to the second positioning frequency outside the first time period;

and the information receiving module is used for receiving the position information acquired by the terminal according to the positioning indication data.

In order to solve the above technical problem, an embodiment of the present application further provides a computer device, including a memory and a processor, where the memory stores a computer program, and the processor implements the steps of the above-mentioned location information obtaining method when executing the computer program.

In order to solve the above technical problem, the embodiments of the present application further provide a computer readable storage medium, where a computer program is stored, where the computer program is executed by a processor to implement the steps of the above-mentioned location information obtaining method.

Compared with the prior art, the embodiment of the application has the following main beneficial effects: when the user leaves the first area through the terminal held by the user, inquiring the outgoing task of the user to determine a second area which is to be accessed; estimating the time required by a user to go to the second area according to the first area and the second area, and obtaining positioning indication data comprising a first duration, a first positioning frequency and a second positioning frequency; the positioning indication data are sent to the terminal, the terminal collects position information at different frequencies in different time periods according to the positioning indication data and sends the position information to the server, wherein the position information is collected according to the first positioning frequency in the first time period, the position information is collected according to the second positioning frequency when the first time period is exceeded, positioning is not needed in real time, and the positioning frequency can be adaptively set according to an outgoing task, so that the consumption of resources is reduced.

Drawings

For a clearer description of the solution in the present application, a brief description will be given below of the drawings that are needed in the description of the embodiments of the present application, it being obvious that the drawings in the following description are some embodiments of the present application, and that other drawings may be obtained from these drawings without inventive effort for a person of ordinary skill in the art.

FIG. 1 is an exemplary system architecture diagram in which the present application may be applied;

FIG. 2 is a flow chart of one embodiment of a location information acquisition method according to the present application;

FIG. 3 is a flow chart of one embodiment of step 203 of FIG. 2;

FIG. 4 is a flow chart of one embodiment of step 2035 of FIG. 3;

FIG. 5 is a schematic structural view of one embodiment of a position information acquisition device according to the present application;

FIG. 6 is a schematic structural diagram of one embodiment of a computer device according to the present application.

Detailed Description

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs; the terminology used in the description of the applications herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the application; the terms "comprising" and "having" and any variations thereof in the description and claims of the present application and in the description of the figures above are intended to cover non-exclusive inclusions. The terms first, second and the like in the description and in the claims or in the above-described figures, are used for distinguishing between different objects and not necessarily for describing a sequential or chronological order.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment may be included in at least one embodiment of the present application. The appearances of such phrases in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. Those of skill in the art will explicitly and implicitly appreciate that the embodiments described herein may be combined with other embodiments.

In order to better understand the technical solutions of the present application, the following description will clearly and completely describe the technical solutions in the embodiments of the present application with reference to the accompanying drawings.

As shown in fig. 1, a system architecture 100 may include terminal devices 101, 102, 103, a network 104, and a server 105. The network 104 is used as a medium to provide communication links between the terminal devices 101, 102, 103 and the server 105. The network 104 may include various connection types, such as wired, wireless communication links, or fiber optic cables, among others.

The user may interact with the server 105 via the network 104 using the terminal devices 101, 102, 103 to receive or send messages or the like. Various communication client applications, such as a web browser application, a shopping class application, a search class application, an instant messaging tool, a mailbox client, social platform software, etc., may be installed on the terminal devices 101, 102, 103.

The terminal devices 101, 102, 103 may be various electronic devices having a display screen and supporting web browsing, including but not limited to smartphones, tablet computers, electronic book readers, MP3 players (Moving Picture ExpertsGroup Audio Layer III, dynamic video expert compression standard audio plane 3), MP4 (Moving PictureExperts Group Audio Layer IV, dynamic video expert compression standard audio plane 4) players, laptop and desktop computers, and the like.

The server 105 may be a server providing various services, such as a background server providing support for pages displayed on the terminal devices 101, 102, 103.

It should be noted that, the method for obtaining location information provided in the embodiments of the present application is generally executed by a server, and accordingly, the location information obtaining device is generally disposed in the server.

It should be understood that the number of terminal devices, networks and servers in fig. 1 is merely illustrative. There may be any number of terminal devices, networks, and servers, as desired for implementation.

With continued reference to fig. 2, a flow chart of one embodiment of a location information acquisition method according to the present application is shown. The position information acquisition method comprises the following steps:

And step 201, inquiring a user account logged in on the terminal when the terminal is detected not to be in the first area.

In this embodiment, the electronic device (for example, the server shown in fig. 1) on which the location information acquiring method operates may communicate with the terminal through a wired connection manner or a wireless connection manner. It should be noted that the wireless connection may include, but is not limited to, 3G/4G connections, wiFi connections, bluetooth connections, wiMAX connections, zigbee connections, UWB (ultra wideband) connections, and other now known or later developed wireless connection means.

The first area may be an area where a user daily offices, the user account may be an account used when the user logs in on the office app, and the terminal may be bound with the user account logged in on the terminal.

When the server detects that a certain terminal leaves a first area through a wireless network, the binding relation between the terminal and a user account is used for inquiring the user account logged in on the terminal.

In one embodiment, the first area is provided with a plurality of punching devices, and when the user needs to go out during working time, the user can perform out punching at the punching devices. The server identifies the outgoing card-punching user, obtains the user identification, and inquires the user account corresponding to the user identification in the employee information table.

In one embodiment, when it is detected that the terminal is not in the first area, the step of querying the user account logged on the terminal specifically includes: when detecting that the real-time access terminal list is changed, acquiring terminal identifiers reduced by the real-time access terminal list; and inquiring the user account corresponding to the terminal identifier in the user list.

Specifically, a wireless network, such as WiFi, exists in the first area. When the terminal is accessed to the wireless network, the server identifies the terminal, extracts the terminal identification of the terminal, and writes the terminal identification into the real-time access terminal list. The terminal identifier is an identifier of the terminal and may be a physical address or a network address of the terminal. The physical address may be a string of characters combined with letters, numbers, special symbols, etc.

The server refreshes the real-time access terminal list at a certain refresh frequency, such as every 5 seconds. And comparing the real-time access terminal list obtained after the refreshing with the real-time access terminal list obtained by the last refreshing. When the real-time access terminal list obtained after refreshing is changed compared with the real-time access terminal list obtained by the last refreshing, the server searches for the terminal identification of the real-time access terminal list which is reduced compared with the real-time access terminal list obtained by the last refreshing.

The APP for user office is installed on the terminal, and the office APP can help the user to complete certain office functions. When a user logs in with a user account number on a designated APP for the first time, the server identifies that a new user joins, and correspondingly stores a terminal identifier and the user account number in a user list.

After the server finds the reduced terminal identifier, the server reads the user list and inquires the user account corresponding to the reduced terminal identifier.

In this embodiment, the terminal identifier of the terminal in the first area is recorded, and when the user leaves the first area with the terminal, the user holding the terminal and the user identifier thereof can be quickly queried through the real-time access terminal list.

Step 202, inquiring the outgoing task of the user account to obtain a second area for the user with the terminal to go.

Specifically, the server extracts a task list of the user account, inquires about an outgoing task at the current time, and extracts a second area from the outgoing task, to which the user goes.

According to the cloud office platform, the server can be used for building the cloud office platform, and the work tasks of the user are recorded in the task list. The work tasks recorded in the task list may include task time, a category representation of the task, a place where the task occurred (i.e., the second area), specific task content, and the like. The work tasks in the task list can be added and modified by a superior user of the user, or automatically added and modified by a server, or added and modified by the user in a certain authority.

For example, the user may be an employee of an insurance company's claims department, requiring frequent outages. When a vehicle of a customer of an insurance company is damaged due to natural disasters or accidents, staff of the insurance company are required to go out for investigation and damage estimation. The customer informs the staff of the insurance company that the investigation time is 12 months and 18 pm, and the investigation place is a car management station in a certain area. After receiving the client notification, the staff can newly establish a work task and input the work task into the cloud office platform. The cloud office platform can remind staff in advance according to task time.

Step 203, determining positioning indication data according to the first area and the second area; the positioning indication data includes a first time duration, a first positioning frequency, and a second positioning frequency.

In particular, when an employee needs to go out of business, in order to monitor and count the working condition of the employee, positioning can be performed during the period of the employee going out. The distance of the staff going out can be far or near, and when the distance is far, the positioning frequency can be moderately reduced; when the distance is short, the positioning frequency can be moderately increased so as to acquire a proper number of position points.

The server determines an outgoing distance according to a first area where staff offices and an outgoing destination second area; estimating the time of the employee reaching the second area according to the outgoing distance, namely the first duration; the server may query a first positioning frequency corresponding to the first time length according to the first time length-positioning frequency table. When the user arrives at the second area, positioning can be performed according to the second positioning frequency; the second positioning frequency may be an empirical value.

The server takes the first time length, the first positioning frequency and the second positioning frequency as positioning indication data.

For example, when the first duration is 10 minutes, the user is shown to have a short outgoing distance, the time required on the road is short, and in order to reflect the change of the position information of the user, the position information can be collected once every two minutes, and the first positioning frequency is 2 minutes/time; if the first time length is 60 minutes, the user is far away from the road, the time required by the road is long, the position information can be acquired without being densely, the position information can be acquired once every 5 minutes, and the first positioning frequency is 5 minutes/time; the first positioning frequency may be lower, for example 30 min/time, when the user is out of the province even further.

When the user arrives at the second area, the user may not have a larger position change in a certain time, and in order to accurately obtain the position change and the residence time of the staff in the second area, the position information may be obtained once every a shorter time, for example, 30s, 1 minute or 2 minutes, etc., and then the second positioning frequency may be 30 s/time, 1 min/time or 2 min/time, etc. The server takes the obtained first time length, the first positioning frequency and the second positioning frequency as positioning indication data.

And 204, transmitting positioning indication data to the terminal to indicate the terminal to acquire the position information according to the first positioning frequency in a first time period and acquire the position information according to the second positioning frequency outside the first time period.

Specifically, the server sends positioning indication data to a terminal held by a user, the terminal extracts a first time length, a first positioning frequency and a second positioning frequency in the positioning indication data after receiving the positioning indication data and starts timing, and when the timing time length does not exceed the first time length, the APP in the terminal collects position information according to the first positioning frequency. And when the timing duration reaches the first duration, the APP acquires the position information according to the second positioning frequency.

After the position information is acquired according to the first positioning frequency, whether the current position is in the second area or not can be monitored according to the position information; if the time length is in the second area, whether the time length reaches the first time length or not, acquiring position information according to the second positioning frequency; and when the timing time length exceeds the first time length and does not reach the second area, position information is still acquired according to the first positioning frequency until the second area is entered, and the position information is acquired according to the second positioning frequency.

The terminal may rely on a global satellite navigation system (the Global Navigation Satellite System, GNSS) to obtain the location information. The global satellite navigation system, also called global navigation satellite system, is an air-based radio navigation positioning system that can provide all-weather 3-dimensional coordinates and velocity and time information to a user at any place on the earth's surface or near earth space. Common global satellite navigation systems are the GPS system, the beidou system, the GLONASS system and the galileo satellite navigation system. In addition, the terminal can acquire the position information by adopting a base station positioning mode. The obtained location information may be combined with an electronic map in which the location of the user holding the terminal is shown.

Step 205, the receiving terminal obtains the position information according to the positioning indication data.

Specifically, after the terminal collects the position information, the position information is sent to the server through the network. The server can upload the position information immediately after each acquisition, or store the position information, package and send the position information.

The terminal may obtain the location information, and send the location information to the server by using any network that the terminal can currently use, such as 2G, 3G, 4G, 5G, or WiFi.

In one embodiment, after the step 205, the method further includes: monitoring whether the terminal leaves the second area or not through the collected position information; and when the terminal is monitored to leave the second area, the terminal is instructed to acquire the position information according to the first positioning frequency.

Specifically, the user needs to return to the first area when finishing the outgoing task in the second area, and the user can also perform positioning during the return. When the terminal collects the position information at the second positioning frequency, whether the terminal is located in the second area is judged according to the position information, and when the terminal is monitored to leave the second area, the position information is collected at the first positioning frequency, so that the positioning monitoring of the whole outgoing process is realized.

In this embodiment, when the terminal is monitored to leave the second area, the position information is acquired at the first positioning frequency, so that complete positioning monitoring on the outgoing task is realized.

In one embodiment, when the user completes the outbound task in the second area and returns to the first area, the location frequency on the way to the return is redetermined and the location information is obtained at the redetermined location frequency.

In one embodiment, the user may need to perform multiple outbound tasks, to different areas. The server orderly determines a plurality of areas according to the outgoing tasks, determines the positioning frequency and the time length when one area goes to the other area, and the positioning frequency in each area, and collects the position information according to the corresponding positioning frequency and time length so as to realize the positioning monitoring of the outgoing tasks in the areas.

In one embodiment, after the APP installed on the terminal monitors the entering of the working time, the location information is collected at a fixed frequency and uploaded to the server. For example, the working time is 9 on working days: 00-18:00, when the APP program monitors the current day of work and is at 9:00-18: and (3) in the time interval of 00, collecting the position information at the frequency of 10 min/time, and transmitting the position information to the server.

In one embodiment, the server may store the location information in the blockchain node to ensure privacy and security of the location information.

In this embodiment, when a terminal held by a user detects that the user leaves a first area, an outgoing task of the user is queried to determine a second area to which the user is going; estimating the time required by a user to go to the second area according to the first area and the second area, and obtaining positioning indication data comprising a first duration, a first positioning frequency and a second positioning frequency; the positioning indication data are sent to the terminal, the terminal collects position information at different frequencies in different time periods according to the positioning indication data and sends the position information to the server, wherein the position information is collected according to the first positioning frequency in the first time period, the position information is collected according to the second positioning frequency when the first time period is exceeded, positioning is not needed in real time, and the positioning frequency can be adaptively set according to an outgoing task, so that the consumption of resources is reduced.

Further, as shown in fig. 3, the step 203 may include:

in step 2031, a path planning request is generated from the first area and the second area.

Wherein the path planning request may be a navigation request for a first area to a second area.

Specifically, the server needs to determine the time required for the user to get to the second area from the first area. The server generates a path planning request with the first area as a starting point and the second area as an ending point. The path planning request can also comprise the current time, employee travel mode and the like. The travel mode of staff can be set manually, and can also be adaptively configured by a server.

Step 2032, sends the path planning request to the path planning server.

Specifically, the server sends the generated path planning request to the path planning server. The path planning server extracts a starting point and an ending point in the path planning request, performs path planning according to big data, and a path planning result comprises a first duration.

The path planning server can be a server provided by a common navigation software manufacturer, and can also be a server of a company where staff is located. The path planning server calculates the road section information of each road section and the time required by each road section to travel through big data to obtain the average duration information required by each road section to travel through.

When the path planning server receives the path planning request, selecting the road sections according to the starting point and the ending point, and inquiring the average duration information required by each road section. The path planning server obtains a recommended path according to the selected road section, calculates the length of the recommended path to obtain a path distance, and obtains a first duration according to each average duration information.

Step 2033, receiving a path planning result returned by the path planning server according to the path planning request; the path planning result comprises a first duration.

Specifically, the path planning server returns a path planning result to the server according to the path planning request. The path planning result can also comprise path distance and recommended path besides the first time length, so as to be used as a route reference when the staff goes out.

Step 2034, determining a first positioning frequency according to the first time length.

Specifically, the server extracts a first time length in the path planning result, and determines a first positioning frequency according to the first time length. The server stores a first time length-positioning frequency table, and the first time length-positioning frequency table records positioning frequencies corresponding to different first time length intervals; the server determines a first time interval in which the first time is located, and takes the positioning frequency corresponding to the first time interval as a first positioning frequency.

In step 2035, a second location frequency is determined based on the task category of the outbound task.

In particular, the outbound tasks may have multiple task categories, such as sales-type outbound tasks, valuation-type outbound tasks, with differences in the time required for the outbound tasks of the different categories. The server is pre-stored with a task category-frequency table, and the task category-frequency table records a second positioning frequency corresponding to the outgoing tasks of different task categories. And the server selects a second positioning frequency from the task category-frequency table according to the task category of the outgoing task.

Step 2036, determining the first time period, the first positioning frequency, and the second positioning frequency as positioning instruction data.

Specifically, the server determines the first duration, the first positioning frequency and the second positioning frequency as positioning indication data, packages the positioning indication data and sends the packaged positioning indication data to the terminal.

In this embodiment, a path planning request is generated according to a first area and a second area, and a path planning result corresponding to the path planning request is obtained from a path planning server, where the path planning result includes a first duration, and the first duration represents a time required from the first area to the second area; the first positioning frequency can be determined based on the first time length, and then the second positioning frequency is determined according to the task category of the outgoing task, so that positioning indication data can be obtained; the route planning result can indicate the user to go out, and the positioning indication data can indicate the terminal to acquire the position information with less resource consumption.

Further, as shown in fig. 4, the step 2035 specifically includes:

step 20351, reads the category identification of the user's outbound task.

In particular, an outbound task may include multiple categories of tasks, as may the time required for different categories of outbound tasks. Thus, the setting of the second positioning frequency may be related to the task category. The server needs to read the category identification of the task from the outgoing task. For example, when the user is an employee of an insurance company's claims department and the job of going out is an assessment, there may be a longer hold-up in the second area, for example, one hour. And when the user is an outgoing sales person, the user may have greater mobility in the second area. In both cases, the setting of the second positioning frequency is different.

Step 20352, extracting historical time length data of the historical task which is the same as the category identification from the historical task data.

Wherein, the historical task can be an outgoing task occurring in the past time; the historical duration data may be a residence time of the user in the second region.

Specifically, the server stores and counts related data when the user executes the outgoing task, and historical task data is obtained. The historical task data records category identification of outgoing tasks, task time, task place, executives, historical duration data, task results and the like. The server accesses the historical database, extracts the historical task data of the historical tasks with the same category identification, and counts the historical duration data in the historical task data.

Step 20353, determining a second positioning frequency based on the historical time duration data.

Specifically, the server divides the historical duration data into sections, divides a plurality of historical durations into different sections, selects the section with the largest data quantity, and takes the geometric average value of the upper limit and the lower limit of the section as the average historical duration of the class of historical tasks.

The server reads a time length frequency corresponding table, and the time length frequency corresponding table records the corresponding relation between different average historical time lengths and the second positioning frequency. The server inquires the determined average historical time in the time frequency corresponding table, and takes the positioning frequency corresponding to the inquired average historical time as the second positioning frequency.

In this embodiment, the historical time length data of the historical task in the same category as the outgoing task is queried, the second positioning frequency is determined based on the historical time length data, and the accuracy of the selected second positioning frequency is ensured by taking a large amount of data as a basis.

Further, as shown in fig. 4, the step 205 may further include:

step 206, generating location statistics based on the obtained location information.

The location statistics information may be information obtained by counting the location information.

Specifically, the server may perform statistics and generalization on the obtained location information according to a preset statistical method to obtain location statistical information. The location statistics may include a path trace map generated from the location information, and may further include location anomaly information generated by anomaly statistics of the location information.

In one embodiment, the step 206 specifically includes: marking each position point in the position information in the electronic map; connecting the position points to generate a path trace diagram; taking the path track diagram as position statistical information; or determining whether the position information acquisition is abnormal according to the number of the position points or the acquisition time; generating position abnormality information when position information acquisition abnormality exists; and combining the path track graph and the position abnormality information to generate position statistical information.

Specifically, the location information includes a plurality of location points, and each location point corresponds to positioning location data, acquisition time and positioning frequency. The positioning location data may be coordinate data and the acquisition time may be the time to position the location point, with the positioning frequency indicating at which frequency to position the location point.

The server marks each position point in the electronic map and connects each position point to generate a path track map for the user to go out. Because of the limitation of the outgoing task, the user can go out to be in a certain geographical range, so that an electronic fence can be arranged in the electronic map, and the position points outside the electronic fence are specially marked. The server may use the path trace map as the location statistics.

The server may also monitor whether there is an abnormality in the collection of the location information, determine that there is an abnormality in the collection of the location information when the number of location points is small, for example, less than a preset number threshold, or when it is determined that there is a missing location point according to the positioning frequency and the collection time, and generate location abnormality information in combination with the user account. The location anomaly information can also include statistics of location points outside of the electronic fence.

Position abnormality information may also be generated when there is no position information acquisition abnormality, the position abnormality information indicating that a position abnormality does not exist.

The server determines the path trajectory graph and the location statistics as location statistics. The location statistics may be statistics of one user location information or statistics of a plurality of user location information.

In this embodiment, location points are marked in the electronic map according to the location information, so as to obtain a path track map, and the path track map is used as location statistics information, or location abnormality information is generated when there is a location information acquisition abnormality, and the path track map and the location abnormality information are determined as location statistics information, so that monitoring statistics of the location information is automatically realized, and processing efficiency of the location information is improved.

Step 207, query a management account associated with the user account.

The management account may be a superior account of the user corresponding to the user account.

Specifically, the user accepts the upper management, the information related to the user account of the user can be viewed by the upper management, and the user account of the user is associated with the upper management account. The association relation between the user account and the management account is preset in the server, and the server inquires the management account associated with the user account.

And step 208, the position statistical information is sent to a management terminal logged in by a management account, so that the management terminal displays the position statistical information.

Specifically, after the server queries the management account related to the user account, the server sends the position statistical information to the management terminal logged in by the management account, and the user can check the position statistical information at the management terminal so as to monitor and manage the work of the user.

In one embodiment, a user has a plurality of upper levels, the level authorities of the upper levels are different, and the server sends statistical information in different ranges to different management accounts according to the authorities of the management accounts. For example, the user account is associated with 3 management accounts, which are in turn: the primary management account number can check the position statistical information in the whole country; the secondary management account number can check the position statistical information in the province A; and the three-level management account number can be used for checking the position statistical information in the province A and the city B. The server sends the position statistical information in the province A to the primary management account according to the position statistical information in the national range, sends the position statistical information in the province A to the secondary management account, and sends the position statistical information in the province A and the province B to the tertiary management account. It will be appreciated that the above ranges are merely examples and that more flexible adjustments may be made.

In the embodiment, the position information is counted to obtain the position statistical information, and the position statistical information is sent to the management terminal for managing account login for display, so that the work of the user is referred and managed, and the management efficiency of the outgoing task is improved.

Those skilled in the art will appreciate that implementing all or part of the above-described methods in accordance with the embodiments may be accomplished by way of a computer program stored in a computer-readable storage medium, which when executed, may comprise the steps of the embodiments of the methods described above. The storage medium may be a nonvolatile storage medium such as a magnetic disk, an optical disk, a Read-Only Memory (ROM), or a random access Memory (Random Access Memory, RAM).

It should be understood that, although the steps in the flowcharts of the figures are shown in order as indicated by the arrows, these steps are not necessarily performed in order as indicated by the arrows. The steps are not strictly limited in order and may be performed in other orders, unless explicitly stated herein. Moreover, at least some of the steps in the flowcharts of the figures may include a plurality of sub-steps or stages that are not necessarily performed at the same time, but may be performed at different times, the order of their execution not necessarily being sequential, but may be performed in turn or alternately with other steps or at least a portion of the other steps or stages.

With further reference to fig. 5, as an implementation of the method shown in fig. 2, the present application provides an embodiment of a location information obtaining apparatus, where an embodiment of the apparatus corresponds to the embodiment of the method shown in fig. 2, and the apparatus may be specifically applied to various electronic devices.

As shown in fig. 5, the position information acquisition apparatus 400 according to the present embodiment includes: an account query module 401, a task query module 402, a data determination module 403, a data sending module 404, and an information receiving module 405, wherein:

the account query module 401 is configured to query a user account logged in on the terminal when it is detected that the terminal is not in the first area.

The task query module 402 is configured to query an outgoing task of the user account to obtain a second area that the user with the terminal goes to.

A data determining module 403, configured to determine positioning indication data according to the first area and the second area; the positioning indication data includes a first time duration, a first positioning frequency, and a second positioning frequency.

The data sending module 404 is configured to send positioning indication data to the terminal, so as to instruct the terminal to collect the position information according to the first positioning frequency within a first duration, and collect the position information according to the second positioning frequency outside the first duration.

And the information receiving module 405 is configured to receive the location information acquired by the terminal according to the positioning instruction data.

In this embodiment, when a terminal held by a user detects that the user leaves a first area, an outgoing task of the user is queried to determine a second area to which the user is going; estimating the time required by a user to go to the second area according to the first area and the second area, and obtaining positioning indication data comprising a first duration, a first positioning frequency and a second positioning frequency; the positioning indication data are sent to the terminal, the terminal collects position information at different frequencies in different time periods according to the positioning indication data and sends the position information to the server, wherein the position information is collected according to the first positioning frequency in the first time period, the position information is collected according to the second positioning frequency when the first time period is exceeded, positioning is not needed in real time, and the positioning frequency can be adaptively set according to an outgoing task, so that the consumption of resources is reduced.

In some optional implementations of this embodiment, the account query module 401 includes: the device comprises an identification acquisition sub-module and a user query sub-module, wherein:

and the identifier acquisition sub-module is used for acquiring the terminal identifier reduced by the real-time access terminal list when the real-time access terminal list is detected to be changed.

And the user inquiry sub-module is used for inquiring the user account corresponding to the terminal identifier in the user list.

In this embodiment, the terminal identifier of the terminal in the first area is recorded, and when the user leaves the first area with the terminal, the user holding the terminal and the user identifier thereof can be quickly queried through the real-time access terminal list.

In some optional implementations of this embodiment, the data determining module 403 includes: the system comprises a request generation sub-module, a request transmission sub-module, a result receiving sub-module, a first determination sub-module, a second determination sub-module and a positioning determination sub-module, wherein:

and the request generation sub-module is used for generating a path planning request according to the first area and the second area.

And the request sending sub-module is used for sending the path planning request to the path planning server.

The result receiving sub-module is used for receiving a path planning result returned by the path planning server according to the path planning request; the path planning result comprises a first duration.

The first determining submodule is used for determining a first positioning frequency according to the first time length.

And the second determination submodule is used for determining a second positioning frequency based on the task category of the outgoing task.

And the positioning determination submodule is used for determining the first time length, the first positioning frequency and the second positioning frequency as positioning indication data.

In this embodiment, a path planning request is generated according to a first area and a second area, and a path planning result corresponding to the path planning request is obtained from a path planning server, where the path planning result includes a first duration, and the first duration represents a time required from the first area to the second area; the first positioning frequency can be determined based on the first time length, and then the second positioning frequency is determined according to the task category of the outgoing task, so that positioning indication data can be obtained; the route planning result can indicate the user to go out, and the positioning indication data can indicate the terminal to acquire the position information with less resource consumption.

In some optional implementations of this embodiment, the second determining submodule further includes: the device comprises a category reading sub-module, a data extraction sub-module and a frequency determination sub-module, wherein:

and the category reading sub-module is used for reading the category identification of the user outgoing task.

And the data extraction sub-module is used for extracting the historical duration data of the historical tasks with the same category identification from the historical task data.

And the frequency determination submodule is used for determining a second positioning frequency according to the historical duration data.

In this embodiment, the historical time length data of the historical task in the same category as the outgoing task is queried, the second positioning frequency is determined based on the historical time length data, and the accuracy of the selected second positioning frequency is ensured by taking a large amount of data as a basis.

In some optional implementations of this embodiment, the location information obtaining apparatus 400 further includes: monitoring module and instruction module, wherein:

and the monitoring module is used for monitoring whether the terminal leaves the second area or not through the collected position information.

And the indication module is used for indicating the terminal to acquire the position information according to the first positioning frequency when the terminal is monitored to leave the second area.

In this embodiment, when the terminal is monitored to leave the second area, the position information is acquired at the first positioning frequency, so that complete positioning monitoring on the outgoing task is realized.

In some optional implementations of this embodiment, the location information obtaining apparatus 400 further includes a statistics information generating module, a management account query module, and a statistics information sending module, where:

And the statistical information generation module is used for generating position statistical information based on the acquired position information.

And the management account query module is used for querying the management account associated with the user account.

And the statistical information sending module is used for sending the position statistical information to the management terminal logged in by the management account number so as to enable the management terminal to display the position statistical information.

In the embodiment, the position information is counted to obtain the position statistical information, and the position statistical information is sent to the management terminal for managing account login for display, so that the work of the user is referred and managed, and the management efficiency of the outgoing task is improved.

In some optional implementations of this embodiment, the statistics generating module further includes: the system comprises a position labeling sub-module, a track generation sub-module, an information generation sub-module, an abnormality determination sub-module, an abnormality information generation sub-module and a statistical information generation sub-module, wherein:

and the position marking sub-module is used for marking each position point in the position information in the electronic map.

And the track generation sub-module is used for connecting the position points to generate a path track graph.

And the information generation sub-module is used for taking the path track diagram as the position statistical information.

The abnormality determination submodule is used for determining whether the position information acquisition abnormality exists according to the number or the acquisition time of each position point.

The abnormal information generation sub-module is used for generating position abnormal information when the position information acquisition abnormality exists.

And the statistical information generation sub-module is used for combining the path track graph and the position abnormal information to generate position statistical information.

In this embodiment, location points are marked in the electronic map according to the location information, so as to obtain a path track map, and the path track map is used as location statistics information, or location abnormality information is generated when there is a location information acquisition abnormality, and the path track map and the location abnormality information are determined as location statistics information, so that monitoring statistics of the location information is automatically realized, and processing efficiency of the location information is improved.

In order to solve the technical problems, the embodiment of the application also provides computer equipment. Referring specifically to fig. 6, fig. 6 is a basic structural block diagram of a computer device according to the present embodiment.

The computer device 5 comprises a memory 51, a processor 52, a network interface 53 which are communicatively connected to each other via a system bus. It should be noted that only the computer device 5 with components 51-53 is shown in the figures, but it should be understood that not all of the illustrated components are required to be implemented and that more or fewer components may be implemented instead. It will be appreciated by those skilled in the art that the computer device herein is a device capable of automatically performing numerical calculations and/or information processing in accordance with predetermined or stored instructions, the hardware of which includes, but is not limited to, microprocessors, application specific integrated circuits (Application Specific Integrated Circuit, ASICs), programmable gate arrays (fields-Programmable Gate Array, FPGAs), digital processors (Digital Signal Processor, DSPs), embedded devices, etc.

The computer equipment can be a desktop computer, a notebook computer, a palm computer, a cloud server and other computing equipment. The computer equipment can perform man-machine interaction with a user through a keyboard, a mouse, a remote controller, a touch pad or voice control equipment and the like.

The memory 51 includes at least one type of readable storage medium including flash memory, hard disk, multimedia card, card memory (e.g., SD or DX memory, etc.), random Access Memory (RAM), static Random Access Memory (SRAM), read Only Memory (ROM), electrically Erasable Programmable Read Only Memory (EEPROM), programmable Read Only Memory (PROM), magnetic memory, magnetic disk, optical disk, etc. In some embodiments, the storage 51 may be an internal storage unit of the computer device 5, such as a hard disk or a memory of the computer device 5. In other embodiments, the memory 51 may also be an external storage device of the computer device 5, such as a plug-in hard disk, a Smart Media Card (SMC), a Secure Digital (SD) Card, a Flash Card (Flash Card) or the like, which are provided on the computer device 5. Of course, the memory 51 may also comprise both an internal memory unit of the computer device 5 and an external memory device. In this embodiment, the memory 51 is typically used for storing an operating system and various application software installed on the computer device 5, such as program codes of a location information acquisition method, and the like. Further, the memory 51 may be used to temporarily store various types of data that have been output or are to be output.

The processor 52 may be a central processing unit (Central Processing Unit, CPU), controller, microcontroller, microprocessor, or other data processing chip in some embodiments. The processor 52 is typically used to control the overall operation of the computer device 5. In this embodiment, the processor 52 is configured to execute the program code stored in the memory 51 or process data, such as the program code of the location information acquiring method.

The network interface 53 may comprise a wireless network interface or a wired network interface, which network interface 53 is typically used to establish communication connections between the computer device 5 and other electronic devices.

The computer device provided in the present embodiment may perform the steps of the above-described position information acquisition method. The steps of the position information acquisition method here may be the steps in the position information acquisition methods of the respective embodiments described above.

In this embodiment, when a terminal held by a user detects that the user leaves a first area, an outgoing task of the user is queried to determine a second area to which the user is going; estimating the time required by a user to go to the second area according to the first area and the second area, and obtaining positioning indication data comprising a first duration, a first positioning frequency and a second positioning frequency; the positioning indication data are sent to the terminal, the terminal collects position information at different frequencies in different time periods according to the positioning indication data and sends the position information to the server, wherein the position information is collected according to the first positioning frequency in the first time period, the position information is collected according to the second positioning frequency when the first time period is exceeded, positioning is not needed in real time, and the positioning frequency can be adaptively set according to an outgoing task, so that the consumption of resources is reduced.

The present application also provides another embodiment, namely, a computer-readable storage medium storing a location information acquisition program executable by at least one processor to cause the at least one processor to perform the steps of the location information acquisition method as described above.

In this embodiment, when a terminal held by a user detects that the user leaves a first area, an outgoing task of the user is queried to determine a second area to which the user is going; estimating the time required by a user to go to the second area according to the first area and the second area, and obtaining positioning indication data comprising a first duration, a first positioning frequency and a second positioning frequency; the positioning indication data are sent to the terminal, the terminal collects position information at different frequencies in different time periods according to the positioning indication data and sends the position information to the server, wherein the position information is collected according to the first positioning frequency in the first time period, the position information is collected according to the second positioning frequency when the first time period is exceeded, positioning is not needed in real time, and the positioning frequency can be adaptively set according to an outgoing task, so that the consumption of resources is reduced.

From the above description of the embodiments, it will be clear to those skilled in the art that the above-described embodiment method may be implemented by means of software plus a necessary general hardware platform, but of course may also be implemented by means of hardware, but in many cases the former is a preferred embodiment. Based on such understanding, the technical solution of the present application may be embodied essentially or in a part contributing to the prior art in the form of a software product stored in a storage medium (such as ROM/RAM, magnetic disk, optical disk), comprising several instructions for causing a terminal device (which may be a mobile phone, a computer, a server, an air conditioner, or a network device, etc.) to perform the method described in the embodiments of the present application.

The blockchain is a novel application mode of computer technologies such as distributed data storage, point-to-point transmission, consensus mechanism, encryption algorithm and the like. The Blockchain (Blockchain), which is essentially a decentralised database, is a string of data blocks that are generated by cryptographic means in association, each data block containing a batch of information of network transactions for verifying the validity of the information (anti-counterfeiting) and generating the next block. The blockchain may include a blockchain underlying platform, a platform product services layer, an application services layer, and the like.

It is apparent that the embodiments described above are only some embodiments of the present application, but not all embodiments, the preferred embodiments of the present application are given in the drawings, but not limiting the patent scope of the present application. This application may be embodied in many different forms, but rather, embodiments are provided in order to provide a more thorough understanding of the present disclosure. Although the present application has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing, or equivalents may be substituted for elements thereof. All equivalent structures made by the specification and the drawings of the application are directly or indirectly applied to other related technical fields, and are also within the protection scope of the application.

Claims (10)

1. A position information acquisition method characterized by comprising the steps of:

inquiring a user account logged in on a terminal when the terminal is detected not to be in a first area;

inquiring an outgoing task of the user account to obtain a second area to which a user holding the terminal goes;

Determining positioning indication data according to the first area and the second area; the positioning indication data comprises a first duration, a first positioning frequency and a second positioning frequency;

transmitting the positioning indication data to the terminal to indicate the terminal to acquire position information according to the first positioning frequency in the first time period and acquire position information according to the second positioning frequency outside the first time period;

and receiving the position information acquired by the terminal according to the positioning indication data, wherein the acquired position information is used for monitoring and managing an outgoing task.

2. The method for obtaining location information according to claim 1, wherein the step of querying the user account registered on the terminal when the terminal is detected not to be in the first area specifically comprises:

when detecting that the real-time access terminal list is changed, acquiring terminal identifiers reduced by the real-time access terminal list;

and inquiring a user account corresponding to the terminal identifier in a user list.

3. The method according to claim 1, wherein the step of determining positioning instruction data according to the first area and the second area specifically includes:

Generating a path planning request according to the first area and the second area;

the path planning request is sent to a path planning server;

receiving a path planning result returned by the path planning server according to the path planning request; the path planning result comprises a first duration;

determining a first positioning frequency according to the first time length;

determining a second positioning frequency based on a task class of the outgoing task;

and determining the first time length, the first positioning frequency and the second positioning frequency as positioning indication data.

4. The method according to claim 3, wherein the step of determining the second positioning frequency based on the task category of the outgoing task specifically includes:

reading the category identification of the user outgoing task;

extracting historical time length data of the historical tasks which are the same as the category identifications from the historical task data;

and determining the second positioning frequency according to the historical duration data.

5. The method according to claim 1, wherein after the step of receiving the location information acquired by the terminal according to the positioning instruction data, further comprising:

Monitoring whether the terminal leaves the second area or not through the collected position information;

and when the terminal is monitored to leave the second area, indicating the terminal to acquire position information according to the first positioning frequency.

6. The location information obtaining method according to any one of claims 1 to 5, characterized in that after the step of receiving the location information obtained by the terminal according to the positioning instruction data, the method further comprises:

generating position statistical information based on the acquired position information;

querying a management account associated with the user account;

and sending the position statistical information to a management terminal logged in by the management account number so that the management terminal displays the position statistical information.

7. The method according to claim 6, wherein the step of generating the position statistic information based on the acquired position information specifically includes:

marking each position point in the position information in the electronic map;

connecting the position points to generate a path trace diagram;

taking the path track diagram as position statistical information;

or alternatively, the process may be performed,

determining whether position information acquisition abnormality exists according to the number or acquisition time of each position point;

Generating position abnormality information when position information acquisition abnormality exists;

and combining the path track graph and the position abnormality information to generate position statistical information.

8. A position information acquisition apparatus, characterized by comprising:

the account inquiry module is used for inquiring a user account logged in the terminal when the terminal is detected not to be in the first area;

the task query module is used for querying an outgoing task of the user account to obtain a second area to which the user with the terminal goes;

the data determining module is used for determining positioning indication data according to the first area and the second area; the positioning indication data comprises a first duration, a first positioning frequency and a second positioning frequency;

the data transmitting module is used for transmitting the positioning indication data to the terminal so as to indicate the terminal to acquire position information according to the first positioning frequency in the first duration and acquire position information according to the second positioning frequency outside the first duration;

the information receiving module is used for receiving the position information acquired by the terminal according to the positioning indication data, and the acquired position information is used for monitoring and managing the outgoing task.

9. A computer device comprising a memory and a processor, the memory having stored therein a computer program, the processor implementing the steps of the location information acquisition method according to any one of claims 1 to 7 when the computer program is executed.

10. A computer-readable storage medium, characterized in that the computer-readable storage medium has stored thereon a computer program which, when executed by a processor, implements the steps of the position information acquisition method according to any one of claims 1 to 7.