KR100254770B1 - Call control of interworking function in the digital cellular network - Google Patents

Abstract

PURPOSE: A method for controlling a call in a digital mobile communication network radio data interlocking device is provided to increase the reliability of a service by retransmitting data lost in case that data transmitted between a radio data terminal of a subscriber and a radio data communication interlocking device according to a deterioration or a hand-off of a radio section. CONSTITUTION: In case that a mobile subscriber tries to call, a mobile terminal starts to call. A mobile communication exchange makes a request for setting a call to a radio data communication interlocking device(301). The radio data communication interlocking device determines whether a mobile subscriber originating call or a terminating call using the number of a trunk(302). The interlocking device selects efficient resources using an INWA board(303). The interlocking device activates a pair of modems and a speed matching device(304). The device initializes the state of the modems(305). The device generates one socket for exchanging information with a protocol stack module(306). The device judges the type of the call(307). In case of the originating call, the device performs a passive open of a TCP(308). In case of the terminating call, the device performs an active open of the TCP(313).

Description

Call Control Method in Wireless Data Communication Interworking Device for Digital Mobile Communication Network

The present invention relates to a call control method of a wireless data interworking apparatus, and more particularly, to a call control method of a digital mobile communication network wireless data communication interworking apparatus for providing an asynchronous data service which is one of non-voice services in a digital mobile communication network wireless data interworking apparatus. It is about.

In general, wireless data communication networks are classified into wireless local area networks and mobile data networks. Mobile data networks are classified into wireless data communication networks using dedicated packet networks and cellular mobile telephone networks. Wireless data services that can be provided by cellular networks include asynchronous data and facsimile services, short message services, and packet data services. The existing wireless data service of cellular network includes data communication in Advanced Mobile Phone System (AMPS), packet data communication of Cellular Digital Packet Data (CDPD), data communication in IS-54 digital cellular network, Data communication in the Global System for Mobile communication (GSM).

Digital mobile communication networks have been developed for voice services, but the demand for wireless data services that can exchange necessary information as well as existing voices is increasing according to the development of information and communication technology and users' needs. However, due to the characteristics of the mobile communication network, there is a problem in that data loss occurs due to deterioration of the wireless section or handoff.

Accordingly, the present invention is a method for providing a wireless data service in a digital mobile communication network, the loss or loss of data transmitted between the wireless data terminal of the mobile subscriber and the wireless data communication interworking device due to deterioration or handoff of the wireless section. It is an object of the present invention to propose a call control method of a wireless data interworking apparatus having a function of enabling reliable service by retransmitting a.

A call control method of a digital mobile communication network wireless data communication interworking apparatus for achieving the above object includes a first step of initializing an environment for call control by determining whether a call requesting call setup is an originating or incoming call of a mobile subscriber; After the call control environment is initialized, the second step of determining the type of the call and setting up the data terminal and protocol accordingly, and after setting up the protocol, sends and receives the mobile subscriber and modem information and negotiates the modem shape with the power station to transmit data. And a fourth step of releasing the call and cutting down the call path according to the call disconnection request of the mobile subscriber after the data transmission.

The present invention provides an asynchronous data service, which is one of non-voice services, in a wireless data interworking device of a digital mobile communication network. The present invention relates to a method for controlling an incoming call for a call to a data terminal of a mobile subscriber and a method for controlling release of a set call. When the mobile communication exchange recognizes the data service call by the call establishment request of the mobile subscriber, the mobile data exchange device allocates necessary resources when the circuit connection request is made to the wireless data communication companion device. After setting the data terminal and protocol of the mobile subscriber, it receives the modem configuration information from the mobile subscriber and sends a modem response signal. When the player and the telephone line are connected, the modem is negotiated with the modem and the modem enters the data transmission state after the modem negotiation is completed. When the call release is recognized by the mobile subscriber or the mobile station in the data transfer state, the protocol setting is terminated, the necessary resources are released, and the call path is disconnected.

1 is a structural diagram of a digital mobile communication system to which the present invention is applied.

2 is a structural diagram of a wireless data communication interworking apparatus for providing a data service to which the present invention is applied.

3 is a block diagram of a protocol stack for reliable data transmission between a data terminal of a mobile subscriber and a wireless data interworking apparatus to which the present invention is applied.

4 (a) to 4 (c) are flowcharts of a call control procedure of a wireless data communication interworking apparatus for providing an asynchronous data service according to the present invention.

<Description of Signs of Major Parts of Drawings>

100: data terminal 110: mobile terminal

120: base station 130: control station

140: mobile communication switch 150: home subscriber location register

160: wireless data communication interlocking device

170: relay line matching and switching board (TISA)

180: IWF Management Board (INWA)

190: baud rate control and modem board (RAMA)

Hereinafter, with reference to the accompanying drawings will be described in detail the present invention.

1 is a structural diagram of a digital mobile communication system to which the present invention is applied. An application program is mounted in the data terminal 100, which is a personal computer, and the mobile terminal 110 is a portable or vehicle subscriber station of a code division multiple access (hereinafter referred to as CDMA) system. The base station 120 is a subsystem for controlling radio matching in the CDMA scheme, and the control station 130 is a subsystem for controlling routing of information, various call processing, and soft handoff between the base station 120 and the switching center 140. . Switching station (hereinafter referred to as mobile switching center) 140 provides a switching function and the home subscriber location register 150 is responsible for the location management and operation of the mobile switching center 140 and the subscriber. The wireless data communication interworking device 160 is a device for providing an asynchronous data service, and the mobile communication exchanger 140 interworks with a public data network.

2 is a structural diagram of a wireless data communication interworking apparatus for providing a data service to which the present invention is applied. The wireless data communication interworking device 160 provides an asynchronous data service to a mobile subscriber in a digital mobile communication network, a trunk matching function with a mobile communication switch 140, a control function for various resource management and system control, and a control station 130. It consists of speed matching function for data transmission and reception, protocol processing function for reliable transmission, and modem processing function for control of modem. Relay interface matching and switching (hereinafter, referred to as TISA) board 170 performs a trunk circuit matching function, a switching function, and a function of exchanging various signaling signals with an exchange. The IWF management board (hereinafter referred to as INWA) board 180 is responsible for controlling the interworking function (IWF) system and managing various resources. Rate Adaptation & Modem Assembly (hereinafter referred to as RAMA) The board 190 performs a function of adjusting a rate and controlling a modem, and a protocol of a transport layer is implemented. The control signals of each board are transmitted through the VME bus through the Dual Port RAM (DPRAM) and the data signals are transmitted through the Serial-Telecommunication (ST) -Bus. The data exchange with the control station 130 adds a predetermined preamble to the data to be transmitted and transmits it to the control station 130, and finds the start of the data using the preamble in the data received from the control station 130.

3 is a block diagram of a protocol stack for reliable data transmission between a data terminal of a mobile subscriber and a wireless data interworking apparatus to which the present invention is applied. Transmission Control Protocol (hereinafter referred to as TCP) 200, which is a transport layer, provides whether a packet is lost or reliable and delivers and guarantees the order of the packet, and is a network layer called Internet Protocol (IP). 210 is responsible for the routing function and the status information management function in the Internet network. Sub-Network Dependent Convergence Function (SNDCF) 220 performs a compression function on the TCP / IP header to increase transmission efficiency. The data link layer includes a Link Control Protocol (LCP) 230, an Internet Protocol Control Protocol (IPCP) 240, and a Point-to-Point Protocol (PPP) 250. It consists of. This data link layer is used for end-to-end data exchange over a single line and negotiates the initial setup and capacity of the link and TCP / IP header compression. Radio Link Protocol (RLP) 260 is a protocol that supports selection response and negative response for error control of data traffic.

4 (a) to 4 (c) are flowcharts of a call control procedure of a wireless data communication companion device 160 for providing an asynchronous data service according to the present invention. This flowchart shows a call processing process of the wireless data communication companion device 160 for providing an asynchronous data service among the processes for providing an asynchronous data service to a mobile subscriber. There are two cases in which call setup is requested by the wireless data communication interworking device 160 for call origination and incoming call. The call setup request process for call origination is as follows. When the mobile subscriber enters a modem command into the data terminal, the data terminal temporarily stores the modem commands and responds to these commands. Thereafter, when the mobile subscriber attempts to make a call, the mobile terminal initiates the call, the mobile communication switch determines whether the asynchronous data service mode, and requests the call setup to the wireless data communication companion device 160 (301). In addition, the call setup request process for an incoming call is as follows. When an incoming call to a mobile subscriber is attempted, the mobile communication exchange checks whether the incoming mobile subscriber will receive asynchronous data service. If the asynchronous data service is possible, the call request is made to the wireless data communication companion device 160 (301). The wireless data interworking device that is requested to set up the call determines whether it is a mobile subscriber call or an incoming call by using the number of trunks required for occupancy (302), and selects an idle resource using the INWA board 180 (303). )do. After that, start the following service control procedure. First, the selected pair of modems and speed matcher are activated (304), the state of the modem is initialized, and then various environmental variable values are initialized (305). After the initialization process, a socket for exchanging information with the protocol stack module is created (306). After the socket is created, the call type is determined (307) to open the TCP (200), if the call originating TCP (200) manual open (308), if the incoming call is performed (200) active open (313) )do.

In the case of an outgoing call, a communication path is established between the mobile communication switch and the mobile terminal. Thereafter, an LCP 230 shape negotiation such as a maximum packet size and stuffing information is performed between the mobile subscriber's data terminal and the wireless data communication interworking device 160 (step 309). After the LCP 230 shape negotiation is completed, the IPCP 240 shape negotiation 310 such as an IP 210 allocation problem and whether TCP / IP header compression is performed between the mobile terminal and the wireless data communication interworking device 160 is performed. When the negotiation is finished, the TCP 200 connection request is received (311) from the mobile terminal when the call originates. Thereafter, the wireless data communication interworking device 160, which has been manually opened, enters the TCP 200 setting state 316 after performing 312 the TCP 200 connection setting process. When the call type is determined as the call result in step 307, the wireless data communication companion device 160 performs the LCP 230 shape negotiation 309 and the IPCP 240 shape negotiation 310. Thereafter, a TCP 200 connection request 314 is made to the mobile subscriber's data terminal, a TCP 200 connection establishment process 315 is performed, and then a TCP 200 setting state 316 is entered. When entering the TCP (200) setting state, modem commands that were temporarily stored in the data terminal of the mobile subscriber is transmitted to the wireless data communication companion device (160). Thereafter, the wireless data communication interworking device 160 that has received the modem commands 317 transmits a command to the modem, and when receiving a response from the modem, transmits the command to the data terminal 318. After transmission of the temporarily stored commands, the mobile terminal's data terminal transmits a modem activation command to the wireless data communication companion device 160. Thereafter, the wireless data communication interworking device 160 receives a modem activation command (319) to activate a modem to negotiate a modem shape with a modem of a power station (320). After the modem negotiation is completed, the negotiation result is notified to the data terminal of the mobile terminal, and the modem state is set to the data transmission state 321. In the data transmission state of the modem, the data terminal of the mobile subscriber receives the data (322) and transmits it to the modem (323). Thereafter, the data is received from the modem (324), separated into data of a predetermined size, and then transmitted (325) to the data terminal of the mobile subscriber.

The mobile subscriber's data terminal then receives 326 a request for an online command status and sends the request to the modem and transitions the modem to an online command status 327. Thereafter, the mobile terminal's data terminal transmits a modem command to the wireless data communication companion device 160. When the wireless data communication interworking device 160 receives the modem command 328, the wireless data communication interworking device 160 transmits the command to the modem and transmits the response to the data terminal 329. Thereafter, when receiving a call termination command from the data terminal of the mobile subscriber (330), the modem is deactivated (330) and the TCP connection is released to the data terminal of the mobile subscriber (332). After the TCP connection is released, the network layer is disconnected 333 and the data link layer is disconnected 334. The call control is then terminated 337 by requesting the call release to the mobile communication switch 335 and initializing the related variables 336.

As described above, according to the present invention, a mobile subscriber can retrieve data on a public data network or exchange asynchronous data with another user through a call control in a digital mobile communication network wireless data communication interworking device. Even when a handoff occurs due to a section degradation or a mobile subscriber's movement, there is an excellent effect of providing a service without losing data transmitted.

Claims (5)

A first step of initializing an environment for call control by determining whether a call requesting call establishment is an outgoing or incoming call of a mobile subscriber; A second step of determining a type of a call after initializing the call control environment and setting a data terminal and a protocol accordingly; A third step of transmitting / receiving modem information with a mobile subscriber after negotiating the protocol and negotiating a modem shape with a power station; And a fourth step of releasing the call and cutting the call path according to the call disconnection request of the mobile subscriber after the data transmission. The method of claim 1, wherein the first step comprises: a mobile communication exchange requesting call establishment to a wireless data communication companion device; Analyzing a control signal from the mobile communication switch to determine a type of a call; Selecting idle resources after determining the type of the call; Activating a modem and a speed matcher after the resource selection; Initializing a modem state after the modem and speed matcher are activated; Initializing various environment variable values after initializing the modem state; And generating one socket for exchanging information with a protocol stack module after initializing the variable value. The method of claim 1, wherein the second step comprises: determining the type of call after the socket creation; Setting a link control protocol shape when the call type is a result of determining the call type; Negotiating a manganese protocol control protocol configuration after setting the link control protocol configuration; Receiving a transmission control protocol connection request from a mobile terminal after negotiating the network protocol control protocol; Performing a transmission control protocol connection establishment process after the transmission control protocol connection request is received; Performing the transmission control protocol connection setting process and then entering the transmission control protocol setting state as in the case of an incoming call; Setting a link control protocol shape when the call type is determined as a result of determining the call type; Negotiating a manganese protocol control protocol configuration after setting the link control protocol configuration; Negotiating the network protocol control protocol configuration and requesting a transmission control protocol connection to a data terminal of a mobile subscriber; Performing a connection establishment process of a transmission control protocol after requesting a connection of the transmission control protocol; Call control method of a wireless data communication interworking apparatus for a digital mobile communication network, characterized in that the step of setting the transmission control protocol as in the case of the outgoing signal after the connection setting process of the transmission control protocol. 2. The method of claim 1, wherein the third step comprises the steps of: receiving modem instructions that were temporarily stored in a data terminal of a mobile subscriber after entering the transmission control protocol setting state; Transmitting the command to the modem after receiving the modem command, receiving a response from the modem, and transmitting the command to the data terminal; Receiving a modem activation command from a data terminal of a mobile subscriber after transmitting the modem response; Negotiating modem configuration with a modem of a power station by activating a modem after receiving the modem activation command; Informing the data terminal of the mobile terminal of the result of the modem negotiation and setting the state of the modem to a data transmission state; Receiving data at a data terminal of a mobile subscriber in a data transmission state of the modem; Transmitting the received data to a modem; Receiving data transmitted to the modem; And dividing the data received from the modem into data having a predetermined size and transmitting the data to a data terminal of the mobile subscriber. The method of claim 1, wherein the fourth step comprises: receiving a request for an online command status at a data terminal of a mobile subscriber after the data transmission; Sending a request for the on-line command state to a modem and transitioning the modem to an on-line command state; Receiving modem commands from a mobile subscriber's data terminal after a modem transitions to the online command state; Transmitting the command to the modem after receiving the modem command and transmitting a response to the modem; Receiving a call termination command from a data terminal of a mobile subscriber after transmitting the modem response; Deactivating the modem after receiving the call termination command; Deactivating the modem and then performing a connection control protocol disconnection; Disconnecting the network layer after performing the transmission control protocol connection release; Disconnecting the data link layer after disconnecting the network layer; Requesting a call release to a mobile communication exchange after disconnecting the data link layer; And initializing and then terminating the related variables after the call release request.

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