CN115361728B - Location service configuration method for user terminal, computer device and storage medium - Google Patents

Abstract

The invention discloses a position service configuration method of a user terminal, a computer device and a storage medium. The invention realizes that the opening or closing of the position service of the user terminal can be changed along with the population density and the geographic type of the position where the user terminal is positioned, and the user terminal only opens the position service function when entering the area with specific population density and geographic type, and closes the position service function at other moments, thereby reducing the opening time of the position service function, reducing the energy consumption of the user terminal and improving the cruising performance of the user terminal. The invention is widely applied to the technical field of communication.

Description

Location service configuration method for user terminal, computer device and storage medium

Technical Field

The present invention relates to the field of communications technologies, and in particular, to a location service configuration method for a user terminal, a computer device, and a storage medium.

Background

The location service (Location Based Services, LBS), which is also called a location service, is a value added service provided by combining a mobile communication network and a satellite positioning system, obtains location information (such as longitude and latitude coordinate data) of a mobile terminal through a set of positioning technologies, and provides the location information to a mobile user or another person and the communication system to realize various services related to location. The location service is a novel service related to space location with a wider concept, and can be combined with the technical support of a geographic information system (Geographic Information System, GIS) and the like to provide various value-added services for users.

When providing location service to the user terminal, frequent data receiving and transmitting needs to be carried out between different user terminals and between the user terminal and the server, the electricity consumption of the user terminal is large, the cruising use of the user terminal is not facilitated, the user is often required to manually set to close the location service function, and the location service function is manually started when the user needs to use, so that the intelligent degree is not high.

Disclosure of Invention

Aiming at the technical problems of low intelligent degree of the current location service and the like, the invention aims to provide a location service configuration method of a user terminal, a computer device and a storage medium.

In one aspect, an embodiment of the present invention includes a method for configuring a location service of a user terminal, including:

acquiring position information of a user terminal;

acquiring population distribution data and geographic type data of an area where the user terminal is located according to the position information;

acquiring population density of the position of the user terminal according to the position information and the population distribution data;

and configuring the location service for the user terminal according to the population density and the geographic type data.

Further, the configuring the location service to the user terminal according to the population density and the geographic type data includes:

when the geographic type data belongs to a first geographic type, activating a location service for the user terminal;

and stopping the position service of the user terminal when the geographic type data belongs to the second geographic type.

Further, the configuring the location service to the user terminal according to the population density and the geographic type data includes:

activating a location service for the user terminal when the population density is greater than a first threshold;

stopping the location service to the user terminal when the population density is less than a second threshold; the second threshold is not greater than the first threshold.

Further, the configuring the location service to the user terminal according to the population density and the geographic type data includes:

setting a service duration for providing location services for the user terminal according to the population density; the service duration is positively correlated with the size of the population density;

and intermittently and alternately activating and stopping the position service of the user terminal according to the service duration.

Further, the obtaining, according to the location information and the population distribution data, population density of the location where the user terminal is located includes:

determining the moving speed of the user terminal according to the position information;

and acquiring population density change gradients of the positions of the user terminals according to the position information and the population distribution data.

Further, the configuring the location service to the user terminal according to the population density and the geographic type data includes:

obtaining a quantitative product of the moving speed and the population density variation gradient;

and configuring the position service of the user terminal according to the geographic type data and the quantity product.

Further, the configuring the location service for the user terminal according to the geographic type data and the number product includes:

adjusting the size of the number product according to the geographic type data;

setting a service duration for providing location services for the user terminal according to the number product; the service duration is positively correlated with the magnitude of the number product;

and intermittently and alternately activating and stopping the position service of the user terminal according to the service duration.

Further, the demographic data is a demographic thermodynamic diagram and the geographic type data is a geographic image.

In another aspect, an embodiment of the present invention further includes a computer apparatus including a memory for storing at least one program and a processor for loading the at least one program to perform the location service configuration method of the user terminal in the embodiment.

In another aspect, the embodiment of the present invention further includes a storage medium in which a processor-executable program is stored, which when executed by a processor, is configured to perform the location service configuration method of the user terminal in the embodiment.

The beneficial effects of the invention are as follows: the location service configuration method of the user terminal in the embodiment realizes that the location service of the user terminal can be activated when the population density and the geographic type data meet certain conditions, and the location service of the user terminal is stopped when the population density and the geographic type data meet other conditions, so that the opening or closing of the location service of the user terminal can be changed along with the population density and the geographic type of the location where the user terminal is positioned, the user terminal can only open the location service function when entering an area with specific population density and geographic type, and close the location service function at other moments, thereby reducing the opening time of the location service function, reducing the energy consumption of the user terminal and improving the cruising performance of the user terminal.

Drawings

Fig. 1 is a schematic diagram of a communication system to which a location service configuration method of a user terminal in an embodiment can be applied;

fig. 2 is a flowchart of a location service configuration method of a user terminal in an embodiment;

fig. 3 is a schematic diagram of a human mouth thermodynamic diagram in an embodiment.

Detailed Description

In this embodiment, the location service configuration method of the user terminal may be applied to the system shown in fig. 1. In fig. 1, NF is a Network Function (NF) in a 5G communication Network core Network, OAM is operation maintenance management (Operation Administration and Maintenance, OAM) in the 5G communication Network core Network, and NWDAF is a Network data analysis Function (Network Data Analytics Function, NWDAF) in the 5G communication Network core Network. The user terminal can be a handheld device such as a mobile phone and a tablet computer, or can be a device installed on a vehicle such as an automobile, a ship or an aircraft.

In this embodiment, each step in the location service configuration method of the user terminal may be performed by the NWDAF. In this embodiment, referring to fig. 2, the location service configuration method of the user terminal includes the following steps:

s1, acquiring position information of a user terminal;

s2, acquiring population distribution data and geographic type data of an area where the user terminal is located according to the position information;

s3, according to the position information and population distribution data, population density of the position where the user terminal is located is obtained;

s4, configuring the position service of the user terminal according to population density and geographic type data.

In step S1, referring to fig. 1, the NWDAF may send a data subscription message to the user terminal through the base station, collect user terminal information such as IMSI from the user terminal, and the base station may send the user terminal information and base station information such as its own number to the NWDAF through NF. The NWDAF may determine whether the user terminal has turned on the location service according to the user terminal information, and may determine the location information of the user terminal according to the user terminal information and the base station information. The location information may describe the current location of the user terminal and may also describe a location history trace of the user terminal.

In step S2, the NWDAF may determine the current area of the user terminal according to the location information, and query to obtain demographic data and geographic type data of the current area of the user terminal. In this embodiment, the NWDAF may obtain a population thermodynamic diagram and a geographic image from a satellite or a ground signal receiving center connected with the satellite, where the population thermodynamic diagram may represent population density distribution of an area where the user terminal is currently located in a specific time or a specific time period, and the geographic image may be a satellite photograph of the area where the user terminal is currently located, which is obtained by capturing through bands such as visible light or infrared light, and may determine that the area where the user terminal is currently located belongs to geographic types such as a city, a village, a mountain area, and a sea area by analyzing optical features of the geographic image. Thus, in this embodiment, the population thermodynamic diagram may be used as population distribution data, and the geographic image may be used as geographic type data.

In step S3, the population distribution data describes population densities of points in the current area where the user terminal is located, and the location information can determine the location point of the user terminal in the current area, so that the population densities of the locations where the user terminal is located can be determined according to the location information and the population distribution data.

In step S4, the NWDAF configures a location service for the user terminal according to the population density and the geographical type data. Specifically, the NWDAF may activate the location service for the user terminal when the population density and the geographic type data satisfy a certain condition, and stop the location service for the user terminal when the population density and the geographic type data satisfy another condition, so that the on or off of the location service for the user terminal may be changed according to the population density and the geographic type of the location where the user terminal is located, and the user terminal may only turn on the location service function when entering an area with a specific population density and geographic type, and turn off the location service function at the rest moments, thereby reducing the on time of the location service function, so as to reduce the energy consumption of the user terminal and improve the cruising performance of the user terminal.

In this embodiment, when the NWDAF performs step S4, that is, the step of configuring the location service for the user terminal according to population density and geographic type data, the following steps may be specifically performed:

S401A, when the geographic type data belongs to a first geographic type, activating a position service for the user terminal;

S402A, stopping the position service of the user terminal when the geographic type data belongs to the second geographic type.

The first geographic type in step S401A may be specifically a densely populated geographic type and the second geographic type in step S402A may be specifically a sparsely populated geographic type. In this embodiment, the geographical type data may indicate that the current area where the user terminal is located belongs to a geographical type such as a city, a town, a mountain area, and a sea area, where the geographical type such as a city and a town belongs to a densely populated geographical type, and the geographical type such as a mountain area and a sea area belongs to a sparsely populated geographical type, so the first geographical type in step S401A may be specifically a geographical type such as a city and a town, and the first geographical type in step S402A may be specifically a geographical type such as a mountain area and a sea area.

In step S401A, when the geographic type data belongs to the first geographic type, which indicates that the user terminal is currently in a densely populated environment such as a city and a town, a location service for the user terminal may be activated. In step S402A, when the geographic type data belongs to the second geographic type, which indicates that the user terminal is currently in a sparsely populated environment such as a mountain area and a sea area, the location service for the user terminal may be stopped.

Referring to fig. 1, in steps S401A-S402A, after activating a location service for a user terminal, a location service request sent by the user terminal to OAM is sent to NWDAF for confirmation, NWDAF generates an instruction for allowing activation of the location service, and returns the instruction to the user terminal so that the user terminal can accept the location service; after stopping the location service to the user terminal, the location service request sent by the user terminal to the OAM is sent to the NWDAF to confirm, the NWDAF generates an instruction for refusing to activate the location service, and returns an instruction to the user terminal, so that the user terminal closes the location service, and can instruct the user terminal to suspend requesting the location service again for a period of time.

In this embodiment, when the NWDAF performs step S4, that is, the step of configuring the location service for the user terminal according to population density and geographic type data, the following steps may be specifically performed:

S401B, when population density is greater than a first threshold, activating location service for the user terminal;

S402B, stopping the position service of the user terminal when population density is smaller than a second threshold value; wherein the second threshold is not greater than the first threshold.

In this embodiment, a first threshold and a second threshold of suitable sizes may be set, and "population density is greater than the first threshold" is used as a criterion for determining population density, and "population density is less than the second threshold" is used as a criterion for determining population rarity. For example, the first threshold may be set to 10000 people/km ² Setting the second threshold to 100 person/km ² 。

The principle of steps S401B-S402B is similar to that of steps S401A-S402A. In step S401B, when the population density is greater than the first threshold, which indicates that the user terminal is currently in a densely populated environment such as a city and a town, a location service for the user terminal may be activated. In step S402A, when the population density is less than the second threshold, which indicates that the user terminal is currently in a sparsely populated environment such as a mountain area and a sea area, the location service for the user terminal may be stopped.

In this embodiment, steps S401B-S402B may be performed in conjunction with steps S401A-S402A. For example, when NWDAF performs step S4, that is, the step of configuring location services to the user terminal according to population density and geographical type data, the following steps may be specifically performed:

S401A, when the geographic type data belongs to the first geographic type, executing the steps S401B and S402B in a jumping manner;

S402A, stopping the position service of the user terminal when the geographic type data belong to the second geographic type;

S401B, when population density is greater than a first threshold, activating location service for the user terminal;

S402B, stopping the position service of the user terminal when the population density is smaller than a second threshold value.

By executing the steps S401A-S402B, the location service of the user terminal is activated only when the condition that the geographical type data of the current location of the user terminal belongs to the first geographical type and the population density is greater than the first threshold value is satisfied, that is, the location service of the user terminal is activated only when the user terminal enters a specific area or location, and the function of the location service of the user terminal is closed in the rest of time, so that the energy consumption of the user terminal is reduced.

In this embodiment, the amount of data to be processed in steps S401A-S402A and steps S401B-S402B is small, so that it can be quickly determined whether the user terminal is in a specific area, and whether the user terminal is allowed to use the location service function. Specifically, the user terminal is allowed to use the position service function when in a densely populated area, the effect of the position service function can be fully exerted, the user terminal is controlled to stop using the position service function when in a sparsely populated area, the energy consumption of the user terminal can be reduced, the dilemma that the user terminal is difficult to obtain help after the electricity is consumed too early is avoided, and the intelligent configuration of the position service function of the user terminal is realized.

In this embodiment, when the NWDAF performs step S4, that is, the step of configuring the location service for the user terminal according to population density and geographic type data, the following steps may be specifically performed:

S401C, setting service time for providing location service for the user terminal according to population density; the service duration is positively correlated with the size of population density;

and S402C, intermittently and alternately activating and stopping the position service of the user terminal according to the service duration.

In step S401C, the NWDAF sets a service duration that is positively related to the population density, that is, the greater the population density of the current location of the user terminal, the greater the service duration.

In step S401C, the location service to the user terminal is intermittently and alternately activated and deactivated according to the service duration. For example, when the service duration is set to 30 minutes, the NWDAF may command the user terminal to enable the location service function once per unit time (e.g., daily, every half day), each time the location service function is enabled for a duration of 30 minutes. By executing steps S401C-S402C, the greater the population density of the location where the user terminal is currently located, the longer the duration of time the user terminal is controlled to enable the location service function each time.

In this embodiment, by executing steps S401C-S402C, the effect that steps S401A-S402A and steps S401B-S402B are close to each other can be achieved, that is, the user terminal is allowed to use the location service function more when the user terminal is in a densely populated area, the effect of the location service function can be fully exerted, the user terminal is controlled to use the location service function less when the user terminal is in a sparsely populated area, the energy consumption of the user terminal can be reduced, the dilemma that the user terminal is difficult to obtain help after the electricity consumption is early avoided, and the intelligent configuration of the location service function of the user terminal is achieved. Compared with steps S401A-S402A and steps S401B-S402B, performing steps S401C-S402C can avoid that some population of the user terminal is not very rare, but completely turn off the location service function when population density or geographic type does not reach the region of the threshold, but only reduce the use intensity of the location service function of the user terminal in these regions, and can simultaneously realize the use of the location service function and reduce the energy consumption brought by the location service function.

In this embodiment, when the NWDAF performs step S3, that is, the step of obtaining population density of the location where the user terminal is located according to the location information and population distribution data, the following steps may be specifically performed:

s301, determining the moving speed of the user terminal according to the position information;

s302, acquiring population density change gradients of the positions of the user terminals according to the position information and population distribution data.

The principle of steps S301-S302 is shown in fig. 3, and fig. 3 is a schematic diagram of a demographic map as demographic distribution data. In step S301, prediction may be performed according to the history track of the location information, so as to determine the movement speed of the user terminal. Referring to fig. 3, in which dots indicate the current location of the user terminal, vectorsIndicating the moving speed of the user terminal.

In step S302, each point in the population thermodynamic diagram may represent the population density of the point, so the population thermodynamic diagram shown in fig. 3 forms a population density field, and the population density variation gradient of each point may be calculated, where the population density variation gradient of each point represents the direction in which the population density variation of the point is greatest. In FIG. 3, vectorsRepresenting the population density gradient at the current location of the user terminal. In this embodiment, the direction in which the population density is changed from small to large may be set as the positive direction of the population density change gradient.

In this embodiment, on the basis of performing steps S301 and S302, the NWDAF may specifically perform the following steps when performing step S4, that is, configuring a location service to the user terminal according to population density and geographic type data:

S401D, obtaining a quantity product of the moving speed and the population density change gradient;

S402D, configuring the position service of the user terminal according to the geographic type data and the quantity product.

In step S401D, the movement speedGradient of population Density>The number product of (2) is->

In step S402D, a location service for the user terminal is configured according to the geographic type data and the number product p. Specifically, the size of the number product p can be adjusted according to the geographic type data, the service duration for providing the location service for the user terminal is set according to the number product p, the service duration is positively correlated with the size of the number product, and the location service for the user terminal is intermittently and alternately activated and stopped according to the service duration.

In step S401D, the magnitude of the number product p may refer to a magnitude taking into account its sign, i.e. the positive number product p is larger than the negative number product p.

In step S401D, the magnitude and movement speed of the number product pIs a gradient of variation in population density>Is positively correlated with the magnitude of the number product p and the magnitude of the movement speed +.>And population Density gradient->The included angle between the two is relevant. Since the magnitude of the number product p is set to be positively correlated with the service duration in step S402D, the longer the service duration can be obtained as the user terminal moves from the area with low population density to the area with high population density.

In step S402D, the size of the number product p may also be adjusted according to the geographic type data. In particular, a first coefficient a may be set for a first, denser population of geographic types corresponding to a larger population ₁ Setting a second coefficient a corresponding to a second relatively sparse geographic type ₂ . When the geographic type of the current area of the user terminal is a first geographic type with more densely populated, the adjustment of the quantity product p is p=a ₁ p, the number product p can be adjusted and increased; the geographic type of the current area of the user terminal is a second geographic type with less population, and the adjustment of the quantity product p is p=a ₂ p, the number product p can be reduced.

When the quantity product p is adjusted according to the geographic type of the area where the user terminal is currently located in step S402D, the user terminal located in the first geographic type area with a denser population can obtain a longer service time, and the user terminal located in the second geographic type area with a thinner population can obtain a shorter service time.

By executing steps S401D-S402D, the effect similar to steps S401C-S402C, namely, the effect of allowing the user terminal to use the location service function more when the user terminal is in densely populated areas, the effect of fully playing the location service function can be fully exerted, the user terminal is controlled to use the location service function less when the user terminal is in sparsely populated areas, the energy consumption of the user terminal can be reduced, the dilemma that the user terminal is difficult to obtain assistance after the power consumption is too early, the intelligent configuration of the location service function of the user terminal is realized, and the situation that some population of the user terminal is not very sparse, but the location service function is completely closed when the population density or the geographic type does not reach the threshold value can be avoided, but the use intensity of the location service function of the user terminal in the areas is only reduced, and the energy consumption caused by the location service function can be simultaneously realized. The steps S401C-S402C configure the location service function according to the static location of the user terminal, and compared with the steps S401C-S402C, the steps S401D-S402D configure the location service function according to the dynamic change of the location of the user terminal, so that the location service function of the user terminal can be adjusted more sensitively, and can be more closely matched with the geographic type and population density of the environment in which the user terminal is located.

The same technical effects as those of the location service configuration method of the user terminal in the embodiment can be achieved by writing a computer program for executing the location service configuration method of the user terminal in the embodiment, writing the computer program into a computer device or a storage medium, and executing the location service configuration method of the user terminal in the embodiment when the computer program is read out to run.

It should be noted that, unless otherwise specified, when a feature is referred to as being "fixed" or "connected" to another feature, it may be directly or indirectly fixed or connected to the other feature. Further, the descriptions of the upper, lower, left, right, etc. used in this disclosure are merely with respect to the mutual positional relationship of the various components of this disclosure in the drawings. As used in this disclosure, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. In addition, unless defined otherwise, all technical and scientific terms used in this example have the same meaning as commonly understood by one of ordinary skill in the art. The terminology used in the description of the embodiments is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The term "and/or" as used in this embodiment includes any combination of one or more of the associated listed items.

It should be understood that although the terms first, second, third, etc. may be used in this disclosure to describe various elements, these elements should not be limited by these terms. These terms are only used to distinguish one element of the same type from another. For example, a first element could also be termed a second element, and, similarly, a second element could also be termed a first element, without departing from the scope of the present disclosure. The use of any and all examples, or exemplary language (e.g., "such as") provided herein, is intended merely to better illuminate embodiments of the invention and does not pose a limitation on the scope of the invention unless otherwise claimed.

It should be appreciated that embodiments of the invention may be implemented or realized by computer hardware, a combination of hardware and software, or by computer instructions stored in a non-transitory computer readable memory. The methods may be implemented in a computer program using standard programming techniques, including a non-transitory computer readable storage medium configured with a computer program, where the storage medium so configured causes a computer to operate in a specific and predefined manner, in accordance with the methods and drawings described in the specific embodiments. Each program may be implemented in a high level procedural or object oriented programming language to communicate with a computer system. However, the program(s) can be implemented in assembly or machine language, if desired. In any case, the language may be a compiled or interpreted language. Furthermore, the program can be run on a programmed application specific integrated circuit for this purpose.

Furthermore, the operations of the processes described in the present embodiments may be performed in any suitable order unless otherwise indicated herein or otherwise clearly contradicted by context. The processes (or variations and/or combinations thereof) described in this embodiment may be performed under control of one or more computer systems configured with executable instructions, and may be implemented as code (e.g., executable instructions, one or more computer programs, or one or more applications), by hardware, or combinations thereof, that collectively execute on one or more processors. The computer program includes a plurality of instructions executable by one or more processors.

Further, the method may be implemented in any type of computing platform operatively connected to a suitable computing platform, including, but not limited to, a personal computer, mini-computer, mainframe, workstation, network or distributed computing environment, separate or integrated computer platform, or in communication with a charged particle tool or other imaging device, and so forth. Aspects of the invention may be implemented in machine-readable code stored on a non-transitory storage medium or device, whether removable or integrated into a computing platform, such as a hard disk, optical read and/or write storage medium, RAM, ROM, etc., such that it is readable by a programmable computer, which when read by a computer, is operable to configure and operate the computer to perform the processes described herein. Further, the machine readable code, or portions thereof, may be transmitted over a wired or wireless network. When such media includes instructions or programs that, in conjunction with a microprocessor or other data processor, implement the steps described above, the invention described in this embodiment includes these and other different types of non-transitory computer-readable storage media. The invention also includes the computer itself when programmed according to the methods and techniques of the present invention.

The computer program can be applied to the input data to perform the functions described in this embodiment, thereby converting the input data to generate output data that is stored to the non-volatile memory. The output information may also be applied to one or more output devices such as a display. In a preferred embodiment of the invention, the transformed data represents physical and tangible objects, including specific visual depictions of physical and tangible objects produced on a display.

The present invention is not limited to the above embodiments, but can be modified, equivalent, improved, etc. by the same means to achieve the technical effects of the present invention, which are included in the spirit and principle of the present invention. Various modifications and variations are possible in the technical solution and/or in the embodiments within the scope of the invention.

Claims (10)

1. A location service configuration method of a user terminal, wherein the location service configuration method of the user terminal is performed by a network data analysis function, the location service configuration method of the user terminal comprising:

acquiring position information of a user terminal;

acquiring population distribution data and geographic type data of an area where the user terminal is located according to the position information;

acquiring population density of the position of the user terminal according to the position information and the population distribution data;

and configuring the location service for the user terminal according to the population density and the geographic type data.

2. The location service configuration method of a user terminal according to claim 1, wherein said configuring location services to the user terminal according to the population density and the geographical type data comprises:

when the geographic type data belongs to a first geographic type, activating a location service for the user terminal;

stopping the position service of the user terminal when the geographic type data belongs to a second geographic type; the first geographic type of region is more populated than the second geographic type of region.

3. The location service configuration method of a user terminal according to claim 1, wherein said configuring location services to the user terminal according to the population density and the geographical type data comprises:

activating a location service for the user terminal when the population density is greater than a first threshold;

stopping the location service to the user terminal when the population density is less than a second threshold; the second threshold is not greater than the first threshold.

4. The location service configuration method of a user terminal according to claim 1, wherein said configuring location services to the user terminal according to the population density and the geographical type data comprises:

setting a service duration for providing location services for the user terminal according to the population density; the service duration is positively correlated with the size of the population density;

and intermittently and alternately activating and stopping the position service of the user terminal according to the service duration.

5. The method for configuring location services of a user terminal according to claim 1, wherein the obtaining population density of the location of the user terminal according to the location information and the population distribution data comprises:

determining the moving speed of the user terminal according to the position information;

and acquiring population density change gradients of the positions of the user terminals according to the position information and the population distribution data.

6. The method for configuring location services for a user terminal according to claim 5, wherein said configuring location services for the user terminal based on said population density and said geographic type data comprises:

obtaining a quantitative product of the moving speed and the population density variation gradient;

and configuring the position service of the user terminal according to the geographic type data and the quantity product.

7. The method for configuring a location service for a user terminal according to claim 6, wherein said configuring a location service for the user terminal based on the geographic type data and the number product comprises:

adjusting the size of the number product according to the geographic type data;

setting a service duration for providing location services for the user terminal according to the number product; the service duration is positively correlated with the magnitude of the number product;

and intermittently and alternately activating and stopping the position service of the user terminal according to the service duration.

8. The method of any of claims 1-7, wherein the demographic data is a demographic thermodynamic diagram and the geographic type data is a geographic image.

9. A computer apparatus comprising a memory for storing at least one program and a processor for loading the at least one program to perform the location service configuration method of a user terminal of any of claims 1-7.

10. A computer readable storage medium, in which a processor executable program is stored, characterized in that the processor executable program is for performing the location service configuration method of a user terminal according to any of claims 1-7 when being executed by a processor.