CN115412633B - Position information acquisition method, device, terminal equipment and storage medium - Google Patents

Abstract

The application discloses a method, a device, a terminal device and a storage medium for acquiring position information, wherein the method for acquiring the position information comprises the following steps: responding to the position information acquisition request; judging whether the information acquisition condition based on the effective time of the cache position information is met, wherein the effective time of the cache position information is obtained by configuring a user side according to target configuration information fed back by a server side, and the target configuration information is obtained by analyzing and feeding back the target configuration information by the server side based on a preset behavior analysis rule and position analysis information uploaded by the user side; if yes, the historical position information is obtained from the cache of the user side. In the application, the user side can directly acquire the historical position information from the cache for use, the acquired historical position information has higher precision, the frequency of acquiring the position information by using the positioning system is reduced, and the problem that a large amount of power is consumed for acquiring the high-precision position information is solved.

Description

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

Technical Field

The present disclosure relates to the field of communications technologies, and in particular, to a method and apparatus for obtaining location information, a terminal device, and a storage medium.

Background

For application programs carried on mobile terminals such as mobile phones, tablet computers and vehicle-mounted central control equipment, an adaptation service is generally required to be provided according to the geographic position of a user. At present, most mobile terminals acquire high-precision position information by continuously opening GPS positioning, and in the process, the mobile terminals perform frequent data transceiving and analysis processing, so that a large amount of power consumption is caused.

Disclosure of Invention

The main purpose of the present application is to provide a method, a device, a terminal device and a storage medium for obtaining location information, which aim to solve the problem that obtaining high-precision location information consumes a large amount of power.

In order to achieve the above object, the present application provides a method for obtaining location information, where the method for obtaining location information is applied to a user terminal, and the method for obtaining location information includes:

responding to the position information acquisition request;

judging whether the information acquisition condition based on the effective time of the cache position information is met, wherein the effective time of the cache position information is configured by a user side according to target configuration information fed back by a server side, and the target configuration information is analyzed and fed back by the server side based on a preset behavior analysis rule and position analysis information uploaded by the user side;

If yes, the historical position information is obtained from the cache of the user side.

Optionally, after the step of determining whether the information acquisition condition based on the valid time of the cache location information is met, the method further includes:

if not, acquiring current position information through a positioning system;

and storing the current position information into the cache.

Optionally, the user terminal is preset with a positioning automatic update triggering condition, and the method for obtaining the position information further includes:

if a manual positioning update instruction of a user is received or the automatic positioning update triggering condition is met, uploading the position analysis information to the server;

and if the target configuration information fed back by the server is received, configuring the positioning automatic updating triggering condition according to the target configuration information.

In order to achieve the above object, the present application further provides a location information obtaining method, where the location information obtaining method is applied to a server, and the location information obtaining method includes:

receiving position analysis information uploaded by a user side;

analyzing based on a preset behavior analysis rule and the position analysis information to obtain target configuration information;

and feeding back the target configuration information to the user side so that the user side can configure effective time of the cache location information according to the target configuration information, respond to a location information acquisition request, judge whether the information acquisition condition based on the effective time of the cache location information is met, and acquire historical location information from the cache of the user side if the information acquisition condition based on the effective time of the cache location information is met.

Optionally, the step of obtaining the target configuration information by analyzing based on the preset behavior analysis rule and the position analysis information includes:

calculating and obtaining the displacement amount of the user side in unit time according to the position analysis information;

and performing configuration debugging at least once based on the displacement amount in unit time and the user side to obtain the target configuration information.

Optionally, after the step of calculating the displacement amount per unit time of the user side according to the position analysis information, the method further includes:

and matching the displacement amount in unit time with the historical configuration information to obtain the target configuration information.

The embodiment of the application also provides a position information acquisition device, which is applied to a user terminal and comprises:

the response module is used for responding to the position information acquisition request;

the judging module is used for judging whether the information acquisition condition based on the effective time of the cache position information is met, wherein the effective time of the cache position information is obtained by configuring a user side according to target configuration information fed back by a server side, and the target configuration information is obtained by analyzing and feeding back the server side based on a preset behavior analysis rule and position analysis information uploaded by the user side;

And the acquisition module is used for acquiring the historical position information from the cache of the user terminal if the historical position information is acquired.

The embodiment of the application also provides a position information acquisition device, which is applied to a server, and comprises:

the receiving module is used for receiving the position analysis information uploaded by the user side;

the analysis module is used for analyzing based on a preset behavior analysis rule and the position analysis information to obtain target configuration information;

and the feedback module is used for feeding back the target configuration information to the user terminal so that the user terminal can configure the effective time of the cache location information according to the target configuration information, respond to the location information acquisition request, judge whether the information acquisition condition based on the effective time of the cache location information is met, and acquire the historical location information from the cache of the user terminal if the information acquisition condition based on the effective time of the cache location information is met.

The embodiment of the application also provides a terminal device, which comprises a memory, a processor and a position information acquisition program stored on the memory and capable of running on the processor, wherein the position information acquisition program realizes the steps of the position information acquisition method when being executed by the processor.

The embodiments of the present application also propose a computer-readable storage medium on which a position information acquisition program is stored, which when executed by a processor implements the steps of the position information acquisition method described above.

The position information acquisition method, the device, the terminal equipment and the storage medium provided by the embodiment of the application respond to the position information acquisition request; judging whether the information acquisition condition based on the effective time of the cache position information is met, wherein the effective time of the cache position information is configured by a user side according to target configuration information fed back by a server side, and the target configuration information is analyzed and fed back by the server side based on a preset behavior analysis rule and position analysis information uploaded by the user side; if yes, the historical position information is obtained from the cache of the user side. Based on the scheme of the application, the user side can configure available time of the cache position information according to the target configuration information fed back by the server side, when the request of acquiring the position information is responded and the information acquisition condition based on the available time of the cache position information is met, the user side can directly acquire the historical position information from the cache for use, the acquired historical position information has higher precision, the frequency of acquiring the position information by using the positioning system is reduced, and the problem that a large amount of power is consumed for acquiring the high-precision position information is solved.

Drawings

Fig. 1 is a schematic diagram of a functional module of a terminal device to which a location information obtaining apparatus of the present application belongs;

FIG. 2 is a flowchart of a first exemplary embodiment of a method for obtaining location information according to the present application;

FIG. 3 is a flowchart of a second exemplary embodiment of a method for obtaining location information according to the present application;

FIG. 4 is a flowchart of a third exemplary embodiment of a method for obtaining location information according to the present application;

FIG. 5 is a flowchart of a fourth exemplary embodiment of a method for obtaining location information according to the present application;

FIG. 6 is a flowchart of a fifth exemplary embodiment of a method for obtaining location information according to the present application;

fig. 7 is a flowchart of a sixth exemplary embodiment of a location information obtaining method according to the present application.

The realization, functional characteristics and advantages of the present application will be further described with reference to the embodiments, referring to the attached drawings.

Detailed Description

It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the present application.

The main solutions of the embodiments of the present application are: responding to the position information acquisition request; judging whether the information acquisition condition based on the effective time of the cache position information is met, wherein the effective time of the cache position information is configured by a user side according to target configuration information fed back by a server side, and the target configuration information is analyzed and fed back by the server side based on a preset behavior analysis rule and position analysis information uploaded by the user side; if yes, the historical position information is obtained from the cache of the user side. Based on the scheme of the application, the user side can configure the available time of the cache position information according to the target configuration information fed back by the server side, when the information acquisition condition based on the effective time of the cache position information is met and a position information acquisition request exists, the user side can directly acquire the historical position information from the cache for use, the acquired historical position information has higher precision, the frequency of acquiring the position information by using a positioning system is reduced, and the problem that a large amount of power is consumed for acquiring the high-precision position information is solved.

Specifically, referring to fig. 1, fig. 1 is a schematic functional block diagram of a terminal device to which a location information obtaining apparatus of the present application belongs. The location information acquiring means may be a location information acquiring-enabled device independent of the terminal device, which may be carried on the terminal device in the form of hardware or software. The terminal equipment can be an intelligent mobile terminal with a data processing function such as a mobile phone and a tablet personal computer, and can also be a fixed terminal equipment or a server with a data processing function.

In this embodiment, the terminal device to which the location information obtaining apparatus belongs includes at least an output module 110, a processor 120, a memory 130, and a communication module 140.

The memory 130 stores an operating system and a location information acquiring program, and the location information acquiring device may store a location information acquiring request, an information acquiring condition based on a valid time of the cached location information, target configuration information fed back by the server, and information such as acquiring historical location information from the cache of the client in the memory 130; the output module 110 may be a display screen or the like. The communication module 140 may include a WIFI module, a mobile communication module, a bluetooth module, and the like, and communicates with an external device or a server through the communication module 140.

Wherein the location information acquiring program in the memory 130, when executed by the processor, performs the steps of:

responding to the position information acquisition request;

judging whether the information acquisition condition based on the effective time of the cache position information is met, wherein the effective time of the cache position information is configured by a user side according to target configuration information fed back by a server side, and the target configuration information is analyzed and fed back by the server side based on a preset behavior analysis rule and position analysis information uploaded by the user side;

if yes, the historical position information is obtained from the cache of the user side.

Further, the position information acquiring program in the memory 130 when executed by the processor also realizes the following steps:

if not, acquiring current position information through a positioning system;

and storing the current position information into the cache.

Further, the position information acquiring program in the memory 130 when executed by the processor also realizes the following steps:

if a manual positioning update instruction of a user is received or the automatic positioning update triggering condition is met, uploading the position analysis information to the server;

and if the target configuration information fed back by the server is received, configuring the positioning automatic updating triggering condition according to the target configuration information.

Further, the position information acquiring program in the memory 130 when executed by the processor also realizes the following steps:

receiving position analysis information uploaded by a user side;

analyzing based on a preset behavior analysis rule and the position analysis information to obtain target configuration information;

and feeding back the target configuration information to the user side so that the user side can configure effective time of the cache location information according to the target configuration information, respond to a location information acquisition request, judge whether the information acquisition condition based on the effective time of the cache location information is met, and acquire historical location information from the cache of the user side if the information acquisition condition based on the effective time of the cache location information is met.

Further, the position information acquiring program in the memory 130 when executed by the processor also realizes the following steps:

calculating and obtaining the displacement amount of the user side in unit time according to the position analysis information;

and performing configuration debugging at least once based on the displacement amount in unit time and the user side to obtain the target configuration information.

Further, the position information acquiring program in the memory 130 when executed by the processor also realizes the following steps:

and matching the displacement amount in unit time with the historical configuration information to obtain the target configuration information.

The embodiment responds to the position information obtaining request through the scheme; judging whether the information acquisition condition based on the effective time of the cache position information is met, wherein the effective time of the cache position information is configured by a user side according to target configuration information fed back by a server side, and the target configuration information is analyzed and fed back by the server side based on a preset behavior analysis rule and position analysis information uploaded by the user side; if yes, the historical position information is obtained from the cache of the user side. In this embodiment, the user side may configure the available time of the cache location information according to the target configuration information fed back by the server side, and when the location information obtaining request is responded and the information obtaining condition based on the effective time of the cache location information is met, the user side may directly obtain the historical location information from the cache for use, and the obtained historical location information has higher precision, so that the frequency of obtaining the location information by using the positioning system is reduced, and the problem that a large amount of power is consumed for obtaining the location information with high precision is solved.

Referring to fig. 2, a flowchart is provided in a first embodiment of a location information obtaining method, where the location information obtaining method is applied to a user side, and the location information obtaining method includes:

Step S10, responding to a position information acquisition request;

specifically, the user side of the embodiment may refer to a smart phone, a tablet computer, a notebook computer, an in-vehicle central control device or other mobile terminals, and different application programs or services are integrated on the user side, where a part of application programs or services need to obtain location information of the user side when in use. For example, an application needs to acquire location information, push nearby gas station information to a user, or push nearby parking lot information to a user. When the application program or the service generates a position information acquisition request, the user side responds to the position information acquisition request and further executes a position information acquisition step.

Step S20, judging whether an information acquisition condition based on effective time of the cache position information is met, wherein the effective time of the cache position information is obtained by configuring a user side according to target configuration information fed back by a server side, and the target configuration information is obtained by analyzing and feeding back the server side based on a preset behavior analysis rule and position analysis information uploaded by the user side;

the user may carry the user terminal to move in various modes such as walking, running, riding, etc., and the moving modes generally correspond to different moving speeds, and the change of the position information of the user terminal also shows a large difference. The displacement distance of the user side in unit time is short in the case of walking, and is long in the case of riding. Based on the rule, the user side uploads position analysis information to the server, wherein the position analysis information comprises one or more items of information such as current position information of the user side, position information (history position information) acquired last time, a time node corresponding to the acquired position information, current user information and the like. Correspondingly, the server receives the position analysis information uploaded by the user terminal, analyzes the position analysis information, and obtains one or more items of information such as current position information, position information (history position information) acquired last time, time nodes corresponding to the acquired position information, current user information and the like. Then, the service end analyzes the current position information, the last historical position information and the time node corresponding to the acquired position information of the user end based on a preset behavior analysis rule to obtain the displacement of the user end in unit time, and further judges the moving mode of the user end. For example, the current position of the user terminal is 3km away from the last historical position, the deviation between the current position information and the time node for obtaining the position information last time is 10min, and the unit time is 1h, so that the displacement amount of the user terminal in unit time is 18km/h. The server side can obtain target configuration information according to the unit time displacement corresponding to the user side by a table lookup or a debugging method with the user side, wherein the target configuration information at least comprises a time value for configuring the effective time of the cache position information. Then, the server feeds back the target configuration information to the user side, and correspondingly, the user side receives the target configuration information fed back by the server side, analyzes the target configuration information to obtain a time value for configuring the effective time of the cache location information, and configures the effective time of the cache location information according to the time value. In addition, the user end is also preset with information acquisition conditions based on the effective time of the cache position information, and the content of the information acquisition conditions is as follows: and when the user side acquires the position information at any time, starting to calculate the effective time of the cache position information. If the current time does not exceed the effective time of the cache position information, the information acquisition condition is met; if the current time exceeds the effective time of the cache position information, the information acquisition condition is not met.

And step S30, if yes, acquiring historical position information from the cache of the user side.

If the previous step judges that the information acquisition condition is met, namely the current time does not exceed the effective time of the cache position information, the position information (history position information) stored last time can be directly acquired from the cache.

For example, the effective time of the buffer location information is set to be 3 minutes, the ue obtains the primary location information p=x through the positioning system at 14:00:00, and stores the primary location information p=x into the buffer, and starts to calculate the effective time of the buffer location information. Then, the ue may directly acquire the location information p=x from the cache in response to the location information acquisition request at 14:02:58. The user side can respond to any number of position information acquisition requests within the range of 14:00:00-14:03:00 to acquire the position information from the cache. If the user side responds to the location information obtaining request at 14:05:00, and the effective time of the cache location information is exceeded for 3 minutes, new location information p=y needs to be obtained through the positioning system, the p=y is stored in the cache, and then the effective time of the cache location information starts to be calculated.

The embodiment responds to the position information obtaining request through the scheme; judging whether the information acquisition condition based on the effective time of the cache position information is met, wherein the effective time of the cache position information is configured by a user side according to target configuration information fed back by a server side, and the target configuration information is analyzed and fed back by the server side based on a preset behavior analysis rule and position analysis information uploaded by the user side; if yes, the historical position information is obtained from the cache of the user side. In this embodiment, the user side may configure the available time of the cache location information according to the target configuration information fed back by the server side, and when the location information obtaining request is responded and the information obtaining condition based on the effective time of the cache location information is met, the user side may directly obtain the historical location information from the cache for use, and the obtained historical location information has higher precision, so that the frequency of obtaining the location information by using the positioning system is reduced, and the problem that a large amount of power is consumed for obtaining the location information with high precision is solved.

Further, referring to fig. 3, a flowchart is provided in a second embodiment of the location information obtaining method according to the present application, and based on the embodiment shown in fig. 2, step S20, after determining whether the information obtaining condition based on the valid time of the cache location information is met, further includes:

step S001, if not, acquiring current position information through a positioning system;

the historical position information stored in the cache has certain timeliness, and if the historical position information exceeds a certain time range, the accurate position information cannot be obtained from the cache. If step S20 determines that the information obtaining condition is not met, that is, the current time exceeds the effective time of the cached location information, the current location information needs to be obtained again through the positioning system. Specifically, when the user side acquires the position information at any time, the user side starts to calculate the effective time of the cache position information, and the user side can directly acquire the position information (history position information) stored last time from the cache as long as responding to the position information acquisition request within the effective time of the cache position information. If the effective time of the cached location information is exceeded (i.e., the information acquisition condition is not met), new location information (current location information) needs to be acquired again through the positioning system.

For example, the effective time of the buffer location information is 3 minutes, the ue obtains the primary location information p=x through the positioning system at 14:00:00, and stores the primary location information p=x into the buffer, and starts to calculate the effective time of the buffer location information. If the ue responds to the location information obtaining request at 14:05:00, the valid time for caching the location information is already exceeded for 3 minutes, and new location information p=y needs to be obtained through the positioning system.

Step S002, storing the current position information into the cache.

Specifically, after the user side obtains new location information (current location information) through the positioning system, the new location information needs to be stored in the cache to update the original historical location information, and meanwhile, the effective time of the cache location information starts to be calculated.

For example, the original historical position information p=x is stored in the buffer, and the user side acquires the new position information p=y through the positioning system and then stores the new position information p=y in the buffer to cover the original historical position information p=x. At the same time, the effective time of the buffer position information starts to be calculated for 3 minutes. In the effective time of the buffer memory position information, if the user side responds to the position information obtaining request, the position information p=y can be directly obtained from the buffer memory.

According to the embodiment, through the scheme, specifically, if not, the current position information is obtained through the positioning system; and storing the current position information into the cache. In this embodiment, the fact that the information obtaining condition is not met indicates that the historical position information in the cache is out of timeliness, at this time, if the user side responds to the position information obtaining request, new position information needs to be obtained through the positioning system again, then the new position information is stored in the cache to cover old position information, so that timeliness of the position information in the cache is guaranteed, and accurate position information is further obtained from the cache.

Further, referring to fig. 4, a flowchart is provided in a third embodiment of the method for obtaining location information, based on the embodiment shown in fig. 2, the user end is preset with a location automatic update triggering condition, and the method for obtaining location information further includes:

step S003, if a manual update instruction of the positioning of the user is received or the automatic update triggering condition of the positioning is met, uploading the position analysis information to the server;

specifically, in order to make the historical position information stored in the cache conform to the motion state of the user side, the embodiment provides two ways of updating the position information in the cache.

For the positioning manual updating instruction, the user side provides a corresponding virtual button or other operable man-machine interaction units, and when the user needs real-time position information, the user inputs the positioning manual updating instruction to the user side by clicking the corresponding virtual button or operating the man-machine interaction units. Correspondingly, the user side receives a manual positioning update instruction of the user, and then uploads position analysis information to the server side according to the manual positioning update instruction, wherein the position analysis information comprises one or more items of information such as current position information of the user side, position information (historical position information) acquired last time, a time node corresponding to the acquired position information, current user information and the like. Accordingly, the server receives the position analysis information uploaded by the user terminal.

For example, a virtual button for updating position information is arranged in a man-machine interaction interface of the user side, and the user clicks the virtual button, which is equivalent to generating a manual positioning update instruction, and correspondingly, the user side receives the manual positioning update instruction and then uploads position analysis information to the server side.

For the automatic update triggering condition of the positioning, the user end is preset with a displacement range in unit time. The user end analyzes according to the position information obtained twice continuously and the corresponding time node to obtain the corresponding displacement amount in unit time, and then judges whether the displacement amount in unit time is in the preset displacement amount range in unit time. And if the displacement amount of the unit time obtained by continuously and repeatedly obtaining the displacement amount is not in the preset displacement amount range of the unit time, determining that the automatic updating triggering condition of the positioning is met. At this time, the user side uploads the location analysis information to the server side, where the location analysis information includes one or more information such as current location information of the user side, location information (history location information) acquired last time, a time node corresponding to the acquired location information, and current user information. Accordingly, the server receives the position analysis information uploaded by the user terminal.

For example, the preset displacement range of the user end in unit time is [5km/h,15km/h ], and the positioning automatic updating triggering condition requires to continuously judge that the displacement in unit time is not in the preset displacement range in unit time for 3 times, namely triggering automatic updating. If the displacement amount of the unit time obtained by continuous 3 times of analysis is 16km/h, 18km/h and 17km/h respectively, the automatic update of the positioning is triggered without the displacement amount within the preset displacement amount range of the unit time. At this time, the user side uploads the position analysis information to the server side; if the displacement amount per unit time obtained by continuous 4 times of analysis is 16km/h, 18km/h, 14km/h and 17km/h respectively, although 3 times of the displacement amount per unit time exceeds the preset displacement amount range per unit time, continuous conditions are not satisfied, and therefore automatic update of the positioning cannot be triggered.

Step S004, if the target configuration information fed back by the server is received, configuring the automatic update triggering condition of the positioning according to the target configuration information.

Specifically, the target configuration information further includes trigger condition configuration information, where the trigger condition configuration information is used to configure the positioning automatic update trigger condition. If the user side receives the target configuration information fed back by the server side, the target configuration information needs to be analyzed to obtain trigger condition configuration information, and the automatic positioning updating trigger condition is further configured so that the automatic positioning updating trigger condition accords with the motion state of the user side.

The server analyzes the current position information, the latest historical position information and the time node corresponding to the acquired position information of the user terminal based on a preset behavior analysis rule to obtain the unit time displacement of the user terminal, and then determines a unit time displacement range based on the unit time displacement, and generates trigger condition configuration information. The trigger condition configuration information is contained in the target configuration information, and is sent to the user side by the server side. The user receives the target configuration information fed back by the server and analyzes the target configuration information to obtain trigger condition configuration information, wherein the trigger condition configuration information is used for configuring the automatic update trigger condition of the positioning so that the automatic update trigger condition of the positioning accords with the motion state of the user.

For example, the server analyzes that the displacement amount per unit time of the user is 15km/h based on a preset behavior analysis rule and position analysis information, uses 15km/h as an intermediate value, uses 3km/h as a deviation, obtains a displacement amount range per unit time [12km/h,18km/h ], and generates trigger condition configuration information according to the displacement amount range per unit time, wherein the trigger condition configuration information is contained in target configuration information, and is sent to the user by the server. Correspondingly, the user receives the target configuration information fed back by the server and analyzes the target configuration information to obtain the trigger condition configuration information. Then, the user side configures the new displacement range of unit time to be [12km/h,18km/h ] according to the trigger condition configuration information.

According to the embodiment, the position analysis information is uploaded to the server side if a manual positioning update instruction of a user is received or the automatic positioning update triggering condition is met; and if the target configuration information fed back by the server is received, configuring the positioning automatic updating triggering condition according to the target configuration information. In this embodiment, updating of the location information in the cache may be performed manually or automatically, and when the user needs to update the location information or the user terminal automatically determines that new location information needs to be acquired, the user terminal uploads the location analysis information to the server terminal for analysis, and finally, the target configuration information may be obtained to change the effective time of the cache location information, so that the effective time of the cache location information is adapted to the motion state of the user terminal. In addition, the server configures positioning automatic updating triggering conditions according to the received target configuration information, so that the user side can trigger positioning automatic updating more reasonably under different motion states, and more accurate position information is obtained.

Referring to fig. 5, a fourth embodiment of a location information obtaining method of the present application provides a flowchart, where the location information obtaining method is applied to a server, and the location information obtaining method includes:

Step A10, receiving position analysis information uploaded by a user side;

specifically, the user side of the embodiment may refer to a smart phone, a tablet computer, a notebook computer, an in-vehicle central control device or other mobile terminals, and different application programs or services are integrated on the user side, where a part of application programs or services need to obtain location information of the user side when in use. For example, an application needs to acquire location information, push nearby gas station information to a user, or push nearby parking lot information to a user. The user may carry the user terminal to move in various modes such as walking, running, riding, etc., and the moving modes generally correspond to different moving speeds, and the change of the position information of the user terminal also shows a large difference. The displacement distance of the user side in unit time is short in the case of walking, and is long in the case of riding. Based on the rule, the user side uploads position analysis information to the server, wherein the position analysis information comprises one or more items of information such as current position information of the user side, position information (history position information) acquired last time, a time node corresponding to the acquired position information, current user information and the like. Accordingly, the server receives the position analysis information uploaded by the user terminal.

Step A20, analyzing based on a preset behavior analysis rule and the position analysis information to obtain target configuration information;

specifically, after receiving the position analysis information uploaded by the user side, the server side analyzes the position analysis information to obtain one or more items of information such as current position information, position information (history position information) acquired last time, a time node corresponding to the acquired position information, current user information and the like. Then, the service end analyzes the current position information, the last historical position information and the time node corresponding to the acquired position information of the user end based on a preset behavior analysis rule to obtain the displacement of the user end in unit time, and further judges the moving mode of the user end. For example, the current position of the user terminal is 3km away from the last historical position, the deviation between the current position information and the time node for obtaining the position information last time is 10min, and the unit time is 1h, so that the displacement amount of the user terminal in unit time is 18km/h. The server side can obtain target configuration information according to the unit time displacement corresponding to the user side by a table lookup or a debugging method with the user side, wherein the target configuration information at least comprises a time value for configuring the effective time of the cache position information.

And step A30, feeding back the target configuration information to the user side so that the user side can configure effective time of the cache location information according to the target configuration information, and responding to a location information acquisition request to judge whether the information acquisition condition based on the effective time of the cache location information is met, if so, acquiring historical location information from the cache of the user side.

Specifically, after the target configuration information is obtained through analysis, the server feeds back the target configuration information to the user. Correspondingly, the user side receives target configuration information fed back by the server side, analyzes the target configuration information to obtain a time value for configuring the effective time of the cache location information, and configures the effective time of the cache location information according to the time value. In addition, the user end is also preset with information acquisition conditions based on the effective time of the cache position information, and the content of the information acquisition conditions is as follows: when the user side acquires the position information at any time, the user side starts to calculate the effective time of the cache position information, and in the effective time of the cache position information, the user side can directly acquire the position information (history position information) stored last time from the cache as long as the user side responds to the position information acquisition request, namely, a certain application program or service of the user side needs to acquire the position information. For example, the effective time of the buffer location information is 3 minutes, the ue obtains the primary location information p=x through the positioning system at 14:00:00, and stores the primary location information p=x into the buffer, and starts to calculate the effective time of the buffer location information. Then, the ue may directly acquire the location information p=x from the cache in response to the location information acquisition request at 14:02:58. The user side can respond to any number of position information acquisition requests within the range of 14:00:00-14:03:00 to acquire the position information from the cache. If the user side responds to the location information obtaining request at 14:05:00, and the effective time of the cache location information is exceeded for 3 minutes, new location information p=y needs to be obtained through the positioning system, the p=y is stored in the cache, and then the effective time of the cache location information starts to be calculated.

According to the embodiment, through the scheme, the position analysis information uploaded by the user side is received; analyzing based on a preset behavior analysis rule and the position analysis information to obtain target configuration information; and feeding back the target configuration information to the user side so that the user side can configure effective time of the cache location information according to the target configuration information, respond to a location information acquisition request, judge whether the information acquisition condition based on the effective time of the cache location information is met, and acquire historical location information from the cache of the user side if the information acquisition condition based on the effective time of the cache location information is met. In this embodiment, the server receives the location analysis information uploaded by the user, analyzes the location analysis information, and feeds back the target configuration information to the user. The user side can configure the available time of the cache location information according to the target configuration information, so that when the user side responds to the location information acquisition request and judges that the information acquisition condition based on the effective time of the cache location information is met, the user side can directly acquire the historical location information from the cache for use. The target configuration information is obtained by analyzing based on the position analysis information of the user side, so that the effective time of the configured cache position information accords with the motion state of the user side, the acquired historical position information has higher precision, the frequency of acquiring the position information by using a positioning system is reduced, and the problem that a large amount of power is consumed for acquiring the high-precision position information is solved.

Further, referring to fig. 6, a flowchart is provided in a fifth embodiment of the location information obtaining method of the present application, based on the embodiment shown in fig. 5, step a20 includes performing analysis based on a preset behavior analysis rule and the location analysis information, to obtain further refinement of the target configuration information, where the method includes:

step A201, calculating and obtaining the displacement amount of the user side in unit time according to the position analysis information;

specifically, the location analysis information uploaded by the user side includes one or more items of information such as current location information of the user side, location information (history location information) acquired last time, a time node corresponding to the acquired location information, and current user information. The user side can calculate the corresponding displacement amount in unit time based on the position analysis information. For example, the current position of the user terminal is 3km away from the last historical position, the deviation between the current position information and the time node for obtaining the position information last time is 10min, and the unit time is 1h, so that the displacement amount of the user terminal in unit time is 18km/h.

And step A202, performing configuration debugging at least once on the basis of the unit time displacement and the user side to obtain the target configuration information.

Specifically, the server stores a displacement range of a unit time currently set by the user, compares the analyzed displacement of the user corresponding to the unit time with the displacement range of the unit time, further adjusts configuration information by feedback according to a comparison result, adjusts effective time of cache position information of the user until the displacement of the user corresponding to a plurality of times continuously is within a preset displacement range of the unit time, stops the debugging process, and obtains target configuration information.

For example, the effective time of the buffer memory position information currently set by the user side is 3 minutes, and the server side stores the displacement range of the unit time currently set by the user side as [12km/h,15km/h ]. The unit time displacement corresponding to the user end obtained through analysis is 18km/h, and the unit time displacement exceeds the unit time displacement range currently set by the user end, namely the user end is indicated to move faster currently, and the frequency of acquiring the position information through the positioning system is required to be improved so as to realize accurate positioning. For this reason, the server side sends the adjustment configuration information to the client side for the first time, and the client side configures the effective time of the buffer location information to be 2 minutes according to the adjustment configuration information, and configures the displacement range of unit time to be [13km/h,16km/h ]. Then, the displacement amount of the user end in a unit time corresponding to a plurality of times is 18km/h, and the displacement amount exceeds the displacement amount range of the unit time [13km/h,16km/h ]. The server side sends the adjustment configuration information to the user side for the second time, the user side configures the effective time of the buffer memory position information to be 1 minute according to the adjustment configuration information, and the displacement range of unit time is configured to be [16km/h,19km/h ]. Then, the displacement amount of the user end in a unit time corresponding to a plurality of times is 18km/h, and the displacement amount range [16km/h,19km/h ] in the unit time is not exceeded. At this time, the server records the effective time configuration of the cache location information for 1 minute and the displacement range of unit time (16 km/h,19 km/h), and takes the effective time configuration as the target configuration information.

According to the scheme, the displacement amount of the user side in unit time is calculated according to the position analysis information; and performing configuration debugging at least once based on the displacement amount in unit time and the user side to obtain the target configuration information. In this embodiment, the server calculates a displacement amount per unit time corresponding to the user terminal based on the position analysis information, where the displacement amount per unit time reflects a motion state of the user terminal, and performs configuration debugging at least once with the user terminal based on the displacement amount per unit time to obtain target configuration information, so that the target configuration information can better adapt to the motion state of the user terminal.

Further, referring to fig. 7, a flowchart is provided in a sixth embodiment of the location information obtaining method according to the present application, based on the embodiment shown in fig. 5, step a201 further includes, after calculating the unit time displacement amount of the user terminal according to the location analysis information:

and step A001, matching the displacement amount in unit time with the historical configuration information to obtain the target configuration information.

Specifically, the server stores historical configuration information about the user side, and each item of historical configuration information comprises a displacement amount in unit time and a corresponding effective time and displacement amount range of the cache position information. After analyzing the obtained displacement amount of the user side in unit time, matching the displacement amount of the user side in unit time serving as a matching condition with the historical configuration information stored in the server side, thereby obtaining the effective time of the corresponding cache position information and the displacement amount range in unit time, and obtaining the target configuration information.

For example, the server stores history configuration information a, history configuration information B, and history configuration information C. The history configuration information A comprises 15km/h of displacement amount per unit time, 3 minutes of effective time of the buffer memory position information and a displacement amount range per unit time [14km/h,16km/h ]; the history configuration information B comprises a displacement amount of unit time of 16km/h, effective time of the buffer position information of 2 minutes, and a displacement amount range of unit time of 15km/h and 17 km/h; the history configuration information C includes a displacement amount per unit time of 17km/h, an effective time of the buffer position information of 1 minute, and a displacement amount range per unit time of [16km/h,18km/h ]. The server analyzes the current displacement of the user side in unit time of 16km/h, matches the displacement of the user side in unit time of 16km/h with the historical configuration information stored by the server side to obtain the historical configuration information B, and obtains the corresponding effective time of the cache position information for 2 minutes and the displacement range of the user side in unit time of 15km/h and 17km/h as target configuration information.

According to the scheme, the target configuration information is obtained by matching the displacement amount in unit time with the history configuration information. In this embodiment, the server stores the historical configuration information about the user side, and after the current displacement amount per unit time of the user side is obtained by calculation, the displacement amount per unit time of the user side can be further matched with the historical configuration information, so as to obtain the target configuration information. Therefore, the analysis time of the server can be effectively shortened, and the target configuration information suitable for the motion state of the user terminal can be rapidly obtained.

In addition, an embodiment of the present application further provides a location information obtaining device, where the location information obtaining device is applied to a user side, and the location information obtaining device includes:

the response module is used for responding to the position information acquisition request;

the judging module is used for judging whether the information acquisition condition based on the effective time of the cache position information is met, wherein the effective time of the cache position information is obtained by configuring a user side according to target configuration information fed back by a server side, and the target configuration information is obtained by analyzing and feeding back the server side based on a preset behavior analysis rule and position analysis information uploaded by the user side;

and the acquisition module is used for acquiring the historical position information from the cache of the user terminal if the historical position information is acquired. The principle and implementation process of the location information acquisition in this embodiment are referred to the above embodiments, and are not described herein.

In addition, an embodiment of the present application further provides a location information obtaining device, where the location information obtaining device is applied to a server, and the location information obtaining device includes:

the receiving module is used for receiving the position analysis information uploaded by the user side;

the analysis module is used for analyzing based on a preset behavior analysis rule and the position analysis information to obtain target configuration information;

And the feedback module is used for feeding back the target configuration information to the user terminal so that the user terminal can configure the effective time of the cache location information according to the target configuration information, respond to the location information acquisition request, judge whether the information acquisition condition based on the effective time of the cache location information is met, and acquire the historical location information from the cache of the user terminal if the information acquisition condition based on the effective time of the cache location information is met.

The principle and implementation process of the location information acquisition in this embodiment are referred to the above embodiments, and are not described herein.

In addition, the embodiment of the application also provides a terminal device, which comprises a memory, a processor and a position information acquisition program stored on the memory and capable of running on the processor, wherein the position information acquisition program realizes the steps of the position information acquisition method when being executed by the processor.

Because the present location information acquiring program is executed by the processor, all the technical solutions of all the foregoing embodiments are adopted, and therefore at least all the beneficial effects brought by all the technical solutions of all the foregoing embodiments are not described in detail herein.

In addition, the embodiment of the application also proposes a computer-readable storage medium, on which a position information acquisition program is stored, which when executed by a processor, implements the steps of the position information acquisition method as described above.

Because the present location information acquiring program is executed by the processor, all the technical solutions of all the foregoing embodiments are adopted, and therefore at least all the beneficial effects brought by all the technical solutions of all the foregoing embodiments are not described in detail herein.

Compared with the prior art, the method, the device, the terminal equipment and the storage medium for acquiring the position information are provided by the embodiment of the application, and the position information acquisition request is responded; judging whether the information acquisition condition based on the effective time of the cache position information is met, wherein the effective time of the cache position information is configured by a user side according to target configuration information fed back by a server side, and the target configuration information is analyzed and fed back by the server side based on a preset behavior analysis rule and position analysis information uploaded by the user side; if yes, the historical position information is obtained from the cache of the user side. Based on the scheme of the application, the user side can configure available time of the cache position information according to the target configuration information fed back by the server side, when the request of acquiring the position information is responded and the information acquisition condition based on the available time of the cache position information is met, the user side can directly acquire the historical position information from the cache for use, the acquired historical position information has higher precision, the frequency of acquiring the position information by using the positioning system is reduced, and the problem that a large amount of power is consumed for acquiring the high-precision position information is solved.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or system 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 system. 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 system that comprises the element.

The foregoing embodiment numbers of the present application are merely for describing, and do not represent advantages or disadvantages of the embodiments.

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 (e.g. ROM/RAM, magnetic disk, optical disk) as above, including several instructions for causing a terminal device (which may be a mobile phone, a computer, a server, a controlled terminal, or a network device, etc.) to perform the method of each embodiment of the present application.

The foregoing description is only of the preferred embodiments of the present application, and is not intended to limit the scope of the claims, and all equivalent structures or equivalent processes using the descriptions and drawings of the present application, or direct or indirect application in other related technical fields are included in the scope of the claims of the present application.

Claims (9)

1. The method for acquiring the position information is characterized in that the method for acquiring the position information is applied to a user side and comprises the following steps:

responding to the position information acquisition request;

judging whether the information acquisition condition based on the effective time of the cache position information is met, wherein the effective time of the cache position information is configured by a user side according to target configuration information fed back by a server side, and the target configuration information is analyzed and fed back by the server side based on a preset behavior analysis rule and position analysis information uploaded by the user side;

if yes, the historical position information is obtained from the cache of the user side.

The server analyzes based on the preset behavior analysis rule and the position analysis information, and the step of obtaining the target configuration information comprises the following steps:

Calculating and obtaining the displacement amount of the user side in unit time according to the position analysis information;

performing configuration debugging at least once based on the displacement amount in unit time and the user side to obtain the target configuration information;

the step of configuration debugging comprises the following steps:

comparing the continuous displacement amount of a plurality of unit time with the displacement amount range of the unit time corresponding to the user terminal;

if the continuous unit time displacement amounts exceed the unit time displacement amount range corresponding to the user side, adjusting the effective time and the unit time displacement amount range of the cache position information of the user side, and returning to the execution step: comparing the continuous displacement amount of a plurality of unit time with the displacement amount range of the unit time corresponding to the user terminal;

if at least one unit time displacement quantity in the continuous plurality of unit time displacement quantities does not exceed the unit time displacement quantity range corresponding to the user side, obtaining the target configuration information, and ending configuration debugging.

2. The location information acquiring method as claimed in claim 1, wherein after the step of judging whether or not the information acquiring condition based on the valid time of the cache location information is satisfied, further comprising:

If not, acquiring current position information through a positioning system;

and storing the current position information into the cache.

3. The method for obtaining location information according to claim 1, wherein the user terminal is preset with a location automatic update triggering condition, and the method for obtaining location information further comprises:

if a manual positioning update instruction of a user is received or the automatic positioning update triggering condition is met, uploading the position analysis information to the server;

and if the target configuration information fed back by the server is received, configuring the positioning automatic updating triggering condition according to the target configuration information.

4. The method for acquiring the position information is characterized in that the method for acquiring the position information is applied to a server and comprises the following steps:

receiving position analysis information uploaded by a user side;

analyzing based on a preset behavior analysis rule and the position analysis information to obtain target configuration information;

the target configuration information is fed back to the user side, so that the user side configures effective time of the cache location information according to the target configuration information, responds to a location information acquisition request, judges whether an information acquisition condition based on the effective time of the cache location information is met, and acquires historical location information from the cache of the user side if the information acquisition condition based on the effective time of the cache location information is met;

The step of analyzing based on the preset behavior analysis rule and the position analysis information to obtain the target configuration information comprises the following steps:

calculating and obtaining the displacement amount of the user side in unit time according to the position analysis information;

performing configuration debugging at least once based on the displacement amount in unit time and the user side to obtain the target configuration information;

the step of configuration debugging comprises the following steps:

comparing the continuous displacement amount of a plurality of unit time with the displacement amount range of the unit time corresponding to the user terminal;

if the continuous unit time displacement amounts exceed the unit time displacement amount range corresponding to the user side, adjusting the effective time and the unit time displacement amount range of the cache position information of the user side, and returning to the execution step: comparing the continuous displacement amount of a plurality of unit time with the displacement amount range of the unit time corresponding to the user terminal;

if at least one unit time displacement quantity in the continuous plurality of unit time displacement quantities does not exceed the unit time displacement quantity range corresponding to the user side, obtaining the target configuration information, and ending configuration debugging.

5. The method for acquiring position information according to claim 4, wherein after the step of calculating the displacement amount per unit time of the user terminal based on the position analysis information, the method further comprises:

and matching the displacement amount in unit time with the historical configuration information to obtain the target configuration information.

6. A location information acquiring apparatus, wherein the location information acquiring apparatus is applied to a user terminal, the location information acquiring apparatus comprising:

the response module is used for responding to the position information acquisition request;

the judging module is used for judging whether the information acquisition condition based on the effective time of the cache position information is met, wherein the effective time of the cache position information is obtained by configuring a user side according to target configuration information fed back by a server side, and the target configuration information is obtained by analyzing and feeding back the server side based on a preset behavior analysis rule and position analysis information uploaded by the user side;

the acquisition module is used for acquiring the historical position information from the cache of the user side if yes;

the server analyzes based on the preset behavior analysis rule and the position analysis information, and the step of obtaining the target configuration information comprises the following steps:

Calculating and obtaining the displacement amount of the user side in unit time according to the position analysis information;

performing configuration debugging at least once based on the displacement amount in unit time and the user side to obtain the target configuration information;

the step of configuration debugging comprises the following steps:

comparing the continuous displacement amount of a plurality of unit time with the displacement amount range of the unit time corresponding to the user terminal;

if the continuous unit time displacement amounts exceed the unit time displacement amount range corresponding to the user side, adjusting the effective time and the unit time displacement amount range of the cache position information of the user side, and returning to the execution step: comparing the continuous displacement amount of a plurality of unit time with the displacement amount range of the unit time corresponding to the user terminal;

if at least one unit time displacement quantity in the continuous plurality of unit time displacement quantities does not exceed the unit time displacement quantity range corresponding to the user side, obtaining the target configuration information, and ending configuration debugging.

7. A location information acquiring apparatus, wherein the location information acquiring apparatus is applied to a server, the location information acquiring apparatus comprising:

The receiving module is used for receiving the position analysis information uploaded by the user side;

the analysis module is used for analyzing based on a preset behavior analysis rule and the position analysis information to obtain target configuration information;

the feedback module is used for feeding back the target configuration information to the user side so that the user side can configure effective time of the cache location information according to the target configuration information, respond to a location information acquisition request, judge whether the information acquisition condition based on the effective time of the cache location information is met, and acquire historical location information from the cache of the user side if the information acquisition condition based on the effective time of the cache location information is met;

the step of analyzing based on the preset behavior analysis rule and the position analysis information to obtain the target configuration information comprises the following steps:

calculating and obtaining the displacement amount of the user side in unit time according to the position analysis information;

performing configuration debugging at least once based on the displacement amount in unit time and the user side to obtain the target configuration information;

the step of configuration debugging comprises the following steps:

comparing the continuous displacement amount of a plurality of unit time with the displacement amount range of the unit time corresponding to the user terminal;

If the continuous unit time displacement amounts exceed the unit time displacement amount range corresponding to the user side, adjusting the effective time and the unit time displacement amount range of the cache position information of the user side, and returning to the execution step: comparing the continuous displacement amount of a plurality of unit time with the displacement amount range of the unit time corresponding to the user terminal;

if at least one unit time displacement quantity in the continuous plurality of unit time displacement quantities does not exceed the unit time displacement quantity range corresponding to the user side, obtaining the target configuration information, and ending configuration debugging.

8. A terminal device, characterized in that the terminal device comprises a memory, a processor and a location information acquisition program stored on the memory and executable on the processor, which location information acquisition program, when executed by the processor, implements the steps of the location information acquisition method according to any one of claims 1-3 or 4-5.

9. A computer-readable storage medium, characterized in that the computer-readable storage medium has stored thereon a position information acquisition program which, when executed by a processor, implements the steps of the position information acquisition method according to any one of claims 1-3 or 4-5.