KR20080014603A - Procedure for positioning method fallback in user plane based location service - Google Patents

Abstract

A substitute procedure for a positioning method in a user plane based location service is provided to substitute the positioning method by using a message in an existing positioning procedure, thereby simplifying an SUPL(Secure User Plane Location) communication protocol and easily manufacturing a terminal and a server constructing an SUPL system. A substitute procedure for a positioning method in a user plane based location service comprises the following steps of: starting a first positioning procedure using a first positioning method between a positioning server and a target terminal(S105); closing the first positioning procedure between the positioning server and the target terminal and performing a second positioning procedure using a second positioning procedure different from the first positioning method when the location information of location quality required in the target terminal after starting the first positioning procedure(S107); and performing negotiations on a use of the second positioning method between the positioning server and the target terminal simultaneously with the start of the second positioning procedure or after the start of the second positioning procedure.

Description

Procedure for positioning method fallback in user plane based location service}

1 is a message flow diagram illustrating an alternative procedure of a positioning method in SUPL according to the prior art.

FIG. 2 is a message flow diagram illustrating a SUPL procedure including an alternative procedure of a positioning method according to the first embodiment of the present invention, wherein a SET is in a non-roaming state and a connected mode is a proxy mode. SUPL procedure, which is a Network Initiated Case.

3 is a message flow diagram illustrating a SUPL procedure including an alternative procedure of a positioning method according to a second embodiment of the present invention, in which the network initiation case when the SET is in the non-roaming state and the connected mode is in the non-proxy mode. SUPL procedure.

4 is a message flow diagram illustrating a SUPL procedure including an alternative procedure of a positioning method according to a third embodiment of the present invention, in which the SET is in a non-roaming state and the connected mode is a proxy mode. This is the SUPL procedure, which is a SET Initiated case.

5 is a message flow diagram illustrating a SUPL procedure including an alternative procedure of a positioning method according to a fourth embodiment of the present invention, in which the SET is in a non-roaming state and the connected mode is in a non-proxy mode. This is the SUPL procedure, which is the SET initiation case.

The present invention relates to a user plane-based location service, and more particularly, to a procedure for replacing a positioning or location measurement method in a user plane-based location service procedure.

Location service in a mobile communication system refers to a communication network service that obtains a location of a target terminal and provides location information to an entity on a network in need thereof. Location services are the basis for providing a variety of additional services to the user, such as traffic information services, location information services, weather information services, car navigation services, emergency relief services, and the like.

The implementation form and operation procedure of the system for providing such a location service are different depending on the structure and characteristics of the network, but recently, efforts have been actively made to standardize the location service related communication protocols and apply them to heterogeneous networks. have. One such effort is Secure User Plane Location (SUPL).

SUPL is basically a communication protocol based on a user plane that provides location services through a user plane. For example, in order to convey location assistance information such as Assisted-Global Positioning System (A-GPS) and messages related to positioning technology between a mobile terminal and a location server, SUPL uses a user plane data bearer (User). Plane Data Bearer). The SUPL system for providing such a SUPL-based location service includes a SUPL agent, a SET (SUPL Enabled Terminal) terminal capable of supporting SUPL services, and a SLP (SUPL Location Platform) that performs the function of a positioning server. do.

SUPL agent means a service access point that accesses network resources to obtain location information. The SUPL agent may be present in the SET in some cases.

And SET means a terminal that can communicate with the SUPL network. For example, a SET includes a user equipment (UE) in a universal mobile telecommunication system (UMTS), a mobile station (MS) in a global system for mobile communication (GSM) or an inter-standard-95 (IS-95), and a SET function. It may be a mobile communication terminal such as an embedded laptop computer or a personal digital assistant (PDA), or a wireless station connected through a WLAN. This SET interworkes with the SUPL network via a user plane bearer to support the procedures defined in SUPL. In addition, the SET which becomes the target of the current position measurement among SET is called target SET (Target SET).

In addition, the SLP is a network entity responsible for managing SUPL services and determining a target SET, and may include an SPC (SUPL Positioning Center) and an SLC (SUPL Location Center). In this case, the SPC is a functional entity that is related to calculating the actual position of the SET, and the SLC is a functional entity that is responsible for the roles of the SLP, such as roaming and resource management, in addition to the position calculation-related functions performed by the SPC. .

In a procedure such as location measurement (e.g., a SUPL positioning session, etc.), the SET may be connected to the SPC via SLC or may be directly connected to and communicate with the SPC. The proxy mode is referred to as a proxy mode, and as in the latter case, a connection mode in which the SET directly connects to an SPC is called a non-proxy mode. When the SET and the SPC are connected through the proxy mode or the non-proxy mode, message exchange is performed between them. Through this process, the SPC calculates the position of the SET using the measurement values for positioning provided from the SET (SET The SET calculates the position directly using the Assistance Data or Assistance Data provided from the SPC (SET-Based). In the following description, when the connection mode is the proxy mode, the SET communicates with the SLP.

In order to obtain the position information of the SET using the SUPL procedure, a positioning method for calculating the position of the SET must first be determined. According to the SUPL procedure, the SLP decides as a positioning method to use one of the positioning methods that it desires or included in the SET capability information, and information about the determined positioning method is transmitted from the SLP to the SET. SET and SLP calculate the position of SET by performing SUPL positioning procedure that exchanges a series of consecutive positioning procedure messages according to the determined positioning method.

However, in the SUPL positioning procedure, there may be a case where the positioning method determined by the SLP cannot obtain a sufficient SET position value. For example, if the positioning method determined by the SLP is a standalone GPS method, and the current position of the SET is a shadow area of the GPS satellite signal such as inside a building, underground, or tunnel, the SET is a standalone GPS method. It is not possible to obtain sufficient measured values using. In this case, it is necessary to replace the existing positioning method with a new positioning method to perform a new SUPL positioning procedure.

As described above, changing the positioning method to the new positioning method while calculating the position of the SET in the positioning method determined by the SLP is called a 'Fallback of Positioning Method'. That is, the replacement of the positioning method is a new SUPL positioning procedure for calculating the position of the SET using a second positioning method different from the first positioning method in the existing SUPL positioning procedure for calculating the position of the SET using the first positioning method. Say that to change. As a result, when there is a replacement of the positioning scheme, the existing SUPL positioning session (eg, the first SUPL POS session) using the first positioning scheme is terminated, and a new SUPL positioning session (eg, first) using the second positioning scheme is terminated. 2 SUPL POS session) is started.

1 is a message flow diagram illustrating an alternative procedure of a positioning method in SUPL according to the prior art, in which the connected mode is a proxy mode.

Referring to FIG. 1, the SLP 20 and the target SET 30 start a first SUPL POS session to calculate the position of the target SET 30 (S1). In the first SUPL POS session, the position of the target SET 30 is calculated using the first positioning method determined by the SLP 20. However, in the case where the position information having the required Quality of Position (QoP) cannot be obtained due to the inability to calculate the position of the target SET 30 in the first positioning method, the target SET 30 can be obtained. Transmits the SUPL FALLBACK INFORM message to the SLP 20 (S2). The SUPL FALLBACK INFORM message is for notifying the SLP 20 that a problem has occurred during the positioning procedure in the first SUPL POS session.

After receiving the SUPL FALLBACK INFORM message, the SLP 20 performs negotiation with the target SET 30 to determine the positioning method to be used for the new SUPL POS session. To this end, the SLP 20 transmits a SUPL POS FALLBACK message including information indicating a second positioning method to be used to the target SET 30 (S3). That is, the SUPL POS FALLBACK message is for informing the target SET 30 of the newly used positioning method, and a positioning method different from the first positioning method is selected from the positioning methods supported by the target SET 30. The target SET 30 having received the SUPL POS FALLBACK message transmits a SUPL FALLBACK ACK message to the SLP 20 to indicate that it is ready to start a second SUPL POS session using the second positioning method. (S4). After the exchange of the SUPL POS FALLBACK message and the SUPL FALLBACK ACK message between the SLP 20 and the target SET 30, the second SUPL POS for calculating the position of the target SET 30 using the new positioning method. The session is started (S5).

However, according to the prior art as described above, in order to change the positioning method to be used to calculate the position of the SET in the SUPL POS session, three new types of messages between the SLP 20 and the target SET 30, that is, SUPL This includes sending and receiving FALLBACK INFORM messages, SUPL POS FALLBACK messages, and SUPL FALLBACK ACK messages. However, using a new type of message not only complicates the SUPL communication protocol, but also has the disadvantage of complicating the configuration and / or functionality of functional entities such as SUPL agents, SETs, and SLPs that support it.

The technical problem to be achieved by the present invention is a positioning method in a user plane-based location service procedure that can simplify the communication protocol related to the user plane-based location service and facilitate the implementation of the terminal and server constituting the location service system To provide an alternative procedure.

A procedure for replacing a positioning method in a user plane based location service procedure according to an embodiment of the present invention for achieving the above technical problem discloses a first positioning procedure using a first positioning method between a positioning server and a target terminal. And if the location information of the position quality required for the target terminal cannot be obtained after the start of the first positioning procedure, the first positioning procedure is terminated between the positioning server and the target terminal and the first positioning procedure is performed. And performing a second positioning procedure using a second positioning scheme different from the first positioning scheme, wherein negotiation of the use of the second positioning scheme between the positioning server and the target terminal is performed by the second positioning procedure. At the same time as the start or after the start of the second positioning procedure.

According to an aspect of the present embodiment, the negotiation about the use of the second positioning method may be performed using a message defined in the positioning protocol used in the second positioning method. In this case, the information indicating the second positioning scheme may be included in the first message that the positioning server sends to the target terminal to start the second positioning procedure.

According to another aspect of the present embodiment, before terminating the first positioning procedure, the target terminal issues a problem in the first positioning procedure to the positioning server by using a method defined in the positioning protocol used in the first positioning procedure. The location server may independently determine that a problem has occurred in the first location procedure before notifying that it has occurred or before terminating the first location procedure.

According to another aspect of the present embodiment, the location service procedure is a Secure User Plane Location (SUPL) procedure, and the location server and the target terminal are respectively SLP (SUPL Location Platform) and target SET (SUPL Enabled). Terminal).

Hereinafter, preferred embodiments of the present invention will be described. In the following embodiments, the SUPL procedure is described as a user plane based location service procedure, but the present invention is not limited thereto.

FIG. 2 is a message flow diagram illustrating a SUPL procedure including an alternative procedure of a positioning method according to the first embodiment of the present invention, wherein a SET is in a non-roaming state and a connected mode is a proxy mode. In the case of a network initiated case.

2, the SUPL agent 10 transmits a SUPL service request message for requesting location information of the target SET 30 to the H-SLP 20 to which the SUPL agent 10 is connected (S101). The SUPL service request message may be, for example, a Mobile Location Protocol (MLP) Standard Location Immediate Request (SLIR) message, but is not limited thereto.

The MLP SLIR message includes a terminal identifier (ms-id), a customer identifier (client-id), and a requesting location quality (eqop). The client identifier (client-id) is a parameter for identifying the SUPL agent 10, and if the SUPL agent 10 is authorized for the SUPL service requested, the H-SLP 20 receives the SUPL agent through the received customer identifier. (10) to authenticate. The H-SLP 20 applies subscriber privacy through the received terminal identifier ms-id.

If the previously calculated position satisfies the requested position quality eqop and no notification and confirmation to the target SET 30 is needed, the H-SLP 20 proceeds directly to step S109. If notification and confirmation are required even if the previously calculated position satisfies the requested position quality (eqop), or only a notification is required, or if the previously calculated position information does not satisfy the requested position quality (eqop), H SLP 20 proceeds to step S102.

Next, the H-SLP 20 having received the SUPL service request message checks whether the target SET 30 is roaming or routing information (SET Lookup, Routing Info) (S102). Since the present embodiment assumes that the target SET 30 is in a non-roaming state, the H-SLP 20 confirms that the target SET 30 is not currently SUPL roamed through this step. In addition, the H-SLP 20 may check whether the target SET 30 supports the SUPL procedure in this step.

2, the H-SLP 20 sends a SUPL start message to the target SET 30 to start a SUPL positioning session with the target SET 30 (S103). The SUPL start message may be, for example, a SUPL INIT message, but is not limited thereto.

The SUPL INIT message includes a session identifier (ID), a connection mode information (SLP mode), a posmethod, and a fallback indicator. The session identifier (session-id) is a parameter for identifying the SUPL positioning session started by the H-SLP 20 by sending a SUPL initiation message. The connection mode information (SLP mode) is a parameter indicating whether the H-SLP 20 is a proxy mode or a non-proxy mode, and includes a value indicating that the proxy mode is a proxy mode. The posmethod includes a parameter indicating the positioning method that the H-SLP 20 wishes to use. As the positioning method, for example, the SET-assisted A-GPS method, the SET-based A-GPS method, the Autonomous GPS method, the Enhanced Observed Time Difference (EOTD) method, and the Observed OTDOA method A Time Difference Of Arrival (AFD) method, an Advanced Forward Link Trilateration (AFLT) method, or an Enhanced Cell ID method may be used. The fallback indicator (fallback indicator) is a parameter indicating whether the H-SLP 20 can support the positioning method of the replacement method, and includes information indicating that the embodiment supports the positioning method of the replacement method.

The SUPL INIT message may further include a desired location quality (QoP), a key identifier (Key ID), a message authentication code (Message Authentication Code, MAC), and the like. The positioning quality QoP indicates the quality or accuracy of the position information for the target SET 30, and may be, for example, resolution information of the required position information. The key identifier (Key-ID) is a parameter for identifying a key used to identify the MAC, and corresponds to a MAC_Master_Key used to confirm whether the SUPL INIT message is authenticated. The message authentication code (MAC) is used for Integrity Protection of SUPL INIT messages.

If the privacy confirmation result in step S101 indicates that the target SET 30 needs to be notified and confirmed or only a notification is needed, the H-SLP 20 may further include the notification element in the SUPL INIT message. The H-SLP 20 may calculate and store a hash of the transmitted message before sending the SUPL INIT message.

If the H-SLP 20 decides to use the previously calculated position in step S101, the SUPL INIT message indicates the parameter value of the posmethod as 'no position', and the target SET 30 Respond with the SUPL Service End message, eg SUPL END message, with the result of the confirmation procedure. If the specified verification procedure is not required and only a notification procedure is required, the target SET 30 responds with a SUPL Service End message. In these two cases, the H-SLP 20 may proceed directly to step S108. However, if necessary, the target SET 30 performs the data connection setting procedure of step S104 before transmitting the SUPL service end message, and secure IP connection with the H-SLP 20 using the procedure specified in step S105. You can also set

Subsequently, referring to FIG. 2, the target SET 30 having received the SUPL initiation message performs a data connection setup when it is not currently establishing a data connection to any network (S104). . For example, the target SET 30 may perform this step by requesting a data connection from a packet switched network or a circuit switched network. The network may be, for example, a 3GPP (3G Partnership Project) or a 3GPP2 (3G Partnership Project-2, synchronous) network. And if the received SUPL initiation message includes a key identifier (Key-ID) and a message authentication code (MAC) and the target SET 30 supports the parameters, the target SET 30 sets these parameters. It can be used to determine whether the received SUPL initiation message is authenticated.

Subsequently, referring to FIG. 2, the target SET 30 having completed the data connection establishment procedure transmits a SUPL positioning start message to the H-SLP 20 requesting the start of the SUPL positioning procedure (S105). In the present specification, 'SUPL positioning procedure' refers to an entire process of exchanging a series of positioning procedure messages (eg, SUPL POS messages) between an SLP (or SPC) and a SET according to a positioning protocol determined to obtain position information of a target SET. It is called. For example, step S106 and step S107 of FIG. 2 each represent a separate SUPL positioning procedure, details of which will be described later.

For this step S105, the target SET 30 first checks the notification rules and performs the appropriate procedure accordingly. For example, the target SET 30 checks the connection mode information (SLP mode) to determine whether the H-SLP 20 uses the proxy mode or the non-proxy mode. In this embodiment, since the H-SLP 20 uses the proxy mode, the target SET 30 establishes a secure IP connection with the H-SLP 20 using the H-SLP 20 address. In this step, the positioning method indicated by the parameter (posmethod) included in the received SUPL initiation message, that is, the positioning method intended by the H-SLP 20 is included in the positioning method supported by the target SET 30. If not, the target SET 30 sends the SUPL positioning initiation message to the H-SLP 20.

The SUPL positioning initiation message may be, for example, a SUPL POS INIT message, but is not limited thereto. The SUPL positioning initiation message includes at least a session-id, SET capabilities, a hash (version) of the received SUPL initiation message, and a location identifier, lid for identifying an already initiated SUPL positioning session. And a number of parameters, such as). The location identifier refers to the ID of the cell to which the current target SET belongs, that is, the ID of the base station. When the location ID is used, the current location of the target SET 30 can be roughly identified.

The SET capability values include protocol information supported by the SET in the SUPL positioning procedure using the positioning method together with the positioning method supported by the target SET 30 (e.g., SET Assisted A-GPS and / or SET Based A-GPS). Location protocol information). The protocol information is, for example, Radio Resource Location service Protocol (RRLP) of General Packet Radio Service (GPRS), Radio Resource Control (RRC) of Wideband Code Division Multiple Accsss (WCDMA), and TIA-801 of Code Division Multiple Access (CDMA). And so on. The SET capability parameter further includes information indicating whether the target SET 30 supports replacement of the positioning method. In this embodiment, information indicating that the replacement of the positioning method is supported is included.

The SUPL positioning initiation message may further include location information of the target SET 30, which is provided only if the target SET 30 and the H-SLP 20 support this function and are also available. The SUPL positioning initiation message may further include a requested assistance data element. In this case, before starting the step S106 described later, the H-SLP 20 that has received the SUPL positioning start message may calculate the position of the target SET 30 using the information included in the received message. When the calculated position result of the target SET 30 satisfies the requested QoP, the H-SLP 20 may immediately proceed to step S108, thereby not performing the SUPL positioning procedure (steps S106 and S107).

2, a first SUPL positioning procedure is started between the H-SLP 20 and the target SET 30 (S106). According to the present invention, the H-SLP 20 cannot obtain position information on the target SET 30 through the first SUPL positioning procedure, and the H-SLP 20 has no problem in the first SUPL positioning procedure. It will be recognized. This will be described in more detail below.

In this step, the H-SLP 20 first checks whether the hash of the received SUPL location initiation message corresponds to that calculated for the SUPL location session. The H-SLP 20 determines a positioning scheme and a positioning protocol (eg, RRLP, RRC, TIA-801, etc.) to be used in the first SUPL positioning procedure among the received SET capability information of the target SET 30. . In this case, when it is decided to use a positioning scheme in which the positioning protocol to be used is specified together, the H-SLP 20 and the target SET 30 initiate the first SUPL positioning procedure using the positioning protocol.

This first SUPL positioning procedure is performed according to the positioning protocol (eg, RRLP, RRC, or TIA-801, etc.) determined by the H-SLP 20. In general, the H-SLP 20 and the target SET 30 according to a positioning protocol such as a series of positioning procedure messages (RRLP, RRC, or TIA-801, etc.) to obtain the position information of the target SET 30. Messages). Here, the positioning procedure messages may be SUPL positioning messages, for example, SUPL POS messages, but are not limited thereto.

When the first SUPL positioning procedure is normally performed, the H-SLP 20 or the target SET 30 calculates the position of the target SET 30 using the determined positioning method, and ultimately, the H-SLP 20 The location information of the target SET 30 may be obtained. However, according to this embodiment, after initiating the first SUPL positioning procedure, a situation arises in which a sufficient measurement value cannot be obtained using the determined positioning method, so that the position quality (QoP) required in the first SUPL positioning procedure is generated. Cannot obtain location information.

In this case, conventionally, the first SUPL positioning procedure is terminated, and the target SET 30 sends a new type of message called a SUPL FALLBACK INFORM message, thereby indicating that a problem has occurred during the progress of the first SUPL positioning procedure. SLP 20 was informed. However, according to the present invention, this new type of message is no longer used.

Instead, in the present invention, an existing message defined in a positioning protocol (eg, a positioning protocol such as RRLP, RRC, or TIA-801, etc.) used in the first SUPL positioning procedure is used or the first SUPL positioning procedure is used. Take advantage of the fact that the H-SLP 20 can independently recognize that a problem has occurred during the process of. In the latter case, for example, when the H-SLP 20 does not receive the position information from the target SET 30 for a predetermined time after initiating the SUPL positioning session or the auxiliary data necessary for calculating the position. May not be received, and / or the exchange of a location procedure message scheduled according to the location protocol used in the first SUPL location procedure does not occur normally.

As described above, the target SET 30 informs the H-SLP 20 or the H-SLP 20 independently progresses using a message defined in the positioning protocol currently used in the first SUPL positioning procedure. Taking advantage of the fact that 1 SUPL positioning procedure has encountered a problem, a new type of message (e.g. SUPL FALLBACK) may be used to inform H-SLP 20 that a problem has occurred during the course of the first SUPL positioning procedure. INFORM message) is not required.

Subsequently, when it is determined that replacement of the positioning method is necessary because the position information for the target SET 30 cannot be obtained, the H-SLP 20 ends the first SUPL positioning procedure and immediately after the target SET 30. Initiate and proceed with the second SUPL positioning procedure (S107). In this case, the term 'directly' refers to a procedure for negotiating a new positioning method to be used in a new positioning procedure as well as a conventional SUPL FALLBACK INFORM message, that is, exchanging an existing SUPL POS FALLBACK message and a SUPL FALLBACK ACK message. This means that no further execution is performed between the SUPL positioning procedure and the second SUPL positioning procedure.

On the other hand, in the present invention, the function of the existing SUPL POS FALLBACK message and the SUPL FALLBACK ACK message, that is, negotiating the newly used positioning method, is performed within the second SUPL positioning procedure. For example, the first message sent by the H-SLP 20 to the target SET 30 and the first message sent by the target SET 30 to the H-SLP 20 in response to the message are used. Respectively, the SUPL POS FALLBACK message and the SUPL FALLBACK ACK message may be performed in place of the functions performed. Here, the first messages are all types of messages defined in the positioning protocol used in the second SUPL positioning procedure.

As such, in the second SUPL positioning procedure, information about the positioning method to be used in the new SUPL positioning procedure is transmitted to the target SET 30 through the first message exchanged between the H-SLP 20 and the target SET 30. In addition, negotiations can be made. Thereafter, a second SUPL positioning procedure is performed according to a conventional procedure. For example, in the second SUPL positioning procedure, a series of successive positioning procedure messages between the target SET 30 and the H-SLP 20 according to a predetermined positioning protocol (such as RRLP, RRC, or TIA-801). For example, SUPL POS messages are exchanged, where a new location scheme is used to calculate the position of the target SET 30. As a result of this process, the H-SLP 20 may obtain location information on the target SET 30, and if the H-SLP 20 obtains location information on the target SET 30, the second H-SLP 20 may acquire second location information. The SUPL positioning procedure ends.

Subsequently, referring to FIG. 2, the H-SLP 20 having obtained the position information on the target SET 30 in the second SUPL positioning procedure transmits a SUPL end message to the target SET 30 (S108). The SUPL end message is for informing that the SUPL positioning session is no longer started, and may be, for example, a SUPL END message. The target SET 30 receiving the SUPL end message terminates the secure IP connection established with the H-SLP 20 and releases all resources related to the established SUPL positioning session.

Next, the H-SLP 20 transmits a SUPL service response message including the position information (posresult) of the acquired target SET 30 to the SUPL agent 10 (S109). The SUPL service response message may be, for example, MLP SLIA (Standard Location Immediate Answer), but is not limited thereto.

As described in detail above, the function of the existing SUPL POS FALLBACK message in the negotiation about the new positioning method is that the new SUPL positioning session is started and the positioning method to be used in the session is determined by the H-SLP 20. 30) to inform. And the function of the existing SUPL FALLBACK ACK message was for the target SET 30 to inform the H-SLP 20 that it was ready to start the new SUPL positioning session. However, according to the present embodiment, if there is a promise to support an alternative positioning method between the H-SLP 20 and the target SET 30, the functions of these existing messages are used in the second SUPL positioning procedure. This can be achieved by using the messages defined in the positioning protocol.

For example, in the second SUPL positioning procedure, the first message sent by the H-SLP 20 to the target SET 30 is promised as a message informing that the new SUPL positioning procedure is started, and the first message is recalled. If information about the positioning method to be used in the second SUPL positioning procedure is included, there is no need to separately use the existing SUPL POS FALLBACK message. And in the second SUPL positioning procedure, if the first message sent by the target SET 30 to the H-SLP 20 is promised as a message indicating that it is ready to start a new SUPL positioning procedure, the existing SUPL FALLBACK ACK There is no need to use messages separately.

Next, a second embodiment of the present invention will be described.

3 is a message flow diagram illustrating a SUPL procedure including an alternative procedure of a positioning method according to a second embodiment of the present invention, in which the SET is in a non-roaming state and the connected mode is in a non-proxy mode. This is the case for Network Initiated. Since this embodiment differs from the first embodiment only in that the connection mode is a non-proxy mode, the following description will focus on differences from the first embodiment.

Referring to FIG. 3, the SUPL agent 10 requests location information of the target SET 30 from the H-SLP 20 to which it is connected, more specifically, the SLC 22 of the H-SLP 20. The SUPL service request message is transmitted (S201). After receiving the SUPL service request message, the SLC 22 checks whether the target terminal 30 roams and / or routing information (SET Lookup, Routing Info) (S202).

Next, the SLC 22 and the SPC 24 exchange information necessary to start a SUPL positioning session, for example, a SUPL POS session (S203). At this time, the SPC 24 informs the SLC 22 whether the replacement of the positioning method is allowed. In this embodiment, the SPC 24 informs that the replacement of the positioning method is allowed.

Next, the SLC 22 transmits a SUPL start message to the target SET 30 to start a SUPL positioning session with the target SET 30 (S204). The SUPL initiation message may be, for example, a SUPL INIT message. The SUPL initiation message may include a session identifier, a session mode information, an SLP mode, a posmethod, a fallback indicator, and an SLC address. Include. The SUPL initiation message may further include a desired positioning quality (QoP), a key identifier (Key ID), a message authentication code (Message Authentication Code, MAC), and the like.

Next, the target SET 30 having received the SUPL start message performs data connection setup (S205) in the case where it is not currently establishing a data connection to any network (S205). The target SET 30 uses the provisioned address in the home network to establish a secure IP connection with the SLC 22.

The target SET 30 then checks the connection mode information (SLP mode) included in the received SUPL initiation message to determine whether the H-SLP 20 is in proxy mode or non-proxy mode. In the present embodiment, since the H-SLP 20 uses the non-proxy mode, the target SET 30 transmits a SUPL authentication request message to the SLC 22 (S206). The SUPL authentication request message may be, for example, a SUPL AUTH REQ message, but is not limited thereto. The SUPL AUTH REQ message includes a session identifier (session-id), a key identifier (key-id2), and SET nonce information. Here, the key identifier key-id2 corresponds to PP2_SPC_Master_key for generating the PSK_SPC_Key for use in the PSK-TLS session between the SPC 24 and the target SET 30.

Next, the SLC 22 generates a key for mutual authentication between the SPC 24 and the target SET 30 using the received key-id2 and SET nonce information. The SLC 22 transmits the generated key to the SPC 24 through internal communication, and the SLC 22 transmits a SUPL authentication response message including the generated key to the target SET 30. (S207). The SUPL authentication response message may be, for example, a SUPL AUTH RESP message, but is not limited thereto. The SUPL AUTH RESP message includes a session identifier.

Next, the target SET 30 that has completed the data connection establishment procedure and also obtained the authentication key for communication with the SPC 24 sends a SUPL positioning initiation message to the SPC 24 requesting the initiation of the SUPL positioning procedure. (S208). For this step, the target SET 30 first checks the Notification Rules and accordingly performs the appropriate procedure. For example, the target SET 30 establishes a secure IP connection with the SPC 24 using the SPC address information obtained in step S204. The target SET 30 and the SPC 24 perform mutual authentication. The SUPL location initiation message may be, for example, a SUPL POS INIT message, at least a session identifier (ID), a SET capabilities, a hash (version) of the received SUPL initiation message to identify a SUPL session that has already been initiated. And a number of parameters such as a location identifier (lid) and the like.

Next, the SLC 22 and the SPC 24 have internal communication (S209) to determine the initial position or the rough position of the target SET 30. The initial position information or the approximate position information obtained in this step may be helpful in obtaining the correct position of the target SET 30 later. If the location information obtained in this step satisfies the requested location quality QoP, the SPC 24 proceeds directly to step S213.

Next, a first SUPL positioning procedure is started between the SPC 24 and the target SET 30 (S210). To this end, the SPC 24 first selects one of the positioning methods supported by the target SET 30 included in the received SUPL positioning start message to determine the positioning method to be used in the first SUPL positioning procedure. In this case, if required for the positioning scheme, the SPC 24 uses the supportable positioning protocols (eg, RRLP, RRC, TIA-801, etc.) included in the received SUPL positioning initiation message.

As in the first embodiment, in the first SUPL positioning procedure, a series of consecutive positioning procedure messages, such as SUPL POS messages, are exchanged between the SPC 24 and the target SET 30. In the first SUPL positioning procedure, the SPC 24 cannot obtain position information on the target SET 30, and the SPC 24 recognizes that a problem has occurred in the first SUPL positioning procedure. To this end, for example, the target SET 30 may inform the SPC 24 that a problem has occurred during the positioning process using an existing message defined in the positioning protocol used in the first SUPL positioning session procedure.

Next, when it is determined in step S210 that position information for the target SET 30 cannot be obtained and it is determined that replacement of the positioning method is necessary, the SPC 24 stops step S210, which is the first SUPL positioning session procedure, and ' Immediately, the target SET 30 and the second SUPL positioning procedure are started to proceed (S211). In the second SUPL positioning procedure, first, information about the new positioning method that has been replaced with the fact that a new SUPL positioning procedure is started using the first message that SPC 24 first sends to the target SET 30 is obtained. 30). Target SET 30 then informs SPC 24 that it is ready to begin a new SUPL positioning procedure, using the first message it sends to SPC 24 in response to the received message. Here, the messages are all existing types of messages according to the positioning protocol used in the second SUPL positioning procedure.

As described above, in the second SUPL positioning procedure, information about the positioning method to be used in the new SUPL positioning procedure is transmitted to the target SET 30 through the first message exchanged between the SPC 24 and the target SET 30. But negotiations can be made on this. Thereafter, the second SUPL positioning procedure is performed according to a conventional procedure. For example, in accordance with a given positioning protocol (RRLP, RRC, or TIA-801, etc.), positioning procedure messages, such as SUPL POS messages, are successfully exchanged between the target SET 30 and the SPC 24, resulting in an SPC. 24 may acquire location information about the target SET 30.

On the other hand, in the step S211, the SPC 24 informs the SLC 22 of the replaced positioning method along with the fact that the replacing of the positioning method has occurred through internal communication.

3, the SPC 24 having obtained the position information on the target SET 30 in the second SUPL positioning procedure transmits a SUPL end message, for example, a SUPL END message, to the target SET 30 (S212). ). Upon receiving the SUPL end message, the target SET 30 terminates the secure IP connection established with the SPC 24 and releases all resources related to the established SUPL positioning session.

Next, the SPC 24 notifies the SLC 22 that the SUPL session is terminated through internal communication (S213). Although the SLC 22 knows the initial position value or the rough position value for the target SET 30 through step S209, the SPC 24 knows the position information for the target SET 30 obtained through step S211. To the SLC 22. SPC 24 then releases all resources associated with this session.

Next, the SLC 22 transmits a SUPL service response message including the position information (posresult) of the acquired target SET 30 to the SUPL agent 10 (S214). The SUPL service response message may be, for example, MLP SLIA (Standard Location Immediate Answer), but is not limited thereto.

Next, a third embodiment of the present invention will be described.

4 is a message flow diagram illustrating a SUPL procedure including an alternative procedure of a positioning method according to a third embodiment of the present invention, in which the SET is in a non-roaming state and the connected mode is a proxy mode. SET Initiated Case. Since the present embodiment differs from the first embodiment only in that it is a SET start case, the following description will focus on differences from the first embodiment.

Referring to FIG. 4, when the target SET 30 is not currently establishing a data connection to any network, the target SET 30 performs a data connection setup (S301). For example, the target SET 30 may perform this step by requesting a data connection from a packet switched network or a circuit switched network. Since the present embodiment is a SET initiation case, such a data connection establishment procedure of the target SET 30 is related to a location from an application in which the SUPL agent in the target SET 30 is operating in the target SET 30, for example. This can be done when a request is received.

Next, the target SET 30 transmits a SUPL start message requesting the start of a SUPL session with the H-SLP 20 to the H-SLP 20 (S302). To this end, the SUPL agent in the target SET 30 first establishes a secure IP connection with the H-SLP 20 using the provisioned base address from the home network. The SUPL start message may be, for example, a SUPL START message, which includes parameters such as a session-id, SET capabilities, and a location identifier (lid).

Next, the H-SLP 20 checks whether the target terminal 30 roams (Routing Info) (S303). The H-SLP 20 transmits the SUPL response message to the target SET 30 in response to the received SUPL start message (S304). The SUPL response message may be, for example, a SUPL RESPONSE message, but is not limited thereto. The SUPL RESPONSE message includes parameters such as a session-id, a posmethod, and a fallback indicator.

The positioning method to be used is determined by the H-SLP 20, and selects one of the positioning methods included in the received SET capability information. And if required for the positioning scheme, the H-SLP 20 uses the supporting positioning protocols (eg, RRLP, RRC, TIA-801, etc.) included in the received SUPL start message. In addition, the fallback indicator includes information indicating that the replacement of the positioning method is supported.

Next, the target SET 30 transmits a SUPL positioning start message to the H-SLP 20 requesting the start of the SUPL positioning procedure (S305). The SUPL positioning initiation message may be, for example, a SUPL POS INIT message, but is not limited thereto. The SUPL location initiation message includes at least parameters such as a session-id, SET capabilities, a location indicator (lid) along with a location indicator (lid) for identifying a SUPL session already initiated, and the like. The replacement indicator includes information indicating that the target SET 30 supports replacement of the positioning method.

Next, a first SUPL positioning procedure S306 and a second SUPL positioning procedure S307 using a positioning method different from that in the first SUPL positioning procedure are performed continuously. Since the first and second SUPL positioning procedures S306 and S307 are substantially the same as the first and second SUPL positioning procedures S106 and S107 in the first embodiment, description thereof will be omitted.

Next, after acquiring the position information on the target SET 30 in the second SUPL positioning procedure, the H-SLP 20 transmits a SUPL end message to the target SET 30 (S308). The SUPL end message is for notifying that the positioning procedure is no longer started. For example, the SUPL end message may be a SUPL END message. The SUPL end message may include the acquired location information, which is arbitrary according to a positioning method and a positioning protocol. That is, by the positioning method and the positioning protocol used in the second SUPL positioning session procedure, the location information is included in the SUPL end message only when the target SET 30 cannot obtain the location information in the second SUPL positioning session procedure. Can be. Subsequently, the target SET 30 terminates the secure IP connection established with the H-SLP 20 and releases all resources associated with the established SUPL session. The H-SLP 20 also releases all resources associated with this session.

Next, a fourth embodiment of the present invention will be described.

5 is a message flow diagram illustrating a SUPL procedure including an alternative procedure of a positioning method according to a fourth embodiment of the present invention, in which the SET is in a non-roaming state and the connected mode is in a non-proxy mode. SUPL procedure in SET Initiated cases. The present embodiment is different from the second embodiment in that the SET start case is different from the second embodiment, and the connection mode is non-proxy mode, and therefore, the difference from the second embodiment and the third embodiment will be described below. The explanation is centered.

Referring to FIG. 5, when the target SET 30 is not currently establishing a data connection to any network, the target SET 30 performs a data connection setup (S401). The target SET 30 transmits a SUPL start message, for example, a SUPL START message, to the SLC 22 requesting the start of a SUPL session with the H-SLP 20 (S402). To this end, the SUPL agent in the target SET 30 first establishes a secure IP connection with the SLC 22 using the provisioned base address from the home network. The SLC 22 checks whether the target terminal 30 roams (Routing Info) (S403).

Next, in this embodiment, since the connection mode is a non-proxy mode, an internal initialization process is performed between the SLC 22 and the SPC 24 for a direct connection between the SPC 24 and the target SET 30. It is performed in (S404). To this end, the SLC 22 first examines the received SUPL start message to determine whether the target SET 30 is allowed to connect directly to the SPC 24. The SLC 22 then generates a session id for the SUPL session and informs that an initiation request for the SUPL POS session, which can be identified using the session identifier, will come from the SET. SLC 22 also generates a key to be used for mutual authentication of SPC 24 and target SET 30. The generated key is passed to the SPC 24 as well as to the target SET 30. The SLC 22 and the SPC 24 cooperate with each other to determine the initial position of the target SET 30 based on the position identifier lid in the SUPL start message received from the target SET 30. Also, in this step, the SPC 24 informs the SLC 22 that the positioning method is allowed to be replaced.

Next, the SLC 22 transmits a SUPL response message to the target SET 30 in response to the received SUPL start message (S405). The SUPL response message may be, for example, a SUPL RESPONSE message, but is not limited thereto. The SUPL RESPONSE message includes various parameters. For example, the SUPL RESPONSE message indicates a session identifier, a SPC address for the target SET 30 to establish a new IP connection, and information about a positioning method to be used. This includes the posmethod, the SET auth-key, the key identifier (key-id4) and the fallback indicator to be used for mutual authentication of the SPC 24 and the target SET 30. do.

Next, the target SET 30 sends a SUPL positioning start message to the SPC 24 requesting the start of the SUPL positioning procedure (S406). The SUPL positioning initiation message may be, for example, a SUPL POS INIT message, but is not limited thereto. The SUPL positioning initiation message includes a fallback indicator parameter along with at least a session identifier, a SET capabilities, and a location identifier for identifying a SUPL session that has already been initiated. The replacement indicator is information indicating whether the target SET 30 supports replacement of the positioning method. In this step, the SPC 24 receiving the SUPL positioning start message informs the SLC 22 that the SUPL positioning procedure is started through internal communication.

Next, the first SUPL positioning procedure S407 and the second SUPL positioning procedure S408 using a positioning method different from that in the first SUPL positioning procedure are continuously performed. Since the first and second SUPL positioning procedures S407 and S408 are substantially the same as the first and second SUPL positioning procedures S210 and S211 in the second embodiment, a detailed description thereof will be omitted.

Next, after acquiring the location information on the target SET 30 in the second SUPL positioning procedure, the SPC 24 transmits a SUPL end message to the target SET 30 (S409). The SUPL end message is for notifying that the positioning procedure is no longer started. For example, the SUPL end message may be a SUPL END message. The SUPL end message may include the acquired location information, which is arbitrary according to a positioning method and a positioning protocol. Subsequently, the target SET 30 terminates the secure IP connection established with the H-SLP 20 and releases all resources associated with the established SUPL session. The SPC 24 informs the SLC 22 that the SUPL positioning session is over through internal communication, and the SLC 22 also releases all resources related to the session.

As described in detail above, according to the replacement procedure of the positioning method in SUPL according to the present invention, a message of a new type (eg, SUPL FALLBACK) rather than a message according to the protocol used in the SUPL positioning procedure for replacing the positioning method. INFORM messages, SUPL POS FALLBACK messages, and SUPL FALLBACK ACK messages, etc.) do not need to be generated and exchanged. On the other hand, in the present invention, by using an existing positioning procedure message according to the positioning protocol used in the first SUPL positioning session procedure and the second SUPL positioning session procedure, the first SUPL positioning procedure using the first positioning method is terminated. Immediately, a second SUPL positioning procedure using a second positioning scheme different from the first positioning scheme can be initiated. Therefore, according to the present invention, since the message used in the existing SUPL positioning procedure can be used, it is possible to simplify the SUPL communication protocol and facilitate the implementation of the terminal and the server constituting the SUPL system.

Claims (10)

In the procedure for replacing the positioning method in the user plane-based location service procedure, Initiating a first positioning procedure using a first positioning scheme between a positioning server and a target terminal; And If the location information of the position quality required for the target terminal cannot be obtained after the start of the first positioning procedure, the first positioning procedure is terminated between the positioning server and the target terminal and the first positioning scheme is performed. Performing a second positioning procedure using a second positioning scheme different from, Negotiation of the use of the second positioning method between the positioning server and the target terminal is performed at the same time as the start of the second positioning procedure or after the start of the second positioning procedure; . The method of claim 1, wherein the negotiation about the use of the second positioning method is performed using a message defined in the positioning protocol used in the second positioning procedure. The method of claim 2, wherein the information indicating the second location method is included in a first message sent by the location server to the target terminal to start the second location procedure. The method according to claim 1, wherein before the end of the first location procedure, the target terminal uses the method defined in the location protocol used in the first location procedure to indicate that the location server has a problem in the first location procedure. Positioning alternative method characterized in that the notification. The method of claim 1, wherein the positioning server independently determines that a problem has occurred in the first positioning procedure before terminating the first positioning procedure. The method of claim 1, wherein the location service procedure is a Secure User Plane Location (SUPL) procedure, and the location server and the target terminal are respectively a SLP (SUPL Location Platform) and a target SET (SUPL Enabled Terminal). Positioning alternative method characterized in that. The method of claim 6, wherein the SUPL procedure is a network initiation case, and the access mode of the SLP is a proxy mode. The method of claim 6, wherein the SUPL procedure is a network initiation case, and the access mode of the SLP is a non-proxy mode. 7. The method of claim 6, wherein the SUPL procedure is a SET initiation case and the access mode of the SLP is a proxy mode. 7. The method of claim 6, wherein the SUPL procedure is a SET initiation case and the access mode of the SLP is a non-proxy mode.

Images