KR20100091055A - Wireless communication relay system and method by means of pilot beacon, and relay apparatus applied to the same - Google Patents

Abstract

PURPOSE: A mobile communication relay system using a pilot beacon and a method, and a relay device applied to the same are provided to prevent a mobile terminal from being first synchronized with a frequency area without traffic among all frequencies of a current cell. CONSTITUTION: A relay device(200) accepts a call for a mobile terminal through a preset traffic frequency among at least two frequencies. When the call acceptance is requested through a frequency which is not assigned to a current cell, the relay device converts a designated traffic frequency to be converted among the preset traffic frequencies. The relay device transmits a pilot beacon signal to the mobile terminal through the converted traffic frequency.

Description

WIRELESS COMMUNICATION RELAY SYSTEM AND METHOD BY MEANS OF PILOT BEACON, AND RELAY APPARATUS APPLIED US APPLIED TO THE SAME}

The present invention relates to a handover of a mobile communication network, and more particularly to a pilot beacon type handover through a relay device located in a mobile communication relay area, as well as a pilot for inducing a handover by a mobile terminal. The present invention relates to a mobile communication relay system and method through a pilot beacon for preventing tuning to a frequency of a beacon signal, and a relay apparatus applied thereto.

When the mobile station crosses the boundary area between base stations, handover is performed to continue the call. In the handover performed in the CDMA system, the soft handover and the soft handover are applied when the frequencies between the two base stations are the same. There are two kinds of hard hand-overs that apply in one case.

In this regard, when a mobile station using a frequency assignment area (FA) FA1 moves to a base station where only frequency FA2 exists, inter-frequency hard handover is performed. In this case, the mobile station performs frequency FA1 in the base station boundary area. Since only transmission / reception is used, a base station using frequency FA2 cannot be captured.

Accordingly, a pilot beacon is applied to the mobile station to capture the base station to be handed over, and this pilot beacon is used only for capturing the base station to be handed over, but not for the actual call.

More specifically, when the mobile station using the frequency 3FA enters the base station boundary area in the CDMA system, the handover target base station not using the frequency 3FA generates a pilot beacon signal to generate a pseudo noise (PN, Pseudo Noise signal is emitted, and the mobile station forms a pilot channel and requests a handover to the base station to be handed over.

Thereafter, the CDMA system determines that the base station to be handed over uses only 2FA and 1FA except for the frequency 3FA, and designates any one of 2FA and 1FA to execute hard handover. In this case, the CDMA system has a channel list, and the mobile station in the IDLE state tuned in the cell area formed by the base station to be handed over can be controlled to call only through 2FA and 1FA without tuning to 3FA. .

However, since the WCDMA system does not have the channel list information, it is necessary to control mobile stations in the IDLE state tuned in the cell region formed by the base station to be handed over through 2FA and 1FA so as to set up channels through only 2FA and 1FA. there is a problem. That is, in the WCDMA system, the signal-to-noise ratio (Ec / lo) and the received signal code power (RSCP) value of the common pilot channel among all frequencies are first tuned to the FA without traffic. Accordingly, in case of a mobile station that is powered on in the coverage of a base station to be handed over using only 2FA and 1FA, the subsequent call is performed by tuning to 3FA configured for handover due to the above-described operation of first tuning to a FA without traffic. There is a problem that can not be done.

The present invention was created to solve the problems inherent in the prior art as described above, and an object of the present invention is to divide call reception by setting a parameter (SIB3) for the frequency domain of the current cell and to idle. The present invention provides a mobile communication relay system through a pilot beacon for preventing the mobile terminal from powering on in the state to the wave traffic frequency formed for handover, and a method and a relay apparatus applied thereto.

In addition, another object of the present invention, when a mobile terminal accommodated by a call through a wave target traffic frequency or a wave traffic frequency moves to a coverage edge of the traffic frequency, a handover is performed to a preset traffic frequency. The present invention provides a mobile communication relay system, a method, and a relay apparatus applied thereto for preventing traffic from being concentrated on a frequency to be shifted.

In accordance with an aspect of the present invention for achieving the above object, there is provided a mobile communication relay system via a pilot beacon: the system is tuned to the current state or traffic conditions due to entry from an adjacent cell (Cell) A mobile terminal for requesting call reception to a current cell in an idle state; And accepting a call for the mobile terminal through a preset traffic frequency among at least two or more frequencies, and when a call is requested through a frequency not currently assigned to a cell, the designated target frequency of the shifted traffic among the preset traffic frequencies. And a relay device configured to transform the pilot beacon signal to the mobile terminal through the converted traffic frequency to form a pilot channel.

Preferably, the relay device, by setting a parameter value for the cell selection or cell reselection for the predetermined traffic frequency to prohibit the call acceptance for the wave frequency target traffic frequency to the mobile station in the idle state. It is done.

Preferably, the relay device, when the mobile terminal accommodated by the call through the transformed traffic frequency or the transformed traffic frequency moves to a coverage edge of the corresponding traffic frequency, the relay terminal via the pilot beacon signal By operating in the compressed mode (Compressed Mode) characterized in that the handover (Hand-Over) to a predetermined traffic frequency excluding the variable frequency of the target traffic.

According to another aspect of the present invention, there is provided a relay apparatus for providing a mobile communication relay service through a pilot beacon: the apparatus for receiving a call to a mobile terminal through a predetermined traffic frequency of at least two or more frequencies; Call processing unit; A variation processing unit configured to generate a variation traffic frequency by changing a specified target frequency of the traffic among the preset traffic frequencies in order to process a call acceptance request of the mobile terminal through a frequency not currently allocated to a cell; A pilot beacon processing unit configured to transmit a pilot beacon signal to the mobile terminal through the variable traffic frequency to form a pilot channel when a call reception request of the mobile terminal through a frequency not currently allocated to a cell is received; And a cell selection or cell for each of the preset traffic frequencies for distinguishing a call acceptance request of the mobile station which is in a traffic state or an idle state that is currently tuned to a cell. And a parameter setting unit for setting the reselection parameter value.

Preferably, the variable wave processing unit, characterized in that for transitioning the call received through the variable wave traffic frequency to the specified wave target frequency.

Preferably, the parameter setting unit is configured to set the parameter value to accept both calls of the mobile terminal which is in a traffic state and an idle state for the preset traffic frequency excluding the variable frequency target traffic frequency.

Preferably, the parameter setting unit, characterized in that for setting the parameter value to prohibit the call acceptance of the mobile terminal in the idle state with respect to the frequency of the target wave.

In accordance with another aspect of the present invention, there is provided a relay device for providing a mobile communication relay service through a pilot beacon: the device may include traffic according to entry from an adjacent cell through a preset traffic frequency of at least two or more frequencies; A call processing unit for receiving a call to the mobile terminal in a traffic state or an idle state currently tuned to a cell; A variation processing unit configured to generate a variation traffic frequency by changing a specified target frequency of the traffic among the preset traffic frequencies in order to process a call acceptance request of the mobile terminal through a frequency not currently allocated to a cell; A pilot beacon processing unit configured to transmit a pilot beacon signal to the mobile terminal through the variable traffic frequency to form a pilot channel when a call reception request of the mobile terminal through a frequency not allocated to the current cell is received; And a call switcher configured to hand-over to the preset traffic frequency when the mobile station receiving a call moves to a coverage edge of the corresponding traffic frequency through the wave target traffic frequency or the variable traffic frequency. Characterized in that.

Preferably, the variable wave processing unit, characterized in that for transitioning the call received through the variable wave traffic frequency to the specified wave target frequency.

Preferably, the call switching unit, when the mobile terminal receiving the call through the wave target traffic frequency or the wave traffic frequency moves to a coverage edge of the traffic frequency (Coverage Edge), the mobile terminal via the pilot beacon signal By operating in the compressed mode (compressed mode) is characterized in that the handover (Hand-Over) to the predetermined traffic frequency except the variable frequency of the target traffic.

According to another aspect of the present invention, a method for relaying a mobile communication through a pilot beacon is provided. The method includes: a traffic state resulting from entry from an adjacent cell or an idle state currently tuned to a cell. A parameter setting step of setting a cell selection or cell reselection parameter value for each preset traffic frequency to distinguish and handle a call acceptance request of an IMA; A shifted traffic frequency generation step of generating a shifted traffic frequency by shifting a designated shifted target frequency among the preset traffic frequencies; A call receiving step of transmitting a pilot beacon signal to the mobile terminal through the variable traffic frequency to form a pilot channel according to a call reception request of the mobile terminal through a frequency not currently allocated to a cell; And a frequency shifting step of transitioning a call received through the variable wave traffic frequency to the designated variable wave target frequency.

Preferably, the parameter setting step is characterized in that for setting the parameter value to accept both the call of the mobile terminal in the traffic state and the idle state for the predetermined traffic frequency except the wave target traffic frequency.

Preferably, the parameter setting step is characterized in that for setting the parameter value to prohibit the call acceptance of the mobile terminal in the idle state with respect to the wave frequency target traffic frequency.

According to still another aspect of the present invention, there is provided a mobile communication relay method using a pilot beacon, the method comprising: generating a modified traffic frequency by changing a designated frequency of the target traffic among the predetermined traffic frequency; A call receiving step of transmitting a pilot beacon signal to the mobile terminal through the variable traffic frequency to form a pilot channel according to a call reception request of the mobile terminal through a frequency not currently allocated to a cell; A frequency shifting step of transitioning a call received through the variable wave traffic frequency to the designated variable wave target frequency; And a call switching step of hand-overing to the preset traffic frequency when the mobile station receiving a call moves to a coverage edge of the corresponding traffic frequency through the wave target traffic frequency or the variable traffic frequency. It is characterized by including.

Advantageously, the call switching step comprises: a compression mode execution step of operating said mobile terminal in a compressed mode by transmitting said pilot beacon signal through said variable traffic frequency; And a frequency switching step of hand-overing the mobile terminal to the preset traffic frequency excluding the variable frequency traffic frequency.

According to a mobile communication relay system and a method through a pilot beacon according to the present invention, and a relay apparatus applied thereto, the idle (Idle) as the call reception is distinguished by setting the parameter (SIB3) for the frequency region of the current cell The mobile terminal, which is powered on in the state, sees the signal-to-noise ratio (Ec / lo), the received signal code power (RSCP) value of the common pilot channel among the total frequencies of the current cell, and has no traffic. It is possible to prevent the first tuning of the wave traffic frequency formed for the first time.

In addition, when the mobile station accommodated by a call through a wave target traffic frequency or a wave traffic frequency moves to a coverage edge of the corresponding traffic frequency, the mobile terminal hand-overs to a preset traffic frequency, as described above. By classifying the call acceptance through the parameter setting, it is possible to prevent the traffic from concentrating on the frequency of the traffic to be transformed.

Hereinafter, with reference to the accompanying drawings will be described a preferred embodiment of the present invention.

1 is a schematic block diagram of a mobile communication relay system through a pilot beacon according to an embodiment of the present invention.

As illustrated in FIG. 1, the system requests a call to a current cell in a traffic state according to entry from a neighbor cell or in an idle state that is tuning to a current cell. 100; And a relay device 200 for processing a call reception request of the mobile terminal 100 using a pilot beacon signal. Here, the relay device 200 is a series of devices that perform access processing such as hand-over and location registration for the mobile terminal 100 in an asynchronous (WCDMA) mobile communication network such as a base station or a repeater. May be applicable.

The mobile terminal 100 is a handover according to entry from a neighbor cell to a current cell in a traffic state and a current cell when powering on in an idle state synchronized with the current cell. The call request is made to the relay device 200 located at.

The relay device 200 receives a call for the mobile terminal 100 through a preset traffic frequency among at least two or more frequencies, and when a call is requested through a frequency not currently assigned to a cell, the relay device 200 receives the call. Among the set traffic frequencies, the specified wave frequency target traffic frequency is changed and the pilot beacon signal is transmitted to the mobile terminal 100 through the changed traffic frequency. More specifically, the relay device 200 may be configured to support the handover of the mobile terminal 100 with respect to the first to third frequencies 1FA, 2FA, and 3FA allocated to the neighboring cell. Three frequencies (3FA) are generated through the transformed wave. That is, the relay device 200, when a call acceptance is requested according to the handover from the mobile terminal 100 through a third frequency (3FA) that is not currently assigned to the cell, the designated frequency of the target traffic frequency among the preset traffic frequencies For example, after copying the second frequency (2FA), the wave is converted to the third frequency (3FA), and the pilot beacon signal is transmitted to the mobile terminal 100 through the converted third frequency, the movement Accept the call according to the handover of the terminal 100. In this regard, the relay apparatus 200 transitions a call received through the changed traffic frequency, that is, the third frequency 3FA, to the designated wave target frequency, that is, the second frequency, so that call processing is performed.

In addition, the relay device 200 sets a parameter value for cell selection or cell reselection for the preset traffic frequency to prohibit the call reception for the frequency target traffic frequency for the mobile station in the idle state. More specifically, the relay device 200 sets the system information of each frequency allocated to the current cell, for example, a parameter SIB3 for cell selection or cell reselection for each frequency, and thus the traffic state according to entry from an adjacent cell. Alternatively, the call reception request of the mobile terminal 100 which is in an idle state currently tuned to the cell is processed. That is, the relay device 200 sets the parameter value to prohibit the call reception of the mobile terminal in the idle state with respect to the second frequency 2FA, which is the frequency to be transformed. On the other hand, the relay device 200 calls the call of the mobile terminal 100 which is in a traffic state or an idle state with respect to a preset traffic frequency, that is, the first frequency 1FA, excluding the second frequency 2FA, which is the target frequency of the wave change. The value of the parameter SIB3 is set to accommodate all of them. In this way, the relay device 200 allows the mobile terminal 100 to be powered on in an idle state, and has a signal-to-noise ratio (Ec / lo) among the total frequencies of the current cell, and the received signal code power of the common pilot channel ( Viewing the RSCP value prevents first tuning to the frequency domain where there is no traffic, that is, the third frequency 3FA configured for handover.

On the other hand, the relay device 200, as described above to distinguish the call acceptance through the setting of the parameter (SIB3), in order to prevent the traffic is concentrated on the second frequency (2FA) that is the target frequency of the traffic, the same as before If the mobile terminal 100 accommodates a call through the wave target traffic frequency or the wave traffic frequency in the state that the parameter SIB3 is not set moves to the coverage edge of the traffic frequency, the preset traffic frequency 1FA ) May have a configuration of handover (Hand-Over). More specifically, in the relay device 200, the mobile terminal 100 receiving a call through the second frequency 2FA or the modified traffic frequency 3FA, which is the target wave frequency, is covered by the coverage edge of the corresponding traffic frequency. ), The mobile terminal 100 operates in a compressed mode through the pilot beacon signal. In this manner, the relay device 200 may hand-over the mobile terminal 100 to a preset traffic frequency, that is, the first frequency 1FA, except for the wave target traffic frequency 2FA and the wave traffic frequency 3FA. Over) prevents the call from concentrating on a particular frequency.

As described above, according to the mobile communication relay system using the pilot beacon according to the present invention, as the call reception is distinguished by setting the parameter (SIB3) for the frequency region of the current cell, power on (Idle) in the idle state (Idle) The mobile terminal 100, which is powered on, looks at the signal-to-noise ratio (Ec / lo) and the received signal code power (RSCP) value of the common pilot channel among the total frequencies of the current cell and is formed for the frequency domain without traffic, that is, for handover. First tuning to the third frequency 3FA can be prevented. On the other hand, when a mobile terminal 100 receiving a call through a wave target traffic frequency or a wave traffic frequency moves to a coverage edge of the corresponding traffic frequency, the mobile terminal 100 performs a handover to the preset traffic frequency 1FA. By distinguishing the call reception by setting the parameter SIB3 as described above, it is possible to prevent traffic from concentrating on the second frequency 2FA, which is a frequency to be transformed.

Hereinafter, a detailed configuration of the relay apparatus 200 according to the embodiment of the present invention will be described with reference to FIG. 2.

As shown in FIG. 2, the relay device 200 includes a call processor 210 which receives a call to the mobile terminal 100 through a preset traffic frequency among at least two or more frequencies; A wave change processor 220 generating a wave traffic frequency by changing a designated wave target traffic frequency among the preset traffic frequencies to process a call acceptance request of the mobile terminal through a frequency not currently assigned to a cell; A pilot beacon processing unit 230 for transmitting a pilot beacon signal to the mobile terminal through the variable traffic frequency to form a pilot channel when a call reception request of the mobile terminal through a frequency not currently allocated to a cell is received; And a cell selection or cell for each of the preset traffic frequencies for distinguishing a call acceptance request of the mobile station which is in a traffic state or an idle state that is currently tuned to a cell. It has a configuration including a parameter setting unit 240 for setting the reselection parameter value.

The call processor 210 supports the handover of the mobile terminal 100 through the first and second frequencies allocated to the current cell among the first to third frequencies 1FA, 2FA, and 3FA allocated to the adjacent cell. Accept the call according to the handover of the mobile terminal.

When the request for call reception is requested from the mobile terminal 100 through the third frequency 3FA that is not currently assigned to the cell, the wave processing unit 220 includes a designated wave frequency target traffic frequency among the preset traffic frequencies. After the second frequency 2FA is copied, the second frequency 2FA is copied to the third frequency 3FA for handover of the mobile terminal 100. In addition, the wave processing unit 220 transitions a call received through the changed traffic frequency, that is, the third frequency 3FA, to the designated wave target frequency, that is, the second frequency, so that call processing is performed.

The pilot beacon processing unit 230 transmits a pilot beacon signal to the mobile terminal 100 through the third frequency 3FA generated to support handover of the mobile terminal 100, thereby allowing the mobile terminal ( Accept the call according to the handover of 100).

The parameter setting unit 240 sets the system information of each frequency allocated to the current cell, for example, a parameter SIB3 for cell selection or cell reselection for each frequency, thereby indicating a traffic state or current according to entry from an adjacent cell. The call acceptance request of the mobile terminal 100 in the idle state of tuning to the cell is processed. That is, the parameter setting unit 240 sets the parameter value to prohibit the call reception of the mobile terminal 100 in the idle state with respect to the second frequency 2FA, which is the frequency of the target traffic. On the other hand, the parameter setting unit 240 is a call of the mobile terminal 100 in a traffic state or an idle state for a preset traffic frequency, that is, the first frequency 1FA, except for the second frequency 2FA, which is the target frequency of the wave change. Set the value of the parameter (SIB3) to accommodate all of them. In this way, the relay device 200 allows the mobile terminal 100 to be powered on in an idle state, and has a signal-to-noise ratio (Ec / lo) among the total frequencies of the current cell, and the received signal code power of the common pilot channel ( By looking at the RSCP value, it is possible to avoid first tuning to the frequency domain where there is no traffic, that is, the third frequency 3FA configured for handover.

As described above, according to the configuration of the relay apparatus 200 according to the embodiment of the present invention, as the call reception is distinguished by setting the parameter SIB3 for the frequency region of the current cell, the power is in the idle state. The mobile terminal 100 that is powered on sees the signal-to-noise ratio (Ec / lo), the received signal code power (RSCP) value of the common pilot channel among the total frequencies of the current cell, and performs a handover in the frequency region where there is no traffic. It is possible to prevent first tuning to the third frequency 3FA formed for this purpose.

Hereinafter, a detailed configuration of a relay device according to another embodiment of the present invention will be described with reference to FIG. 3.

As shown in FIG. 3, the relay device 200 includes a call processor 210 which receives a call to the mobile terminal 100 through a preset traffic frequency among at least two frequencies; A wave change processor 220 generating a wave traffic frequency by changing a designated wave target traffic frequency among the preset traffic frequencies to process a call acceptance request of the mobile terminal through a frequency not currently assigned to a cell; A pilot beacon processing unit 230 for transmitting a pilot beacon signal to the mobile terminal through the variable traffic frequency to form a pilot channel when a call reception request of the mobile terminal through a frequency not currently allocated to a cell is received; And a call changer configured to hand-over to the preset traffic frequency when the mobile terminal receiving the call moves to a coverage edge of the corresponding traffic frequency through the wave target traffic frequency or the wave traffic frequency. A relay device, characterized in that it comprises (250).

The call processor 210 supports the handover of the mobile terminal 100 through the first and second frequencies allocated to the current cell among the first to third frequencies 1FA, 2FA, and 3FA allocated to the adjacent cell. Accept the call according to the handover of the mobile terminal.

When the request for call reception is requested from the mobile terminal 100 through the third frequency 3FA that is not currently assigned to the cell, the wave processing unit 220 includes a designated wave frequency target traffic frequency among the preset traffic frequencies. After the second frequency 2FA is copied, the second frequency 2FA is copied to the third frequency 3FA for handover of the mobile terminal 100. In addition, the wave processing unit 220 transitions a call received through the changed traffic frequency, that is, the third frequency 3FA, to the designated wave target frequency, that is, the second frequency, so that call processing is performed.

The pilot beacon processing unit 230 transmits a pilot beacon signal to the mobile terminal 100 through the third frequency 3FA generated to support handover of the mobile terminal 100, thereby allowing the mobile terminal ( Accept the call according to the handover of 100).

As described above, the call switcher 250 classifies call reception through the setting of the parameter SIB3, and thus, to prevent the traffic from being concentrated on the second frequency 2FA, which is the traffic frequency to be shifted, the same as before. If the mobile terminal 100 accommodates a call through the wave target traffic frequency or the wave traffic frequency in the state that the parameter (SIB3) is not set, moves to the coverage edge of the traffic frequency, the preset traffic frequency 1FA. Hand-over with. More specifically, the call switching unit 250 is a coverage boundary area of the mobile terminal 100 that receives the call through the second frequency 2FA or the modified traffic frequency 3FA, which is the target traffic frequency, and the corresponding traffic frequency. When moving to the edge), the mobile terminal 100 operates in the compressed mode through the pilot beacon signal. Through this, the call switcher 250 handovers the mobile terminal 100 to a preset traffic frequency, that is, the first frequency 1FA, except for the wave target traffic frequency 2FA and the wave traffic frequency 3FA. -Over) to prevent the call from concentrating on a particular frequency.

As described above, according to the configuration of the relay apparatus 200 according to another embodiment of the present invention, a coverage boundary region of a corresponding traffic frequency is received by the mobile terminal 100 that receives a call through a shift target traffic frequency or a shift traffic frequency. In case of moving to Edge, the second frequency, which is the frequency of the traffic to be transformed, is handed over by setting the parameter SIB3 as described above by hand-overing to the preset traffic frequency 1FA. (2FA) can prevent traffic concentration.

Hereinafter, a mobile communication relay method through a pilot beacon according to an embodiment of the present invention will be described with reference to FIGS. 4 and 5. Here, for the convenience of description, the configuration shown in FIGS. 1 to 3 will be described with reference to the corresponding reference numerals.

First, a mobile communication relay method through a pilot beacon according to an embodiment of the present invention with reference to FIG.

First, cell selection for each preset traffic frequency in order to distinguish a call acceptance request from a mobile station that is in a traffic state according to entry from a neighbor cell or an idle state currently tuned to a cell. Alternatively, the cell reselection parameter value is set (S110-S120). Preferably, the relay device 200 sets the system information of each frequency assigned to the current cell, for example, a parameter SIB3 for cell selection or cell reselection for each frequency so that the traffic state according to entry from an adjacent cell is obtained. Alternatively, the call reception request of the mobile terminal 100 which is in an idle state currently tuned to the cell is processed. More specifically, the parameter setting unit 240 sets the parameter value to prohibit the call reception of the mobile terminal 100 in the idle state with respect to the second frequency 2FA, which is the frequency to be shifted. On the other hand, the parameter setting unit 240 is a call of the mobile terminal 100 in a traffic state or an idle state for a preset traffic frequency, that is, the first frequency 1FA, except for the second frequency 2FA, which is the target frequency of the wave change. Set the value of the parameter (SIB3) to accommodate all of them. In this way, the relay device 200 allows the mobile terminal 100 to be powered on in an idle state, and has a signal-to-noise ratio (Ec / lo) among the total frequencies of the current cell, and the received signal code power of the common pilot channel ( Viewing the RSCP value prevents first tuning to the frequency domain where there is no traffic, that is, the third frequency 3FA configured for handover.

Next, a shifted traffic frequency is generated by changing a designated shifted target traffic frequency among the preset traffic frequencies (S130-S140). Preferably, in order for the relay device 200 to process a call acceptance request of the mobile terminal through a frequency not currently assigned to a cell, the relay apparatus 200 changes a specified wave frequency of the selected traffic frequency to change the wave traffic frequency. Create More specifically, the wavefront processing unit 220, when the call acceptance from the mobile terminal 100 according to the handover is requested from the third frequency (3FA) that is not currently assigned to the cell, the specified wave frequency of the predetermined traffic frequency After copying the target traffic frequency, for example, the second frequency 2FA, the mobile station 100 converts the target traffic frequency to the third frequency 3FA for handover of the mobile terminal 100.

Then, the pilot beacon signal is transmitted to the mobile terminal through the variable traffic frequency according to the call acceptance request of the mobile terminal through a frequency not currently allocated to the cell to form a pilot channel (S150-S160). Preferably, when the relay device 200 receives a call acceptance request of the mobile terminal through a frequency not currently allocated to a cell, the pilot device transmits the pilot beacon signal to the mobile terminal through the variable traffic frequency to transmit a pilot channel. To form. More specifically, the pilot beacon processing unit 230 transmits a pilot beacon signal to the mobile terminal 100 through the third frequency (3FA) generated to support the handover of the mobile terminal 100. The mobile terminal 100 receives a call according to the handover of the mobile terminal 100.

Thereafter, the received call through the variable traffic frequency is shifted to the designated target wave frequency (S170). Preferably, the relay device 200 transitions the received call on the variable wave traffic frequency to the designated wave target frequency. More specifically, the wave processing unit 220 transitions the received traffic frequency, that is, the call received through the third frequency 3FA, to the designated wave target frequency, that is, the second frequency, so that call processing is performed.

As described above, according to the mobile communication relay method according to an embodiment of the present invention, the call reception is distinguished by setting a parameter (SIB3) for the frequency domain of the current cell, and thus, the power is turned on in the idle state. The mobile terminal 100, which is on, sees the signal-to-noise ratio (Ec / lo), the received signal code power (RSCP) value of the common pilot channel among the total frequencies of the current cell, and is configured for the handover frequency range, that is, for handover. It is possible to prevent first tuning to the three frequencies 3FA.

Next, the operation of the advertisement selection server 200 according to the embodiment of the present invention will be described with reference to FIG. 5.

First, a shifted traffic frequency is generated by shifting a designated shift target traffic frequency among preset traffic frequencies (S210-S220). Preferably, in order for the relay device 200 to process a call acceptance request of the mobile terminal through a frequency not currently assigned to a cell, the relay apparatus 200 changes a specified wave frequency of the selected traffic frequency to change the wave traffic frequency. Create More specifically, the wavefront processing unit 220, when the call acceptance from the mobile terminal 100 according to the handover is requested from the third frequency (3FA) that is not currently assigned to the cell, the specified wave frequency of the predetermined traffic frequency After copying the target traffic frequency, for example, the second frequency 2FA, the mobile station 100 converts the target traffic frequency to the third frequency 3FA for handover of the mobile terminal 100.

Then, the pilot beacon signal is transmitted to the mobile terminal through the variable traffic frequency according to the call acceptance request of the mobile terminal through a frequency not currently assigned to the cell to form a pilot channel (S230-S240). Preferably, when the relay device 200 receives a call acceptance request of the mobile terminal through a frequency not currently allocated to a cell, the pilot device transmits the pilot beacon signal to the mobile terminal through the variable traffic frequency to transmit a pilot channel. To form. More specifically, the pilot beacon processing unit 230 transmits a pilot beacon signal to the mobile terminal 100 through the third frequency (3FA) generated to support the handover of the mobile terminal 100. The mobile terminal 100 receives a call according to the handover of the mobile terminal 100.

Then, the call received through the wave traffic frequency is shifted to the designated wave target frequency (S250). Preferably, the relay device 200 transitions the received call on the variable wave traffic frequency to the designated wave target frequency. More specifically, the wave processing unit 220 transitions a call received through the changed traffic frequency, that is, the third frequency 3FA, to the designated wave target frequency, that is, the second frequency, so that call processing is performed.

Subsequently, when the mobile station accommodated by the call through the wave target traffic frequency or the wave traffic frequency moves to a coverage edge of the corresponding traffic frequency, the mobile terminal hands-over to the preset traffic frequency (S260-). S280). Preferably, as the relay apparatus 200 distinguishes the call acceptance through the setting of the parameter SIB3 as described above, in order to prevent the traffic from concentrating on the second frequency 2FA, which is the frequency of the target traffic, When the mobile terminal 100 receiving a call moves to a coverage edge of the corresponding traffic frequency through the shift target traffic frequency or the shifted traffic frequency in the same parameter (SIB3) not set, the preset traffic Hand-over to frequency (1FA). More specifically, the call switching unit 250 is a coverage boundary area of the mobile terminal 100 that receives the call through the second frequency 2FA or the modified traffic frequency 3FA, which is the target traffic frequency, and the corresponding traffic frequency. When moving to the edge), the mobile terminal 100 operates in the compressed mode through the pilot beacon signal.

As described above, according to the mobile communication relay method according to an embodiment of the present invention, the mobile terminal 100 accommodated by the call through the change target traffic frequency or the change traffic frequency moves to a coverage edge of the corresponding traffic frequency. In this case, by hand-overing to the preset traffic frequency 1FA, the call reception is distinguished by setting the parameter SIB3 as described above, and thus, the second frequency 2FA, The traffic can be prevented from being concentrated.

Although the present invention has been described in detail with reference to preferred embodiments, the present invention is not limited to the above-described embodiments, and the present invention belongs to the present invention without departing from the gist of the present invention as claimed in the following claims. Anyone skilled in the art will have the technical idea of the present invention to the extent that various modifications or changes are possible.

The mobile communication relay system and its method through the pilot beacon according to the present invention, and the relay device applied thereto are powered on in the idle state by distinguishing call reception through the parameter (SIB3) setting for the frequency region of the current cell. (Power On) prevents the mobile terminal from tuning to the variable traffic frequency formed for the handover, and furthermore, the mobile terminal receiving the call through the variable target traffic frequency or the variable traffic frequency has a coverage edge area of the corresponding traffic frequency. In case of moving to), handover to the preset traffic frequency prevents the traffic from being concentrated on the frequency of the target traffic. Not only is the potential for market or sales of the device being Because the extent that may be carried out an invention that has industrial applicability.

1 is a schematic configuration diagram of a mobile communication relay system through a pilot beacon according to an embodiment of the present invention.

2 is a schematic configuration diagram of a relay device according to an embodiment of the present invention.

3 is a schematic configuration diagram of a relay device according to another embodiment of the present invention.

4 and 5 are a flow chart illustrating a mobile communication relay method through a pilot beacon according to an embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

100: mobile terminal

200: relay device

210: call processing unit 220: variable wave processing unit

230: beacon processing unit 240: parameter setting unit

250: call diverting part

Claims (15)

In the mobile communication relay system through a pilot beacon, A mobile terminal for requesting a call reception to a current cell in a traffic state according to entry from a neighbor cell or in an idle state synchronized with a current cell; And Accepts a call for the mobile terminal through a predetermined traffic frequency of at least two or more frequencies, and when the call acceptance is requested through a frequency not currently assigned to a cell, the designated target frequency of the shifted traffic among the preset traffic frequencies And a relay device configured to transmit the pilot beacon signal to the mobile terminal through the transformed and transformed traffic frequency to form a pilot channel. The method of claim 1, wherein the relay device, By setting a parameter value for cell selection or cell reselection for the preset traffic frequency, the mobile communication relay via the pilot beacon is prohibited for the mobile terminal in the idle state. system. The method of claim 1, wherein the relay device, When the mobile terminal receiving a call through the transformed traffic frequency or the transformed traffic frequency moves to a coverage edge of the corresponding traffic frequency, the mobile terminal operates in a compressed mode through the pilot beacon signal. And hand-over to a predetermined traffic frequency excluding the variable frequency target traffic, by hand-over (Pilot Beacon). In the relay device for providing a mobile communication relay service through a pilot beacon, A call processor which receives a call to the mobile terminal through a predetermined traffic frequency among at least two frequencies; A variation processing unit configured to generate a variation traffic frequency by changing a specified target frequency of the traffic among the preset traffic frequencies in order to process a call acceptance request of the mobile terminal through a frequency not currently allocated to a cell; A pilot beacon processing unit configured to transmit a pilot beacon signal to the mobile terminal through the variable traffic frequency to form a pilot channel when a call reception request of the mobile terminal through a frequency not allocated to the current cell is received; And Cell selection or cell reconfiguration for each of the preset traffic frequencies to distinguish the call acceptance request of the mobile station which is in a traffic state according to entry from an adjacent cell or in an idle state of the current cell And a parameter setting unit for setting the selection parameter value. The method of claim 4, wherein the wave processing unit, And repeating the received call through the variable wave traffic frequency to the designated variable wave target frequency. The method of claim 4, wherein the parameter setting unit, And the parameter value is set to accommodate the call of the mobile terminal which is in a traffic state and an idle state with respect to the preset traffic frequency except for the wave frequency target traffic frequency. The method of claim 4, wherein the parameter setting unit, And the parameter value is set to prohibit call acceptance of the mobile terminal in an idle state with respect to the frequency to which the target traffic is to be transformed. In the relay device for providing a mobile communication relay service through a pilot beacon, A call processing unit which receives a call to the mobile terminal which is in a traffic state or idle state currently tuned to a cell through a preset traffic frequency among at least two frequencies; A variation processing unit configured to generate a variation traffic frequency by changing a specified target frequency of the traffic among the preset traffic frequencies in order to process a call acceptance request of the mobile terminal through a frequency not currently allocated to a cell; A pilot beacon processing unit configured to transmit a pilot beacon signal to the mobile terminal through the variable traffic frequency to form a pilot channel when a call reception request of the mobile terminal through a frequency not allocated to the current cell is received; And When a mobile terminal accommodated by the call through the wave target traffic frequency or the wave traffic frequency moves to a coverage edge of the corresponding traffic frequency, the mobile terminal includes a call switcher for hand-over to the preset traffic frequency. Relay device, characterized in that. The method of claim 8, wherein the wave processing unit, And repeating the received call through the variable wave traffic frequency to the designated variable wave target frequency. The method of claim 8, wherein the call diverting unit, When the mobile terminal receiving a call through the wave target traffic frequency or the wave traffic frequency moves to a coverage edge of the corresponding traffic frequency, the mobile terminal is operated in a compressed mode through the pilot beacon signal. And hand-over to the predetermined traffic frequency excluding the variable frequency target traffic frequency. In the mobile communication relay method through a pilot beacon, Cell selection or cell for each preset traffic frequency for distinguishing a call acceptance request of a mobile station that is in a traffic state according to entry from a neighbor cell or an idle state currently tuned to a cell A parameter setting step of setting a reselection parameter value; A shifted traffic frequency generation step of generating a shifted traffic frequency by shifting a designated shifted target frequency among the preset traffic frequencies; A call receiving step of transmitting a pilot beacon signal to the mobile terminal through the variable traffic frequency to form a pilot channel according to a call reception request of the mobile terminal through a frequency not currently allocated to a cell; And And a frequency shifting step of transitioning a call received through the variable wave traffic frequency to the designated variable wave target frequency. The method of claim 11, wherein the parameter setting step, And the parameter value is set to accommodate both a call of the mobile terminal which is in a traffic state and an idle state with respect to the preset traffic frequency except for the variable frequency target traffic frequency. The method of claim 11, wherein the parameter setting step, And setting the parameter value to prohibit the call reception of the mobile terminal in an idle state with respect to the frequency to which the target traffic is to be transformed. In the mobile communication relay method through a pilot beacon, A shifted traffic frequency generation step of generating a shifted traffic frequency by shifting a designated shifted target frequency among preset traffic frequencies; A call receiving step of transmitting a pilot beacon signal to the mobile terminal through the variable traffic frequency to form a pilot channel according to a call reception request of the mobile terminal through a frequency not currently allocated to a cell; A frequency shifting step of transitioning a call received through the variable wave traffic frequency to the designated variable wave target frequency; And When the mobile station accommodated by the call through the wave target traffic frequency or the wave traffic frequency moves to a coverage edge of the corresponding traffic frequency, the call switching step of hand-over to the predetermined traffic frequency (Hand-Over) Mobile communication relay method through a pilot beacon, characterized in that. The method of claim 14, wherein the call transfer step, A compression mode execution step of operating the mobile terminal in a compressed mode by transmitting the pilot beacon signal through the variable traffic frequency; And And a frequency switching step of hand-overing the mobile terminal to the preset traffic frequency except for the variable frequency traffic frequency.

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