KR20150027647A - Base station and control method thereof - Google Patents

Abstract

The present invention relates to a base station and to an operation method of the base station. The present invention includes: a connection unit which is connected to a terminal for using communication services; a terminal confirming unit which confirms whether the terminal maintains a connection preparing state to be connected through a different frequency band except for a basic frequency band; and a communication service confirming unit which confirms a kind of the communication service in case the terminal is to maintain the connection preparing state. The present invention reduces unnecessary power consumption of the terminal by releasing the connection preparing state of the terminal according to the kind of the communication services used by the terminal which maintains the connection preparing state (for example, SCell Add state) according to a CA function.

Description

TECHNICAL FIELD [0001] The present invention relates to a base station apparatus and a base station apparatus,

The present invention relates to a method of operating a base station apparatus and a base station apparatus, and more particularly, to a method of operating a base station apparatus and a base station apparatus in a communication service using type for a terminal maintaining a connection preparation state (e.g., SCell Add state) To an operation method of a base station apparatus and a base station apparatus that can reduce unnecessary power consumption of a terminal by releasing a connection ready state of the terminal.

In the existing LTE system, it is possible to support high-speed communication service by using a bandwidth of up to 20 MHz. However, as the type of communication service and the speed of transmission demand have become diverse, there is an increasing demand for faster speed communication systems.

In recent years, an IMT-advanced communication system capable of supporting a wider band than the existing 20 MHz band has emerged. In an IMT-advanced communication system, in a case where a plurality of frequency bands coexist, (CA) technology to support a wider bandwidth.

CA technology can acquire a wider frequency band through integration of multiple unit frequency bands (CCs), and since each unit frequency band (CC) is used as an LTE frequency band for LTE terminals, So as to maintain compatibility with the system.

A terminal supporting such a CA function first accesses a base station through one of a plurality of unit frequency bands (CCs) and transmits a signal to another frequency band (Secondary Cell, (For example, SCell Add state) with respect to the SCell (SCell). The terminal then connects to the base station via another frequency band (SCell) as it switches the connection ready state for another frequency band (SCell) to an active state (e.g. SCell Activation state) PCell and SCell will be integrated to enable communication services.

At this time, the terminal supporting the CA function always maintains the connection ready state for another frequency band (SCell) in order to quickly connect to the base station through another frequency band (SCell) at any time. Power consumption continues.

As described above, the power consumption due to the connection ready state is unnecessary power consumption for the terminal, and especially, for the mobile terminal using the battery for mobility, the battery operation efficiency is greatly influenced.

Accordingly, in the present invention, a method for reducing power consumption unnecessary for a terminal maintaining a connection ready state according to a CA function is proposed.

SUMMARY OF THE INVENTION The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a terminal that is ready for connection according to a CA function, And a method of operating a base station apparatus and a base station apparatus that can reduce unnecessary power consumption of the mobile station.

According to a first aspect of the present invention, there is provided a base station apparatus comprising: a connection unit connected to a terminal to use a communication service through a base frequency band among a plurality of frequency bands; A terminal confirmation unit for confirming whether the terminal is a terminal that maintains a connection ready state for additionally connecting through a frequency band other than the basic frequency band among the plurality of frequency bands; A communication service verifying unit for verifying the type of the communication service when the terminal is in the connection ready state; And a connection preparation state controller for releasing the connection preparation state held by the terminal according to the type of the communication service, thereby reducing power consumption in maintaining the connection preparation state in the terminal.

Preferably, the connection preparation state control unit releases the connection preparation state held by the terminal if it is determined that the type of the communication service is the designated specific communication service, and the specific communication service is a state And may be a communication service for transmitting and receiving data.

Preferably, the communication service confirmation unit can confirm the type of the communication service based on a service quality identifier that is confirmed in the process of connecting to the terminal through the basic frequency band.

Preferably, the connection ready state control unit determines that the other base station enters the connection preparation state with respect to the terminal that released the connection preparation state, in the process of performing handover to another base station .

Preferably, the connection ready state control unit is configured to, when performing a handover from the other base station to the base station with respect to the specific terminal, if the type of the communication service used by the specific terminal is the specific communication service Can be prevented from entering the connection preparation state.

According to a second aspect of the present invention, there is provided a method of operating a base station, the method comprising: connecting to a terminal to use a communication service through a base frequency band among a plurality of frequency bands; A terminal confirmation step of confirming whether the terminal is a terminal maintaining a connection ready state for additionally connecting through the frequency bands other than the basic frequency band among the plurality of frequency bands; A communication service confirming step of confirming the type of the communication service when the terminal is the terminal maintaining the connection ready state; And a connection preparation state control step of releasing the connection preparation state held by the terminal according to the type of the communication service, so that power consumption by maintaining the connection preparation state in the terminal can be reduced.

Preferably, the connection preparation state control step releases the connection preparation state held by the terminal if it is determined that the type of the communication service is the designated specific communication service, And may be a communication service for transmitting / receiving a small amount of data.

Preferably, the communication service checking step may identify the type of the communication service based on a service quality identifier identified in the process of connecting to the terminal through the basic frequency band.

Preferably, the method further includes the step of preventing the other base station from entering the connection preparation state with respect to the terminal that has released the connection preparation state from the other base station in the process of performing handover to the other base station can do.

Preferably, in the course of performing a handover from the other base station to the base station apparatus for a specific terminal, if the type of the communication service used by the specific terminal is the specific communication service, And a step of interrupting the transmission of the data.

According to the operation method of the base station apparatus and the base station apparatus of the present invention, the terminal holding the connection ready state (e.g., the SCell Add state) according to the CA function is prepared for the terminal connection preparation By releasing the state, unnecessary power consumption of the terminal can be reduced.

1 is a configuration diagram illustrating a communication system including a base station apparatus according to a preferred embodiment of the present invention.
2 is a block diagram illustrating a configuration of a base station apparatus according to a preferred embodiment of the present invention.
3 is a control flowchart of a communication system including a base station apparatus according to a preferred embodiment of the present invention.
4 is a flowchart illustrating an operation method of a base station apparatus according to an exemplary embodiment of the present invention.

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

1 is a diagram illustrating a communication system including a base station apparatus according to a preferred embodiment of the present invention. Here, both the base station 100 and the base station 200 may be a base station according to the present invention. Hereinafter, the base station 100 will be described for convenience of explanation.

As shown in FIG. 1, in the communication system including the base station apparatus 100 of the present invention, a plurality of frequency bands coexist in the same area.

For example, referring to FIG. 1, the base station apparatus 100 may form a first cell C101 according to a first frequency band and a second cell C102 according to a second frequency band, The second cell C102 may be included in the first cell C101 having a larger coverage.

The present invention is related to a Carrier Aggregation (CA) technique adopted in an IMT-advanced communication system that has been introduced to support a wider band than the existing 20 MHz band.

Here, the CA technology can secure a wider frequency band through the integration of multiple unit frequency bands (CCs), and since each unit frequency band (CC) is used as an LTE frequency band for LTE terminals, So that compatibility with the system can be maintained.

Accordingly, the base station apparatus 100 according to the present invention is capable of communicating with a terminal connected through any one of a plurality of frequency bands (e.g., a first frequency band and a second frequency band) In particular, for a terminal operating as a CA function, it may be a CA supporting base station capable of providing a communication service utilizing CA function, that is, a communication service combining two or more frequency bands. Of course, the base station apparatus 100 can provide communication services through more frequency bands in addition to the first frequency band and the second frequency band. However, for convenience of description, the first and second frequency bands, I will mention two of them. Also, as shown in FIG. 1, the base station apparatus 200 may also be a CA-supported base station.

It is assumed that the terminal 1 shown in FIG. 1 is a terminal supporting the CA function. 1, the terminal 1 located in the second cell C102 supports all of a plurality of frequency bands, for example, the first frequency band and the second frequency band provided by the base station 100, It may be possible to connect to the base station apparatus 100 using at least one frequency band of the first frequency band and the second frequency band.

Hereinafter, with reference to the base station apparatus 100, a first frequency band C101 is referred to with reference to a reference number C101 of a first cell C101 according to a first frequency band, Referring to reference numeral C102 of the second cell C102 according to the band, it is referred to as a second frequency band C102.

The terminal 1 which is powered on or released in the idle mode selects a frequency band to be firstly connected as a primary frequency band (Primary Cell) among the first frequency band and the second frequency band, and transmits the selected frequency band to the base station apparatus 100 ), And performs a connection procedure to the communication system such as location registration and call session connection.

Hereinafter, for convenience of description, it is assumed that the first frequency band and the second frequency band, which is set in the fundamental frequency band PCell, are the second frequency band C102. That is, in the following description, the base frequency band (PCell) used when the terminal 1 initially connects to the base station apparatus 100 will be the same as the second frequency band C102.

Accordingly, the terminal 1 can access the base station apparatus 100 through the second frequency band C102 and use the communication service.

Meanwhile, the base station apparatus 100 transmits an RRC (Radio Resource Control) message to the terminal 1 through the second frequency band C102, more specifically, a process of connecting to the terminal 1 supporting the CA function through the second frequency band C102, (SCell) capable of interfacing with the second frequency band (C102) to the terminal (1) during the connection of the second frequency band (C102).

At this time, information to be provided includes SCell Index, PCI, frequency band information, measurement parameters (e.g., active threshold strength, inactive threshold strength) for SCell signal strength measurement, SCell activation timer, SCell inactivation A timer, and the like.

As described above, if the first frequency band and the second frequency band are set to be the second frequency band C102, then the base station apparatus 100 may transmit the frequency band of the second frequency band SCell of the first frequency band C101 to the terminal 1. That is, in the following description, another frequency band (SCell) for additional connection and the first frequency band C101 will be the same.

Accordingly, when receiving information on the SCell from the base station apparatus 100, the terminal 1 supporting the CA function transmits a connection ready state for additionally connecting to the base station apparatus 100 through the SCELL, i.e., the first frequency band C101 (For example, the SCell Add state) to maintain the connection ready state.

Then, if necessary, for example, the terminal 1 checks the buffer size and when it becomes a certain size or more, the terminal 1 further changes the connection ready state for the SCELL, that is, the first frequency band C101 to the active state (e.g. SCell Activation state) It is possible to connect to the base station apparatus 100 through the first frequency band C101 and use communication services by integrating various frequency bands, that is, PCell and SCell.

Here, maintaining the full-speed ready state means maintaining the power-on state of the first frequency band RF module (not shown) in the terminal 1 related to the SCell for additional connection, for example, the above-mentioned first frequency band C101 .

As a result, while the terminal 1 is using the communication service only through the second frequency band C102 which is the fundamental frequency band (at this time, the power of the second frequency band RF module (not shown) is turned on) The RF module for the first frequency band (not shown) also maintains the power-on state.

Therefore, the power consumption of the terminal 1 continues as the terminal 1 maintains the connection ready state.

CA technology is basically a technology for transmitting / receiving a large amount of data at a high speed. If the terminal 1 uses a communication service that transmits / receives only a small amount of data like a VoLTE service, it can be considered that there is no need to activate the SCell Therefore, maintaining the connection ready state as described above may be unnecessary power consumption.

Thus, the base station apparatus 100 of the present invention releases the connection ready state of the terminal 1 according to the type of communication service used for the terminal 1 that maintains the connection ready state according to the CA function, Thereby reducing unnecessary power consumption of the terminal 1.

Hereinafter, the configuration of a base station apparatus according to a preferred embodiment of the present invention will be described in more detail with reference to FIG.

A base station apparatus (100) according to the present invention includes: a connection unit (110) for connecting to a terminal to use a communication service through a base frequency band among a plurality of frequency bands; A terminal confirmation unit 120 for checking whether the terminal is in a connection ready state for additional connection even through a frequency band other than the basic frequency band; A communication service confirming unit (130) for confirming the type of the service; and a canceling unit (130) for canceling the connection ready state held by the terminal according to the type of the communication service and reducing power consumption And a connection ready state control unit 140 for allowing the connection ready state to be established.

Here, as shown in FIG. 1, a plurality of frequency bands will be described with reference to an example in which the first frequency band C101 and the second frequency band C102 are two.

As described above, the base station apparatus 100 according to the present invention can be applied to a CA function capable of providing a communication service utilizing a CA function, that is, a CA capable of providing communication services by combining two or more frequency bands Supporting base station.

The connection unit 110 connects with a terminal 1 that desires to use a communication service through a base frequency band among a plurality of frequency bands.

The terminal 1 supporting the CA function selects a frequency band to be firstly connected as a fundamental frequency band (PCell) among the first frequency band and the second frequency band when the power is turned on or is released from the idle mode, To the base station apparatus 100, and performs a connection procedure for the communication system such as location registration and call session connection.

Hereinafter, for convenience of description, it is assumed that the first frequency band and the second frequency band, which is set in the fundamental frequency band PCell, are the second frequency band C102.

The connection unit 110 is connected to the terminal 1 through the first frequency band C101 and the second frequency band C102 of the second frequency band C102.

Accordingly, the terminal 1 can access the base station apparatus 100 through the second frequency band C102 and use the communication service.

The terminal confirmation unit 120 may further connect to the terminal 1 through a plurality of frequency bands other than the basic frequency band C102 among the first frequency band C101 and the second frequency band C102 (For example, the SCell Add state).

More specifically, if the terminal 1 supports a CA function, the base station apparatus 100 may perform a process of connecting to the terminal 1 via the second frequency band C102, more specifically, the second frequency band C102, (SCell) capable of interworking with the CA function with the second frequency band (C102) in the RRC access procedure for the terminal 1 through the first frequency band (C102).

As described above, if the first frequency band and the second frequency band are set to be the second frequency band C102, then the base station apparatus 100 may transmit the frequency band of the second frequency band SCell of the first frequency band C101 to the terminal 1.

Accordingly, when receiving information on the SCell from the base station apparatus 100, the terminal 1 supporting the CA function transmits a connection ready state for additionally connecting to the base station apparatus 100 through the SCELL, i.e., the first frequency band C101 And the connection ready state is maintained.

Therefore, whether or not the terminal 1 is a terminal that maintains a connection ready state for further connection via a frequency band (SCell) other than the basic frequency band C102, that is, the first frequency band C101, It is the same as checking whether it is a terminal supporting this CA function.

Accordingly, the terminal confirmation unit 120 confirms whether or not the terminal 1 is a terminal maintaining the connection ready state, i.e., whether the terminal 1 supports the CA function.

The communication service confirmation unit 130 identifies the type of communication service used by the terminal 1 when the terminal 1 is a terminal maintaining the connection ready state, that is, a terminal supporting the CA function.

More specifically, the communication service confirmation unit 130 can confirm the type of communication service used by the terminal 1 based on the service quality identifier identified in the process of connecting to the terminal 1 through the basic frequency band (PCell).

More specifically, for example, the communication service includes a general communication service (hereinafter referred to as a data service) such as a download service, a streaming service, an SNS service, and a portal service, a communication service such as VoIP and VoLTE Quot;).

Accordingly, the terminal 1 may use a data service or a VoLTE service that communicates with a counterpart device (not shown).

A description will be given of a case where the terminal 1 uses the VoLTE service. The terminal 1 accepts the VoLTE service attempted by the counterpart apparatus (not shown) by the counterpart apparatus (not shown) (Eg, MME) of a specific network (LTE network) during the process of connecting the terminal 1 and the base station apparatus 100 through the PCELL, that is, the second frequency band C102, To the base station apparatus 100 to which the terminal 1 is connected, a call connection request for requesting the terminal 1 to connect a call session for VoLTE data transmission / reception of the VoLTE service.

When the terminal 1 attempts to use the data service and the terminal 1 and the base station 100 attempt to access the data service through the PCELL or the second frequency band C102, A related equipment (e.g., MME) of a specific network (e.g., an LTE network) provides a call connection request to the terminal 1 to request a call session for data transmission and reception of data service to the base station apparatus 100 to which the terminal 1 is connected do.

If the call connection request to the terminal 1 is received from the related equipment (e.g., MME) during the process of connecting to the terminal 1 through the PCELL, i.e., the second frequency band C102, the base station apparatus 100 transmits the call connection request That is, the second frequency band (C102).

Here, a call connection request (e.g., an E-RAB Setup Request) to the terminal 1 provided from an associated equipment (e.g., MME) includes a service quality identifier (QCI) Class Indicator) is specified.

For example, a call connection request for a call session connection of a VoLTE service may be assigned QCI # 1 or QCI # 2 for guaranteeing quality of service suitable for use of a VoLTE service, and a call connection request QCI # 5 or QCI # 6 for ensuring quality of service suitable for use of the data service.

When the call connection request for the terminal 1 is received from the related equipment (e.g., MME) to the base station 100, the communication service verifier 130 confirms the quality of service identifier (QCI) specified in the call connection request, The type of communication service can be confirmed based on the quality of service separator (QCI).

For example, when the QCI # 1 or QCI # 2 is confirmed in the call connection request to the terminal 1, the communication service confirmation unit 130 confirms that the communication service type is the VoLTE service, and the QCI # 5 or QCI # It can be confirmed that the type of the communication service is the data service.

The connection preparation state control unit 140 cancels the connection preparation state held by the terminal 1 according to the type of the communication service confirmed by the communication service confirmation unit 130 and saves power consumption by maintaining the connection preparation state in the terminal 1 .

More specifically, the connection ready state control unit 140 can release the connection ready state held by the terminal 1 only when it is confirmed that the type of the communication service is the predetermined specific communication service.

Here, it is preferable that the specific communication service is a communication service for transmitting / receiving small-capacity data of a certain level or less.

At this time, the specific communication service for transmitting / receiving small amount of data below level D, which does not need to activate the SCell at a certain level, i.e., the CA function, may be the VoLTE service described above.

If the communication service confirmation unit 130 determines that the type of communication service used by the terminal 1 is the VoLTE service, the connection ready state control unit 140 issues a connection ready state cancel command to the terminal 1 to maintain The user can release the ready-to-connect state.

Accordingly, the terminal 1 releases the connection ready state according to the connection ready state cancel command from the base station apparatus 100, and turns off the power of the first frequency band RF module (not shown) The power consumption due to the connection ready state can be reduced.

In addition, the connection ready state control unit 140 prevents other base stations from entering the connection preparation state with respect to the terminal 1 that has released the connection preparation state, in the process of performing handover to another base station do.

For example, as shown in FIG. 1, the terminal 1 moves to the first cell C201 of the first frequency band or the second cell C202 of the second frequency band formed by the other base station, that is, the base station 200 .

In this case, handover to the terminal 1 is performed between the source cell-side base station 100 and the target cell-side base station 200.

At this time, if the base station apparatus 100 releases the connection preparation state of the terminal 1 because the communication service used by the terminal 1 is the VoLTE service as described above, even after the terminal 1 is handed over to the base station apparatus 200 It is necessary to prevent the access state from entering the connection ready state.

The connection ready state control unit 140 controls the connection ready state control unit 140 so that the base station apparatus 200 transmits the connection ready state to the terminal 1 in the process of performing handover to the other base station, It is possible to prevent entry into the ready state.

For example, in the course of handover to the terminal 1, the connection ready state control unit 140 sets the related information of the terminal 1, which is provided to the base station apparatus 200, May be provided.

Accordingly, when the base station apparatus 200 recognizes the aforementioned block identification information from the related information of the terminal 1 provided from the base station apparatus 100, the base station apparatus 200 issues an access blocking command to the terminal 1, It is possible to prevent the terminal 1 from entering the connection preparation state through such a method as not providing information on the connection establishment state.

On the other hand, a specific terminal (e.g., terminal 3) whose connection preparation state is released by the base station apparatus 200 may be handed over from the base station apparatus 200 to the base station apparatus 100. [

In this case, according to the above-described embodiment, the base station apparatus 200 will provide the blocking identification information in the process of performing the handover to the terminal 3, and the base station apparatus 100, in particular, the connection preparation state control unit 140, If the terminal 3 recognizes the blocking identification information, the terminal 3 is prevented from entering the connection preparation state through such a method as issuing a connection preparation state entry blocking command to the terminal 3 or providing no information about the SCell at the time of handover connection Can be blocked.

Meanwhile, according to another embodiment, in the process of performing handover from a base station apparatus 200, for example, a base station apparatus 200, to a specific terminal (e.g., terminal 2) through the connection ready state control unit 140, When the type of the communication service used by the terminal 2 is the specific communication service, that is, the VoLTE service, the terminal 2 is prevented from entering the connection ready state.

For example, the terminal 2 may be handed over from another base station, that is, from the base station 200 to the base station 100. At this time, the terminal 2 may be in a state in which the connection preparation state is released by the base station apparatus 200, and the connection preparation state may be maintained if the base station apparatus 200 is not the base station apparatus of the present invention.

At this time, if the communication service used by the terminal 2 handover-connected to the base station apparatus 100 is the VoLTE service, it is necessary to block the terminal 2 from entering the connection preparation state.

If the type of the communication service used by the terminal 2 is the VoLTE service in the process of performing the handover from the base station apparatus 200 to the base station apparatus 100 to the terminal 2, It is possible to prevent entry into the connection ready state.

For example, the communication service confirmation unit S130 also checks the quality of service identifier (QCI) in the process of performing handover from the base station 200 to the base station 100 with respect to the terminal 2, If the type of the communication service used by the handover-connected terminal 2 as a result of the confirmation by the communication service confirmation unit S130 is the VoLTE service, the connection ready state control unit 140 judges that the connection ready state blocking command The terminal 2 can be prevented from entering the connection preparation state through a method in which the terminal 2 does not provide information on the SCell when the mobile terminal 1 is connected to the mobile terminal 1,

As described above, the base station apparatus according to the present invention can cancel the connection preparation state of the terminal according to the type of communication service used by the terminal, for the terminal maintaining the connection ready state (e.g., SCell Add state) Thereby reducing the unnecessary power consumption of the terminal.

Hereinafter, an operation method of the base station apparatus according to the present invention will be described with reference to FIG. 3 to FIG. For convenience of description, reference will be made to the reference numerals of FIGS. 1 to 2 described above.

First, with reference to FIG. 3, a control flow of a communication system including a base station apparatus according to the present invention will be described.

The terminal 1 which is powered on or released in the idle mode selects a frequency band to be firstly connected as a primary frequency band (Primary Cell) among the first frequency band and the second frequency band, and transmits the selected frequency band to the base station apparatus 100 And performs a connection procedure to the communication system such as location registration and call session connection (S10).

Hereinafter, for convenience of explanation, it is assumed that the first frequency band (PCell) of the first frequency band and the second frequency band is the second frequency band, and the other frequency band (SCell) that can be additionally connected is the first frequency band .

Accordingly, the terminal 1 can access the base station apparatus 100 through the second frequency band C102 and use the communication service.

At this time, if the terminal 1 supports the CA function (Yes in S20), the base station apparatus 100 determines whether or not the terminal 1 is connected to the second frequency band C102 in the process of accessing the terminal 1 through the second frequency band C102 And provides information on another frequency band (SCell) capable of interlocking with the CA function to the terminal 1 (S30).

Accordingly, when receiving information on the SCell from the base station apparatus 100, the terminal 1 supporting the CA function transmits a connection ready state for additionally connecting to the base station apparatus 100 through the SCELL, i.e., the first frequency band C101 (E.g., SCell Add state) and maintains the connection ready state (S40).

The base station apparatus 100 transmits to the terminal 1 a connection ready state for additionally connecting to the terminal 1 through a frequency band (SCell) other than the fundamental frequency band PCell among a plurality of frequency bands such as the first frequency band and the second frequency band It is determined whether or not the terminal is a terminal that maintains the terminal.

This can be replaced by checking whether the terminal 1 supports the CA function in step S20 described above.

Accordingly, when the terminal 1 is a terminal maintaining the connection ready state, that is, when the terminal 1 supports the CA function, the base station apparatus 100 confirms the type of communication service used by the terminal 1 (S50).

Accordingly, the base station apparatus 100 cancels the connection ready state held by the terminal 1 in the case where the communication service used by the terminal 1 is the VoLTE service (Yes in S60) according to the type of the communication service confirmed in step S50.

That is, when the communication service used by the terminal 1 is the VoLTE service (Yes in S60), the base station apparatus 100 issues a connection ready state cancel command to the terminal 1 (S70) and releases the connection ready state held in the terminal 1 (S80).

Accordingly, the terminal 1 releases the connection ready state according to the connection ready state cancel command from the base station apparatus 100, and turns off the power of the first frequency band RF module (not shown) The power consumption due to the connection ready state can be reduced.

Hereinafter, an operation method of the base station apparatus according to the preferred embodiment of the present invention will be described in more detail with reference to FIG.

The method of operation of the base station apparatus 100 according to the present invention connects to a terminal 1 that desires to use a communication service through a base frequency band among a plurality of frequency bands (S100).

Here, as shown in FIG. 1, a plurality of frequency bands will be described with reference to an example in which the first frequency band C101 and the second frequency band C102 are two.

Hereinafter, for convenience of explanation, it is assumed that the first frequency band and the frequency band set in the basic frequency band PCell of the second frequency band are the second frequency band C102.

The method of operation of the base station 100 according to the present invention is a method of operating the base station 100 through the base frequency band PCell, i.e., the second frequency band C102, of the first frequency band C101 and the second frequency band C102. 1.

Accordingly, the terminal 1 can access the base station apparatus 100 through the second frequency band C102 and use the communication service.

At this time, if the terminal 1 supports the CA function (Yes in S110), the method of operation of the base station apparatus 100 according to the present invention is such that, in the process of accessing the terminal 1 through the second frequency band C102, And provides information on another frequency band SCell capable of interfacing with the second frequency band C102 to the terminal 1 (S120).

Accordingly, when receiving information on the SCell from the base station apparatus 100, the terminal 1 supporting the CA function transmits a connection ready state for additionally connecting to the base station apparatus 100 through the SCELL, i.e., the first frequency band C101 (For example, the SCell Add state) to maintain the connection ready state.

The method for operating the base station apparatus 100 according to the present invention is a method for operating the base station apparatus 100 according to the present invention so that the base station apparatus 100 can operate in a plurality of frequency bands other than the fundamental frequency band C102 among the first frequency band C101 and the second frequency band C102 And confirms whether or not the terminal maintains the connection ready state (e.g., SCell Add state) for additional connection through another frequency band.

This can be replaced by checking whether the terminal 1 supports the CA function in step S110.

The operation method of the base station apparatus 100 according to the present invention is a method in which the terminal 1 maintains the connection ready state, that is, when the terminal 1 supports the CA function, the type of communication service used in the terminal 1 is (S130).

For example, the method of operation of the base station 100 according to the present invention may be performed by a base station device 100 (for example, a base station) (QCI) specified in the call connection request and confirms the type of the communication service based on the quality of service separator (QCI) when the call connection request for the terminal 1 is received.

For example, when the QCI # 1 or the QCI # 2 is confirmed in the call connection request to the terminal 1, the base station apparatus 100 determines that the communication service type is the VoLTE service, 5 or QCI # 6 is confirmed, it can be confirmed that the type of communication service is data service.

The operation method of the base station apparatus 100 according to the present invention cancels the connection ready state held by the terminal 1 according to the type of the communication service confirmed in the step S130 and saves power consumption by maintaining the connection ready state in the terminal 1 .

More specifically, the method of operation of the base station apparatus 100 according to the present invention is performed only when the type of communication service used by the terminal 1 is confirmed to be a VoLTE service (Yes in S140) (Release) the connection preparation state held in the terminal 1 (S150).

Accordingly, the terminal 1 releases the connection ready state according to the connection ready state cancel command from the base station apparatus 100, and turns off the power of the first frequency band RF module (not shown) The power consumption due to the connection ready state can be reduced.

In addition, the method of operating the base station apparatus 100 according to the present invention is a method for performing handover to the terminal 1 from another base station, for example, the base station apparatus 200 (Yes in S160) It is possible to prevent the apparatus 200 from entering the connection preparation state with respect to the terminal 1 (S170).

For example, the method of operating the base station apparatus 100 according to the present invention is a method for blocking access to the connection preparation state to the related information of the terminal 1 provided to the base station apparatus 200 in the course of handover to the terminal 1 To be provided with the block identification information.

Accordingly, when the base station apparatus 200 recognizes the aforementioned block identification information from the related information of the terminal 1 provided from the base station apparatus 100, the base station apparatus 200 issues an access blocking command to the terminal 1, It is possible to prevent the terminal 1 from entering the connection preparation state through such a method as not providing information on the connection establishment state.

On the other hand, a specific terminal (e.g., terminal 3) whose connection preparation state is released by the base station apparatus 200 may be handed over from the base station apparatus 200 to the base station apparatus 100. [

In this case, according to the above-described embodiment, the base station apparatus 200 will provide the blocking identification information in the process of performing the handover to the terminal 3, and the operation method of the base station apparatus 100 according to the present invention . If it recognizes the block identification information, the terminal 3 is prevented from entering the connection preparation state through a method of issuing a connection preparation state entry blocking command to the terminal 3 or providing no information on the SCell at the time of handover connection .

Meanwhile, according to another embodiment, the terminal 2 may be handed over from another base station, that is, from the base station 200 to the base station 100. At this time, the terminal 2 may be in a state in which the connection preparation state is released by the base station apparatus 200, and the connection preparation state may be maintained if the base station apparatus 200 is not the base station apparatus of the present invention.

When the terminal 2 is handed over from the other base station 200, that is, from the base station 200 to the base station 100 (Yes in S180), the method of operation of the base station 100 according to the present invention is performed in the process of handover If the type of the communication service used by the terminal 2 is a VoLTE service, the terminal 2 can be prevented from entering the connection ready state (S190).

For example, in the method of operating the base station 100 according to the present invention, the type of communication service can be confirmed by checking a quality of service identifier (QCI) in the handover process, If the type of the communication service used by the terminal 2 is a VoLTE service, the terminal 2 is ready for connection in a manner such as issuing a connection-ready entry blocking command to the terminal 2, In order to prevent the user from entering.

As described above, the operation method of the base station apparatus according to the present invention is characterized in that, for a terminal maintaining a connection preparation state (e.g., SCell Add state) according to a CA function, By releasing the state, unnecessary power consumption of the terminal can be reduced.

The method of operating the base station according to an embodiment of the present invention may be implemented in the form of a program command that can be executed through various computer means and recorded in a computer readable medium. The computer-readable medium may include program instructions, data files, data structures, and the like, alone or in combination. The program instructions recorded on the medium may be those specially designed and constructed for the present invention or may be available to those skilled in the art of computer software. Examples of computer-readable media include magnetic media such as hard disks, floppy disks and magnetic tape; optical media such as CD-ROMs and DVDs; magnetic media such as floppy disks; Magneto-optical media, and hardware devices specifically configured to store and execute program instructions such as ROM, RAM, flash memory, and the like. Examples of program instructions include machine language code such as those produced by a compiler, as well as high-level language code that can be executed by a computer using an interpreter or the like. The hardware devices described above may be configured to operate as one or more software modules to perform the operations of the present invention, and vice versa.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

According to the operation method of the base station apparatus and the base station apparatus according to the present invention, it is possible to reduce unnecessary power consumption for a terminal that maintains the connection ready state according to the CA function, It is an invention that is industrially applicable because it is not only the use for technology but also the possibility of commercialization or operation of the applied device is sufficient as well as practically and practically possible.

100: base station device
110: connection unit 120:
130: Communication service verifying unit 140: Connection ready state control unit

Claims (10)

A connection unit for connecting to a terminal to use a communication service through a base frequency band among a plurality of frequency bands;
A terminal confirmation unit for confirming whether the terminal is a terminal that maintains a connection ready state for additionally connecting through a frequency band other than the basic frequency band among the plurality of frequency bands;
A communication service verifying unit for verifying the type of the communication service when the terminal is in the connection ready state; And
And a connection ready state controller for releasing the connection ready state held by the terminal according to the type of the communication service so as to reduce power consumption by maintaining the connection ready state in the terminal Base station apparatus. The method according to claim 1,
The connection preparation state control section,
And if the type of the communication service is determined to be the designated specific communication service, the connection preparation state held in the terminal is released,
The specific communication service includes:
Wherein the base station apparatus is a communication service for transmitting / receiving small-capacity data of a certain level or less. The method according to claim 1,
The communication service verifying unit,
And identifies the type of the communication service based on a quality of service identifier that is confirmed in the process of connecting to the terminal through the basic frequency band. The method according to claim 1,
The connection preparation state control section,
And prohibits the other base station from entering the connection preparation state with respect to the terminal that has released the connection preparation state from the other base station in the process of performing handover to the other base station. The method according to claim 1,
The connection preparation state control section,
When the type of the communication service used by the specific terminal is the specific communication service in the process of performing the handover from the other base station to the base station apparatus for the specific terminal, And the base station apparatus. A connection step of connecting to a terminal to use a communication service through a base frequency band among a plurality of frequency bands;
A terminal confirmation step of confirming whether the terminal is a terminal maintaining a connection ready state for additionally connecting through the frequency bands other than the basic frequency band among the plurality of frequency bands;
A communication service confirming step of confirming the type of the communication service when the terminal is the terminal maintaining the connection ready state; And
And a connection preparation state control step of releasing the connection preparation state held by the terminal according to the type of the communication service so as to reduce power consumption by maintaining the connection preparation state in the terminal. The base station apparatus comprising: The method according to claim 6,
The connection preparation state control step includes:
And if the type of the communication service is determined to be the designated specific communication service, the connection preparation state held in the terminal is released,
The specific communication service includes:
Wherein the communication service is a communication service for transmitting / receiving small-capacity data of a certain level or less. The method according to claim 6,
Wherein the communication service checking step comprises:
Wherein the type of the communication service is confirmed on the basis of a quality of service indicator identified in the process of connecting to the terminal through the basic frequency band. The method according to claim 6,
Further comprising the step of preventing the other base station from entering the connection preparation state with respect to the terminal in the process of performing handover to the other base station with respect to the terminal that has released the connection preparation state, The base station apparatus comprising: The method according to claim 6,
When the type of the communication service used by the specific terminal is the specific communication service in the process of performing the handover from the other base station to the base station apparatus for the specific terminal, Further comprising the step of:

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