KR100590677B1 - Method and System for Call Linking by Using MM-MB Terminal in Mobile Communication Environment - Google Patents

Abstract

The present invention relates to a call link method and system of a multimode multiband terminal in a mobile communication environment.

The present invention provides a multimode-multiband communication link between a mobile communication network including a CDMA-2000 network, a WCDMA network, a CDMA network, a wireless LAN network, and the like, and a multimode-multiband (MM-MB) terminal. CLAIMS 1. A call link method of a terminal, comprising: (a) the multimode-multiband terminal holding a call waiting with a base station of the mobile communication network; (b) attempting a call link with the base station; (c) receiving a call channel signal including a transmission channel and reception channel setting information from a wireless network management server; (d) analyzing a call channel signal to form a call link with the base station by combining a call channel of the mobile communication network providing a transmission channel and / or a reception channel having a good radio access environment. A communication link method and a mobile communication system of a multimode multiband terminal are provided.

According to the present invention, in forming a call link using the MM-MB terminal 300, a transmission / reception channel provided by a CDMA-2000 service, a WCDMA service, a CDMA service, or a WLAN service can be used in combination. There is an effect of increasing the efficiency of the wireless channel.

Multimode-Multiband Terminals, Call Links, Transmit Channels, Receive Channels, CDMA-2000, WCDMA

Description

Method and System for Call Linking by Using MM-MB Terminal in Mobile Communication Environment in Mobile Communication Environment

1 is a diagram schematically illustrating a mobile communication network for providing CDMA, WCDMA, and wireless LAN services in a communication environment in which a CDMA-2000 network is basically constructed.

2 is a block diagram briefly illustrating an internal configuration of a conventional multi-mode multi-band terminal 110;

3 is a block diagram schematically showing an internal configuration of a multi-mode multi-band terminal 300 according to a preferred embodiment of the present invention.

4 is a diagram schematically illustrating a mobile communication network including a CDMA-2000, a WCDMA, a CDMA, and a WLAN service forming a call link with a multi-mode multi-band terminal 300 according to a preferred embodiment of the present invention;

5 is a flowchart illustrating a process of forming a call link using a multimode multiband terminal according to a preferred embodiment of the present invention.

<Description of Symbols for Main Parts of Drawings>

110, 112, 300: multi-mode multi-band terminal 120: CDMA-2000 service area

130, 140: overlay area 210, 310: RF antenna

220, 320: RF transceiver 230, 330: filter unit

232, 332: WCDMA filter 234, 334: CDMA-2000 filter

240, 340: modem section 242, 342: WCDMA modem

244, 344: CDMA-2000 modem 250, 360: control unit

350: call channel measurement unit 370: flash memory

380: Timer

The present invention relates to a call link method and system of a multimode multiband terminal in a mobile communication environment. More specifically, in forming a communication link between a mobile communication terminal and a base station in a mobile communication network including a CDMA-2000 network, a WCDMA network, and a wireless LAN network, a transmission channel and / or a reception channel having a good radio access environment may be selected. The present invention relates to a call link method and system for a multi-mode multi-band terminal in a mobile communication environment in which a call link between a mobile communication terminal and a base station is formed by combining a communication channel of a mobile communication network.

The mobile communication service has been continuously developed starting from the low-quality voice call-oriented first generation mobile communication service provided by the analog cellular Advanced Mobile Phone Service (AMPS), which has been in service since the late 1980s. In the second generation mobile communication service, enhanced voice call and low speed (14.4 Kbps) data service provided by digital cellular Global System for Mobile (GSM), Code Division Multiple Access (CDMA), Time Division Multiple Access (TDMA), etc. are possible. It was. In addition, in the 2.5G mobile communication service, the PCS (Personal Communication Service), which can be used around the world in addition to securing the frequency in the GHz band, has been developed to enable improved voice call and low speed (144 Kbps) data service.

Mobile communication networks for mobile communication services up to the 2.5th generation include various types of communication such as user terminals, base station transmitters, base station controllers, mobile switching centers, home location registers (HLRs), and visitor location registers (VLRs). The equipment is installed.

The third generation mobile communication service is classified into asynchronous WCDMA system proposed by 3GPP (3rd Generation Partnership Project) and synchronous CDMA-2000 system proposed by 3GPP2. In particular, the WCDMA system is a wireless protocol recommended by IMT-2000, and many telecommunication service providers around the world are providing or preparing to provide services.

WCDMA system not only has excellent call quality but also uses spread spectrum method, which is suitable for large data transmission. The WCDMA communication method adopts 32 Kbps Adaptive Differential Pulse Code Modulation (ADPCM) for voice coding, and supports high mobility enough to make a call even if the user moves at a speed of about 100 Km / h. In addition, WCDMA communication is adopted by most countries, and 3GPP, which is composed of many institutions such as Korea, Europe, Japan, the United States, and China, is continuously developing technical specifications for WCDMA.

On the other hand, recently, due to the advantages of the WCDMA system described above, even in countries such as Korea, the United States, China, which provides CDMA-2000 services basically, WCDMA network has started to provide WCDMA service.

1 is a diagram schematically illustrating a mobile communication network for providing CDMA, WCDMA, and WLAN services in a communication environment in which a CDMA-2000 network is basically constructed.

In the CDMA-2000 region 120 that provides CDMA-2000 services, CDMA, WCDMA, and WLAN services are provided in some regions within the CDMA-2000 region 120. It is assumed that regions in which CDMA, WCDMA, and WLAN services are provided in the CDMA-2000 region 120 are overlay regions 130 and 140. That is, the user may selectively receive a desired one of the CDMA-2000 service, the CDMA service, the WCDMA service, and the WLAN service in the overlay regions 130 and 140. Of course, in order to use the CDMA-2000 service, the CDMA service, the WCDMA service, and the WLAN service, a multimode-multiband terminal is required.

Multimode-Multiband (MM-MB) terminals 110 and 112 are mobile communication terminals that support both multimode and multiband. Here, the multi-mode includes a synchronous mode and an asynchronous mode, and the multi-band includes a second generation mobile communication service using a frequency band of 800 MHz, a second generation mobile communication service using a frequency band of 1.8 GHz, approximately 2 GHz Frequency bands of third generation mobile communication services using frequency bands and fourth generation mobile communication services to be serviced in the future. Multi-mode-The multi-band terminals 110 and 112 operate by switching between the WCMDA mode or the IMT-2000 mode according to the type of communication service provided in the region where the multi-band terminal 110 and 112 are located.

2 is a block diagram schematically showing the internal configuration of a conventional multi-mode multi-band terminal 110.

The conventional multimode-multiband terminal 110 includes an RF antenna 210, an RF transceiver 220, a filter 230, a modem 240, a controller 250, and the like.

The RF antenna 210 receives and transmits an RF signal transmitted from a neighboring wireless base station, and the RF transceiver 220 receives and demodulates an RF signal from the RF antenna 210 and filters the demodulated RF signal 230. To pass). Of course, the RF transceiver 220 also modulates the transmission data received through the filter 230 and the modem 240 under the control of the controller 250 and transmits the RF data through the RF antenna 210. do.

The filter unit 230 and the modem unit 240 respectively include a WCDMA filter 232 and a WCDMA modem 242 for a WCDMA service, a CDMA-2000 filter 234 and a CDMA-2000 modem 244 for a CDMA-2000 service. Are respectively provided. The filter unit 230 uses the WCDMA filter 232 or the CDMA-2000 filter 234 to demodulate the RF signal received from the RF transceiver 220 according to the operation mode of the multi-mode multi-band terminal 110. Only the desired digital signal is extracted and transmitted to the modem unit 240. In addition, the modem unit 240 processes digital signals received from the filter unit 230 and is responsible for call processing in accordance with a protocol defined in WCDMA or CDMA-2000.

The control unit 250 controls the overall operation of the multi-mode multi-band terminal 110, and controls the multi-mode multi-band terminal 110 according to the type of RF signal (WCDMA signal or CDMA-2000 signal) to be received. Select one of WCDMA mode and CDMA-2000 mode to operate. In addition, when a specific operation mode is selected, a control signal is transmitted to the modem unit 240 to control the corresponding specific modem, among the WCDMA modem 242 and the CDMA-2000 modem 244, to be activated.

Meanwhile, in FIG. 1, when the multimode-multiband terminal 110 moves from the overlay region 130 to the CDMA-2000 region 120 or moves from the CDMA-2000 region 120 to the overlay region 130, the WCDMA mode is used. And switching between CDMA-2000 modes is required. That is, when the MM-MB terminal 110 receiving the WCDMA service in the overlay region 130 moves to the CDMA-2000 region 120, the MM-MB terminal 110 switches from the WCDMA mode to the CDMA-2000 mode.

Meanwhile, as described in FIG. 2, in order for the multi-mode multi-band terminal 110 to switch from the WCDMA mode to the CDMA-2000 mode, the operating WCDMA modem 242 must be stopped and the CDMA-2000 modem 244 must be activated. do. However, in the current mobile communication environment, the CDMA-2000 modem 244 is started only after the multi-mode multi-band terminal 110 is out of the overlay area 130, that is, after the WCDMA signal is not received. have.

In the conventional mobile communication environment, the call link configuration is assumed that the multi-mode multi-band terminal 110 forms a call link in the CDMA-2000 region 120. The call link is a CDMA- in the multi-mode multi-band terminal 110. A 2000 modem 244 is used to form a call link using the transmit and receive channels provided by the CDMA-2000 region 120. Similarly, in the overlay region 130 providing the WCDMA service, the call link is established using the transmission channel and the reception channel provided by the overlay region 130 using the WCDMA modem 242 inside the multimode multi-band terminal 110. Forming.

In the above-described case, even if different mobile communication services such as CDMA-2000 and WCDMA are provided within the same cell coverage, the call link formation between the multimode multi-band terminal 110 and the base station is performed by one service (CDMA-2000 service or Only transmit / receive channels provided by the WCDMA service were used. Therefore, in the process of forming a call link between the multi-mode multi-band terminal 110 and the base station, if a characteristic of any one of a transmission channel or a reception channel provided by one service (CDMA-2000 service or WCDMA service) is poor, There was a problem that failed.

In order to solve the above problems, the present invention provides a transmission link provided by a CDMA-2000 service area, a WCDMA service area, a CDMA service area, and a WLAN service area in forming a call link using a multimode-multiband terminal. An object of the present invention is to provide a method for forming a call link by combining a transmission channel and a reception channel having good channel characteristics among channels and reception channels.

According to a first object of the present invention, a communication link is formed between a mobile communication network including a CDMA-2000 network, a WCDMA network, a CDMA network, a wireless LAN network, and the like, and a multimode multiband (MM-MB) terminal. In the call link method of a multi-mode multi-band terminal, the method comprising the steps of: (a) the multi-mode multi-band terminal is waiting for a call with a base station of the mobile communication network; (b) attempting a call link with the base station; (c) receiving a call channel signal including a transmission channel and reception channel setting information from a wireless network management server; (d) analyzing a call channel signal to form a call link with the base station by combining a call channel of the mobile communication network providing a transmission channel and / or a reception channel having a good radio access environment. A communication link method of a multimode multiband terminal is provided.

In addition, according to the second object of the present invention, a mobile including a CDMA-2000 network, a WCDMA network, a CDMA network, a wireless LAN network that provides communication services defined in the WCDMA standard, CDMA-2000 standard, CDMA standard, WLAN standard A multimode multi-band (MM-MB) terminal forming a call link in a communication network, the multimode-multiband terminal comprising: a radio frequency (RF) antenna for transmitting and receiving a call channel setting signal transmitted from the mobile communication network; An RF transceiver for receiving and demodulating the call channel setting signal transmitted by the RF antenna and outputting the demodulated call channel setting signal; A call channel setting measurement unit measuring the demodulated call channel setting signal strength to generate and output an Ec / Io value; A modem processing a digital signal received from the RF transceiver and performing call processing according to a protocol defined in a WCDMA standard, a CDMA-2000 standard, a CDMA standard, and a wireless LAN standard; A flash memory storing a modem transmission / reception channel combination program for performing a transmission / reception channel combination between the modems; And a control unit which loads the inter-modem transmit / receive channel combination program and starts the modem to combine a transmit channel and / or a receive channel.

In addition, according to a third object of the present invention, in a mobile communication system for forming a call link using a multimode multi-band (MM-MB) terminal, a call within the cell coverage of the mobile communication system A CDMA-2000 base station providing CDMA-2000 service to the multimode-multiband terminal attempting a link; A WCDMA base station providing WCDMA service within the cell coverage; A CDMA base station providing a CDMA service within the cell coverage; A wireless LAN base station providing wireless LAN service within the cell coverage; And a wireless network management server for monitoring a transmission channel and a reception channel between the multimode multiband terminal and the CDMA-2000 base station, the WCDMA base station, the CDMA base station, and the wireless LAN base station. To provide.

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.

3 is a block diagram schematically showing an internal configuration of a multi-mode multi-band terminal 300 according to a preferred embodiment of the present invention.

Multimode multi-band terminal 300 according to a preferred embodiment of the present invention, like the multi-mode multi-band terminal 110 described in Figure 2 RF antenna 310, RF transceiver 320, filter unit 330 ), The configuration of the modem unit 340 and the control unit 360. Therefore, detailed description of the same components as in FIG. 2 will be omitted. Meanwhile, the multi-mode multi-band terminal 300 according to an embodiment of the present invention further includes a call channel measuring unit 350, a flash memory 370, and a timer 380 for WCDMA. A fast transmit / receive channel combination is implemented between the modem 342 and the CDMA-2000 modem 344.

Hereinafter, a description will be given of a modem transmission and reception channel combination process in the multi-mode multi-band terminal 300 according to an embodiment of the present invention. In the embodiment of the present invention, it is assumed that the multi-mode multi-band terminal 300 located in the overlay regions 130 and 140 basically operates in a WCDMA preferred mode for searching for a frequency used in the WCDMA system. do. Further, the filter unit 330 and the modem unit 340 may include a CDMA modem (not shown) using a CDMA standard protocol for CDMA service, and a WLAN modem (not shown) using a WLAN standard protocol for WLAN service. You can add

The call channel measuring unit 350 of the multi-mode multi-band terminal 300 receives the call channel signal transmitted from the base station through the RF antenna 310 and the RF transceiver 320 to measure the Ec / Io value. The call channel signal measured by the call channel measuring unit 350 of the multi-mode multi-band terminal 300 includes a pilot channel (PICH) signal of a CDMA-2000 base station and a common pilot channel (CPICH: Common Pilot) of a WCDMA base station. Channel) signal. When the mobile communication terminal accesses a CDMA-2000 network or a WCDMA network, the pilot channel signal and the joint pilot channel signal select the largest signal among the received signals to find adjacent BTSs and sectors, and form a call link between the mobile communication terminal and the base station. It is used to form a communication link by selecting a transmission channel and a reception channel having good time call quality.

The call channel measurer 350 transmits the measured Ec / Io value of the measured call channel signal to the controller 360. Here, Ec / Io (Energy of Carrier / Interference of Others) is a ratio of the signal strength of the transmission / reception channel to the magnitude of all received noise and is used as a unit indicating the signal quality of the transmission / reception channel. In general, the Ec / Io value is about -1 to -2 dB in areas where there is little call volume and where radio waves do not overlap, and about -6 to -12 dB in areas where there is a lot of call volume and radio waves in multiple frequency bands. In the upper part of the overlapping high-rise building, it has a value of about -10 dB. In addition, when the Ec / Io value is -10 to -14 dB, a disconnection phenomenon starts to occur, and when the Ec / Io value is -14 dB or less, the call is normally disabled.

The controller 360 checks the Ec / Io value received from the call channel measuring unit 350 and continuously determines whether to use the WCDMA modem 342 as the reception mode and the CDMA-2000 modem 344 as the transmission mode. Judging by. For example, the controller 360 checks an Ec / Io value received from the call channel measurement unit 350, and this value is a preset CDMA-2000 ON threshold for starting the CDMA-2000 modem 344. It continuously monitors whether or not it goes below (TH _ON ), and while the Ec / Io value starts to be smaller than the TH _ON value, the CDMA-2000 ON ( ON) Controls the measurement of the duration to go below the threshold (TH _ON ). Here, the duration of down to less than CDMA-2000 on (ON) the threshold value (TH _ON) means the Ec / Io value <value TH _ON period to the start of the CDMA-2000 modem 344. The controller 360 controls the CDMA-2000 modem 344 to start when the measured duration starts to exceed the preset CDMA-2000 on condition time H _d .

The controller 360 starts the transmission mode with the CDMA-2000 modem 344 stopped in the reception mode when the measured duration starts to exceed the preset CDMA-2000 on condition time H _d . In addition, it takes approximately several seconds until the WCDMA modem 342 stops driving to generate and transmit a drive stop signal for stopping the transmission mode of the WCDMA modem 342 and driving the reception mode.

Meanwhile, in a preferred embodiment of the present invention, the inter-modem transmit / receive channel combination program for quickly performing inter-modem transmit / receive channel combination using the Ec / Io value received from the call channel measurer 350 by the controller 360 flashes. It is mounted in the memory 370. Therefore, when the Ec / Io value measured by the call channel measuring unit 350 is smaller than the preset TH _ON , the controller 360 loads the inter-modem transmit / receive channel combination program mounted in the flash memory 370 or transmits the data from the base station. If one of the transmission channel and the reception channel is determined to be inferior by analyzing the communication channel signal, the inter-modem transmission / reception channel combination program may be loaded.

4 is a diagram schematically illustrating a mobile communication network including a CDMA-2000, a WCDMA, a CDMA, and a WLAN service forming a call link with the multi-mode multi-band terminal 300 according to an exemplary embodiment of the present invention.

In the mobile communication network including CDMA-2000, WCDMA, CDMA, and WLAN services, which form a call link with the multi-mode multi-band terminal 300 according to the preferred embodiment of the present invention, the multi-mode multi-band terminal 300, A CDMA-2000 base station 410, a WCDMA base station 420, and a wireless network management server 430. In the present invention, it is assumed that CDMA and WLAN services are provided by the WCDMA base station 420.

It is assumed that the cell coverage 400 of the mobile communication network according to the preferred embodiment of the present invention is designed based on the radio wave reaching distance of the CDMA-2000 base station 410. Therefore, the multi-mode multi-band terminal 300, which is initially in the call waiting state, is registered with the CDMA-2000 base station 410.

The CDMA-2000 base station 410 uses a synchronization method of receiving a satellite Global Positioning System (GPS) clock to synchronize the entire base station. In the mobile communication network, the CDMA-2000 base station 410 is distinguished by placing a time difference (512 time differences) in the PN codes used by all the base stations, so the multi-mode multi-band terminal 300 is a base station of the cell where it is located. Since only the PN code transmitted by the PN code needs to be found, even if the multi-mode multi-band terminal 300 moves to an adjacent cell, the synchronization method is used to synchronize the base stations. The circuit used to find the base station can also be simplified. However, in case of installing base station underground, GPS antenna should be installed on the ground and coaxial cable should be installed to base station to supply clock to base station.

Since the WCDMA base station 420 uses its own synchronization of the network by assigning a unique PN series called a scrambling code for each base station, the WCDMA method uses a synchronous method for the multi-mode multi-band terminal 300 to identify the base station. I use it. Accordingly, the WCDMA base station 420 takes a relatively long time to find the moved base station compared to the CDMA-2000 base station. During the handoff attempting to call by finding the best received base station, the multi-mode multi-band terminal 300 itself synchronizes the two base stations and hands off. However, since the WCDAM base station 420 does not use GPS as in the CDMA base station 420, when the base station is installed underground, an antenna for receiving a separate clock is not required. In addition, the WCDMA base station 420 includes a CDMA base station providing a CDMA service and a wireless LAN base station providing a wireless LAN service. In the present invention, the WCDMA base station 420 is described as an example to describe a combination of transmission and reception channels. Doing.

The wireless network management server 430 is located in a base station controller (not shown) and performs a function of monitoring a transmission / reception channel state between the multimode multi-band terminal 300 and the base station, and a traffic state for each base station. In general, the wireless network management server 430 performs various functions necessary for wireless call processing such as handoff while controlling and managing a plurality of base stations. In addition, the subscriber information of the location-registered multi-mode multi-band terminal 300 is transmitted to a mobile communication switching center (not shown).

The wireless network management server 430 determines that the transmission channel of the multi-mode multi-band terminal 300 is poor while the multi-mode multi-band terminal 300 is initially connected to the CDMA-2000 base station 410. A function of generating a call channel signal for setting a call channel to a transmission channel of the WCDMA base station 420 served by the coverage 400 and transmitting the generated call channel signal to the multi-mode multi-band terminal 300.

The overall operation of the present invention is as described below and assumes that a call link is first established at the CDMA-2000 base station 410. When the subscriber operates the multi-mode multi-band terminal 300, the multi-mode multi-band terminal 300 is automatically received and 21 settings designated as signal channels among 333 channels (operating bandwidth of 10 MHz) are performed. Navigate through the set-up channels. At this time, a setup channel having a relatively high propagation force among 21 setup channels is selected and tuned to the channel frequency. That is, since all of the neighboring base stations are assigned different setting channels, tuning to the setting channel having a relatively large propagation force means that the multi-mode multi-band terminal 300 moves the nearest base station to the base station for call link setting. It means to choose.

This state is not busy but can be answered at any time by calling the multimode multi-band terminal 300 at the base station, and is ready to transmit a signal when the subscriber wants to make a call. Regardless of whether the call preparation of the multi-mode multi-band terminal 300 is completed automatically.

When the subscriber attempts to make a call, the subscriber transmits outgoing call information to the CDMA-2000 base station 410. The CDMA-2000 base station 410 transmits the received outgoing call information to the wireless network management server 430 through a data link. If the voice channel is empty, the CDMA-2000 base station 410 receives a command from the wireless network management server 430 to designate a voice channel capable of making a call to the multimode multi-band terminal 300, and then activates the corresponding voice channel and monitors the tone. (SAT, Supervisory Audio Tone, 6 kHz)

 The multi-mode multi-band terminal 300 receives the supervisor tone transmitted from the CDMA-2000 base station 410 and tunes to the voice channel, and then transmits the supervisor tone back in response to the channel tuning acknowledgment so that the CDMA-2000 base station 410 transmits the supervisor tone. It is possible to confirm the voice channel tuning of the multi-mode multi-band terminal (300).

The wireless network management server 430 monitors the transmission / reception channel of the CDMA-2000 base station 410 in the process of establishing a call link, and if it is determined that one of the transmission channel and the reception channel is poor, the cell coverage 400 CDMA-2000 base station 410 generates a call channel signal including a channel change signal for searching for a transmit channel and a receive channel state of the WCDMA base station 420 in the CDMA channel and changing a transmit channel or a receive channel to a good call channel. Through the multi-mode multi-band terminal 300 to pass through.

The multi-mode multi-band terminal 300 receiving the call channel signal from the CDMA-2000 base station 410 analyzes the call channel signal and transmits the channel in the relationship with the CDMA-2000 base station 410, which is establishing the call for the first time. If it is determined that the reception channel is good while the reception channel is poor, the reception channel provided by the WCDMA base station 420 is used as the reception channel while maintaining the transmission mode of the CDMA-2000 modem 344 in the multimode multi-band terminal 300. To operate the reception mode of the WCDMA modem 342.

5 is a flowchart illustrating a process of forming a call link using a multimode multiband terminal according to a preferred embodiment of the present invention.

When the multi-mode multi-band terminal 300 is operated, the multi-mode multi-band terminal 300 is automatically in a receiving state, and 21 set channels designated as signal channels among the 333 channels (if the operating bandwidth is 10 MHz) are set. Up Channel). At this time, a channel having a relatively strong radio wave strength among 21 set channels is selected and tuned to the channel frequency to maintain a call waiting state (S500).

When the subscriber enters the call number of the counterpart to the multimode multi-band terminal 300 and presses the "SEND" button, the multi-mode multi-band terminal 300 is a base station maintaining the call waiting state Outgoing call information (number of calling terminal and calling number of called terminal) is transmitted (S502).

The base station transmits the received outgoing call information to the wireless network management server 430 through the data link (S504). The wireless network management server 430 monitors the traffic of the transmission / reception channel of the base station maintaining the call waiting (S506).

If the transmission channel is good in the relationship between the subscriber's multimode multi-band terminal 300 and the base station maintaining the call waiting, but the reception channel is bad (S508), the neighboring base station in the same cell coverage 400 is good The receiving channel is searched for (S514).

The wireless network management server 430 selects a reception channel of a base station having a good traffic state and generates a reception channel assignment signal (S516).

The wireless network management server 430 sends a call channel signal including a transmission channel and a reception channel assignment signal to the multimode multiband terminal 300 waiting for a call (S510), and receives the call channel signal. The band terminal 300 starts a modem suitable for a transmission channel and a reception channel, respectively, and forms a call link between the base station and the multimode-multiband terminal 300 (S512).

In step S508, if the transmission channel and the reception channel of the base station where the multi-mode multi-band terminal 300 maintains the call waiting are good, the wireless network management server 430 maintains the call waiting without searching for a separate transmission / reception channel. A call channel signal is formed to form a call link through a transmission channel and a reception channel of the corresponding base station, and is transmitted to the multi-mode multi-band terminal 300 (S510).

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 forming a call link using the multi-mode multi-band terminal 300, a transmission / reception channel provided by a CDMA-2000 service, a WCDMA service, a CDMA service, or a WLAN service is provided. Since it can be used in combination with each other, there is an effect of increasing the efficiency of the radio channel. In addition, there is an advantage that the call is not interrupted because the call link is formed using the receive channel or the transmit channel of the other service even if the call quality of either service is poor when the call link is formed. .

Claims (30)

A multimode-multiband terminal that forms a communication link between a plurality of mobile communication networks selected from a CDMA-2000 network, a WCDMA network, a CDMA network, and a wireless LAN network and a multimode-multiband (MM-MB) terminal. In the call link method, (a) maintaining, by the multimode multi-band terminal, a call waiting with a base station of a mobile communication network which has established call setup among the plurality of mobile communication networks; (b) attempting a call link with a base station of a mobile communication network which has established the call setting; (c) receiving a call channel signal including transmission channel and reception channel setting information of the plurality of mobile communication networks from a wireless network management server; (d) If there is another mobile communication network that provides a transmission channel or a reception channel having a better radio access environment than the mobile communication network that has established the call setup by analyzing the call channel signal, among the mobile communication network that has established the call setup and the other mobile communication network; Combining a communication channel comprising one or more transmission channels and a reception channel to form a communication link with at least one base station of the mobile communication network and the other mobile communication network that has established the call setup; Call link method of a multi-mode multi-band terminal comprising a. The method of claim 1, The multimode multi-band terminal CDMA-2000 modem, WCDMA modem, which is provided in the multi-mode multi-band terminal when receiving a call channel signal including the transmission channel and the reception channel setting information transmitted from the wireless network management server, A communication link method of a multimode-multiband terminal, characterized by combining a transmission channel and a reception channel using a CDMA modem and a wireless LAN modem. The method of claim 1, In the multi-mode multi-band terminal, the multi-mode includes a synchronous mode and an asynchronous mode, and the multi-band is a second generation mobile communication service using a frequency band of 800 MHz, a 2.5 generation using a frequency band of 1.8 GHz And a frequency band of a mobile communication service, a third generation mobile communication service using a frequency band of approximately 2 GHz, and a fourth generation mobile communication service to be serviced in the future. The method of claim 1, The call channel signal includes a pilot channel (PICH) signal of a CDMA-2000 base station and a common pilot channel (CPICH) signal of a WCDMA base station. Way. The method of claim 1, wherein in step (b) When the multi-mode multi-band terminal transmits outgoing call information including the calling party number and the called party number of the receiver side, the base station receives the outgoing call information and delivers it to the wireless network management server A call link method of a multimode multiband terminal. The method of claim 1, The wireless network management server performs a function of monitoring a transmission channel and a reception channel state between the multimode multiband terminal and the base station, and a traffic state for each base station. . The method of claim 1, wherein in step (c), The wireless network management server transmits a call channel signal including transmission channel and reception channel setting information of a good traffic state between the multimode multiband terminal and the base station to the multimode multiband terminal. A call link method of a multimode multiband terminal. The method of claim 1, wherein in step (d), The multi-mode multi-band terminal analyzes the call channel signal and starts a CDMA-2000 modem, a WCDMA modem, a CDMA modem, and a WLAN modem provided with the multi-mode multi-band terminal to transmit and receive a good traffic channel. Call link method of a multi-mode multi-band terminal, characterized in that for forming a communication link. Multi-mode that forms a call link in a plurality of mobile communication networks selected from CDMA-2000 network, WCDMA network, CDMA network, and wireless LAN network that provide communication services defined in the WCDMA standard, CDMA-2000 standard, CDMA standard, and WLAN standard. In a multiband (MM-MB) multimode terminal, An RF antenna for transmitting and receiving a call channel setting signal transmitted from the mobile communication network; An RF transceiver for receiving and demodulating the call channel setting signal transmitted by the RF antenna and outputting the demodulated call channel setting signal; A call channel setting measurement unit measuring the demodulated call channel setting signal strength to generate and output an Ec / Io value; WCDMA modem that processes digital signals received from the RF transceiver and performs call processing in accordance with protocols defined in the WCDMA standard, CDMA-2000 standard, CDMA standard, and wireless LAN standard, and CDMA-2000. A plurality of modems selected from a modem, a CDMA modem, a wireless LAN modem; A flash memory storing a modem transmission / reception channel combination program for performing a transmission / reception channel combination between the plurality of modems; And A control unit which loads the transmission / reception channel combination program between the modems and starts the modem to combine transmission channels and / or reception channels Including; The control unit receives a call channel signal including transmission channel and reception channel setting information of the plurality of mobile communication networks from a wireless network management server, analyzes the call channel signal, and has a better wireless access environment than a mobile communication network which establishes call setting. And a communication channel comprising a transmission channel or a reception channel of the other mobile communication network and the mobile communication network establishing the call when there is another mobile communication network providing a transmission channel or a reception channel. delete The method of claim 9, In the multi-mode multi-band terminal, the multi-mode includes a synchronous mode and an asynchronous mode, and the multi-band is a second generation mobile communication service using a frequency band of 800 MHz, a 2.5 generation using a frequency band of 1.8 GHz And a frequency band of a mobile communication service, a third generation mobile communication service using a frequency band of approximately 2 GHz, and a fourth generation mobile communication service to be serviced in the future. The method of claim 9, The controller analyzes the Ec / Io value, the CDMA-2000 modem, the WCDMA modem, the CDMA modem, the ON threshold preset for the WLAN modem, and the call channel signal transmitted from the base station. Multi-mode multi-band terminal, characterized in that for loading (transmission) between the combination program. The method of claim 12, The call channel signal includes a pilot channel (PICH) signal of a CDMA-2000 base station and a common pilot channel (CPICH) signal of a WCDMA base station. The method of claim 12, The control unit loads the inter-modem transmit / receive channel combination program based on the call channel signal to drive the CDMA-2000 modem, the WCDMA modem, the CDMA modem, and the wireless LAN modem to combine the transmit and receive channels. Multi-mode multi-band terminal characterized by. The method of claim 12, On threshold value (TH _ON ) and on condition time (H _d ), off threshold value (TH _OFF ), and off condition time (H _c ) of the CDMA-2000 modem, the WCDMA modem, the CDMA modem, and the WLAN modem. The information on the multimode multi-band terminal, characterized in that recorded in the inter-modem transmission and reception channel combination program. The method of claim 9, The multi-mode multi-band terminal has a built-in timer (Timer) for checking the on condition time (H _d ) and off condition time (H _c ) of the modem to report to the control unit Band terminal. In a mobile communication system for forming a call link using a multimode multi-band (MM-MB) terminal, A CDMA-2000 base station providing CDMA-2000 service to the multi-mode multi-band terminal attempting a communication link within cell coverage of the mobile communication system; A WCDMA base station providing WCDMA service within the cell coverage; A CDMA base station providing a CDMA service within the cell coverage; A wireless LAN base station providing wireless LAN service within the cell coverage; A wireless network management server for monitoring a transmission channel and a reception channel between the multimode multiband terminal and the CDMA-2000 base station, the WCDMA base station, the CDMA base station, and the wireless LAN base station. Including; The wireless network management server includes configuration information on the transmission channel and the reception channel of the CDMA-2000 base station, the WCDMA base station, the CDMA base station, and the wireless LAN base station, which form a call link with the multimode multi-band terminal. Generates a call channel signal and transmits it to the multimode-multiband terminal; The multi-mode multi-band terminal analyzes the call channel signal and has another base station having a better radio access environment than the base station that has established an initial call setup among the CDMA-2000 base station, the WCDMA base station, the CDMA base station, and the wireless LAN base station. And a communication channel formed by combining a communication channel consisting of a transmission channel or a reception channel of the base station which established the initial call setup and the other base station having a better radio access environment. The method of claim 17, The multi-mode multi-band terminal comprises a CDMA-2000 modem, a WCDMA modem, a CDMA modem, a wireless LAN modem. The method of claim 18, When the multimode multi-band terminal receives a call channel signal including a transmission channel or a reception channel change signal transmitted from the wireless network management server, the CDMA-2000 modem and the WCDMA included in the multi-mode multi-band terminal. And a transmission link and a reception channel are formed by using a modem, the CDMA modem, and the wireless LAN modem to form a call link. The method of claim 17, When the WCDMA base station, the CDMA-2000 base station, the CDMA base station, and the wireless LAN base station receive the outgoing call information including the calling party number and the called party number of the sending party transmitted from the multi-mode multi-band terminal, Mobile communication system, characterized in that for transmitting the outgoing call information to the wireless network management server. The method of claim 17, The wireless network management server may be configured to transmit and receive channel states of the CDMA-2000 base station, the WCDMA base station, the CDMA base station, and the wireless LAN base station, the CDMA-2000 base station, the WCDMA base station, the CDMA base station, and the wireless LAN base station. A mobile communication system, characterized in that to perform the function of monitoring the traffic state of the. The method of claim 17, The WCDMA base station and the CDMA base station are in the same cell coverage if the transmission channel of the CDMA-2000 base station that is in standby with the multi-mode multi-band terminal is good but the reception channel is bad. And searching for a reception channel of the WLAN base station. The method of claim 17, The WCDMA base station and the CDMA base station are in the same cell coverage when the reception channel of the CDMA-2000 base station that is in standby with the multi-mode multi-band terminal is good but the transmission channel is poor. And searching for a transmission channel of the wireless LAN base station. The method of claim 17, The wireless network management server is the CDMA-2000 base station and the CDMA base station in the same cell coverage if the transmission channel of the WCDMA base station that is waiting for a call with the multimode multi-band terminal is good but the reception channel is bad And searching for a reception channel of the WLAN base station. The method of claim 17, The CDMA base station, the WLAN base station, the wireless network management server is in the same cell coverage if the reception channel of the WCDMA base station that is in standby with the multi-mode multi-band terminal is good but the transmission channel is poor A mobile communication system characterized by searching for a transmission channel of a CDMA-2000 base station. The method of claim 17, The wireless network management server is the CDMA-2000 base station and the WCDMA base station in the same cell coverage when the transmission channel of the CDMA base station that is waiting for a call with the multi-mode multi-band terminal is good but the reception channel is bad. And searching for a reception channel of the WLAN base station. The method of claim 17, The CDMA-2000 base station, the WCDMA base station, the wireless network management server is in the same cell coverage when the reception channel of the CDMA base station that is waiting for a call with the multi-mode multi-band terminal is good but the transmission channel is poor A mobile communication system characterized by searching for a transmission channel of a WLAN base station. The method of claim 17, The wireless network management server is the CDMA-2000 base station and the WCDMA in the same cell coverage when the transmission channel of the wireless LAN base station that is waiting for a call with the multimode multi-band terminal is good but the reception channel is bad. And a base station and searching for a reception channel of the CDMA base station. The method of claim 17, The wireless network management server is the CDMA-2000 base station and the WCDMA base station in the same cell coverage if the reception channel of the wireless LAN base station that is waiting for a call with the multi-mode multi-band terminal is good but the transmission channel is poor And searching for a transmission channel of the CDMA base station. delete

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