NO329634B1 - Method of providing a location service in a communication system - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The invention relates to a method of performing location service in a communication system, the method comprising: The mobile location center receives the location order from other terminals through a # 7 signaling or TCP / IP network, authenticating the subscriber controlling the location of the subscriber. When obtaining the subscriber mobile's location information, the location center asks the home location register (CPR) directly for the central address of the subscriber's current roaming area. Having obtained the roaming area information, the mobile location center provides information about the localized terminal in the roaming area through its own database, through direct delivery with the exchange and the location terminal, the mobile localization center providing the subscriber's current location, and providing the location location information to the terminal. After using the method of the invention to perform the localization service, the flow can be naturally simplified and the difference between home location MPC and service MPC reduced, as the subscriber information is completely managed by home location MPC, and thus there is no special need for the old home location register.

Description

The present invention relates to a mobile communication system, and in particular a method for implementing the mobile terminal location service in a CDMA mobile communication system.

The localization service concerns obtaining a mobile terminal's position through wireless localization technology and providing the corresponding services on the basis of the mobile terminal's position in a mobile communication system. The location service's main applications include public safety emergency calls, network optimized load, value added services, etc.

The current procedure for implementing the location service in a CDMA mobile communication network is as follows: Two new network entities are added to the network, which are a Mobile Positioning Center (MPC) and a Position Determination Unit (PDE). At the same time, an original unit in the network, i.e. a home location register (HLR), is updated to have the ability to store the data relating to subscriber positioning and communication of the subscriber's position information. During the positioning process, the network first requests a subscriber's location from a home MPC, which then obtains the address of the serving MPC in the roaming area of the subscriber through a CPR, and then requests the subscriber's location from the relevant serving MPC. This serving MPC, when obtaining the subscriber's location information, must request the wireless information about the subscriber from the Mobile Central Station (MSC) in the subscriber's area, and then interact with a PDE that will calculate the subscriber's location.

This implementation method has several disadvantages, some of which are as follows:

1. It is necessary to distinguish between home MPC and service MPC in this implementation. In addition, it is also necessary to register the address of the subscriber's service MPC when the subscriber registers with HLR. Each positioning requires signaling exchanges between the two MPCs. The positioning process is relatively complex, is demanding for the signaling network and the signaling traffic is extensive. 2. The HLR is required to perform special processing specifically for the location service, which involves providing and storing the address of a subscriber's service MPC. When the regular network is updated to a network that supports the location service, the original equipment, i.e. CPR, needs to be updated, which entails high costs and risks. 3. The service information of a subscriber who has subscribed to the location service must be stored in both the home MPC and CPR, which is difficult for synchronous modification of the subscriber's information and prone to errors.

The publication WO 02/47426 deals with a system which determines the position of a mobile terminal which is tuned to a first control channel. The system sends a call request to the mobile terminal via the first control channel with instructions to switch to another control channel, and receives a call response from the mobile terminal via the second channel, and determines the terminal's position on the basis of the response.

Publication US6330454B1 relates to a location service in a communication system, which interfaces with a service control point (SCP) to provide location information to a mobile device being served. The SCP sends a location request to the HLR, which via the MSC obtains location information from its VLR, or sends a call to the mobile unit, depending on limitations in the operation the SCP requests.

The technical task which the present invention intends to solve is to overcome the disadvantages of current localization systems with regard to the complexity of the positioning process, the need for special processing in CPR and the difficulties in synchronizing a subscriber's information, and to propose a new method for implementing the localization service in a communication system .

To solve the above-mentioned and other problems, the present invention provides a method which is characterized by the features stated in the attached patent claim 1.

Further advantageous features of the method of the present invention are indicated in the accompanying patent claims 2 to 8.

The method for implementing the present invention's localization service is mainly realized in an MPC, with a PDE and a mobile exchange that performs auxiliary functions.

In the mobile positioning process, the MPC performs the overall management functions.

MPC is responsible for the storage and administration of the subscriber's service information relating to positioning, including subscription information, authentication and restriction information, and positioning information etc. for the subscriber. CPR will no longer keep the subscriber's subscription information relating to positioning.

The technical solution of the present invention is as follows:

Step 1, an MPC receives a location request from another device over a Signaling System 7 (SS7) network or a TCP/IP network and authenticates the subscriber,

step 2, the MPC directly requests the address of the telephone exchange in the subscriber's current roaming area from the HLR using an SMS request,

step 3, the MPC interacts directly with the roaming area telephone exchange, retrieves the information about the PDE in the roaming area, interacts with the PDE in the roaming council, obtains the subscriber's current position, and returns the obtained position information to the requesting unit.

After obtaining the information about the roaming area, the MPC retrieves the information about the PDE in the roaming area from its own database, interacts directly with the roaming area's exchange and PDE, and obtains the subscriber's current position.

After implementation of the localization service with the method of the present invention, the workflow is greatly simplified compared to the original system, the distinction between home MPC and service MPC is eliminated, the subscriber's information is managed in its entirety by the home MPC, and no special requirements are imposed on the original CPR.

In the following, the attached drawings are explained, where:

Fig. 1 illustrates a network structure for the location service,

fig. 2 is a schematic representation of the interfaces between the location service

units, and

fig. 3 is a flowchart for the localization method according to the invention.

In the following, the invention is explained with the help of implementation examples and with reference to the accompanying drawings.

Figure 1 depicts a network structure for the localization system. The location system includes conventional network devices as well as newly added devices. The former mainly includes an MSC and an HLR, while the latter mainly includes an MPC, a PDE and a location service client (LCS client) etc.

The MPC is the core unit of the location service implementation. Its main functions are managing the positioning process, interacting with different devices and storing and providing a subscriber's positioning information, etc.

The main functions of PDE are to process information that is sent to the network side from a mobile terminal, thereby calculating the mobile terminal's position.

The LCS client is a service application entity. It obtains a subscriber's location through the MPC, and then provides different location-based services according to the subscriber's location.

In the localization network, MPC, PDE, MSC and CPR are connected through an SS7-based network. The LCS client can be connected to the MPC in two different ways, ie through an SS7 network or a TCP/IP network. By implementation, two or more devices in the network structure can be combined into a single device. In addition, the connection between the network devices can be made entirely by means of an IP method.

The procedure for message linking between different units in the location network is illustrated in Figure 2, in which figure the reference numbers and the components they refer to are as follows: 301—MPC, 302—LCS Client, 303—HLR, 304—MSC and 305—

PDE.

The interface between the MPC 302 and the LCS client 302 is used to request and communicate a subscriber's location information, and may use an SS7 network or a TCP/IP network.

The interface between the MPC 302 and the CPR 303 is used to request the address of the mobile exchange 304 in the subscriber's area, and makes use of an SS7 interface.

The interface between MPC 302 and MSC 304 is used to request the subscriber's current status and wireless channel parameters, and makes use of an SS7 interface or a TCP/IP interface.

The interface between MPC 301 and PDE 305 is used to request the PDE to calculate the mobile terminal's specific position, and makes use of an SS7 interface. The implementation flow of the localization method in accordance with the present invention is illustrated in Figure 3.

When an LCS client needs to determine a mobile terminal's position, the LCS client sends a request to the MPC;

after receiving the request, the MPC first performs an identity authentication and authorization verification for the LCS client to protect the subscriber's privacy and security.

If the LCS client cannot pass the verification, the request will be rejected, otherwise the MPC will determine the address of the subscriber's HLR based on the mobile terminal's number, and request the address of the mobile terminal's current service MSC from the HLR using one of the network's own basic functions, i.e. an SMS request (the request procedures of an LCS also include making use of the intelligent grid lookup command, or

the positioning parameter request command specifically for positioning).

The CPR obtains the address of the MSC in the mobile terminal's current area, and sends it to the MPC. If the mobile terminal is switched off, the CPR sends back information that the terminal has been switched off. What is used here are the network's own functions, why there are no special requirements for CPR, and why there is no need for an update especially for the localization service.

After obtaining the address of the mobile terminal's serving MSC, the MPC requests the mobile terminal's current status and wireless resource information from the serving MSC. Upon request, the MPC simultaneously sends the necessary information such as the subscriber's mobile terminal model number to the MSC. The MSC then allocates a service channel to the mobile terminal as needed, makes measurements of the mobile terminal, obtains the subscriber's wireless information such as the cell identity (cell ID) of the cell where the subscriber is located, as well as the intensity and phase of the subscriber's wireless signal, etc, and sends this to the MPC.

The MPC stores the information from all PDEs in the subscriber's possible roaming areas, so that the MPC can select a suitable PDE for performing location calculation for the mobile terminal based on the subscriber's wireless information. The wireless information includes network parameters such as the serving cell identity (cell ID), system identity (SID), network identity (NID), base station identity (base ID), MSC identity, network name, etc. The PDE calculates the mobile terminal's position based on cell ID information and about the intensity of the wireless signal emitted from the MPC. If necessary, the PDE can also provide more accurate location information by communicating with the mobile terminal.

Finally, the PDE returns the mobile terminal's location to the MPC, which records the subscriber's location in a database for querying, and at the same time also sends the acquired location information to the LCS client, which will execute various subscriber-oriented and location-based applications.

The key features of this implementation are that the MPC utilizes existing functions in the network units to obtain the relevant information about the subscriber's service MSC, and the MPC directly selects the service area's PDE and communicates with it to obtain the subscriber's position. This implementation has a simple and clear workflow, the least possible impact on units in the conventional network, and the least possible load on the signaling network.

Claims (8)

1. Method for implementing a location service in a communication system, which method includes the following steps: a first step where a mobile positioning center (MPC) receives a location order from a requesting device over a signaling system 7 (SS7) network or a TCP/IP network, and authenticates the subscriber, a second step where the MPC directly requests the address of the mobile telephone exchange in the subscriber's current roaming area from a home locator register (HLR) using an SMS request, and a third step where the MPC directly interacts with the roaming area mobile telephone exchange, retrieves the information of a location determination device (PDE) in the roaming area, interacts with this PDE in the roaming area, obtains the current position of the subscriber, and returns the obtained position information to the requesting unit, characterized by that the MPC direct interaction with the roaming area mobile exchange includes: the mobile exchange allocating a service channel to the mobile terminal as needed, measuring the mobile terminal, obtaining the subscriber's wireless information, and sending this to the MPC, and that the wireless information includes the intensity and phase of the subscriber's wireless signal. 2. A method of implementing a location service as set forth in claim 1, wherein the first step further includes performing identity authentication and authorization verification on the entity that issued the location request, and if the authentication or verification is not passed, rejecting the request. 3. A method of implementing location service as set forth in claim 1 or 2, wherein in the second step, the MPC request methods further include making use of the intelligent network lookup command, or the positioning parameter request command specifically for positioning to request the address of the mobile telephone exchange in the subscriber's current roaming area from the HLR . 4. Method for implementing a location service as set forth in claim 1, wherein the second step further includes: the CPR retrieves the address of the mobile telephone exchange in the mobile telephone exchange's current area and sends it back to the MPC. 5. Method for implementing location service as set forth in claim 1, wherein, if the mobile terminal is turned off, the HLR sends back information indicating that the mobile terminal is turned off. 6. Method for implementing a location service as set forth in claim 1, wherein the MPC direct interaction with the roaming area's mobile telephone exchange in the third step further includes: the MPC requests the mobile terminal's current status and information about wireless resources from the service mobile telephone exchange, and upon the request, the MPC simultaneously sends the information about the subscriber's mobile terminal to the mobile telephone exchange . 7. Method for implementing a location service as set forth in claim 1, wherein the third step further includes: the MPC selects a suitable PDE to perform the location calculation for the mobile terminal based on the subscriber's wireless information, the PDE calculates the mobile terminal's position based on the wireless information that was broadcast by the MPC, and returns it to the MPC. 8. Method for implementing location service as set forth in claim 1, wherein the wireless information includes network parameters such as the service cell identity (cell ID), the system identity (SID), the network identity (NID), the base station identity (base ID), the MSC identity, the network name, etc. .