KR20060124462A - Mobile switching center capable of providing service option routing for use in mobile communication system - Google Patents

Abstract

An MSC(Mobile Switching Center) having a service option routing function and a mobile communication system using the MSC are provided to perform a detour routing process by using a service option to a voice speech path of an adjacent MSC for a very small number of low-speed data calls, thereby eliminating an IWF(Inter Working Function) of a low-efficient MSC. A mobile communication terminal(110) creates text, voice, and video messages, and sends the written messages to a mobile communication network. A radio access network(120) receives a wireless Internet access request of the terminal(110) to process the request. An MSC(130) performs an interlocking function with an exchange of a PSTN(Public Switched Telephone Network). An IWF interface unit(136) is included in the MSC(130) to be connected with an external server so as to provide wireless data services to calls which demand wireless Internet access of the MSC(130). An IWF(140) provides an interface for exchanging data between wireless and wired communication systems, performs a function of converting a protocol, a signal, and data, then receives a signal from the MSC(130) to mutually convert circuit data into packet data. A WAP(Wireless Application Protocol) gateway(150) mutually connects the mobile communication network with a wired Internet network. The Internet(160) provides an access path so that the terminal(110) can transmit/receive data by accessing a DB server via the MSC(130).

Description

Mobile switching center having service option routing function and mobile communication system using same {Mobile Switching Center Capable of Providing Service Option Routing for Use in Mobile Communication System}

1 is a schematic view showing a mobile communication system according to a preferred embodiment of the present invention;

2 is a diagram schematically illustrating a process of bypassing a request call in an IWF matching unit according to a preferred embodiment of the present invention.

<Description of Symbols for Main Parts of Drawings>

110: mobile communication terminal 120: wireless access network

130: mobile communication switching center 132: VLR

134: HLR 136: IWF matching part

140: IWF 150: WAP gateway

160: Internet 210, 220: Mobile communication network

212, 214, 216, 225: IWF matching unit 222, 224, 226: mobile switching center

230: IWF

The present invention relates to a mobile communication switching center having a service option routing function and a mobile communication system using the same. More specifically, in a mobile communication system, a low-speed data call is connected to a neighboring mobile switching center by a route designated by an operator, and the neighboring mobile switching center views the service option of the corresponding call and connects the call to its own IWF. The present invention relates to a mobile communication switching center having a service option routing function and a mobile communication system using the same.

With the rapid development of computer, electronic and communication technologies, various wireless communication services using wireless networks have been provided. The most basic wireless communication service is a wireless voice call service that provides voice calls wirelessly between mobile terminal users regardless of time and place. In recent years, wireless Internet services that provide a communication service using the Internet through a wireless communication network have emerged while a user of a mobile communication terminal moves without restriction of a place.

As a result of the development of communication technology, a service provided by a code division multiple access (CDMA) system is not only a voice service but also a multimedia communication service that transmits data such as circuit data and packet data. Is developing.

In recent years, IMT-2000 (International Mobile Telecommunication 2000), a third generation mobile communication system that has been established as a standard by ITU-R due to the development of information and communication, has been commercialized. IMT-2000 is CDMA 2000 1X, 3X, EV-DO, Wideband CDMA (WCDMA), etc., and is used in IS-95A and IS-95B networks by using the IS-95C network that has evolved from the existing IS-95A and IS-95B networks. It is a service that can provide wireless Internet at a transmission speed of 144 Kbps, which is much faster than the supported data rate of 14.4 Kbps or 56 Kbps. In particular, the IMT-2000 service can improve the quality of existing voice and wireless application protocol (WAP) services and provide various multimedia services at a faster speed.

However, the existing mobile communication system is expensive to use the base station because of the high base station construction cost, and because the screen size of the mobile communication terminal is limited to provide high-speed wireless Internet, such as limited content available. In addition, wireless local area network (WLAN) technology has limitations in providing it as a public service due to problems such as radio wave interference and narrowness of coverage. As a result, a mobile Internet (Wibro: Wireless Broadband Internet or PI: Portable Internet) system that can use a high-speed wireless Internet service at a low price while moving has emerged.

The portable internet system can use various types of information and contents by accessing the internet in indoor and outdoor stationary environments and mobile environments of walking speed and low to medium speed using various types of portable internet terminals such as laptops, PDAs and handheld PCs. It is a service. In addition, it provides mobility of 60 Km / h per hour, and the downlink transmission rate is 24.8 Mbps, but the uplink transmission rate is 5.2 Mbps, which is an IP (Internet Protocol) based wireless data system having up and down asymmetric transmission characteristics.

In addition, the mobile Internet system uses a 2.3 GHz frequency band, and in order to effectively use the allocated frequency spectrum, a time division duplex (TDD) is drawn by a duplex method, and a multiple access method is used. Uses Orthogonal Frequency Division Multiple Access (OFDMA).

With the advent of such a portable Internet system, a higher quality internet service than the existing CDMA2000 1X and 1X EV-DO is possible, and various kinds of Internet services will be provided based on this.

Accordingly, the subscribers of the mobile communication service can freely move and talk with the other party anytime and anywhere using the wireless communication service, and also provide various information necessary for life through the wireless Internet service, such as news, weather, sports, securities, Exchange rates and traffic information may be provided in various forms such as text, voice, and image. Wireless Internet is an environment and technology that allows a user to use Internet services through a wireless network while using a mobile communication terminal. The development of mobile communication technology and the rapid increase in the penetration rate of mobile communication terminal further promoted the development of this wireless Internet environment.

With the development of the wireless Internet environment, mobile operators and other telecommunication operators are promoting the use of the wireless Internet by providing various and useful services to the users of the wireless Internet. Such wireless Internet services include texts, voice and video messages, e-mails, cards, letters, games, geography, life information, learning, and cartoons.

The mobile communication system having such a wireless data service has an IWF matching unit capable of sending a call to an IWF (Inter-Working Function) from the mobile communication exchange to support the wireless data service. IWF is a signal processing device for connecting the Internet network when performing data communication in a mobile communication system. It is not used when only voice communication is used, but it is used when a mobile subscriber accesses the Internet network using a mobile communication terminal. In order to be connected to these IWFs, an IWF matching unit must be installed at the exchange.

This IWF matcher handles slow data calls and asynchronous calls. IS-95A and IS-95B have an appropriate amount of slow data calls.

However, in the case of subscribers of the 1X system, almost all subscribers use IS-95C and EV-DO, and only a few users connect low-speed data calls to IWF through IWF matching. The ratio of calls using IWFs from IS-95A and IS-95B to calls using IWFs from IS-95C and EV-DO is very small, 99 to 1. In other words, in the 1X system, IWF matching unit and transmission path are used for only a few subscribers. For this reason, there is a problem in that the efficiency is lowered and a costly IWF is used.

In addition, when the failure of the only IWF matching unit existing in the system occurs, a low speed data call is not processed by the mobile communication switching station, and thus, a customer complaint often occurs.

In order to solve the above-mentioned problems, the present invention, in the mobile communication system connects the low-speed data call to the neighboring mobile communication switching center route (Route) designated by the operator, and the service option of the call in the adjacent mobile communication switching station It is an object of the present invention to provide a mobile communication switching center having a service option routing function for connecting a call to its own IWF and a mobile communication system using the same.

In order to achieve the above object, the present invention is a mobile communication system for providing a wireless data service using a mobile communication switching center having a service option routing function, connected to the mobile communication network to perform a normal voice call by wireless communication A mobile communication terminal for not only providing a voice call function to make a voice call, but also creating a text, voice and video message to be transmitted using the provided message writing function and transmitting the message to the mobile communication network; A radio access network receiving and processing a wireless internet access request of the mobile communication terminal and performing functions of handoff processing and radio resource management; A mobile telecommunication switching center performing a control function for efficiently operating the wireless access network and an interworking function with an exchange of a public telephone network; An IWF matching unit which is a device included in a mobile communication switching center so as to be able to connect to an external server for providing a wireless data service to calls requesting wireless internet access of the mobile communication switching center; It provides an interface for data exchange between a wireless communication system and a wired communication system, converts protocols, signals, and data into a form suitable for each network, and transmits the packet public data exchange network with the Internet from the mobile communication switching center. An inter-working function (IWF) for receiving a signal from the mobile communication switching center and converting circuit data into packet data to connect to a switching public data network; A WAP gateway performing a function of interconnecting a mobile communication network and a wired Internet network by performing a process such as communication code conversion or protocol conversion between the mobile communication network and the wired Internet network to transmit information on a wired Internet; And an Internet providing an access path so that the mobile communication terminal can access and transmit data to and from a database server via the mobile communication switching center.

According to another object of the present invention, a method for bypassing a call in an IS-95A and an IS-95B mobile communication network having a service option routing function includes: (a) IWF of the IS-95A and IS-95B mobile communication networks; If a failure occurs in the matching unit, routing the individual voice call path for each subscriber in the call of the IWF matching unit in which the failure occurs to a neighboring mobile communication switching center by a path designated by an operator; (b) the neighboring mobile telecommunication switching center determining whether it is a low speed data call in consideration of service options of the calls connected by bypass; And (c) rerouting a call determined to be low-speed data to an inter-working function (IWF) on a dedicated path designated by the IWF matching unit of the neighboring mobile telecommunication switching center, thereby connecting a voice call path, and at the IWF, The present invention provides a method for bypassing a call in a mobile communication system using a service option routing function, comprising converting the packet data to process a call.

According to another object of the present invention, there is provided a method for bypassing a call in an IS-95C mobile communication network having a service option routing function, the method comprising: (a) the low use efficiency among the mobile communication switching centers of the IS-95C mobile communication network; Making an indirect connection between the mobile communication switching centers and bypassing the neighboring mobile communication switching center designated by the operator in advance; And (b) if the neighboring mobile communication exchange is determined to be a low speed data call in consideration of service options of the detoured calls, rerouting through its IWF matching unit to connect a voice call path and interworking with IWF (Inter). -Working Function) provides a method of bypassing a call in a mobile communication system using a service option routing function, comprising the step of converting the packet data into a packet processing.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First of all, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used as much as possible even if displayed on different drawings. In addition, in describing the present invention, when it is determined that the detailed description of the related well-known configuration or function may obscure the gist of the present invention, the detailed description thereof will be omitted.

1 is a configuration diagram schematically showing a mobile communication system according to a preferred embodiment of the present invention.

In the mobile communication system according to the preferred embodiment of the present invention, the mobile communication terminal 110, the wireless access network 120, the mobile communication switching center 130, the VLR (Visitor Location Register) 132, and the HLR (Home Location Register) 134 ), An IWF matching unit 136, an Inter-Working Function (IWF) 140, a WAP gateway 150, and the Internet 160.

The mobile communication terminal 110 is connected to the mobile communication network through the wireless access network 120 and not only provides a voice call function for performing a normal voice call through wireless communication, but also delivers it using the provided message writing function. It is a terminal that can write a text, voice and video message and then send the message to the mobile communication network. In addition, the mobile communication terminal 110 is a terminal that can be provided with a data service by accessing the Internet 160 through a provided web browser.

To this end, the mobile terminal 110 includes a wireless application protocol (WAP), which is an Internet access protocol, a Microsoft Internet Explorer (MIE) based on HTML using an HTTP protocol, and a handheld device transport protocol (HDTP). Protocol), NTT DOKOMO's i-Mode, or SK Telecom's 'NATE' to connect to the Internet 160 via a mobile communication network using a browser. Among the Internet access browsers used in the mobile communication terminal 110, MIE uses a shortened version of HTML, which is abbreviated m-HTML, and i-Mode uses a language called c-HTML, which is a subset of HTML.

A radio access network (RAN) 120 receives and processes a wireless internet access request of the mobile communication terminal 110, performs handoff processing, radio resource management, and the like.

Meanwhile, the wireless access network 120 according to the preferred embodiment of the present invention includes a base station transmitter 122 and a base station controller 124 and supports both synchronous and asynchronous mobile communication systems. Here, in the case of a synchronous mobile communication system, the base station transmitter 122 is a base transceiver station (BTS), the base station controller 124 is a base station controller (BSC), and in the case of an asynchronous mobile communication system, the base station transmitter 122 is an RTS (Radio). The base station controller 124 is a transceiver network (RNC). Of course, the wireless access network 120 according to a preferred embodiment of the present invention is not limited to a CDMA mobile communication network, but may also include an access network of a GSM network and a fourth generation mobile communication system (All-IP communication network) currently being standardized. have.

The base station transmitter 122 receives a call request signal from the mobile communication terminal 110 through a traffic channel of the signal channel and transmits it to the base station controller 124. In addition, the base station transmitter 122 is a network termination device that performs baseband signal processing, wired / wireless conversion, wireless signal transmission and the like, and is directly connected to the mobile communication terminal 110. In addition, the base station transmitter 122 is arranged in each cell unit, and transmits a call request generated from the mobile communication terminal 110 to the mobile communication switching station 130 or moves in a cell area under its control. Location registration to determine the location of the communication terminal 110 is performed.

The base station transmitter 122 transmits the position information of the base station transmitter 122 from the global positioning system (GPS) to the mobile communication terminal 110 through a system parameter message of the forward link call channel. The mobile communication terminal 110 may register new location information by calculating the moving distance of the mobile communication terminal 110 by using the location information of the base station transmitter 122 of the cell to which the mobile communication terminal 110 belongs.

Location registration is a procedure of informing the mobile communication switching center 130 of the location, status, identifier, slot period, and other features of the mobile communication terminal 110 through the base station transmitter 122. This is a procedure for effectively calling the mobile communication terminal 110 when attempting to set up an incoming call to the mobile communication switching center 130. The location registration of the mobile communication terminal 110 is performed when the mobile communication terminal 110 is powered on or off, when the mobile communication terminal 110 is handed off, and the system of the mobile communication terminal 110. It is implemented when a parameter is changed.

The base station controller 124 controls the base station transmitter 122, allocates and releases a radio channel to the mobile communication terminal 110, controls transmission output of the mobile communication terminal 110 and the base station transmitter 122, and soft handoff. Soft Handoff and Hard Handoff determination, transcoding and vocoding, GPS clock distribution, operation and maintenance of the base station transmitter 122, and the like. The base station controller 124 transmits subscriber information of the mobile communication terminal 110 in which the location information is registered to the mobile communication switching center 130, and transmits the call request signal received through the base station transmitter 122 to the mobile communication switching center 130. To pass.

The mobile communication switching center 130 has a control function for allowing the wireless access network 120 to operate efficiently and an interworking function with an exchange of a public telephone network.

When the mobile communication switching station 130 registers the location of the mobile communication terminal 110 through the wireless access network 120, the subscriber information of the mobile communication terminal 110 is transmitted to the VLR 132 in the mobile communication switching station 130. After the temporary storage, the HLR 134 requests the location registration of the mobile communication terminal 110.

When the mobile communication terminal 110 performs location registration, the VLR 132 temporarily stores subscriber information and notifies the HLR 134 to a terminal identification number of the mobile communication terminal 110 from the HLR 134. The mobile identification number (MIN), the terminal serial number (Electronic Serial Number: ESN), and service information is transferred to and managed while performing a function to utilize the location control, call processing, external operation processing of the mobile communication terminal (110).

The HLR 134 is a database that stores a service profile of subscriber information of a user of the mobile communication terminal 110. The HLR 134 includes a subscriber's telephone number, a terminal identification number of the mobile communication terminal 110, a terminal unique number, and a service type. Has information about The HLR 134 stores the subscriber information including information of the wireless access network 120 and the mobile switching center 130 where the mobile communication terminal 110 is located.

The IWF matching unit 136 is a device included in the mobile communication switching station 130 to connect the mobile communication switching station 130 and the IWF 140. It is included in the mobile switching center so that the mobile communication switching station 130 can connect to an external server to provide a wireless data service to calls requesting wireless Internet access, and the mobile subscriber is connected to the Internet 160 through the mobile terminal 110. In order to be connected to the mobile communication switchboard 130, the IWF 140 needs to be connected, and the IWF matching unit 136 connects to the IWF 140 to connect to the Internet 160.

The IWF matching unit 136 of the present invention uses a service option defined for all types of calls requesting connection, such as voice calls, short message service (SMS) calls, low speed data calls, and high speed data calls. When the call along the voice call path requests a connection, if the call requesting the connection is determined to be a slow data call according to the service option, the IWF matching unit 136 connects the call to the IWF 140 and converts the packet into packet data. do.

The IWF 140 provides an interface for data exchange between a wireless communication system and a wired communication system, and functions to convert protocols, signals, and data into a form suitable for each network. In general, the IWF 140 is directly connected to the mobile switching center 130 to connect a wired communication network and a wireless communication network.

The IWF 140 is a device for connecting from the mobile switching center 130 to the Internet 160 and a packet switching public data network (PSPDN). The IWF 140 receives a signal from the mobile switching center 130 and receives circuit data. Converts data into packet data.

The WAP gateway 150 performs a function of interconnecting the mobile communication network and the wired Internet network by performing a process such as communication code conversion or protocol conversion between the mobile communication network and the wired Internet network to transmit information on the wired Internet. That is, the WAP gateway 150 converts the WAP protocol and the Internet TCP / IP (Transmission Control Protocol / Internet Protocol) protocol. Therefore, the Hypertext Transfer Protocol (HTTP) protocol is used between the database server connected to the Internet 160 and the WAP gateway 150, and the WAP protocol is used between the mobile communication terminal 110 and the WAP gateway 150 to provide data. Sending and receiving is done.

The WAP gateway 150 converts a website address (URL) request from the mobile communication network into an HTTP request according to the WAP protocol, and then requests a website address (URL) from the mobile communication network to the database server according to the HTTP protocol. . In addition, the WAP gateway 150 converts the HTML-formatted content received from the database server into a binary code so that the mobile communication terminal 110 can recognize the content, and transfers the content to the mobile communication terminal 110. Since the data passing through the WAP gateway 150 is converted into a binary code, there is an advantage that the amount of data is reduced and the burden is reduced when transmitting to the mobile communication network.

The internet 160 is a communication network that provides a connection path for the mobile communication terminal 110 to access a database server via a mobile communication switching station 130 to transmit and receive data.

2 is a diagram schematically illustrating a process of bypassing a request call in an IWF matching unit according to a preferred embodiment of the present invention.

In FIG. 2, the mobile communication network 210 of the IS-95A and IS-95B systems and the mobile communication network 220 of the IS-95C system transmit calls to the IWF 230 to request wireless data communication for each mobile communication switching station 130. There are routing IWF matching units 212, 214, 216, 225.

The IWF matching units 212, 214, 216, and 225 of the mobile communication network 210 of the IS-95A and IS-95B systems and the mobile communication network 220 of the IS-95C system use a service option to request low-speed data calls. If it is determined that the routing to the IWF 230, and the data coming up the voice call path is to be converted into packet data in the IWF (230). Here, the stage before the IWF matching unit 212, 214, 216, 225 uses a channel distinguished by the same subscriber as the voice call, and is connected to the IWF 230 at the IWF matching unit 212, 214, 216, 225. During this time, the call is routed through the same path.

If a failure occurs in the IWF matching unit 212, the low-speed data call of the mobile communication switching station 130 is not processed. In order to solve this problem, in the present invention, when a failure occurs in the IWF matching unit 212, the subscriber's individual voice call path of the call of the failed IWF matching unit 212 is bypassed to the adjacent mobile communication switching center by the path designated by the operator. Rerouting is performed through the IWF matching unit 214 of the adjacent mobile communication switching center. If it is determined that the low-speed data call is considered in consideration of the service option of the calls to be bypassed, the neighboring mobile telecommunication switching center reroutes to the IWF 230 in the dedicated path designated by its IWF matching unit 214 to connect the voice call path. Then, the IWF 230 converts the packet data into a packet data and processes the call.

In addition, when there is a low usage rate in the mobile communication network 220 of the IS-95C system and the mobile communication exchange stations 222 and 226 have low efficiency, the operator may perform an indirect connection between the mobile communication exchange stations 222, 224 and 226 in advance. The detour is made to the designated adjacent mobile communication switching center 224. Bypassing individual voice call paths per subscriber of calls connected to low utilization mobile communication switching centers (222, 226) to the adjacent mobile communication switching center 224 designated by the operator and rerouting through the IWF matching unit 225 of the adjacent mobile switching center. do. Here, when the IWF matching unit 225 routes to the IWF 230 in the mobile communication network 220 of the IS-95C system, using the IWF 230 of the mobile communication network 220 itself of the IS-95C system is used. Instead, by using the IWF 230 integrated with the mobile communication network 210 of the IS-95A and IS-95B systems, the IWF 230 having low use efficiency and high maintenance cost in the mobile communication network 220 of the IS-95C system can be used. Can be removed. In this case, when the neighboring mobile communication exchange is determined to be a low speed data call in consideration of service options of the calls to be bypassed, the mobile communication switching center connects the voice call path to its IWF matching unit 225 and packet data at the IWF 230. The call is processed by converting to.

In the present invention, such a bypass routing is possible because the IWF matching unit 212, 214, 216, 225 transfers the same voice call path as the voice call even if the requested call is a data call.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and changes without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of the present invention.

As described above, according to the present invention, in the mobile communication system providing the wireless data service, a low efficiency is performed by performing a detour routing using a service option of a part of the low speed data call of the 1X system to the voice call path of the adjacent mobile communication switching center. The IWF of the mobile switching center can be eliminated, thereby reducing maintenance costs and increasing use efficiency.

In addition, even when a failure of the IWF matching unit, by performing a routing by bypassing the proximity switch, the inconvenience of low-speed data service users can be eliminated.

Claims (17)

A mobile communication system for providing a wireless data service using a mobile communication switching center having a service option routing function, In addition to providing a voice call function for performing a normal voice call through wireless communication in connection with a mobile communication network, a text, voice, and video message to be delivered is created by using the provided message writing function, and then written into the mobile communication network. A mobile communication terminal for transmitting a message; A radio access network receiving and processing a wireless internet access request of the mobile communication terminal and performing functions of handoff processing and radio resource management; A mobile telecommunication switching center performing a control function for efficiently operating the wireless access network and an interworking function with an exchange of a public telephone network; An IWF matching unit which is a device included in a mobile communication switching center so as to be able to connect to an external server for providing a wireless data service to calls requesting wireless internet access of the mobile communication switching center; It provides an interface for data exchange between a wireless communication system and a wired communication system, converts protocols, signals, and data into a form suitable for each network, and transmits the packet public data exchange network with the Internet from the mobile communication switching center. An inter-working function (IWF) for receiving a signal from the mobile communication switching center and converting circuit data into packet data for connection to a switching public data network (IWF); A WAP gateway performing a function of interconnecting a mobile communication network and a wired Internet network by performing a process such as communication code conversion or protocol conversion between the mobile communication network and the wired Internet network to transmit information on a wired Internet; And An internet providing an access path for the mobile communication terminal to access and transmit data to and from a database server via the mobile communication switching center; Mobile communication system using a service option routing function comprising a. The method of claim 1, The mobile communication terminal uses a wireless application protocol (WAP), which is an Internet access protocol, an MIE (Microsoft Internet Explorer) based on HTML using an HTTP protocol, and a handheld device transport to access the Internet and provide a data service. Wireless Internet connection browser such as Handheld Device Transport Protocol (HDTP), NTT DOKOMO's i-Mode, or SK Telecom's 'NATE', etc., to access the Internet via the mobile communication network. Mobile communication system using routing function. The method of claim 1, The wireless access network includes a base station transmitter and a base station controller, and supports both synchronous and asynchronous mobile communication systems, wherein, in the case of a synchronous mobile communication system, the base station transmitter is a base transceiver station (BTS), and the base station controller is a BSC. (Base Station Controller), and in the case of an asynchronous mobile communication system, the base station transmitter is a Radio Transceiver Subsystem (RTS), the base station controller is a Radio Network Controller (RNC), and the wireless access network is not limited to a CDMA mobile communication network, A mobile communication system using a service option routing function, comprising a GSM network and an access network of a fourth generation mobile communication system (All-IP communication network) currently being standardized. The method of claim 3, wherein The base station transmitter receives a call request signal from the mobile communication terminal through a traffic channel of a signal channel and transmits it to the base station controller, and performs baseband signal processing, wired / wireless conversion, and transmission and reception of a wireless signal. The base station transmitter is directly connected to a terminal, and each of the base station transmitters is arranged in units of cells so that a call request generated from the mobile communication terminal is transmitted to the mobile communication switching center or exists in a cell area under its control. A mobile communication system using a service option routing function, characterized in that to perform location registration to determine the location of the mobile communication terminal. The method of claim 4, wherein The location registration is a procedure of informing the mobile communication switching center of the location, status, identifier, slot period, and other characteristics of the mobile communication terminal through the base station transmitter. A procedure for effectively calling the mobile communication terminal when setting is desired, and the location registration is performed when the mobile communication terminal is handed off or on when the power of the mobile communication terminal is turned on or off. A mobile communication system using a service option routing function, which is implemented when a system parameter of a mobile communication terminal is changed. The method of claim 3, wherein The base station transmitter transmits the position information of the base station transmitter from the Global Positioning System (GPS) to the mobile communication terminal through a system parameter message of a forward link call channel, and the mobile communication terminal transmits the base station of the cell to which the mobile station belongs. And registering new location information by calculating a moving distance of the mobile communication terminal using location information of a transmitter. The method of claim 3, wherein The base station controller controls the base station transmitter, allocates and releases radio channels to the mobile communication terminal, transmit power control of the mobile communication terminal and the base station transmitter, soft handoff, and hard handoff. It performs handoff, transcoding and vocoding, GPS clock distribution, operation and maintenance of the base station transmitter, and moves subscriber information of the mobile communication terminal in which the location information is registered. And transmitting the call request signal received through the base station transmitter to the mobile communication switching center. The method of claim 1, When the location registration of the mobile communication terminal is performed through the wireless access network, the mobile communication switching center temporarily stores the subscriber information of the mobile communication terminal in a VLR (Visitor Location Register) in the mobile communication switching station, and then HLR ( Home Location Register, the mobile communication system using a service option routing function, characterized in that for requesting the location registration of the mobile communication terminal. The method of claim 8, The VLR temporarily stores the subscriber information and notifies the HLR when the mobile communication terminal performs the location registration, and transmits the mobile identification number of the mobile communication terminal and the terminal unique number from the HLR. Electronic Serial Number) and service information while performing the function of utilizing the location control, call processing and external operation processing of the mobile communication terminal, and the mobile communication system using a service option routing function. The method of claim 8, The HLR is a database that stores a service profile of the subscriber information of the mobile communication terminal. The HLR has information on the terminal identification number, the terminal unique number, and the service type of the mobile communication terminal. And storing the subscriber information including information of the wireless access network and the mobile switching center in which the mobile communication network is located. The method of claim 1, The IWF matching unit requires the mobile communication switching center to be connected to the IWF in order for the mobile subscriber to access the Internet through the mobile communication terminal, and the IWF matching unit connects to the Internet by connecting a call to the IWF. A mobile communication system using a service option routing function. The method of claim 1, The IWF matching unit uses a service option defined for all types of calls requesting a connection including a voice call, a short message service (SMS) call, a low speed data call, and a high speed data call. When the call up comes to request a connection, if the call requesting connection according to the service option is determined to be a low-speed data call, the IWF matching unit connects the call to the IWF and converts the packet into packet data. Mobile communication system using. The method of claim 1, The WAP gateway converts the WAP protocol and the Internet TCP / IP (Transmission Control Protocol / Internet Protocol) protocol. The WAP gateway uses a HyperText Transfer Protocol (HTTP) protocol between a database server connected to the Internet and the WAP gateway. A mobile communication system using a service option routing function between a communication terminal and the WAP gateway, transmitting and receiving data using a WAP protocol. The method of claim 1, The WAP gateway converts a website address (URL) request from the mobile communication network into an HTTP request according to the WAP protocol, and requests a website address (URL) from the database server according to the HTTP protocol through the Internet. The mobile communication system using a service option routing function, characterized in that for converting the content of the HTML format received from the database server to a binary code (Binary Code) so that the mobile terminal can recognize it. A method for bypassing a call in an IS-95A and an IS-95B mobile communication network having a service option routing function, (a) if a failure occurs in the IWF matching part of the IS-95A and IS-95B mobile communication networks, bypassing the individual voice call path for each subscriber in the call of the IWF matching part in which the failure occurs to the adjacent mobile communication switching center by a path designated by the operator; Routing; (b) the neighboring mobile telecommunication switching center determining whether it is a low speed data call in consideration of service options of the calls connected by bypass; And (c) Rerouting a call determined to be low-speed data to an Inter-Working Function (IWF) on a dedicated path designated by the IWF matching unit of the neighboring mobile communication switching center, thereby connecting a voice call path, and transmitting a packet at the IWF. Convert the data to process the call Method for bypassing a call in a mobile communication system using a service option routing function comprising a. A method for bypassing a call in an IS-95C mobile communication network having a service option routing function, (a) making an indirect connection between the mobile communication exchange stations having low use efficiency among the mobile communication exchange stations of the IS-95C mobile communication network, and bypassing the neighboring mobile communication exchange station designated by the operator; And (b) If the neighboring mobile communication exchange is determined to be a low-speed data call in consideration of service options of the detoured calls, the neighboring mobile communication switching center reroutes through its IWF matching unit to connect a voice call path and interwork with IWF (Inter-). Step of processing call by converting to packet data in Working Function Method for bypassing a call in a mobile communication system using a service option routing function comprising a. The method of claim 16, wherein in step (b), When the IWF matching unit reroutes to the IWF in the IS-95C mobile communication network, the IWF integrated with the IS-95A and IS-95B mobile communication networks is used instead of using the IWF of the IS-95C mobile communication network itself. Method for bypassing a call in a mobile communication system using a service option routing function, characterized in that characterized in that.

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