KR101764126B1 - System and method for paging using information for personal mobility management - Google Patents

Abstract

A paging system and method using personal mobility management information are disclosed. The home location register stores the device identification information of at least one of the fixed terminal and the mobile terminal held by the mobile terminal user in the personal identification information of the mobile terminal user, and the SIP address of each terminal, Inquires about the location information of the fixed terminal registered in association with the mobile terminal and converts the location information of the fixed terminal corresponding to the called mobile terminal received from the SIP register into the geographical location information. The visitor location register determines the first cell, which is the cells containing the geographical location information of the fixed terminal corresponding to the terminating mobile terminal. The switching center device performs a first paging procedure for the called mobile terminal with respect to the first cell and if the called mobile terminal is not detected from the first cells, And detects a called mobile terminal by performing a second paging procedure for the called mobile terminal. According to the present invention, it is possible to reduce a considerable call burden in a radio interface, thereby saving radio resources that are insufficient.

Description

[0001] The present invention relates to a paging system and method using personal mobility management information,

The present invention relates to a paging system and method using personal mobility management information, and more particularly, to a paging system and method using integrated mobility management information in a wired / wireless integrated network.

Mobility management is one of the key technologies for providing communication services to mobile users in mobile communication networks. Mobility is classified into terminal mobility (TM), network mobility, session mobility, and personal mobility (PM), which are implemented as a physical / link layer, a network layer, a transport layer and an application layer, respectively. The mobile user can be connected to the mobile terminal while moving through the network. Network mobility provides mobility common to the entire network of mobile terminals located in the transmission system. Session mobility allows a session to be maintained even if the user changes the fixed or mobile terminal for the same service session. The personal mobility allows a user to use a fixed terminal or a mobile terminal with a personal identifier (PID) rather than a terminal identifier based on information registered in the fixed terminal or the mobile terminal.

Terminal mobility management consists of location management and handoff management. Location management consists of location registration and paging. The mobile user periodically updates its location and the incoming call is delivered to the mobile user through paging for all cells in the registered location area. Because location management generates a large number of signals on the air interface and uses insufficient radio resources, it is essential to reduce the number of location registration and paging signal messages, that is, the call burden. The handoff allows the mobile user to change the access point when the mobile user moves beyond the cell boundary. Minimizing the delay for handing off from a cell in progress to a new base station in handoff is one of the most important needs.

Terminal mobility means mobility in a mobile network, but does not mean mobility between a fixed network and a mobile network. The mobility between these networks is maintained by personal mobility. Personal mobility is implemented using a unique PID, and registration and registration cancellation are required at the terminal because it uses PID. The incoming call is forwarded to the appropriate registered fixed or mobile terminal based on the registration information. Personal mobility can be categorized into single registration and multiple registration depending on the number of terminals that can be simultaneously registered in the registrar. Only one terminal can be registered in the register at the time of single registration, and a large registration call burden is generated. In contrast, multiple terminals can be simultaneously registered in the register at the time of multiple registration. In this case, a large search burden occurs in order to search for the called user.

In most of the existing studies on personal mobility, manual registration and registration cancellation are generally performed, and if the user leaves the registered terminal area, the call may be misdelivered if the user does not cancel registration. Recently, a Radio Frequency Identifier (RFID) technology has been used to automatically register a user by detecting a movement of a user having an RFID tag in a terminal having an RFID reader. In this technique, the RFID reader is installed in the terminal, and the user moves with the RFID tag. Thus, if a user with RFID moves between different regions of a terminal with an RFID reader, such movement can be automatically detected and registration to the registry can be performed.

Terminal mobility and personal mobility are essential to provide endless universal mobility services to mobile users, but they have been developed separately from most previous studies. TP Wang and K. Chiu proposed an efficient pipeline search to guarantee personal mobility in Session Initiation Protocol (SIP) based Voice over Internet Protocol (VoIP) services to overcome the disadvantages of sequential and horizontal search techniques. Technique. In a paper by P. Chang and T. P. Wang, RFID technology is used to automatically register users and reduce call errors when a user moves to a new area. In addition, D. G. Yun et al. Proposed a seamless mobility assurance scheme between two access networks with RFID readers for users moving with RFID tags. However, these existing techniques only emphasize personal mobility, and there is little interaction between terminal mobility and personal mobility in terms of performance improvement.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a paging system and method using personal mobility management information capable of reducing a signal burden caused by paging for a mobile terminal for which call connection is requested.

According to another aspect of the present invention, there is provided a computer-readable recording medium storing a program for causing a computer to execute a paging method using personal mobility management information capable of reducing a signal burden caused by paging of a mobile terminal for which call connection is requested, And to provide a readable recording medium.

According to an aspect of the present invention, there is provided a paging system using personal mobility management information, the method comprising: receiving at least one device identification information of at least one of a fixed terminal and a mobile terminal, Inquires of the SIP registrar in which the location information of each terminal is registered to inquire about the location information of the fixed terminal registered in association with the called mobile terminal requested to make call connection and to correspond to the called mobile terminal received from the SIP register A home location register for converting location information of a fixed terminal to geographical location information; A visitor location register for determining a first cell that is a cell including geographical location information of a fixed terminal corresponding to the called mobile terminal received from the home location register; And performing a first paging procedure for the called mobile terminal with respect to the first cell and if the called mobile terminal is not detected from the first cells, And a second paging procedure for the second cell to detect the called mobile terminal.

According to another aspect of the present invention, there is provided a paging method using personal mobility management information, the method comprising: (a) inputting at least one of a fixed terminal and a mobile terminal Inquiring the location information of the fixed terminal registered in association with the destination mobile terminal for which call connection is requested to the SIP register in which the device identification information and the location information of each terminal are registered; (b) converting the location information of the fixed terminal corresponding to the called mobile terminal received from the SIP register into geographical location information; (c) determining a first cell that is a cell including geographical location information of a fixed terminal corresponding to the called mobile terminal; And (d) performing a first paging procedure for the called terminal with respect to the first cell, and if the called terminal is not detected from the first cells, And performing a second paging procedure for two cells to detect the called mobile terminal.

According to the paging system and method using the personal mobility management information according to the present invention, instead of performing paging for all the cells in the registered location area, the paging is performed only for the cells in which the user is registered for personal mobility And if the called mobile user is not found in the first paging step, paging is performed on the remaining cells in the registered location area to find the called user, which may result in a considerable reduction in call load on the air interface, Resources can be saved.

1 is a diagram illustrating a fixed and mobile network structure in which a paging system using personal mobility management information according to the present invention is implemented;
2 is a diagram illustrating a configuration of a paging system using personal mobility management information according to the present invention;
3 is a diagram illustrating a personal mobility registration procedure using RFID,
FIG. 4 is a flowchart illustrating a process of performing a paging method using personal mobility management information according to a preferred embodiment of the present invention.
5 is a graph showing signal burden for various P _hit values with w _reg = 1, w _pag = 1, N _cell = 49, μ _cell = 10 (/ hour), and λ _c = 1.5 And,
6 is a graph showing signal burden for various N _cell values with w _reg = 1, w _pag = 1, N _PM = 5, μ _cell = 10 (/ hour), and λ _c = 1.5 .

Hereinafter, a preferred embodiment of a paging system and method using personal mobility management information according to the present invention will be described in detail with reference to the accompanying drawings. In the following description, the same constituent elements are given the same reference numerals.

1 is a diagram illustrating a fixed and mobile network structure in which a paging system using personal mobility management information according to the present invention is implemented.

Referring to FIG. 1, a fixed and mobile network is comprised of various fixed and mobile access networks, such as mobile telephone network 110, office network 120, and home network 130. These networks interact based on a common IP-based core network 140. A home location register (HLR) 150, an office gateway 160 and a home gateway 170 are connected to the mobile telephone network 110, the office network 120 and the home network 130, respectively, As shown in FIG. A Session Initiation Protocol Registrar (SIP) 180 manages registration information for personal mobility. The terminals of the fixed network have an RFID reader, and the RFID tag is attached to the mobile terminal. Also, multiple registration is used for personal mobility so that a user can simultaneously register all of his or her terminals, such as office phone, home phone, etc., in the SIP register 180. In the present invention, a systematic registration scheme is used to manage personal mobility. That is, the update of the personal mobility registration in the home or office network domain is automatically performed at the gateway when the mobile user holding the RFID tag moves from the same domain to a different terminal equipped with the RFID reader. The serving gateway information is managed in the SIP registrar 180 so that a session for the called user for incoming calls or personal mobility is based on the combination of the SIP registrar 180 and the information registered at the gateways 160 and 170 .

2 is a diagram illustrating a configuration of a paging system using personal mobility management information according to the present invention.

Referring to FIG. 2, a paging system 200 using personal mobility management information according to the present invention includes a home location register 210, a visitor location register 220, and a switching center 230. Each component constituting the paging system 200 using the personal mobility management information according to the present invention shown in FIG. 2 is the same as that of the conventional mobile phone network 200 except for the part changed to perform the two- A visitor location register (VLR), and a mobile switching center (MSC), which constitute the home location register (HLR), the home location register (HLR), the visitor location register (VLR) Accordingly, in the description of each component, only the changes or additions of corresponding devices constituting the existing mobile telephone network will be referred to, and detailed descriptions of known components or functions of these components will be omitted. Also, the paging system 200 using the personal mobility management information according to the present invention interacts with the devices constituting the existing mobile phone network such as a mobile switching center, and the interaction with these devices is not limited to the technical category And therefore, detailed description thereof will be omitted. In the following description, the devices constituting the CDMA mobile telephone network are exemplified for the sake of convenience, but the present invention is not limited thereto and can be applied to other mobile communication systems that perform call connection through cell-based paging including GSM.

The home location register 210 is a system for managing information (location information, authentication information, supplementary service information, and the like) about mobile phone subscribers in real time. The internal location database stores, in the internal database, the telephone number of the subscriber, Authority information, various additional service information, and the like. When the home location register 210 receives the inquiry about the location information of the called mobile terminal from which the call connection is requested from the mobile switching center 230, the home location register 210 registers in the SIP register 180, Quot; The SIP registrar 180 registers the device identification information of the fixed terminal and / or the mobile terminal, which is linked to the PID, which is the individual identification information of each user, and the location information of each terminal. For reference, the personal mobility management information is registered in the SIP register 180 in an interactive fixed and mobile network structure that guarantees both personal mobility and terminal mobility.

3 is a diagram illustrating a personal mobility registration procedure using RFID.

Referring to FIG. 3, an RFID reader is installed in a fixed terminal, and an RFID tag is attached to a mobile terminal of a mobile user. The mobile user has his own mobile terminal with the RFID tag attached thereto. If no RFID is attached to the mobile terminal, the mobile user carries the RFID tag. Therefore, the movement of the mobile user can be automatically detected by the RFID reader installed in the fixed terminal. The RFID reader that detects the RFID tag of the mobile user transmits the ID of the RFID tag together with the IP address of the fixed terminal to its serving gateway. Next, the serving gateway obtains a URI (Uniform Resource Identifier) of the SIP registrar 180 from the SIP name server, and registers the personal mobility location information of the mobile user in the SIP registrar 180. Finally, the SIP register 180 and the information registered in the gateway may be combined to deliver the incoming call or session to the registered terminal.

Upon receiving the location information query including the identification information of the called mobile terminal from the home location register 210, the SIP registrar 180 registers the fixed terminal (s) linked to the PID corresponding to the identification information of the mobile terminal, To the home location register (210). After receiving the location information of the fixed terminal corresponding to the called mobile terminal from the SIP register 180, the home location register 210 converts the location information of the fixed terminal and provides it to the visitor location register 220 of the called mobile terminal do. Since the location information of the fixed terminal received from the SIP registrar 180 has the form of an IP address as the location information of the gateways 160 and 170 managing the fixed terminal, in order to determine the cell to perform paging, The location information of the gateway 160 and the gateway 160 having the same location information must be converted into geographical location information. At this time, the home location register 210 converts the location information of the gateways 160 and 170 into geographical location information using a known mapping technique.

The visitor location register 220 matches the cells in the location area including the gateway based on the geographical location information of the gateway managing the fixed terminal corresponding to the called mobile terminal received from the home location register 210. [ Then, the visitor location register 220 transmits information about the cell (s) (hereinafter referred to as 'first cell') in the location area including the gateway to the switching center device 230.

The switching center device 230 performs the paging based on the location information of the called terminal. In a typical mobile telephone network, paging is required to find the exact location of the called mobile terminal and is typically performed in all cells within the registered location area. Since the paging signal consumes scarce radio resources, reducing the paging signal burden is one of the most important requirements of an efficient paging technique. In performing such paging, the switching center apparatus 230 first proceeds with a first paging procedure for performing paging only on the first cell (s). If the called mobile terminal is not successfully retrieved in the first cell (s) due to the personal mobility registration information that has been invalidated in the first paging procedure, then the switching center device 230 is informed by the called mobile terminal by the second paging procedure Performs paging on all cells in the registered Location Area (LA) and searches for the called mobile terminal. At this time, the switching center device 230 receives the location information registered by the called mobile terminal from the visitor location register 220 and determines the cell (s) (hereinafter, referred to as 'second cell') to perform the second paging procedure . In this process, the switching center device 230 performs a second paging procedure only for the second cell (s), which is the remaining cell (s) except for the cell (s) on which the first paging procedure was performed. By applying the two-stage paging scheme based on the personal mobility management information acquired from the SIP register, the paging scheme according to the present invention significantly reduces the paging signal burden without burdening the location registration signal for terminal mobility .

4 is a flowchart illustrating a paging method using personal mobility management information according to an exemplary embodiment of the present invention.

Referring to FIG. 4, when a call is input to the called mobile terminal, the home location register 210 inquires the SIP register 180 about the location information of the registered fixed terminal corresponding to the called mobile terminal (S400). Next, the home location register 210 converts the location information of the gateway that manages the fixed terminal of the IP address type obtained from the SIP registrar 180 into geographical location information (S410). Next, the home location register 210 transmits the converted geographical location information to the visitor location register 220 of the destination mobile terminal (S420). Next, the visitor location register 220 registers the received geographical location information of the registered gateway managing the fixed terminal with the cells in the registered location area including the gateway (S430). Next, the switching center 230 proceeds to a first paging procedure for performing paging only on the mapped cell (s) transmitted from the visitor location register 220 (S440). If the called mobile terminal is not successfully retrieved in the mapped cells due to the invalid personal mobility registration information (S450), the switching center device 230 transmits the location area (" The mobile terminal searches for the called mobile terminal by performing paging for all the cells in the Location Area (LA) (S460).

In the above description, the case where the calling mobile terminal and the called mobile terminal are provided with the mobile communication service by the same switching center device is described as an example. However, when the calling mobile terminal and the called mobile terminal provide mobile communication services Can receive. In this case, the visitor location register 220 is connected to the switching center device corresponding to the called mobile terminal and provides the location information of the called mobile terminal.

Hereinafter, the performance of the paging technique according to the present invention will be analyzed in terms of signal burden in a wireless interface. Since network resources are not the main bottlenecks in most real situations, we do not consider the signaling burden on networks such as personal mobility location information inquiry. Also, since both the conventional paging technique and the paging technique according to the present invention have the same signal burden for managing personal mobility, the burden of registration signals for personal mobility is not considered. For performance analysis, the following assumptions were made.

A call or session arriving at the mobile terminal is a poison process with a parser λ _c .

The cell residence time of the mobile station and the location area follow the exponential distribution with the parameters μ _cell and μ _LA , respectively.

* The number of cells in the location area is N _cell .

The cell shape and location regions are assumed to be square for simplicity and are assumed to be fluid flow movement models derived from the following equations.

The number of cells including the gateway for which the mobile user manages fixed terminals registered in the location area is N _PM .

The probability that the mobile terminal will be located in the fixed terminal registered in the register when the call arrives is P _hit .

Based on this assumption, the signal overhead per unit time S _conv in the air interface of the conventional paging scheme and the signal overload per unit time S _prop in the air interface of the paging scheme according to the present invention are expressed as the following equation Lt; / RTI > number of paging signal messages.

Where w _reg and w _pag are weighting factors for location registration burden and paging signal burden, respectively.

Since the registration signaling message and the paging signaling message have different message sizes and can not be directly compared, a weighted sum is used, and this difference is reflected in the calculation of the signal burden by using the weighted sum.

5 is a graph showing signal burden for various P _hit values with w _reg = 1, w _pag = 1, N _cell = 49, μ _cell = 10 (/ hour), and λ _c = 1.5 .

Referring to FIG. 5, since all cells within a location area are paged in two paging schemes, the signal burden of the conventional paging scheme and the paging scheme according to the present invention for P _hit = 0 are the same. Alternatively, the signal burden of the paging scheme according to the present invention decreases as the value of P _hit increases, and the decrease in signal burden is more significant for higher N _PM values. N _PM = 1 represents a single registration as a special case of multiple registration. If registration and registration cancellation using RFID is applied, the value of P _hit tends to have a high value in the personal mobility environment, so that the paging method according to the present invention can obtain a significant signal burden reduction in the wireless interface.

6 is a graph showing signal burden for various N _cell values with w _reg = 1, w _pag = 1, N _PM = 5, μ _cell = 10 (/ hour), and λ _c = 1.5 .

Referring to FIG. 6, the signal burden of the conventional paging technique and the paging technique according to the present invention increases as N _cell increases. The signal burden of the paging scheme according to the present invention is always smaller than the signal burden of the conventional paging scheme in consideration of parameter setting, which decreases as the value of P _hit increases for a fixed N _cell value. Therefore, it can be seen that the paging technique according to the present invention has better performance for a large location area composed of more cells.

In the paging technique according to the present invention, the personal mobility management information registered in the SIP register is effectively used to significantly reduce the paging signal burden. At this time, since the mobile user is highly likely to be located in the cell including the gateway registered in the SIP registrar, it is preferable that the user performs the paging only for the cell including the gateway managing the fixed terminal. If the called user is not found in such a cell, paging is performed in the remaining cells and the retrieval of the called user by such two-step paging is guaranteed.

Since the registration signal burden for the personal mobility management is inherently in the fixed and mobile networks, the paging scheme according to the present invention is a method for inquiring the SIP registrar about the location information of the fixed terminal registered from the home location register 210 It does not cause any significant additional signal burden for personal mobility except signal burden. Also, the signal burden for inquiring the SIP registrar from the home location register 210 does not cause any significant burden on the network because it only consumes network resources that have sufficient resources compared to the radio resources. In addition, the two-stage paging scheme according to the present invention may cause additional delay, but the paging delay is limited to only two stages and therefore is not significant in most applications.

The present invention can also be embodied as computer-readable codes on a computer-readable recording medium. A computer-readable recording medium includes all kinds of recording apparatuses in which data that can be read by a computer system is stored. Examples of the computer-readable recording medium include a ROM, a RAM, a CD-ROM, a magnetic tape, a floppy disk, an optical data storage device, and the like, and a carrier wave (transmission via the Internet). The computer-readable recording medium may also be distributed over a networked computer system so that computer readable code can be stored and executed in a distributed manner.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation in the embodiment in which said invention is directed. It will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the scope of the appended claims.

Claims (9)

An inquiry is made of the location information of the fixed terminal registered in association with the destination mobile terminal for which call connection is requested to the SIP registrar in which the device identification information of at least one of the fixed terminal and the mobile terminal and the location information of each terminal are registered, A home location register for converting the location information of the fixed terminal registered in association with the destination mobile terminal received from the SIP register into geographical location information;
A visitor location register for determining a first cell that is a cell including geographical location information of a fixed terminal registered in association with the called mobile terminal received from the home location register; And
Wherein the first mobile station performs a first paging procedure for the called mobile terminal with respect to the first cell and if the called mobile terminal is not detected from the first cells, And a paging system for detecting the called mobile terminal by performing a second paging procedure for two cells. The method according to claim 1,
The location information of the fixed terminal registered in the SIP register may be transmitted to the fixed terminal either at the time when the RFID reader installed in the fixed terminal is attached to the mobile terminal or when the RFID tag held by the user of the mobile terminal is recognized, And the identification information of the RFID tag transmitted to the SIP registrar and the IP address of the fixed terminal. 3. The method according to claim 1 or 2,
Wherein the location information of the fixed terminal is location information of a gateway connected to the fixed terminal and providing a communication service. 3. The method according to claim 1 or 2,
Wherein the switching center apparatus determines the cells other than the first cell among the cells in the location area registered by the called mobile terminal from the visitor location register as the second cell and performs the second paging procedure system. (a) the location information of the fixed terminal registered in association with the destination mobile terminal for which call connection is requested to the SIP registrar in which the device identification information of at least one of the fixed terminal and the mobile terminal and the location information of each terminal are registered, A step of inquiring;
(b) converting location information of a fixed terminal registered in association with the destination mobile terminal received from the SIP register into geographical location information;
(c) determining a first cell, which is a cell including geographical location information of a fixed terminal registered in association with the called mobile terminal; And
(d) performing a first paging procedure for the called mobile terminal with respect to the first cell, and if the called mobile terminal is not detected from the first cells, And performing a second paging procedure for a second cell, which is a cell, to detect the called mobile terminal. 6. The method of claim 5,
The location information of the fixed terminal registered in the SIP register may be transmitted to the fixed terminal either at the time when the RFID reader installed in the fixed terminal is attached to the mobile terminal or when the RFID tag held by the user of the mobile terminal is recognized, And the identification information of the RFID tag transmitted to the SIP registrar and the IP address of the fixed terminal. The method according to claim 5 or 6,
Wherein the location information of the fixed terminal is location information of a gateway connected to the fixed terminal and providing a communication service. The method according to claim 5 or 6,
Wherein, in the step (d), the calling mobile terminal determines the cells other than the first cell among the cells in the location area registered in the visitor location register as the second cell, and performs the second paging procedure Paging method. A computer-readable recording medium storing a program for causing a computer to execute the paging method according to claim 5 or 6.

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