Title of Invention	A METHOD OF PERFORMING PERIODIC POSITIONING IN A MOBILE COMMUNICATION NETWORK/SYSTEM
Abstract	The present invention relates to a method of performing periodic positioning in a mobile communication network, the method comprising sending (S132) a first SUPL message that includes trigger type information related to positioning, the trigger type information denoting the type of positioning as being periodic positioning or deferred positioning; receiving (S134) a SUPL START message to start a periodic triggered session with a SLP for the positioning; sending (S135) a second SUPL message including information related to a start time of the periodic triggered session and an interval for the positioning; receiving (S139) a SUPL POS INIT message to start the positioning at the positioning period according to the information included in the second SUPL message; exchanging (S140) positioning procedure messages for the positioning; determining (S140) a position of a target terminal based upon the positioning procedure messages, wherein all of the steps are performed through a user plane.

Title of Invention

A METHOD OF PERFORMING PERIODIC POSITIONING IN A MOBILE COMMUNICATION NETWORK/SYSTEM

Abstract

The present invention relates to a method of performing periodic positioning in a mobile communication network, the method comprising sending (S132) a first SUPL message that includes trigger type information related to positioning, the trigger type information denoting the type of positioning as being periodic positioning or deferred positioning; receiving (S134) a SUPL START message to start a periodic triggered session with a SLP for the positioning; sending (S135) a second SUPL message including information related to a start time of the periodic triggered session and an interval for the positioning; receiving (S139) a SUPL POS INIT message to start the positioning at the positioning period according to the information included in the second SUPL message; exchanging (S140) positioning procedure messages for the positioning; determining (S140) a position of a target terminal based upon the positioning procedure messages, wherein all of the steps are performed through a user plane.

Full Text	Technical Field [1] The present invention relates to a mobile communications system, and particularly, to a periodic positioning method in a Secure User Plane Location (SUPL) based position information system. Background Art [2] In general, a mobile communications system has a function unit related to calculating of position of a mobile communications terminal (referred to as just a 'terminal1 hereafter) in a mobile communications network, and thus provides location services for transferring the location (position) of the terminal to a certain entity pe- riodically or according to a user's request. [3] Networks related to the location services have different structures according to an inner network structure of 3GPP or 3GPP2. The position of the terminal can be calculated using a cell-ID method for transferring a cell ID to which the terminal belongs, a method in which a time taken by transferring a radio wave from a terminal to each base station is calculated and a location (position) of the terminal is then calculated using a triangulation, a method using a Global Positioning System (GPS), and the like. [4] However, in order to provide location services to a user using the position calculation (positioning) method, considerable signaling and position information should be sent and received between the terminal and a location server. The so-called positioning technologies that have been standardized for providing such location services, namely, a location service based upon the location (position) of a terminal, are undergoing rapid widespread dissemination. The technologies can typically be provided through a user plane and a control plane. A Secure User Plane Location (SUPL), which is well-known as an example of the positioning technologies, provides the location services through the user plane [5] The SUPL is an efficient method for transferring location (position) information required for the positioning of a terminal. The SUPL protocol transfers positioning assistance information such as Global Positioning System (GPS) assistance. The SUPL employs a user plane data bearer to carry positioning technology associated protocols between the mobile terminal and a network. [6] In general, in a positioning system, a SUPL network related to a location service roughly includes a SUPL agent, SUPL Location Platform (SLP) and SUPL Enabled Terminal (SET). The SUPL agent denotes a logical service access point using position information which is actually measured. The SLP denotes a SUPL service access point within a network portion where network resources are accessed to obtain position in- formation. The SET denotes a device for communicating with the SUPL network using a SUPL interface. The SET may denote, for instance, one of a User Equipment (UE) of UMTS, a Mobile Station (MS) of GSM, an IS-95 MS, a laptop computer having a SET function, Personal Digital Assistances (PDAs) or the like. The SET may also denote various terminals which access through a Wideband LAN (WLAN). [7] The SET supports various procedures defined by the SUPL by being connected to the network through the user plane bearer. Here, a network that a user has originally registered is referred to as a home network. When a user moves and thus is located at another area which is not in the home network area, the corresponding area is referred to as a visited network. The SLP within the home network is called as a Home-SLP (H-SLP), and the SLP within the visited network is called as a Visited-SLP (V-SLP). Here, upon initiating a SUPL procedure at the network, an SLP to which an external client is initially connected is referred to as a Requesting SLP (R-SLP). The R-SLP is a logical entity which may be either the same as the H-SLP or not. In addition, a SET which is a target for a current positioning (i.e., location tracking) is defined as a target SET. [81 The SLP, as a network element, may include a SUPL Positioning Center (SPC) which is an entity for calculating an actual position, and a SUPL Location Center (SLC) which manages functions of the SLP other than calculating location (position) information, for example, functions of roaming and resource management. Therefore, the SET may calculate the position information (i.e., perform positioning) through a communication with the SPC via the SLC (i.e., proxy mode), and may calculate the position information (i.e., perform positioning) by being direcdy connected to the SPC (i.e., non-proxy mode). [9] The SUPL based immediate positioning method has been disclosed in the related art, however, a SUPL based periodic positioning methods has not been proposed therein. Disclosure of Invention Technical Problem [10] Therefore, an object of the present invention is to provide a SUPL based periodic positioning method. Technical Solution [11] To achieve these and other advantages and in accordance with the purpose of the present invention, as embodied and broadly described herein, there is provided a periodic positioning method in a mobile communications system comprising: initiating a session between a location server and the target terminal when a client requests po- sitioning for a target terminal; sending trigger information from the location server to the target terminal; receiving a positioning-start message, which is sent by the terminal per each positioning period according to the sent trigger information; and exchanging (sending and receiving) consecutive messages between the location server and the target terminal to calculate a position of the terminal, and sending the calculated position value of the terminal to the client. [12] According to another embodiment of the present invention, a periodic positioning method in a mobile communications system may comprise: receiving in a terminal a session initiating message from a location server, the session initiating message including trigger type information; starting a trigger session with the location server according to the session initiating message; receiving a trigger message including trigger parameters from the location server; sending a positioning initiating message to the location server according to the trigger parameters; performing the positioning between the location server and the terminal; and receiving a session-end message from the location server to terminate the trigger session. [13] Preferably, the trigger type information indicates a periodic service type. [14] Preferably, the trigger parameters include at least a period for the periodic po- sitioning and starting time and ending time of the periodic positioning. [15] Preferably, the periodic positioning method in the mobile communications system may further comprise sending a positioning request message including trigger parameters related to positioning for the target terminal from an agent to the location server. [16] According to still another embodiment of the present invention, a periodic po- sitioning method in a mobile communications system may comprise: receiving a session-start message from a terminal; sending a session response message from a location server to the terminal; receiving a positioning initiating message sent by the terminal based upon a periodic trigger condition; performing the positioning between the terminal and the location server; and receiving a report message including the po- sitioning result from the location server. [17] According to yet another embodiment of the present invention, a periodic po- sitioning method in a mobile communications system may comprise: receiving a session-start message from a terminal; sending a session response message from a location server to the terminal; receiving a positioning initiating message sent by the terminal based upon a periodic trigger condition; performing the positioning between the terminal and the location server; and sending the positioning result from the location server to the terminal. [18] Preferably, the trigger type information indicates a periodic service type. [19] Preferably, the trigger parameters include at least a period for the periodic po- sitioning and starting time and ending time of the periodic positioning. [20] Preferably, the positioning initiating message is sent when the periodic trigger condition is satisfied. [21] The foregoing and other objects, features, aspects and advantages of the present invention will become more apparent from the following detailed description of the present invention when taken in conjunction with the accompanying drawings. Description of the Accompanying Drawings [22] The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention. [23] In the drawings: [24] Fig. 1 is a view illustrating a periodic positioning procedure in accordance with a first embodiment of the present invention, which illustrates a positioning procedure in a Network-trigged case and a Network-initiated case; [25] Fig. 2 is a view illustrating a periodic positioning procedure in accordance wim a second embodiment of the present invention, which illustrates an example that a period for the periodic positioning is relatively longer than that in the first embodiment; [26] Fig. 3 is a view illustrating a periodic positioning procedure in accordance with a third embodiment of the present invention, which illustrates a positioning procedure in a Network-trigged case and a SET-initialed case; [27] Fig, 4 is a view illustrating a periodic positioning procedure in accordance with a fourth embodiment of the present invention, which illustrates an example that a period for the periodic positioning is relatively longer than that in the third embodiment; [28] Fig. 5 is a view illustrating a periodic positioning procedure in accordance with a fifth embodiment of the present invention, which illustrates a positioning procedure in a SET-trigged case and a Network-initiated case; [29] Fig. 6 a view illustrating a periodic positioning procedure in accordance with a sixth embodiment of the present invention, which illustrates an example that a period for the periodic positioning is relatively longer than that in the fifth embodiment; [30] Fig. 7 is a view illustrating a periodic positioning procedure in accordance with a seventh embodiment of the present invention, which illustrates a procedure for sending trigger information to a SET using a new message; [31] Fig. 8 is a view illustrating a periodic positioning procedure in accordance with an eighth embodiment of the present invention, which illustrates a positioning procedure in a SET-trigged case and a SET-initiated case; and [32] Fig. 9 is a view illustrating a periodic positioning procedure in accordance with a ninth embodiment of the present invention, which illustrates an example that a period for the periodic positioning is relatively longer than that in the eighth embodiment. Mode for Invention [33] Description will now be given in detail of the present invention, with reference to the accompanying drawings. [34] The present invention can be implemented in a SUPL network. However, the present invention may be employed to radio (wireless) communication systems which are operated based upon different specifications. Hereinafter, the preferred em- bodiments of the present invention will be explained. [35] The present invention proposes a periodic positioning method in a SUPL based position information (positioning) system. Especially, the present invention proposes a method for performing a periodic positioning by allowing each of server and terminal to manage a trigger generating the periodic positioning. [36] In general, location services provided in a SUPL based positioning system may classified into a service by a network (i.e., Network-initiated case) and a service by a SET (i.e., SET-initiated case). The location services may be classified into a proxy mode that the SET performs positioning by directly exchanging messages with a H- SLP of a home network, and a non-proxy mode that the SET performs positioning by exchanging messages with a SUPL Location Center (SLP) and a SUPL Positioning Center (SPC) within the H-SLP. [37] In the present invention, a periodic positioning is divided into a Network-trigged case or a SET-trigged case according to a subject which manages trigger information. The divided cases will be re-classified into a service by a network (i.e., Network- initiated case and a service by the SET (i.e., SET-initiated case) to thusly be explained. [38] Fig. 1 is a view illustrating a periodic positioning procedure in accordance with a first embodiment of the present invention. The first embodiment of the present invention illustrates a Network-trigged case and a Network-initiated case for a Non- Roaming Proxy mode. Here, the SLP corresponds to a network side, while a target SET (referred to as SET hereafter) corresponds to a terminal side. [39] When an outer LCS client requests a periodic positioning, a SUPL agent requests the positioning from the SLP using a Mobile Location Protocol (MLP) Trigged Location Reporting Request (TLRR) message (S10). [40] The MLP TLRR message may include parameters such as ms-id, client-id, QoP, and tlrr_event which is a positioning related trigger parameter. Here, ms-id denotes a positioning target (SET), QoP denotes an accuracy (e.g., a time delay and a spatial accuracy) of a result for the positioning (location tracking) desired by the client, and tlrr_event denotes a definition of the 'periodic', namely, a starting time and ending time of the periodic positioning (e.g., 8 am to 10 am) and a request period for the periodic positioning (e.g., a one-hour interval). The MLP TLRR message may further include parameters related to types of the positioning values (which, for example, represent a current value or a value obtained in the latest time when it is difficult to tracking the current value), and parameters for setting priorities with respect to each positioning request for several positioning requests. [41] The SLP having received the MLP TLRR message checks whether the SET can supports the SUPL by using a lookup table, and then checks whether the target SET is currently SUPL roaming using routing information (S11). [42] If it is checked that the SET supports the SUPL and is not roaming, the SLP sends a SUPL initiating message SUPL INTT to the SET to start a SUPL procedure with the SET (S12). The SUPL INIT message may include session-id, SLP mode, SUPL mode, positioning method (posmethod) to be used, and the like. Here, the SLP mode denotes an operation mode of the SLP (i.e., a Proxy mode or a Non-Proxy mode), the SUPL mode denotes types of positioning (e.g., immediate, periodic, deferred), namely, trigger type information. Here, the SUPL mode denotes a periodic service type po- sitioning. [43] Also, the SLP confirms a privacy of the SET prior to performing the step S11. If the user requires a notification related to location (position) information, the SLP further includes a notification parameter in the MLP TLRR message. [44] Hence, the SLP sends the SUPL INIT message by including periodic trigger in- formation therein. This parameter may be used to inform of information related to the periodic positioning and of the corresponding positioning being executed by the SLP (i.e., Network-trigged case). Here, the SUPL INIT message may be sent in forms of a Wireless Application Protocol (WAP) push, a Short Message Service (SMS) trigger, a Session Initiation Protocol (SIP) push, or the like, for example. [45] The SET having received the SUPL INIT message requests a data connection from a packet data network (i.e., 3GPP or 3GPP2) when any data connection is not currently set between the SET itself and a certain network (S13). Once setting the data connection, the SET stores the trigger information sent by the SUPL INIT message, and then sends a SUPL START message to the SLP (S14). Here, the SET sends SET capability information by including it in the SUPL START message. [46] The SLP sends acknowledgement (i.e., whether the positioning can be performed) with respect to the corresponding positioning request to the SUPL agent by using a MLP Trigged Location Reporting Answer (TLRA) message exchanged (S15). Thereafter, the SLP sends a SUPL RESPONSE message to the SET in response to the SUPL START message (SI6). Here, the SUPL RESPONSE message may be replaced with a SUPL TRIGGER message. In this case, the step S16 is not performed. [47] Afterwards, when a particular event is generated (for every certain period) based upon the stored trigger information, the SLP sends the SUPL TRIGGER message to the SET to start a positioning procedure (S17). The SET then sends a SUPL position initiating message (i.e., SUPL POS INIT) to the SLP so as to start a trigger session with the SLP (S18). The SUPL POS INIT message may include at least Location Identifiers lid indicating a session ID, a base station ID, or the like, versions, SET ca- pabilities, and the like. [48] Accordingly, the SLP and the SET exchange (send and receive) consecutive messages to execute an actual positioning, and then the SLP or SET calculates a position of the SET by virtue of the consecutive messages (S19). Preferably, the messages exchanged between the SLP and the SET may include a session ID, protocols to be used for the positioning (e.g., RRLP, RRC or TIA-801), etc. Here, the positioning for the SET may be performed by the SLP based upon a positioning measurement value received from the SET (i.e., SET-assisted mode), or be performed by the SET based upon assistance obtained from the SLP (i.e., SET-based mode). Fig. 1 illustrates an example that the positioning is performed in the SET-assisted mode. However, if the positioning is performed in the SET-based mode, the SET sends the calculated position value (i.e., posresult) to the SLP using a SUPL REPORT message (S20). Therefore, the SLP sends the position value, which is calculated by the SLP itself or transferred from the SET, to the SUPL agent using a TLREP message (S21). [49] Afterwards, in th&succeeding positioning period, the SLP and the SET perform the positioning for the corresponding period by using the SUPL TRIGGER message, the SUPL POS INIT message, the SUPL POS procedure, the SUPL REPORT message, the MLP TLREP message, and thereafter send a calculated position value of the SET to the SUPL agent (S22 ~ S26). [50] Then, when the series of periodic positioning procedures are all terminated (ended) (i.e., when a positioning ending time arrives), the SLP sends a SUPL END message to inform the SET of the termination of the SUPL procedure (or SUPL session) (S27). The SET then releases an IP connection with the SLP and releases all of the resources related to the positioning session. [51] On the other hand, in Fig. 1, the SUPL START and SUPL RESPONSE may be omitted. In this case, the MLP TLRA message may be sent following the SUPL POS INIT message. [52] Fig. 2 is a view illustrating a periodic positioning procedure in accordance with a second embodiment of the present invention, which illustrates an example that a period for the periodic positioning is relatively longer than that in the first embodiment. [53] As illustrated in Fig. 2, for a long period for the periodic positioning, the SLP terminates (ends) the positioning for one period at the end of every period using a SUPL END message (here, the SUPL connection other than the SUPL session is released (disconnected)) (S41). The SLP then executes the positioning for the succeeding period at a starting point of the succeeding period by using the SUPL TRIGGER again (S43). Here, the steps (S30-S40) are the same as the steps (S10-S20) of Fig. 1 except their numerals, detailed explanation for which will not be repeated ac- cordingly. [54] That is, when the periodic positioning procedure with respect to one period is terminated (ended) (S39), the SLP sends a SUPL END message to the SET to release the SUPL POS connection with respect to one period (S41). The SLP then sends a cor- responding periodic positioning value to the SUPL agent using the MLP TLREP message (S42). Afterwards, the SLP connects (opens) the released SUPL POS connection using the SUPL TRIGGER message, and informs the SET of the performance of the positioning with respect to the succeeding period (S43). [55] Accordingly, when the corresponding event is generated, the SLP and the SET execute the positioning for the corresponding period using the SUPL POS INIT message, the SUPL POS procedure, and the SUPL REPORT and MLP TLREP messages, and then sends the corresponding position value to the SUPL agent (S44-S47). When the series of the periodic positioning procedures are all terminated (ended), the SLP sends the SUPL END message to the SET to inform of the termination of the SUPL procedure (S48). [56] Fig. 3 is a view illustrating a periodic positioning procedure in accordance with a third embodiment of the present invention. The third embodiment of the present invention illustrates a Network-trigged case and a SET-initiated case for a Non- Roaming Proxy mode. Here, the SLP corresponds to a home network side, while a target SET (referred to as SET hereafter) corresponds to a terminal side. [57] First, when a SUPL agent requests a periodic positioning, the SET requests a data connection from a packet data network (e.g., 3GPP or 3GPP2) when any data connection is not currently set between the SET itself and a certain network (S50). Once setting the data connection, the SET sends a SUPL START message to the SLP to start a periodic positioning request procedure (S51). [58] The SET includes a report_criteria parameter in the SUPL START message so as to set a period, a starting time and an ending time of the periodic positioning request. The SET then sends the set information to the SLP. ■ [59] The SLP having received the SUPL START message stores the periodic positioning information, and checks whether the SET is currently SUPL roaming using routing in- formation (S52). If it is checked that the SET is not SUPL roaming, the SLP sends a SUPL RESPONSE message in response to the SUPL START message (S53). [60] Afterwards, when the corresponding event is generated, the SLP sends a SUPL TRIGGER message to the SET to start the periodic positioning procedure (S54). The SET sends the SUPL POS INTT message to the SLP so as to start a trigger session with the SLP (S55). Here, for the initial period positioning generated, the SUPL TRIGGER message may be replaced with the SUPL RESPONSE message of the step (S53), or the SUPL RESPONSE message may be replaced with the SUPL TRIGGER message of the step (S54). [61] Accordingly, the SLP consecutively exchanges (sends and receives) positioning protocols (e.g., RRLP, RRC, TIA-801, etc.) with the SET using the SUPL POS message for performing the positioning, thereby calculating the position of the SET (S56). Here, the positioning for the SET can be performed by the SLP based upon a positioning measurement value received from the SET (i.e., SET-assisted mode), or be performed by the SET based upon assistance obtained from the SLP (i.e., SET-based mode). [62] If the positioning is performed in the SET-assisted mode, the SLP sends the calculated position value (i.e., posresult) to the SET using a SUPL REPORT message (S57). If the positioning is performed in the SET-based mode, the SLP does not send the SUPL REPORT message to the SET. Hence, the SET sends the position value calculated by the SET itself or the position value received from the SLP to the SUPL agent. [63] Afterwards, in the succeeding positioning period, as aforementioned, the SLP and the SET performs the positioning for die corresponding period using the SUPL TRIGGER message, the SUPL POS INIT message, the SUPL POS procedure, and the SUPL REPORT message to thereafter send the calculated position value of the SET to the SET (S58-S61). [64] Then, when the entire periodic positioning procedures are terminated (ended), the SLP sends the SUPL END message to the SET to inform the SET of the termination of the SUPL procedure (or the SUPL session) (S62). The SET then releases the IP connection wititi the SIP and releases all of the resources related to the positioning session. [65] Fig. 4 is a view illustrating a periodic positioning procedure in accordance with a fourth embodiment of the present invention, which illustrates an example that a period for the periodic positioning is relatively longer than that in the third embodiment. [66] As illustrated in Fig. 4, for a long period for the period positioning, the SLP terminates (ends) the positioning with respect to one period at the end of every period using the SUPL END message (i.e., releases or disconnects the SUPL connection) (S78). The SLP then performs the positioning for the succeeding period at the starting point of the succeeding period by using the SUPL TRIGGER again (S79). Here, the steps (S70-S77) are the same as the steps (S50-S57) except their reference numerals, detailed explanation for which will not be repeated accordingly. [67] That is, when the periodic positioning procedure for one period is terminated (ended) (S76), the SLP sends the SUPL END message to the SET and then releases the SUPL POS connection (or trigger connection) with respect to one period (S78). [68] Afterwards, the SLP sends the SUPL TRIGGER message to the SET to inform the SET of the performance of the positioning with respect to the succeeding period (S79). Here, when any data connection is set between the SET itself and a certain network, the SET can request the data connection from a packet data network (e.g., 3GPP or 3GPP2). [69] Accordingly, when the corresponding event is generated, the SLP and the SET perform the positioning for the corresponding period using the SUPL POS INIT message, the SUPL POS procedure, and the SUPL REPORT message, and, in some cases, send the corresponding position value to the SET (S80~S82). When the series of the periodic positioning procedures are terminated (ended), the SLP sends the SUPL END message to the SET to inform the SET of the termination of the entire SUPL procedure (or the trigger session) (S83). [70] Fig. 5 is a view illustrating a periodic positioning procedure in accordance with a fifth embodiment of the present invention. The fifth embodiment of the present invention illustrates a SET-trigged case and a Network-initiated case for a Non- Roaming Proxy mode. Here, the SLP corresponds to a home network side, while a target SET (referred to as SET hereafter) corresponds to a terminal side. [71] First, when an outer LCS client requests a periodic positioning, the SUPL agent requests the positioning from the SLP using a MLP TLRR message (S90). The MLP TLRR message, as aforementioned, may include parameters such as ms-id, client-id, QoP, tlrr_event, and the like. tlrr_event denotes a definition of the 'periodic', namely, a starting time and ending time of the periodic positioning (e.g., 8 am to 10 am) and a request period for the periodic positioning (e.g., a one-hour interval). The MLP TLRR message may further include parameters related to types of the positioning values (which, for example, represent a current value or a value obtained in the latest time when it is difficult to tracking the current value), and parameters for setting priorities with respect to each positioning request for several positioning requests. [72] Upon receiving the MLP TLRR message, the SLP checks whether the SET can support the SUPL using a lookup table, and checks whether the target SET is currently SUPL roaming using routing information (S91). [73] If it is checked that the SET supports the SUPL and not roaming, the SLP sends a SUPL INIT message to the SET to start a SUPL procedure (S92). The SUPL INIT message must at least include parameters such as session-id, posrnethod, SLP mode, SUPL mode, and the like. The SUPL mode denotes trigger type information, which indicates a periodic service type in the fifth embodiment of the present invention. [74] The SLP checks a privacy of the SET prior to performing the step S91. If a user requires a notification related to position information, a notification parameter is ad- ditionally included in the MLP TLRR message. [75] The SLP includes a report_criteria parameter which is a trigger parameter (or trigger information) in the SUPLINTT message for sending. The SLP uses the report_criteria parameter to send trigger information related to the periodic positioning received from the outer LCS client to the SET. That is, the SLP forwards the trigger in- formation which generates the periodic positioning to the SET (i.e., SET-trigged case) so as to allow a performance of an actual positioning procedure when the cor- responding event is generated in the SET. For example, the report_criteria may include a period, a starting time and an ending time for requiring the periodic positioning request. [76] When any data connection is not set between the SET itself and a certain network, the SET having received the SUPL INIT message requests the data connection from a packet data network (e.g., 3GPP or 3GPP2) (S93). [77] Upon setting the data connection, the SET stores the trigger information sent through the SUPL INIT message and thereafter sends a SUPL START message to the SLP (S94). Here, the SET sends SET capability information by including it in the SUPL START message. [78] The SLP sends acknowledgement with respect to the corresponding positioning request to the SUPL agent by using a MLP TLRA message (S95). The SLP then sends a SUPL RESPONSE message in response to the SUPL START message to allow the SET to start the positioning procedure when the corresponding event is generated (S96). [79] Afterwards, when the corresponding event is generated based upon the stored trigger information (i.e., per period for the periodic positioning), the SET sends the SUPL POS INIT message to the SLP to start the positioning procedure with the SLP (S97). Here, if a TCP/IP connection set between the SLP and the SET is terminated (released) after sending the SUPL RESPONSE message, the SET must reset the data connection prior to sending the SUPL POS INIT message. [80] Accordingly, the SET consecutively exchanges messages for performing an actual positioning with the SLP to calculate the position of the SET (S98). Here, the po- sitioning for the SET may be performed by the SLP based upon a positioning measurement value received from the SET (i.e., SET-assisted mode), or be performed by the SLP based upon assistance obtained from the SLP. [81] Upon performing the positioning in the SET-based mode, the SET sends the calculated position value (i.e., posresult) to the SLP using the SUPL REPORT message (S99). Upon performing the positioning in the SET-assisted mode, the SLP does not send the SUPL REPORT message. Accordingly, the SLP sends the corresponding po- sitioning value to the SUPL agent using the TLREP message (S100). [82] In the succeeding positioning period, the SLP and the SET perform the positioning of the corresponding period by using the SUPL POS INIT message, the SUPL POS procedure, the SUPL REPORT message, and the MLP TLREP message, and thereafter send a calculated position value of the SET to the SUPL agent (S101-S104). [83] Afterwards, when the series of the periodic positioning procedures are terminated (ended) (i.e., at the positioning ending time), the SLP sends a SUPL END message to the SET to inform the SET of the termination of the SUPL procedure (or SUPL session). The SET then releases the IP connection with the SLP and releases all of the resources related to the positioning session. [84] In Fig. 5, on the other hand, the SUPL START and SUPL REPORT messages may be omitted. In this case, the MLP TLRA message may be sent after sending the SUPL POS INIT message. [85] Fig. 6 a view illustrating a periodic positioning procedure in accordance with a sixth embodiment of the present invention, which illustrates an example that a SET can open or connect a SUPL session for every period when a period for the periodic positioning is relatively longer than that in the fifth embodiment. [86] As illustrated in Fig. 6, for a long period for the periodic positioning, the SLP terminates (ends) the positioning for one period at the end of every period using a SUPL END message (here, the SUPL connection is released (disconnected)) (S120). The SET then re-sends the SUPL START message to the SLP at a starting point of tfie succeeding period to perform the positioning for the succeeding period (S122). Here, the steps (S110-S119) are the same as the steps (S90~S99) except their reference numerals, detailed explanation for which will not be repeated accordingly. [87] That is, when the periodic positioning procedure for one period is terminated (SI 18), the SLP sends the SUPL END message to the SET to release a SUPL POS connection for the one period (S120). The SLP thereafter sends the corresponding periodic positioning value to the SUPL agent using the MLP TLREP message (S121). [88] Then, in the succeeding positioning period, the SET performs the positioning for the corresponding period using the SUPL START, SUPL REPONSE, SUPL POS INTT messages, the SUPL POS procedure, and the SUPL REPORT and MLP TLREP messages, and thereafter sends the corresponding position value to the SUPL agent (S122-S127). Here, the SUPL START message may be used for informing the SLP of the starting of the positioning for the succeeding period. When the series of the periodic positioning procedures are terminated (ended), the SLP sends the SUPL END message to the SET to inform the SET of the termination of the SUPL procedure (S128). [89] Fig. 7 is a view illustrating a periodic positioning procedure in accordance with a seventh embodiment of the present invention. The seventh embodiment illustrates an example that the SLP sends the report_criteria using a new SUPL TRIGGER REQUEST message when the SLP can not send the report_criteria using the SUPL INIT message due to a limitation on the size of the SUPL INIT message. [90] That is, the seventh embodiment of the present invention is different from the fifth embodiment in view of the addition of SUPL TRIGGER REQUEST and SUPL TRIGGER RESPONSE message, and also in view of the addition of a SUPL mode (which is a parameter for identifying immediate, periodic, or deferred positioning) to the SUPL INIT message. Other steps are the same as those in the fifth embodiment except their reference numerals. [91] Hence, upon performing the aforementioned steps (S130~S134), the SLP sends in- formation related to the periodic positioning to the SET using a SUPL TRIGGER REQUEST message (S135), so as to make the SET arrange the periodic positioning according to the corresponding information and to allow the SET to separately perform a user confirmation. The SET stores the periodic trigger information sent by the SUPL TRIGGER REQUEST message and thereafter sends a SUPL TRIGGER RESPONSE message in response to the SUPL TRIGGER REQUEST message (136). [92] However, unlike Fig. 5, as illustrated in Fig. 7, the SLP receives the SUPL TRIGGER RESPONSE message from the SET and then sends a MLP TLRA message to the SUPL agent (S137). Since the SLP sends to (he SET the SUPL TRIGGER REQUEST message which includes the trigger information related to the periodic po- sitioning, and then receives from the SET the SUPL TRIGGER RESPONSE message in response to the SUPL TRIGGER REQUEST message, only the reception of the SUPL TRIGGER RESPONSE message can inform that the trigger information related to the periodic positioning has completely sent to the SET. However, the SUPL TRIGGER RESPONSE message can be omitted. In this case, the SLP sends the SUPL TRIGGER REQUEST message and then immediately sends the MLP TLRA message to the SUPL agent. [93] The SUPL INIT message can be sent in a SMS sending manner. Accordingly, when the report_criteria parameter can not be all included in the SMS, the SUPL TRIGGER REQUEST message may denote a message for separately sending the report_criteria parameter, and the SUPL TRIGGER RESPONSE message corresponds to a message in response to the SUPL TRIGGER REQUEST message. Therefore, both the SUPL START message and the SUPL RESPONSE message can be omitted in Fig. 5. In Fig. 7, however, for sending the trigger information related to the periodic positioning by the SUPL TRIGGER REQUEST message and receiving the SUPL TRIGGER RESPONSE, the SET must first send the SUPL START message to the SLP to obtain an acceptance from the SLP with respect to the periodic positioning included in the SUPL INIT. Accordingly, only the SUPL RESPONSE message may be Omitted. [94] Even in the seventh embodiment of the present invention, for the long period for the periodic positioning, a procedure can be changed so as to be able to open (connect) the SUPL session by the SET per every period. In this case, the SUPL START message and the SUPL RESPONSE message are added for every positioning period prior to sending the SUPL POS INIT message. If the SUPL REPORT message is not used (required), the SUPL END message is added following the SUPL POS procedure. If the SUPL REPORT message is used, the SUPL END message is added following the SUPL REPORT message. [95] Fig. 8 is a view illustrating a periodic positioning procedure in accordance with an eighth embodiment of the present invention. The eighth embodiment illustrates a SET- trigged case and a SET-initiated case for a Non-Roaming Proxy mode. [96] First, when a SUPL agent requests a periodic positioning, if any data connection is not set between the SET and a certain network, the SET requests the data connection from a packet data network (e.g.. 3GPP or 3GPP2) (S150). [97] Upon setting the data connection, the SET sends a SUPL START message to the SLP to start a periodic positioning request procedure (S151). Here, the SET includes a tlrr_event parameter in the SUPL START message to set a period, a starting time and an ending time of the periodic positioning request, thereby sending the SUPL START message to the SLP. That is, the SET is performing the periodic SUPL procedure with managing trigger information, and accordingly the SET may not send the tlrr_event parameter to the SLP. However, the sending of the tlrr_event to the SLP is to previously inform the SLP of information related to resource management and the periodic positioning. [98] The SLP having received the SUPL START message checks whether the SET is currently SUPL roaming using routing information (SI52). If the SET is not roaming, the SLP sends a SUPL RESPONSE message in response to the SUPL START message (S153). [99] Afterwards, when a certain event is generated based upon pre-stored trigger in- formation (at the positioning period), the SET sends a SUPL POS INIT message to the SLP to start the periodic positioning procedure (S154). Here, the SET can inform the SLP using an event_trigger parameter that the periodic positioning period has currently arrived and also can inform the SLP of the remaining period of the entire positioning period using the event_trigger parameter. Here, if a TCP/IP connection between the SLP and the SET is terminated after sending the SUPL RESPONSE message, the SET must reset the data connection prior to sending the SUPL POS INIT message. [100] Therefore, the SET consecutively exchanges messages for performing an actual po- sitioning with the SLP to calculate the position of the SET (S155). Here, the po- sitioning for the SET may be performed by the SLP based upon a positioning measurement value received from the SET (i.e., SET-assisted mode), or be performed by the SET based upon assistance obtained from the SLP (i.e., SET-based mode). [101] Fig. 8 illustrates the positioning performed in the SET-based mode. However, if the positioning is performed in the SET-assisted mode, the SLP sends the calculated position value (i.e., posresult) to the SET using the SUPL REPORT message (S156). Accordingly, the SET sends the position value calculated by the SET itself or the position value received from the SLP to the SUPL agent. [102] Afterwards, in the succeeding positioning period, the SLP and the SET, as described above, perform the positioning for the corresponding period using the SUPL POS FNIT message, the SUPL POS procedure, and the SUPL REPORT message to thusly calculate the position value of the SET (S157~S159). Then, when the series of periodic positioning procedures are all terminated (ended), the SLP sends the SUPL END message to the SET to inform the SET of the termination of the SUPL procedure (S160). The SET then releases the IP connection with the SLP and also releases all of the resources related to the positioning procedure. [103] Fig. 9 is a view illustrating a periodic positioning procedure in accordance with a ninth embodiment of the present invention, which illustrates an example that a period for the periodic positioning is relatively longer than that in the eighth embodiment [104] As illustrated in Fig. 9, for a long period for the periodic positioning, the SLP terminates (ends) the positioning for one period at the end of every period using the SUPL END message (i.e., releases or disconnects the SUPL connection) (S176). The SET re-sends the SUPL START message to the SLP at the starting point of the succeeding period to perform the positioning for the succeeding period (S177). Here, the steps (S170-S175) are the same as the steps (S150-S155) except their reference numerals, detailed explanation for which will not be repeated accordingly. [105] That is, when the periodic positioning procedure for one period is terminated (ended) (S175), the SLP sends the SUPL END message to the SET and terminates (ends) the SUPL POS session for the one period (S176). [106] Afterwards, in the succeeding positioning period, the SET re-performs the po- sitioning for the corresponding period using the SUPL START, SUPL RESPONSE, SUPL POS INIT, and SUPL POS procedure messages (S177-S180). In this case, the tlrr_event of the SUPL START message includes a decreased period value. If any data connection is not set between the SET itself and a certain network, the SET requests the data connection from a packet data network (e.g., 3GPP or 3GPP2) prior to sending the SUPL START message. [107] Accordingly, when the series of periodic positioning procedure is terminated, the SLP sends the SUPL END message to the SET to inform the SET of the termination of the SUPL procedure (S181). [108] As described above, in the present invention, the periodic positioning method in the SUPL based position information system can be provided so as to enable a pro- visioning of various positioning methods to a user. [109] As the present invention may be embodied in several forms without departing from the spirit or essential characteristics thereof, it should also be understood that the above-described embodiments are not limited by any of the details of the foregoing de- scription, unless otherwise specified, but rather should be construed broadly within its spirit and scope as defined in the appended claims, and therefore all changes and modi- fications that fall within the metes and bounds of the claims, or equivalents of such metes and bounds are therefore intended to be embraced by the appended claims. WE CLAIM: 1. A method of performing periodic positioning in a mobile communication network, the method performed by a Secure User Plane Location -SUPL- Location Platform -SLP- and comprising: receiving (S130), from a Secure User Plane Location SUPL agent, a request message for positioning of a target terminal; sending (S132), to the target terminal, a first SUPL message that includes trigger type information related, to the positioning, the trigger type information denoting the type of positioning as being periodic positioning or deferred positioning; receiving (S134), from the target terminal, a SUPL START message to start a periodic triggered session with the SLP for the positioning, the SUPL START message including at least a session-id and target terminal capabilities, wherein the target terminal capabilities are used to select an intended positioning method to be used for the periodic triggered session; sending (S135), to the target terminal, a second SUPL message that includes information related to a start time of the periodic triggered session and an interval for the positioning; receiving (S139), from the target terminal, a SUPL POS EMIT message to start the positioning at the positioning period according to the information included in the second SUPL message; exchanging (S140), with the target terminal, positioning procedure messages for the positioning; calculating (S140) a position of the target terminal based upon the exchanged positioning procedure messages; and reporting (S141), to the SUPL agent, the calculated position of the target terminal, wherein all of the above steps are based on SUPL technology that provides positioning through a user plane, and wherein the SLP and the target terminal support Internet Protocol IP connectivity. 2. The method as claimed in claim 1, comprising: sending (S147), to the target terminal, a SUPL END message after the positioning is completed. 3. The method as claimed in claim 1, wherein the first SUPL message is a SUPL INIT message. 4. The method as claimed in claim 3, wherein the SUPL INIT message is sent via at least one of WAP, Wireless Application Protocol, push, SMS, Short Messaging Service, and SIP, Session Initiated Protocol. 5. The method as claimed in claim 1, wherein the steps of: receiving (S139), from the target terminal, a SUPL POS INIT message to start the positioning; exchanging (S140), with the target terminal, positioning procedure messages for the positioning; calculating (S140) a position of the target terminal based upon the exchanged positioning procedure messages; and reporting (S141), to the SUPL agent, the calculated position of the target terminal are repeated based on the second SUPL message. 6. A method of performing periodic positioning in a mobile communication system, the method performed by a target terminal and comprising: receiving (S132), from, a first a Secure User Plane Location -SUPL- Location Platform -SLP- SUPL message that includes trigger type information related to positioning, the trigger type information denoting the type of positioning as being periodic positioning or deferred positioning; sending (S134), to the SLP, a SUPL START message to start a periodic triggered session with the SLP for the positioning, the SUPL START message including at least a session-id and target terminal capabilities, wherein the target terminal capabilities are used to select an intended positioning method to be used for the periodic triggered session; receiving (S135), from the SLP, a second SUPL message that includes information related to a start time of the periodic triggered session and an interval for the positioning; sending (S139), to the SLP, a SUPL POS INIT message to start the positioning at the positioning period according to the information included in the received second SUPL message; and exchanging (S140), with the SLP, positioning procedure messages for the positioning, wherein all of the above steps are based on SUPL technology that provides positioning through a user plane, and wherein the SLP and the target terminal support Internet Protocol IP connectivity. 7. The method as claimed in claim 6, comprising: calculating (S140) a position of the target terminal based upon the exchanged positioning procedure messages; and receiving (S147), from the SLP, a SUPL END message after the positioning is completed. 8. The method as claimed in claim 6, wherein the steps of: sending (S139), to the SLP, a SUPL POS INIT message to start the positioning according to the information included in the received second SUPL message; and exchanging (S140), with the SLP, positioning procedure messages for the positioning are repeated based on the second SUPL message. 9. The method as claimed in claim 6, wherein the first SUPL message is a SUPL INIT message. 10. The method as claimed in claim 9, wherein the SUPL INIT message is received via at least one of WAP, Wireless Application Protocol, push, SMS, Short Messaging Service, and SIP, Session Initiated Protocol. 11. The method as claimed in claim 6, comprising: storing the trigger type information included in the first SUPL message; and storing the information related to a start time of the periodic triggered session and an interval for the positioning included in the second SUPL message. Abstract A Method of Performing Periodic Positioning in a Mobile Communication Network/System The present invention relates to a method of performing periodic positioning in a mobile communication network, the method comprising sending (S132) a first SUPL message that includes trigger type information related to positioning, the trigger type information denoting the type of positioning as being periodic positioning or deferred positioning; receiving (S134) a SUPL START message to start a periodic triggered session with a SLP for the positioning; sending (S135) a second SUPL message including information related to a start time of the periodic triggered session and an interval for the positioning; receiving (S139) a SUPL POS INIT message to start the positioning at the positioning period according to the information included in the second SUPL message; exchanging (S140) positioning procedure messages for the positioning; determining (S140) a position of a target terminal based upon the positioning procedure messages, wherein all of the steps are performed through a user plane.

Full Text

Technical Field
[1] The present invention relates to a mobile communications system, and particularly,
to a periodic positioning method in a Secure User Plane Location (SUPL) based
position information system.
Background Art
[2] In general, a mobile communications system has a function unit related to
calculating of position of a mobile communications terminal (referred to as just a
'terminal1 hereafter) in a mobile communications network, and thus provides location
services for transferring the location (position) of the terminal to a certain entity pe-
riodically or according to a user's request.
[3] Networks related to the location services have different structures according to an
inner network structure of 3GPP or 3GPP2. The position of the terminal can be
calculated using a cell-ID method for transferring a cell ID to which the terminal
belongs, a method in which a time taken by transferring a radio wave from a terminal
to each base station is calculated and a location (position) of the terminal is then
calculated using a triangulation, a method using a Global Positioning System (GPS),
and the like.
[4] However, in order to provide location services to a user using the position
calculation (positioning) method, considerable signaling and position information
should be sent and received between the terminal and a location server. The so-called
positioning technologies that have been standardized for providing such location
services, namely, a location service based upon the location (position) of a terminal,
are undergoing rapid widespread dissemination. The technologies can typically be
provided through a user plane and a control plane. A Secure User Plane Location
(SUPL), which is well-known as an example of the positioning technologies, provides
the location services through the user plane
[5] The SUPL is an efficient method for transferring location (position) information
required for the positioning of a terminal. The SUPL protocol transfers positioning
assistance information such as Global Positioning System (GPS) assistance. The SUPL
employs a user plane data bearer to carry positioning technology associated protocols
between the mobile terminal and a network.
[6] In general, in a positioning system, a SUPL network related to a location service
roughly includes a SUPL agent, SUPL Location Platform (SLP) and SUPL Enabled

Terminal (SET). The SUPL agent denotes a logical service access point using position
information which is actually measured. The SLP denotes a SUPL service access point
within a network portion where network resources are accessed to obtain position in-
formation. The SET denotes a device for communicating with the SUPL network using
a SUPL interface. The SET may denote, for instance, one of a User Equipment (UE) of
UMTS, a Mobile Station (MS) of GSM, an IS-95 MS, a laptop computer having a SET
function, Personal Digital Assistances (PDAs) or the like. The SET may also denote
various terminals which access through a Wideband LAN (WLAN).
[7] The SET supports various procedures defined by the SUPL by being connected to
the network through the user plane bearer. Here, a network that a user has originally
registered is referred to as a home network. When a user moves and thus is located at
another area which is not in the home network area, the corresponding area is referred
to as a visited network. The SLP within the home network is called as a Home-SLP
(H-SLP), and the SLP within the visited network is called as a Visited-SLP (V-SLP).
Here, upon initiating a SUPL procedure at the network, an SLP to which an external
client is initially connected is referred to as a Requesting SLP (R-SLP). The R-SLP is a
logical entity which may be either the same as the H-SLP or not. In addition, a SET
which is a target for a current positioning (i.e., location tracking) is defined as a target
SET.
[81 The SLP, as a network element, may include a SUPL Positioning Center (SPC)
which is an entity for calculating an actual position, and a SUPL Location Center
(SLC) which manages functions of the SLP other than calculating location (position)
information, for example, functions of roaming and resource management. Therefore,
the SET may calculate the position information (i.e., perform positioning) through a
communication with the SPC via the SLC (i.e., proxy mode), and may calculate the
position information (i.e., perform positioning) by being direcdy connected to the SPC
(i.e., non-proxy mode).
[9] The SUPL based immediate positioning method has been disclosed in the related
art, however, a SUPL based periodic positioning methods has not been proposed
therein.
Disclosure of Invention
Technical Problem
[10] Therefore, an object of the present invention is to provide a SUPL based periodic
positioning method.
Technical Solution
[11] To achieve these and other advantages and in accordance with the purpose of the
present invention, as embodied and broadly described herein, there is provided a

periodic positioning method in a mobile communications system comprising: initiating
a session between a location server and the target terminal when a client requests po-
sitioning for a target terminal; sending trigger information from the location server to
the target terminal; receiving a positioning-start message, which is sent by the terminal
per each positioning period according to the sent trigger information; and exchanging
(sending and receiving) consecutive messages between the location server and the
target terminal to calculate a position of the terminal, and sending the calculated
position value of the terminal to the client.
[12] According to another embodiment of the present invention, a periodic positioning
method in a mobile communications system may comprise: receiving in a terminal a
session initiating message from a location server, the session initiating message
including trigger type information; starting a trigger session with the location server
according to the session initiating message; receiving a trigger message including
trigger parameters from the location server; sending a positioning initiating message to
the location server according to the trigger parameters; performing the positioning
between the location server and the terminal; and receiving a session-end message
from the location server to terminate the trigger session.
[13] Preferably, the trigger type information indicates a periodic service type.
[14] Preferably, the trigger parameters include at least a period for the periodic po-
sitioning and starting time and ending time of the periodic positioning.
[15] Preferably, the periodic positioning method in the mobile communications system
may further comprise sending a positioning request message including trigger
parameters related to positioning for the target terminal from an agent to the location
server.
[16] According to still another embodiment of the present invention, a periodic po-
sitioning method in a mobile communications system may comprise: receiving a
session-start message from a terminal; sending a session response message from a
location server to the terminal; receiving a positioning initiating message sent by the
terminal based upon a periodic trigger condition; performing the positioning between
the terminal and the location server; and receiving a report message including the po-
sitioning result from the location server.
[17] According to yet another embodiment of the present invention, a periodic po-
sitioning method in a mobile communications system may comprise: receiving a
session-start message from a terminal; sending a session response message from a
location server to the terminal; receiving a positioning initiating message sent by the
terminal based upon a periodic trigger condition; performing the positioning between
the terminal and the location server; and sending the positioning result from the
location server to the terminal.

[18] Preferably, the trigger type information indicates a periodic service type.
[19] Preferably, the trigger parameters include at least a period for the periodic po-
sitioning and starting time and ending time of the periodic positioning.
[20] Preferably, the positioning initiating message is sent when the periodic trigger
condition is satisfied.
[21] The foregoing and other objects, features, aspects and advantages of the present
invention will become more apparent from the following detailed description of the
present invention when taken in conjunction with the accompanying drawings.
Description of the Accompanying Drawings
[22] The accompanying drawings, which are included to provide a further understanding
of the invention and are incorporated in and constitute a part of this specification,
illustrate embodiments of the invention and together with the description serve to
explain the principles of the invention.
[23] In the drawings:
[24] Fig. 1 is a view illustrating a periodic positioning procedure in accordance with a
first embodiment of the present invention, which illustrates a positioning procedure in
a Network-trigged case and a Network-initiated case;
[25] Fig. 2 is a view illustrating a periodic positioning procedure in accordance wim a
second embodiment of the present invention, which illustrates an example that a period
for the periodic positioning is relatively longer than that in the first embodiment;
[26] Fig. 3 is a view illustrating a periodic positioning procedure in accordance with a
third embodiment of the present invention, which illustrates a positioning procedure in
a Network-trigged case and a SET-initialed case;
[27] Fig, 4 is a view illustrating a periodic positioning procedure in accordance with a
fourth embodiment of the present invention, which illustrates an example that a period
for the periodic positioning is relatively longer than that in the third embodiment;
[28] Fig. 5 is a view illustrating a periodic positioning procedure in accordance with a
fifth embodiment of the present invention, which illustrates a positioning procedure in
a SET-trigged case and a Network-initiated case;
[29] Fig. 6 a view illustrating a periodic positioning procedure in accordance with a sixth
embodiment of the present invention, which illustrates an example that a period for the
periodic positioning is relatively longer than that in the fifth embodiment;
[30] Fig. 7 is a view illustrating a periodic positioning procedure in accordance with a
seventh embodiment of the present invention, which illustrates a procedure for sending
trigger information to a SET using a new message;
[31] Fig. 8 is a view illustrating a periodic positioning procedure in accordance with an
eighth embodiment of the present invention, which illustrates a positioning procedure
in a SET-trigged case and a SET-initiated case; and

[32] Fig. 9 is a view illustrating a periodic positioning procedure in accordance with a
ninth embodiment of the present invention, which illustrates an example that a period
for the periodic positioning is relatively longer than that in the eighth embodiment.
Mode for Invention
[33] Description will now be given in detail of the present invention, with reference to
the accompanying drawings.
[34] The present invention can be implemented in a SUPL network. However, the
present invention may be employed to radio (wireless) communication systems which
are operated based upon different specifications. Hereinafter, the preferred em-
bodiments of the present invention will be explained.
[35] The present invention proposes a periodic positioning method in a SUPL based
position information (positioning) system. Especially, the present invention proposes a
method for performing a periodic positioning by allowing each of server and terminal
to manage a trigger generating the periodic positioning.
[36] In general, location services provided in a SUPL based positioning system may
classified into a service by a network (i.e., Network-initiated case) and a service by a
SET (i.e., SET-initiated case). The location services may be classified into a proxy
mode that the SET performs positioning by directly exchanging messages with a H-
SLP of a home network, and a non-proxy mode that the SET performs positioning by
exchanging messages with a SUPL Location Center (SLP) and a SUPL Positioning
Center (SPC) within the H-SLP.
[37] In the present invention, a periodic positioning is divided into a Network-trigged
case or a SET-trigged case according to a subject which manages trigger information.
The divided cases will be re-classified into a service by a network (i.e., Network-
initiated case and a service by the SET (i.e., SET-initiated case) to thusly be explained.
[38] Fig. 1 is a view illustrating a periodic positioning procedure in accordance with a
first embodiment of the present invention. The first embodiment of the present
invention illustrates a Network-trigged case and a Network-initiated case for a Non-
Roaming Proxy mode. Here, the SLP corresponds to a network side, while a target
SET (referred to as SET hereafter) corresponds to a terminal side.
[39] When an outer LCS client requests a periodic positioning, a SUPL agent requests
the positioning from the SLP using a Mobile Location Protocol (MLP) Trigged
Location Reporting Request (TLRR) message (S10).
[40] The MLP TLRR message may include parameters such as ms-id, client-id, QoP,
and tlrr_event which is a positioning related trigger parameter. Here, ms-id denotes a
positioning target (SET), QoP denotes an accuracy (e.g., a time delay and a spatial
accuracy) of a result for the positioning (location tracking) desired by the client, and
tlrr_event denotes a definition of the 'periodic', namely, a starting time and ending time

of the periodic positioning (e.g., 8 am to 10 am) and a request period for the periodic
positioning (e.g., a one-hour interval). The MLP TLRR message may further include
parameters related to types of the positioning values (which, for example, represent a
current value or a value obtained in the latest time when it is difficult to tracking the
current value), and parameters for setting priorities with respect to each positioning
request for several positioning requests.
[41] The SLP having received the MLP TLRR message checks whether the SET can
supports the SUPL by using a lookup table, and then checks whether the target SET is
currently SUPL roaming using routing information (S11).
[42] If it is checked that the SET supports the SUPL and is not roaming, the SLP sends a
SUPL initiating message SUPL INTT to the SET to start a SUPL procedure with the
SET (S12). The SUPL INIT message may include session-id, SLP mode, SUPL mode,
positioning method (posmethod) to be used, and the like. Here, the SLP mode denotes
an operation mode of the SLP (i.e., a Proxy mode or a Non-Proxy mode), the SUPL
mode denotes types of positioning (e.g., immediate, periodic, deferred), namely,
trigger type information. Here, the SUPL mode denotes a periodic service type po-
sitioning.
[43] Also, the SLP confirms a privacy of the SET prior to performing the step S11. If the
user requires a notification related to location (position) information, the SLP further
includes a notification parameter in the MLP TLRR message.
[44] Hence, the SLP sends the SUPL INIT message by including periodic trigger in-
formation therein. This parameter may be used to inform of information related to the
periodic positioning and of the corresponding positioning being executed by the SLP
(i.e., Network-trigged case). Here, the SUPL INIT message may be sent in forms of a
Wireless Application Protocol (WAP) push, a Short Message Service (SMS) trigger, a
Session Initiation Protocol (SIP) push, or the like, for example.
[45] The SET having received the SUPL INIT message requests a data connection from
a packet data network (i.e., 3GPP or 3GPP2) when any data connection is not currently
set between the SET itself and a certain network (S13). Once setting the data
connection, the SET stores the trigger information sent by the SUPL INIT message,
and then sends a SUPL START message to the SLP (S14). Here, the SET sends SET
capability information by including it in the SUPL START message.
[46] The SLP sends acknowledgement (i.e., whether the positioning can be performed)
with respect to the corresponding positioning request to the SUPL agent by using a
MLP Trigged Location Reporting Answer (TLRA) message exchanged (S15).
Thereafter, the SLP sends a SUPL RESPONSE message to the SET in response to the
SUPL START message (SI6). Here, the SUPL RESPONSE message may be replaced
with a SUPL TRIGGER message. In this case, the step S16 is not performed.

[47] Afterwards, when a particular event is generated (for every certain period) based
upon the stored trigger information, the SLP sends the SUPL TRIGGER message to
the SET to start a positioning procedure (S17). The SET then sends a SUPL position
initiating message (i.e., SUPL POS INIT) to the SLP so as to start a trigger session
with the SLP (S18). The SUPL POS INIT message may include at least Location
Identifiers lid indicating a session ID, a base station ID, or the like, versions, SET ca-
pabilities, and the like.
[48] Accordingly, the SLP and the SET exchange (send and receive) consecutive
messages to execute an actual positioning, and then the SLP or SET calculates a
position of the SET by virtue of the consecutive messages (S19). Preferably, the
messages exchanged between the SLP and the SET may include a session ID,
protocols to be used for the positioning (e.g., RRLP, RRC or TIA-801), etc. Here, the
positioning for the SET may be performed by the SLP based upon a positioning
measurement value received from the SET (i.e., SET-assisted mode), or be performed
by the SET based upon assistance obtained from the SLP (i.e., SET-based mode). Fig.
1 illustrates an example that the positioning is performed in the SET-assisted mode.
However, if the positioning is performed in the SET-based mode, the SET sends the
calculated position value (i.e., posresult) to the SLP using a SUPL REPORT message
(S20). Therefore, the SLP sends the position value, which is calculated by the SLP
itself or transferred from the SET, to the SUPL agent using a TLREP message (S21).
[49] Afterwards, in th&succeeding positioning period, the SLP and the SET perform the
positioning for the corresponding period by using the SUPL TRIGGER message, the
SUPL POS INIT message, the SUPL POS procedure, the SUPL REPORT message,
the MLP TLREP message, and thereafter send a calculated position value of the SET
to the SUPL agent (S22 ~ S26).
[50] Then, when the series of periodic positioning procedures are all terminated (ended)
(i.e., when a positioning ending time arrives), the SLP sends a SUPL END message to
inform the SET of the termination of the SUPL procedure (or SUPL session) (S27).
The SET then releases an IP connection with the SLP and releases all of the resources
related to the positioning session.
[51] On the other hand, in Fig. 1, the SUPL START and SUPL RESPONSE may be
omitted. In this case, the MLP TLRA message may be sent following the SUPL POS
INIT message.
[52] Fig. 2 is a view illustrating a periodic positioning procedure in accordance with a
second embodiment of the present invention, which illustrates an example that a period
for the periodic positioning is relatively longer than that in the first embodiment.
[53] As illustrated in Fig. 2, for a long period for the periodic positioning, the SLP
terminates (ends) the positioning for one period at the end of every period using a

SUPL END message (here, the SUPL connection other than the SUPL session is
released (disconnected)) (S41). The SLP then executes the positioning for the
succeeding period at a starting point of the succeeding period by using the SUPL
TRIGGER again (S43). Here, the steps (S30-S40) are the same as the steps (S10-S20)
of Fig. 1 except their numerals, detailed explanation for which will not be repeated ac-
cordingly.
[54] That is, when the periodic positioning procedure with respect to one period is
terminated (ended) (S39), the SLP sends a SUPL END message to the SET to release
the SUPL POS connection with respect to one period (S41). The SLP then sends a cor-
responding periodic positioning value to the SUPL agent using the MLP TLREP
message (S42). Afterwards, the SLP connects (opens) the released SUPL POS
connection using the SUPL TRIGGER message, and informs the SET of the
performance of the positioning with respect to the succeeding period (S43).
[55] Accordingly, when the corresponding event is generated, the SLP and the SET
execute the positioning for the corresponding period using the SUPL POS INIT
message, the SUPL POS procedure, and the SUPL REPORT and MLP TLREP
messages, and then sends the corresponding position value to the SUPL agent
(S44-S47). When the series of the periodic positioning procedures are all terminated
(ended), the SLP sends the SUPL END message to the SET to inform of the
termination of the SUPL procedure (S48).
[56] Fig. 3 is a view illustrating a periodic positioning procedure in accordance with a
third embodiment of the present invention. The third embodiment of the present
invention illustrates a Network-trigged case and a SET-initiated case for a Non-
Roaming Proxy mode. Here, the SLP corresponds to a home network side, while a
target SET (referred to as SET hereafter) corresponds to a terminal side.
[57] First, when a SUPL agent requests a periodic positioning, the SET requests a data
connection from a packet data network (e.g., 3GPP or 3GPP2) when any data
connection is not currently set between the SET itself and a certain network (S50).
Once setting the data connection, the SET sends a SUPL START message to the SLP
to start a periodic positioning request procedure (S51).
[58] The SET includes a report_criteria parameter in the SUPL START message so as to
set a period, a starting time and an ending time of the periodic positioning request. The
SET then sends the set information to the SLP.
■ [59] The SLP having received the SUPL START message stores the periodic positioning
information, and checks whether the SET is currently SUPL roaming using routing in-
formation (S52). If it is checked that the SET is not SUPL roaming, the SLP sends a
SUPL RESPONSE message in response to the SUPL START message (S53).
[60] Afterwards, when the corresponding event is generated, the SLP sends a SUPL

TRIGGER message to the SET to start the periodic positioning procedure (S54). The
SET sends the SUPL POS INTT message to the SLP so as to start a trigger session with
the SLP (S55). Here, for the initial period positioning generated, the SUPL TRIGGER
message may be replaced with the SUPL RESPONSE message of the step (S53), or the
SUPL RESPONSE message may be replaced with the SUPL TRIGGER message of
the step (S54).
[61] Accordingly, the SLP consecutively exchanges (sends and receives) positioning
protocols (e.g., RRLP, RRC, TIA-801, etc.) with the SET using the SUPL POS
message for performing the positioning, thereby calculating the position of the SET
(S56). Here, the positioning for the SET can be performed by the SLP based upon a
positioning measurement value received from the SET (i.e., SET-assisted mode), or be
performed by the SET based upon assistance obtained from the SLP (i.e., SET-based
mode).
[62] If the positioning is performed in the SET-assisted mode, the SLP sends the
calculated position value (i.e., posresult) to the SET using a SUPL REPORT message
(S57). If the positioning is performed in the SET-based mode, the SLP does not send
the SUPL REPORT message to the SET. Hence, the SET sends the position value
calculated by the SET itself or the position value received from the SLP to the SUPL
agent.
[63] Afterwards, in the succeeding positioning period, as aforementioned, the SLP and
the SET performs the positioning for die corresponding period using the SUPL
TRIGGER message, the SUPL POS INIT message, the SUPL POS procedure, and the
SUPL REPORT message to thereafter send the calculated position value of the SET to
the SET (S58-S61).
[64] Then, when the entire periodic positioning procedures are terminated (ended), the
SLP sends the SUPL END message to the SET to inform the SET of the termination of
the SUPL procedure (or the SUPL session) (S62). The SET then releases the IP
connection wititi the SIP and releases all of the resources related to the positioning
session.
[65] Fig. 4 is a view illustrating a periodic positioning procedure in accordance with a
fourth embodiment of the present invention, which illustrates an example that a period
for the periodic positioning is relatively longer than that in the third embodiment.
[66] As illustrated in Fig. 4, for a long period for the period positioning, the SLP
terminates (ends) the positioning with respect to one period at the end of every period
using the SUPL END message (i.e., releases or disconnects the SUPL connection)
(S78). The SLP then performs the positioning for the succeeding period at the starting
point of the succeeding period by using the SUPL TRIGGER again (S79). Here, the
steps (S70-S77) are the same as the steps (S50-S57) except their reference numerals,

detailed explanation for which will not be repeated accordingly.
[67] That is, when the periodic positioning procedure for one period is terminated
(ended) (S76), the SLP sends the SUPL END message to the SET and then releases the
SUPL POS connection (or trigger connection) with respect to one period (S78).
[68] Afterwards, the SLP sends the SUPL TRIGGER message to the SET to inform the
SET of the performance of the positioning with respect to the succeeding period (S79).
Here, when any data connection is set between the SET itself and a certain network,
the SET can request the data connection from a packet data network (e.g., 3GPP or
3GPP2).
[69] Accordingly, when the corresponding event is generated, the SLP and the SET
perform the positioning for the corresponding period using the SUPL POS INIT
message, the SUPL POS procedure, and the SUPL REPORT message, and, in some
cases, send the corresponding position value to the SET (S80~S82). When the series of
the periodic positioning procedures are terminated (ended), the SLP sends the SUPL
END message to the SET to inform the SET of the termination of the entire SUPL
procedure (or the trigger session) (S83).
[70] Fig. 5 is a view illustrating a periodic positioning procedure in accordance with a
fifth embodiment of the present invention. The fifth embodiment of the present
invention illustrates a SET-trigged case and a Network-initiated case for a Non-
Roaming Proxy mode. Here, the SLP corresponds to a home network side, while a
target SET (referred to as SET hereafter) corresponds to a terminal side.
[71] First, when an outer LCS client requests a periodic positioning, the SUPL agent
requests the positioning from the SLP using a MLP TLRR message (S90). The MLP
TLRR message, as aforementioned, may include parameters such as ms-id, client-id,
QoP, tlrr_event, and the like. tlrr_event denotes a definition of the 'periodic', namely, a
starting time and ending time of the periodic positioning (e.g., 8 am to 10 am) and a
request period for the periodic positioning (e.g., a one-hour interval). The MLP TLRR
message may further include parameters related to types of the positioning values
(which, for example, represent a current value or a value obtained in the latest time
when it is difficult to tracking the current value), and parameters for setting priorities
with respect to each positioning request for several positioning requests.
[72] Upon receiving the MLP TLRR message, the SLP checks whether the SET can
support the SUPL using a lookup table, and checks whether the target SET is currently
SUPL roaming using routing information (S91).
[73] If it is checked that the SET supports the SUPL and not roaming, the SLP sends a
SUPL INIT message to the SET to start a SUPL procedure (S92). The SUPL INIT
message must at least include parameters such as session-id, posrnethod, SLP mode,
SUPL mode, and the like. The SUPL mode denotes trigger type information, which

indicates a periodic service type in the fifth embodiment of the present invention.
[74] The SLP checks a privacy of the SET prior to performing the step S91. If a user
requires a notification related to position information, a notification parameter is ad-
ditionally included in the MLP TLRR message.
[75] The SLP includes a report_criteria parameter which is a trigger parameter (or
trigger information) in the SUPLINTT message for sending. The SLP uses the
report_criteria parameter to send trigger information related to the periodic positioning
received from the outer LCS client to the SET. That is, the SLP forwards the trigger in-
formation which generates the periodic positioning to the SET (i.e., SET-trigged case)
so as to allow a performance of an actual positioning procedure when the cor-
responding event is generated in the SET. For example, the report_criteria may include
a period, a starting time and an ending time for requiring the periodic positioning
request.
[76] When any data connection is not set between the SET itself and a certain network,
the SET having received the SUPL INIT message requests the data connection from a
packet data network (e.g., 3GPP or 3GPP2) (S93).
[77] Upon setting the data connection, the SET stores the trigger information sent
through the SUPL INIT message and thereafter sends a SUPL START message to the
SLP (S94). Here, the SET sends SET capability information by including it in the
SUPL START message.
[78] The SLP sends acknowledgement with respect to the corresponding positioning
request to the SUPL agent by using a MLP TLRA message (S95). The SLP then sends
a SUPL RESPONSE message in response to the SUPL START message to allow the
SET to start the positioning procedure when the corresponding event is generated
(S96).
[79] Afterwards, when the corresponding event is generated based upon the stored
trigger information (i.e., per period for the periodic positioning), the SET sends the
SUPL POS INIT message to the SLP to start the positioning procedure with the SLP
(S97). Here, if a TCP/IP connection set between the SLP and the SET is terminated
(released) after sending the SUPL RESPONSE message, the SET must reset the data
connection prior to sending the SUPL POS INIT message.
[80] Accordingly, the SET consecutively exchanges messages for performing an actual
positioning with the SLP to calculate the position of the SET (S98). Here, the po-
sitioning for the SET may be performed by the SLP based upon a positioning
measurement value received from the SET (i.e., SET-assisted mode), or be performed
by the SLP based upon assistance obtained from the SLP.
[81] Upon performing the positioning in the SET-based mode, the SET sends the
calculated position value (i.e., posresult) to the SLP using the SUPL REPORT message

(S99). Upon performing the positioning in the SET-assisted mode, the SLP does not
send the SUPL REPORT message. Accordingly, the SLP sends the corresponding po-
sitioning value to the SUPL agent using the TLREP message (S100).
[82] In the succeeding positioning period, the SLP and the SET perform the positioning
of the corresponding period by using the SUPL POS INIT message, the SUPL POS
procedure, the SUPL REPORT message, and the MLP TLREP message, and thereafter
send a calculated position value of the SET to the SUPL agent (S101-S104).
[83] Afterwards, when the series of the periodic positioning procedures are terminated
(ended) (i.e., at the positioning ending time), the SLP sends a SUPL END message to
the SET to inform the SET of the termination of the SUPL procedure (or SUPL
session). The SET then releases the IP connection with the SLP and releases all of the
resources related to the positioning session.
[84] In Fig. 5, on the other hand, the SUPL START and SUPL REPORT messages may
be omitted. In this case, the MLP TLRA message may be sent after sending the SUPL
POS INIT message.
[85] Fig. 6 a view illustrating a periodic positioning procedure in accordance with a sixth
embodiment of the present invention, which illustrates an example that a SET can open
or connect a SUPL session for every period when a period for the periodic positioning
is relatively longer than that in the fifth embodiment.
[86] As illustrated in Fig. 6, for a long period for the periodic positioning, the SLP
terminates (ends) the positioning for one period at the end of every period using a
SUPL END message (here, the SUPL connection is released (disconnected)) (S120).
The SET then re-sends the SUPL START message to the SLP at a starting point of tfie
succeeding period to perform the positioning for the succeeding period (S122). Here,
the steps (S110-S119) are the same as the steps (S90~S99) except their reference
numerals, detailed explanation for which will not be repeated accordingly.
[87] That is, when the periodic positioning procedure for one period is terminated
(SI 18), the SLP sends the SUPL END message to the SET to release a SUPL POS
connection for the one period (S120). The SLP thereafter sends the corresponding
periodic positioning value to the SUPL agent using the MLP TLREP message (S121).
[88] Then, in the succeeding positioning period, the SET performs the positioning for
the corresponding period using the SUPL START, SUPL REPONSE, SUPL POS INTT
messages, the SUPL POS procedure, and the SUPL REPORT and MLP TLREP
messages, and thereafter sends the corresponding position value to the SUPL agent
(S122-S127). Here, the SUPL START message may be used for informing the SLP of
the starting of the positioning for the succeeding period. When the series of the
periodic positioning procedures are terminated (ended), the SLP sends the SUPL END
message to the SET to inform the SET of the termination of the SUPL procedure

(S128).
[89] Fig. 7 is a view illustrating a periodic positioning procedure in accordance with a
seventh embodiment of the present invention. The seventh embodiment illustrates an
example that the SLP sends the report_criteria using a new SUPL TRIGGER
REQUEST message when the SLP can not send the report_criteria using the SUPL
INIT message due to a limitation on the size of the SUPL INIT message.
[90] That is, the seventh embodiment of the present invention is different from the fifth
embodiment in view of the addition of SUPL TRIGGER REQUEST and SUPL
TRIGGER RESPONSE message, and also in view of the addition of a SUPL mode
(which is a parameter for identifying immediate, periodic, or deferred positioning) to
the SUPL INIT message. Other steps are the same as those in the fifth embodiment
except their reference numerals.
[91] Hence, upon performing the aforementioned steps (S130~S134), the SLP sends in-
formation related to the periodic positioning to the SET using a SUPL TRIGGER
REQUEST message (S135), so as to make the SET arrange the periodic positioning
according to the corresponding information and to allow the SET to separately perform
a user confirmation. The SET stores the periodic trigger information sent by the SUPL
TRIGGER REQUEST message and thereafter sends a SUPL TRIGGER RESPONSE
message in response to the SUPL TRIGGER REQUEST message (136).
[92] However, unlike Fig. 5, as illustrated in Fig. 7, the SLP receives the SUPL
TRIGGER RESPONSE message from the SET and then sends a MLP TLRA message
to the SUPL agent (S137). Since the SLP sends to (he SET the SUPL TRIGGER
REQUEST message which includes the trigger information related to the periodic po-
sitioning, and then receives from the SET the SUPL TRIGGER RESPONSE message
in response to the SUPL TRIGGER REQUEST message, only the reception of the
SUPL TRIGGER RESPONSE message can inform that the trigger information related
to the periodic positioning has completely sent to the SET. However, the SUPL
TRIGGER RESPONSE message can be omitted. In this case, the SLP sends the SUPL
TRIGGER REQUEST message and then immediately sends the MLP TLRA message
to the SUPL agent.
[93] The SUPL INIT message can be sent in a SMS sending manner. Accordingly, when
the report_criteria parameter can not be all included in the SMS, the SUPL TRIGGER
REQUEST message may denote a message for separately sending the report_criteria
parameter, and the SUPL TRIGGER RESPONSE message corresponds to a message
in response to the SUPL TRIGGER REQUEST message. Therefore, both the SUPL
START message and the SUPL RESPONSE message can be omitted in Fig. 5. In Fig.
7, however, for sending the trigger information related to the periodic positioning by
the SUPL TRIGGER REQUEST message and receiving the SUPL TRIGGER

RESPONSE, the SET must first send the SUPL START message to the SLP to obtain
an acceptance from the SLP with respect to the periodic positioning included in the
SUPL INIT. Accordingly, only the SUPL RESPONSE message may be Omitted.
[94] Even in the seventh embodiment of the present invention, for the long period for the
periodic positioning, a procedure can be changed so as to be able to open (connect) the
SUPL session by the SET per every period. In this case, the SUPL START message
and the SUPL RESPONSE message are added for every positioning period prior to
sending the SUPL POS INIT message. If the SUPL REPORT message is not used
(required), the SUPL END message is added following the SUPL POS procedure. If
the SUPL REPORT message is used, the SUPL END message is added following the
SUPL REPORT message.
[95] Fig. 8 is a view illustrating a periodic positioning procedure in accordance with an
eighth embodiment of the present invention. The eighth embodiment illustrates a SET-
trigged case and a SET-initiated case for a Non-Roaming Proxy mode.
[96] First, when a SUPL agent requests a periodic positioning, if any data connection is
not set between the SET and a certain network, the SET requests the data connection
from a packet data network (e.g.. 3GPP or 3GPP2) (S150).
[97] Upon setting the data connection, the SET sends a SUPL START message to the
SLP to start a periodic positioning request procedure (S151). Here, the SET includes a
tlrr_event parameter in the SUPL START message to set a period, a starting time and
an ending time of the periodic positioning request, thereby sending the SUPL START
message to the SLP. That is, the SET is performing the periodic SUPL procedure with
managing trigger information, and accordingly the SET may not send the tlrr_event
parameter to the SLP. However, the sending of the tlrr_event to the SLP is to
previously inform the SLP of information related to resource management and the
periodic positioning.
[98] The SLP having received the SUPL START message checks whether the SET is
currently SUPL roaming using routing information (SI52). If the SET is not roaming,
the SLP sends a SUPL RESPONSE message in response to the SUPL START message
(S153).
[99] Afterwards, when a certain event is generated based upon pre-stored trigger in-
formation (at the positioning period), the SET sends a SUPL POS INIT message to the
SLP to start the periodic positioning procedure (S154). Here, the SET can inform the
SLP using an event_trigger parameter that the periodic positioning period has currently
arrived and also can inform the SLP of the remaining period of the entire positioning
period using the event_trigger parameter. Here, if a TCP/IP connection between the
SLP and the SET is terminated after sending the SUPL RESPONSE message, the SET
must reset the data connection prior to sending the SUPL POS INIT message.

[100] Therefore, the SET consecutively exchanges messages for performing an actual po-
sitioning with the SLP to calculate the position of the SET (S155). Here, the po-
sitioning for the SET may be performed by the SLP based upon a positioning
measurement value received from the SET (i.e., SET-assisted mode), or be performed
by the SET based upon assistance obtained from the SLP (i.e., SET-based mode).
[101] Fig. 8 illustrates the positioning performed in the SET-based mode. However, if the
positioning is performed in the SET-assisted mode, the SLP sends the calculated
position value (i.e., posresult) to the SET using the SUPL REPORT message (S156).
Accordingly, the SET sends the position value calculated by the SET itself or the
position value received from the SLP to the SUPL agent.
[102] Afterwards, in the succeeding positioning period, the SLP and the SET, as
described above, perform the positioning for the corresponding period using the SUPL
POS FNIT message, the SUPL POS procedure, and the SUPL REPORT message to
thusly calculate the position value of the SET (S157~S159). Then, when the series of
periodic positioning procedures are all terminated (ended), the SLP sends the SUPL
END message to the SET to inform the SET of the termination of the SUPL procedure
(S160). The SET then releases the IP connection with the SLP and also releases all of
the resources related to the positioning procedure.
[103] Fig. 9 is a view illustrating a periodic positioning procedure in accordance with a
ninth embodiment of the present invention, which illustrates an example that a period
for the periodic positioning is relatively longer than that in the eighth embodiment
[104] As illustrated in Fig. 9, for a long period for the periodic positioning, the SLP
terminates (ends) the positioning for one period at the end of every period using the
SUPL END message (i.e., releases or disconnects the SUPL connection) (S176). The
SET re-sends the SUPL START message to the SLP at the starting point of the
succeeding period to perform the positioning for the succeeding period (S177). Here,
the steps (S170-S175) are the same as the steps (S150-S155) except their reference
numerals, detailed explanation for which will not be repeated accordingly.
[105] That is, when the periodic positioning procedure for one period is terminated
(ended) (S175), the SLP sends the SUPL END message to the SET and terminates
(ends) the SUPL POS session for the one period (S176).
[106] Afterwards, in the succeeding positioning period, the SET re-performs the po-
sitioning for the corresponding period using the SUPL START, SUPL RESPONSE,
SUPL POS INIT, and SUPL POS procedure messages (S177-S180). In this case, the
tlrr_event of the SUPL START message includes a decreased period value. If any data
connection is not set between the SET itself and a certain network, the SET requests
the data connection from a packet data network (e.g., 3GPP or 3GPP2) prior to sending
the SUPL START message.

[107] Accordingly, when the series of periodic positioning procedure is terminated, the
SLP sends the SUPL END message to the SET to inform the SET of the termination of
the SUPL procedure (S181).
[108] As described above, in the present invention, the periodic positioning method in the
SUPL based position information system can be provided so as to enable a pro-
visioning of various positioning methods to a user.
[109] As the present invention may be embodied in several forms without departing from
the spirit or essential characteristics thereof, it should also be understood that the
above-described embodiments are not limited by any of the details of the foregoing de-
scription, unless otherwise specified, but rather should be construed broadly within its
spirit and scope as defined in the appended claims, and therefore all changes and modi-
fications that fall within the metes and bounds of the claims, or equivalents of such
metes and bounds are therefore intended to be embraced by the appended claims.

WE CLAIM:
1. A method of performing periodic positioning in a mobile communication
network, the method performed by a Secure User Plane Location -SUPL- Location
Platform -SLP- and comprising:
receiving (S130), from a Secure User Plane Location SUPL agent, a request
message for positioning of a target terminal;
sending (S132), to the target terminal, a first SUPL message that includes
trigger type information related, to the positioning, the trigger type information
denoting the type of positioning as being periodic positioning or deferred
positioning;
receiving (S134), from the target terminal, a SUPL START message to start a
periodic triggered session with the SLP for the positioning, the SUPL START
message including at least a session-id and target terminal capabilities, wherein the
target terminal capabilities are used to select an intended positioning method to be
used for the periodic triggered session;
sending (S135), to the target terminal, a second SUPL message that includes
information related to a start time of the periodic triggered session and an interval
for the positioning;
receiving (S139), from the target terminal, a SUPL POS EMIT message to
start the positioning at the positioning period according to the information
included in the second SUPL message;
exchanging (S140), with the target terminal, positioning procedure messages
for the positioning;
calculating (S140) a position of the target terminal based upon the exchanged
positioning procedure messages; and
reporting (S141), to the SUPL agent, the calculated position of the target
terminal,
wherein all of the above steps are based on SUPL technology that provides
positioning through a user plane, and

wherein the SLP and the target terminal support Internet Protocol IP
connectivity.
2. The method as claimed in claim 1, comprising:
sending (S147), to the target terminal, a SUPL END message after the
positioning is completed.
3. The method as claimed in claim 1, wherein the first SUPL message is a
SUPL INIT message.
4. The method as claimed in claim 3, wherein the SUPL INIT message is sent
via at least one of WAP, Wireless Application Protocol, push, SMS, Short
Messaging Service, and SIP, Session Initiated Protocol.
5. The method as claimed in claim 1, wherein the steps of:
receiving (S139), from the target terminal, a SUPL POS INIT message to
start the positioning; exchanging (S140), with the target terminal, positioning
procedure messages for the positioning; calculating (S140) a position of the target
terminal based upon the exchanged positioning procedure messages; and reporting
(S141), to the SUPL agent, the calculated position of the target terminal
are repeated based on the second SUPL message.
6. A method of performing periodic positioning in a mobile communication
system, the method performed by a target terminal and comprising:
receiving (S132), from, a first a Secure User Plane Location -SUPL-
Location Platform -SLP- SUPL message that includes trigger type information
related to positioning, the trigger type information denoting the type of positioning
as being periodic positioning or deferred positioning;
sending (S134), to the SLP, a SUPL START message to start a periodic
triggered session with the SLP for the positioning, the SUPL START message
including at least a session-id and target terminal capabilities, wherein the target

terminal capabilities are used to select an intended positioning method to be used
for the periodic triggered session;
receiving (S135), from the SLP, a second SUPL message that includes
information related to a start time of the periodic triggered session and an interval
for the positioning;
sending (S139), to the SLP, a SUPL POS INIT message to start the
positioning at the positioning period according to the information included in the
received second SUPL message; and
exchanging (S140), with the SLP, positioning procedure messages for the
positioning,
wherein all of the above steps are based on SUPL technology that provides
positioning through a user plane, and
wherein the SLP and the target terminal support Internet Protocol IP
connectivity.
7. The method as claimed in claim 6, comprising:
calculating (S140) a position of the target terminal based upon the exchanged
positioning procedure messages; and
receiving (S147), from the SLP, a SUPL END message after the positioning
is completed.
8. The method as claimed in claim 6, wherein the steps of:
sending (S139), to the SLP, a SUPL POS INIT message to start the
positioning according to the information included in the received second SUPL
message; and exchanging (S140), with the SLP, positioning procedure messages
for the positioning
are repeated based on the second SUPL message.
9. The method as claimed in claim 6, wherein the first SUPL message is a
SUPL INIT message.

10. The method as claimed in claim 9, wherein the SUPL INIT message is
received via at least one of WAP, Wireless Application Protocol, push, SMS, Short
Messaging Service, and SIP, Session Initiated Protocol.
11. The method as claimed in claim 6, comprising:
storing the trigger type information included in the first SUPL message; and
storing the information related to a start time of the periodic triggered session
and an interval for the positioning included in the second SUPL message.

Abstract

A Method of Performing Periodic Positioning in a
Mobile Communication Network/System
The present invention relates to a method of performing periodic
positioning in a mobile communication network, the method comprising sending
(S132) a first SUPL message that includes trigger type information related to
positioning, the trigger type information denoting the type of positioning as being
periodic positioning or deferred positioning; receiving (S134) a SUPL START
message to start a periodic triggered session with a SLP for the positioning;
sending (S135) a second SUPL message including information related to a start
time of the periodic triggered session and an interval for the positioning; receiving
(S139) a SUPL POS INIT message to start the positioning at the positioning
period according to the information included in the second SUPL message;
exchanging (S140) positioning procedure messages for the positioning;
determining (S140) a position of a target terminal based upon the positioning
procedure messages, wherein all of the steps are performed through a user plane.

A METHOD OF PERFORMING PERIODIC POSITIONING IN A MOBILE COMMUNICATION NETWORK/SYSTEM

Documents:

Inventors:

PCT Conventions: