KR20000043940A - Method for creating optimal channel of mobile communication system - Google Patents

Abstract

PURPOSE: A method for creating an optimal channel of a mobile communication system, is provided to create an optimal channel by use of a communication channel of a mobile communication network in communicating, and when a cellular phone is in standby or in calling, a call channel of a pager network. CONSTITUTION: A method for creating an optimal channel of a mobile communication system which calls a cellular phone through a wireless call exchange network, and supplies a communication channel through a mobile communication exchange network, comprises the steps of: deciding whether a key related a call access request is inputted; generating a call signal based on a self number and a terminal number for a call access object; transmitting the generated signal to a transmit signal of a wireless call network; receiving a wireless call signal through the wireless call exchange network; transmitting call requesting information to a base station managing the cellular phone, a call object, by perceiving the call signal; allocating a communication channel via the base station; transmitting the call signal to a corresponded cellular phone by receiving the call requesting information; and allocating the call channel to a calling cellular phone via the base station.

Description

Optimal Channel Formation Method in Mobile Communication System

The present invention relates to a method for forming an optimal channel of a mobile communication system. Particularly, in a mobile communication system, a mobile terminal waits for a call or uses a pager network when calling, and uses a communication channel of a mobile communication network for communication. The present invention relates to a method for forming an optimal channel of a mobile communication system that can form a channel.

1 is a block diagram schematically illustrating a configuration of a mobile communication system.

In FIG. 1, reference numeral 1 denotes a mobile terminal which an individual carries and communicates with, and 2 (2 _{1 to} 2n) checks positions of a plurality of mobile terminals 1 and transmits and receives radio signals to and from the mobile terminal 1. Is a base station (BTS) that performs conversion and encryption / demodulation of communication protocols, and 3 (3 _{1 to} 3n) manages a plurality of base stations (2: 2 _{1 to} 2n). A base station controller (BSC) that performs functions such as allocation control and handover decision of a communication channel.

In addition, reference numeral 4 is an exchanger that forms a public switched telephone network (PSTN) by processing a call request through a general wired network, and 5 is for temporarily storing registration information for each terminal 1 from the various base stations 2. Visitor Location Register (VLR).

In addition, reference numeral 6 stores an identification number for each mobile terminal 1 accommodated, such that the exchange 4 can execute a license for an arbitrary mobile terminal 1, etc. (AuC) 7 denotes a Home Location Register (HLR) in which registration information of each mobile terminal 1 already registered is stored.

That is, when the user turns on the power of the mobile terminal 1, the mobile terminal 1 having the above-described configuration searches for the received wireless carrier while sequentially increasing or decreasing the demodulation frequency, and inputs each demodulated signal. The base station 2 to which it belongs is determined based on the level of.

At this time, the mobile terminal 1 stores the control data for controlling the demodulation signal and the level value of the received reception data, and sets the demodulation frequency based on the reception frequency having the largest level value.

After receiving the broadcast channel (BCCH) from the base station 2 and grasping the information of the base station, the registration procedure is performed by reading its subscriber information according to the LAPDm protocol and sending it to the base station.

On the other hand, when the base station 2 receives the terminal information from the mobile terminal 1, the base station controller 3 transmits the terminal information to the base station controller 3, and the base station controller 3 transmits the terminal information through the exchange 4 to the visited subscriber location register. After temporary storage in (5), the authentication center 6 checks whether the terminal 1 is legally registered in the home subscriber location register 7 by transmitting it to the authentication center 6 through the GSM network. do.

After that, if it is determined that the mobile terminal 1 is normally registered, the base station controller 3 can use the mobile terminal 1 by transmitting an encryption code or the like to the mobile terminal 1 through the base station 2. It will register as a state.

On the other hand, the mobile terminal 1 receives a paging channel from the base station 2 in the state where registration processing is completed, or if the user requests a transmission request (call request) to the base station 2 by operating the keypad. Or detects whether a handover command has been received from the base station 2.

Therefore, when the call channel PCH is received, the call response is performed to the base station 2 and the alarm signal output unit of the terminal is driven to alert the user that there is a call from another terminal. When there is a transmission request by the user's key input, the access request is executed by sending a random access channel (RACH) to the base station 2.

In this case, after an access grant channel (AGCH) is received from the base station 2 or after executing a call response, a call is made between the user and the user of another terminal by transmitting and receiving a voice signal through an assigned time slot. To make it possible.

However, the mobile terminal 1 operated as described above may use a random access channel when requesting a call connection, or use a traffic channel for a call after the call is connected. In such a mobile communication network, a high frequency band is used.

Therefore, the reliability of the communication is high, but it is more expensive than the charging cost used in general wired or pager networks.

In addition, since the call channel is used only when a call connection request is used during the use time of the mobile terminal 1, the call channel is simply called, but it is economically inefficient because it uses a high frequency band of high cost.

Accordingly, the present invention has been made in view of the above-described circumstances, and the low cost and high reliability are optimized by using a pager network call channel when a mobile terminal is waiting or calling, and a communication channel of a mobile communication network when communicating. It is an object of the present invention to provide an optimal channel formation method of a mobile communication system capable of forming a channel.

1 is a block diagram schematically showing the configuration of a mobile communication system.

2 is a system configuration diagram illustrating a method for forming an optimal channel in a mobile communication system according to an embodiment of the present invention.

3 is a block diagram showing the internal configuration of the mobile terminal 21 of FIG.

4 is an operation flowchart for explaining a method for forming an optimal channel of a base station controller in a mobile communication system according to an embodiment of the present invention.

5 is an operation flowchart for explaining a method for forming an optimal channel of a mobile terminal 21 in a mobile communication system according to an embodiment of the present invention.

*** Explanation of symbols for the main parts of the drawing ***

1, 21: mobile terminal 2 (2 _{1 to} 2n): base station (BTS)

3 (3 _{1 to} 3n): Base station controller (BSC) 4: Switching station (MSC)

5: Visitor Location Register (VLR) 6, 23: Certification Center (AuC)

7: Home Subscriber Location Register (HLR) 22: Radio Calling Base Station

211: antenna 212: RF signal processing unit

213: baseband converter 214: speaker

15: microphone 216: DSP (Digital Signal Processor)

217: microprocessor 218: wireless call transmitter and receiver

219: Program memory 220: Keypad

221: LCD display unit 222: data storage unit

223: Subscription information storage unit (SIM: Subscriber Identy Module)

In the method of forming an optimal channel of a mobile communication system according to the present invention for realizing the above object, a method of forming an optimal channel of a mobile communication system for calling a mobile terminal through a wireless call switching network and providing a communication channel through a mobile communication switching network is provided. Call call request step for determining whether there is key input related to call connection request, call signal generation step for generating call signal based on call target terminal number and own number if call connection request exists, and generated call signal A call channel request step including a call signal sending step of transmitting a transmission signal of a wireless call network;

Call signal receiving step for receiving radio call signal through wireless call exchange network, Call information sending step for sending call request information to base station in charge of call target terminal by grasping call signal, Call through base station in charge of call request terminal Call channel receiving step having a call channel assignment step of allocating a channel,

And a call request processing step of receiving a call request information and transmitting a call signal to a corresponding mobile terminal, and a call channel assigning step of allocating a call channel through a base station having jurisdiction over the called mobile terminal. It features.

That is, according to the present invention having the above-described configuration, the mobile communication system calls the mobile terminal through a wireless call network, and when the call is made, the call is made through the communication channel of the original mobile communication network. The mobile terminal is operated at a high frequency during a call.

Therefore, the use cost of the mobile terminal can be reduced.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.

2 is a system configuration diagram illustrating a method for forming an optimal channel in a mobile communication system according to an embodiment of the present invention. The same reference numerals are assigned to the same components as in Fig. 1, and the detailed description thereof is already described and thus will be omitted.

In FIG. 2, reference numeral 21 denotes a mobile terminal for requesting a call connection through a wireless call communication network and receiving a call channel through a mobile communication network to perform wireless signal processing, the internal configuration of which is shown in FIG.

In FIG. 3, reference numeral 211 denotes an antenna for data transmission and reception, and 212 demodulates and amplifies an RF signal received through the antenna 211, and a transmission signal applied from the baseband converter 213, which will be described later, That is, the RF signal processor 213 outputs the IQ signal by GMSK modulation, for example, 213 is a signal transmitted and received between the RF signal processor 212 and the digital signal processor 216, the speaker 214 and the microphone 215 to be described later. The baseband conversion unit performs digital-analog conversion, analog-digital conversion processing, and so on.

In addition, reference numeral 214 is a speaker for outputting the voice signal received from the baseband converter 213 as an audible sound, 215 is a microphone for converting the user's voice input into an electrical signal, 216 is coding or decoding the voice signal It is a digital signal processor (DSP) that performs an equalizer to remove multipath noise and performs audio related data processing functions.

Reference numeral 217 denotes a microprocessor for controlling the entire apparatus, which controls the RF signal processing unit 212 and the DSP 216 or interleaving, block coding, and call solution coding for data transmitted and received. COnvolution Coding), 218 is a wireless call transmitter / receiver that transmits and receives a wireless call signal, 219 is a program memory that stores a function of a terminal and protocol software for processing messages transmitted and received by a network, and 20 is numeric keys and various functions. The keypad consists of keys.

Reference numeral 221 denotes an LCD display for displaying the operating state of the terminal, 222 denotes a data storage unit serving as a data buffer when the terminal operating program is executed, and 223, a subscription information storage unit for storing subscriber registration data ( A SIM (Subscriber Identification Module), in particular, is a subscription information storage unit (E ² PROM) in which information such as a telephone number of a terminal and a radio call number of a wireless call network corresponding thereto is stored non-volatile.

Meanwhile, in FIG. 2, reference numeral 22 denotes a wireless calling base station coupled to a general telephone network (PSTN) to receive and process a radio call request signal, and 23 stores a unique number and a corresponding call number for each mobile terminal to be accommodated. It is an authentication center that allows the switch 4 to carry out a call signal transmission or the like to the base station 2 based on the call signal through the radio call base station 22 from any mobile terminal.

Next, a method of forming an optimal channel of the mobile communication system having the above-described configuration will be described with reference to the operation flowcharts shown in FIGS. 4 and 5.

First, an optimal channel formation method according to call processing in the base station controller 3 that controls the base station 2 that manages the mobile terminal 21 requesting call connection will be described.

In FIG. 4, first, the base station controller 3 can receive a radio call signal from the radio call base station 22 through the switch 4 coupled through a general switched telephone network (PSTN), and also through the base station 2. In the standby state in which communication with the mobile terminal 21 can be executed (step ST1), a call connection request signal is transmitted from the mobile terminal 21 to the wireless call base station by a user carrying the mobile terminal 21. If so, the wireless call base station 22 calls the mobile terminal with respect to the received wireless call signal and transmits the received wireless call signal to the base station controller 3 through the switch 4. Will be sent.

Accordingly, the base station controller 3 that has received the radio call signal (step ST2) of the mobile terminal requesting a call connection based on the radio call signal received from the radio call base station 22 through the authentication center 23. The number and the number of the call connection target mobile terminal are found (ST3 step).

Then, the base station controller 3 transmits a call channel to the base station 2 that manages the mobile terminal 21 requesting the call connection with the mobile terminal 21 requesting the call connection with the number of the mobile terminal 21. It transmits a predetermined control signal to be assigned, and also transmits a control signal for allocating a predetermined call channel together with the number of the call-connected mobile terminal to the base station in charge of the call-connected mobile terminal (ST4). To step ST5).

Therefore, the base station 2 that manages the mobile terminal 21 requesting the call connection and the base station that manages the call connection target mobile terminal allocate a predetermined call channel to the call connection requesting mobile terminal and the call connection target mobile terminal, respectively. If the mobile terminal executes a key input for a call, the call is made through the assigned call channel.

Meanwhile, FIG. 5 illustrates a process in which the mobile terminal 21 requests call connection to form an optimal channel.

First, when a user carrying the mobile terminal 21 enters a phone number of a mobile terminal to be called through the keypad 220 of the mobile terminal 21 and executes a key input related to a call connection request ( In step ST11), the microprocessor 217 of the mobile terminal 21 drives the RF signal processing unit 212 to receive the call channel transmitted from the corresponding base station 2, and from the subscription information storage unit 223. The terminal unique number and the corresponding wireless call number are read out (step ST12).

Subsequently, call data including the call target terminal number and the read terminal number input through the keypad 220 is transmitted as a wireless call signal through the wireless call transmitter / receiver 218 (step ST13). Then, by applying a predetermined control signal to the RF signal processing unit 212, it is possible to receive the call channel transmitted from the competent base station 2 (step ST14).

On the other hand, the wireless call signal transmitted through the wireless call reception unit 218 is transmitted to the mobile terminal to be called through the wireless call base station 22, as described above in Figure 4 the mobile terminal requesting a call connection ( 21, the base station 2 that manages 21 and the base station that manages the mobile terminal to which the call is connected are assigned a communication channel to the mobile terminal, respectively. The communication channel is controlled through the RF signal processor 212 through the antenna 211. When received (step ST15), the audio signal received by the RF signal processing unit 212 through the call channel, etc. are output as an audible sound through the speaker 214 or the audio signal input through the microphone 215 as a wireless signal. The control process for sending out is performed (step ST16).

That is, according to the above embodiment, the mobile communication system can call the mobile terminal through a wireless call network, transmit and receive a voice signal through a communication channel of the mobile communication network, and execute a call.

In addition, this invention is not limited to the said Example, It can variously deform and implement within the range which does not deviate from the technical summary of this invention.

As described above, according to the present invention, an optimal channel can be formed by calling a mobile terminal through a wireless call network and executing a call through the mobile communication network.

Claims (1)

A method for forming an optimal channel of a mobile communication system for calling a mobile terminal through a wireless call switching network and providing a communication channel through a mobile communication switching network, Call connection request step of judging whether there is key input related to call connection request, Call signal generation step of generating call signal based on call connection target terminal number and own number, if there is call connection request, Wireless generated call signal A call channel request step including a call signal sending step of sending out a transmission signal of a call network; Call signal receiving step for receiving radio call signal through wireless call exchange network, Call information sending step for sending call request information to base station in charge of call target terminal by grasping call signal, Call through base station in charge of call request terminal Call channel receiving step having a call channel assignment step of allocating a channel, And a call request processing step of receiving a call request information and transmitting a call signal to a corresponding mobile terminal, and a call channel assigning step of allocating a call channel through a base station having jurisdiction over the called mobile terminal. An optimal channel formation method of a mobile communication system characterized by the above-mentioned.