WO2016013775A1 - Channel state measuring method and device thereof - Google Patents

Abstract

The present invention relates to a method and a device for measuring, by a terminal, a channel state of a specific frequency spectrum. More specifically, the present invention relates to a method for accurately measuring a channel state of a cell or carrier using an unlicensed spectrum, and a method for reporting, to a base station, measured channel state information. Particularly, the present invention provides a method and a device for measuring, by a terminal, a channel state, the method comprising the steps of: receiving, from a base station, measurement configuration information for measuring a channel state of an unlicensed spectrum cell; measuring the channel state of the unlicensed spectrum cell on the basis of the type of section in which the channel state is measured and the measurement configuration information; and transmitting, to the base station, the measurement result of the channel state of the unlicensed spectrum cell, wherein the unlicensed spectrum cell uses a frequency of an unlicensed spectrum shared by one or more communication systems.

Description

Channel condition measuring method and device

The present invention relates to a method and apparatus for a terminal to measure a channel state of a specific frequency band. More specifically, the present invention relates to a method for accurately measuring the channel state of a cell or carrier using an unlicensed spectrum and to reporting the measured channel state information to a base station.

As communication systems have evolved, consumers, such as businesses and individuals, have used a wide variety of wireless terminals. Mobile communication systems such as LTE (Long Term Evolution) and LTE-Advanced of the current 3GPP series are high-speed, high-capacity communication systems that can transmit and receive various data such as video and wireless data, out of voice-oriented services. The development of technology capable of transferring large amounts of data is required. Meanwhile, as a plurality of cell or small cell deployments are introduced, a technique for allowing carrier aggregation to be applied in various deployment scenarios has been discussed.

Meanwhile, the carrier merging technology is a technology for improving data transmission / reception rate by merging one or more component carriers to transmit and receive data, and thus, an available frequency is increased for the terminal, thereby processing a large amount of data at high speed.

However, there is a problem in that a frequency for a mobile communication network is limited and a limit exists in providing a high speed and large data transmission / reception rate to a large number of users in a situation where the number of mobile communication subscribers is increased.

In addition, each frequency band is used by different wireless communication systems according to the policy, there is a problem that the compatibility is poor.

In order to solve the above problems, the present invention is to propose a method and apparatus for the UE to accurately measure the channel state in an unlicensed band cell.

In addition, the present invention is to propose a method and apparatus for preventing waste of frequency caused by transmission of a reference signal for measuring the channel state of an unlicensed band cell.

In addition, the present invention is to propose a method and apparatus for accurately measuring a channel state reflecting an interference signal of another communication system by the terminal measuring the channel state according to a time interval of an unlicensed band cell.

In order to solve the above problems, the present invention provides a method for measuring a channel state of a terminal, the method comprising receiving measurement configuration information for measuring channel state of an unlicensed spectrum cell from a base station and performing channel state measurement Measuring the channel state of the unlicensed band cell based on the type of the section and the measurement configuration information, and transmitting the channel state measurement result of the unlicensed band cell to the base station, wherein the unlicensed band cell is shared by one or more communication systems. It provides a method using the frequency of the unlicensed band.

In addition, the present invention provides a method for the base station to control the channel state measurement of the terminal, the step of setting the measurement configuration information for measuring the channel state of the unlicensed spectrum cell (Unlicensed spectrum cell) and transmitting the measurement configuration information and the channel And receiving the channel state measurement result of the unlicensed band cell measured based on the type of the section where the state measurement is performed and the measurement configuration information, wherein the unlicensed band cell uses frequencies of the unlicensed band shared by one or more communication systems. Provide a method.

In addition, the present invention is a terminal for measuring the channel state, the receiving unit for receiving the measurement configuration information for measuring the channel state of the unlicensed spectrum cell (Unlicensed spectrum cell) and the type and measurement configuration of the interval in which the channel state measurement is performed A control unit for measuring a channel state of an unlicensed band cell based on the information and a transmitter for transmitting a channel state measurement result of the unlicensed band cell to a base station, wherein the unlicensed band cell uses frequencies of an unlicensed band shared by one or more communication systems. Provides a terminal device.

In addition, the present invention, the base station for controlling the channel state measurement of the terminal, the control unit for setting the measurement configuration information for measuring the channel state of the unlicensed spectrum cell (Unlicensed spectrum cell) and the transmitter and channel state measurement for transmitting the measurement configuration information And a receiving unit for receiving the channel state measurement result of the unlicensed band cell measured on the basis of the type of section and the measurement configuration information, wherein the unlicensed band cell uses a frequency of the unlicensed band shared by one or more communication systems. To provide.

According to the present invention, channel state measurement is performed separately for each section of an unlicensed band cell, thereby accurately identifying a state of a corresponding frequency band on a side of a terminal, thereby providing an effect of using an unlicensed band cell having a better quality.

In addition, the present invention can determine the utilization state (load information) of the corresponding unlicensed band frequency at the terminal location based on the reported measurement results, thereby providing the effect of setting the optimal unlicensed band cell to the terminal.

1 exemplarily illustrates a layer 2 structure for downlink carrier aggregation.

FIG. 2 is a diagram illustrating a layer 2 structure for uplink carrier aggregation. FIG.

3 is a diagram for explaining an operation of a terminal performing communication using a licensed band and an unlicensed band.

4 is an exemplary diagram for describing an available interval in an unlicensed band cell.

5 is a view for explaining the operation of the terminal according to an embodiment of the present invention.

6 is a view for explaining a channel state measurement operation of the terminal according to another embodiment of the present invention.

7 is a view for explaining the transmission of the channel state measurement result of the terminal according to another embodiment of the present invention.

8 is a view for explaining the operation of the base station according to another embodiment of the present invention.

9 is a view for explaining the configuration of a terminal according to another embodiment of the present invention.

10 is a view for explaining the configuration of a base station according to another embodiment of the present invention.

Hereinafter, some embodiments of the present invention will be described in detail through exemplary drawings. In adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are assigned to the same components as much as possible even though they are shown in different drawings. In addition, in describing the present invention, when it is determined that the detailed description of the related well-known configuration or function may obscure the gist of the present invention, the detailed description thereof will be omitted.

The wireless communication system in the present invention is widely deployed to provide various communication services such as voice, packet data, and the like. The wireless communication system includes a user equipment (UE) and a base station (base station, BS, or eNB). In the present specification, a user terminal is a generic concept meaning a terminal in wireless communication. In addition, user equipment (UE) in WCDMA, LTE, and HSPA, as well as mobile station (MS) in GSM, user terminal (UT), and SS It should be interpreted as a concept that includes a subscriber station, a wireless device, and the like.

A base station or a cell generally refers to a station that communicates with a user terminal, and includes a Node-B, an evolved Node-B, an Sector, a Site, and a BTS. Other terms such as a base transceiver system, an access point, a relay node, a remote radio head (RRH), a radio unit (RU), and a small cell may be called.

In other words, in the present specification, a base station or a cell is a generic meaning indicating some areas or functions covered by a base station controller (BSC) in CDMA, a Node-B in WCDMA, an eNB or a sector (site) in LTE, and the like. It should be interpreted as, and it is meant to cover all the various coverage areas such as megacell, macrocell, microcell, picocell, femtocell and relay node, RRH, RU, small cell communication range.

Since the various cells listed above have a base station for controlling each cell, the base station may be interpreted in two senses. i) the device providing the megacell, the macrocell, the microcell, the picocell, the femtocell, the small cell in relation to the wireless area, or ii) the wireless area itself. In i) all devices which provide a given wireless area are controlled by the same entity or interact with each other to cooperatively configure the wireless area to direct the base station. The eNB, RRH, antenna, RU, LPN, point, transmit / receive point, transmit point, receive point, and the like, according to the configuration of the radio region, become an embodiment of the base station. In ii), the base station may indicate the radio area itself to receive or transmit a signal from a viewpoint of a user terminal or a neighboring base station.

Therefore, megacells, macrocells, microcells, picocells, femtocells, small cells, RRHs, antennas, RUs, low power nodes (LPNs), points, eNBs, transmit / receive points, transmit points, and receive points are collectively referred to as base stations. do.

In the present specification, the user terminal and the base station are two transmitting and receiving entities used to implement the technology or technical idea described in this specification in a comprehensive sense and are not limited by the terms or words specifically referred to. The user terminal and the base station are two types of uplink or downlink transmitting / receiving subjects used to implement the technology or the technical idea described in the present invention, and are used in a generic sense and are not limited by the terms or words specifically referred to. Here, the uplink (Uplink, UL, or uplink) refers to a method for transmitting and receiving data to the base station by the user terminal, the downlink (Downlink, DL, or downlink) means to transmit and receive data to the user terminal by the base station It means the way.

There is no limitation on the multiple access scheme applied to the wireless communication system. Various multiple access techniques such as Code Division Multiple Access (CDMA), Time Division Multiple Access (TDMA), Frequency Division Multiple Access (FDMA), Orthogonal Frequency Division Multiple Access (OFDMA), OFDM-FDMA, OFDM-TDMA, OFDM-CDMA Can be used. One embodiment of the present invention can be applied to resource allocation in the fields of asynchronous wireless communication evolving to LTE and LTE-Advanced through GSM, WCDMA, HSPA, and synchronous wireless communication evolving to CDMA, CDMA-2000 and UMB. The present invention should not be construed as being limited or limited to a specific wireless communication field, but should be construed as including all technical fields to which the spirit of the present invention can be applied.

The uplink transmission and the downlink transmission may use a time division duplex (TDD) scheme that is transmitted using different times, or may use a frequency division duplex (FDD) scheme that is transmitted using different frequencies.

In addition, in systems such as LTE and LTE-Advanced, a standard is configured by configuring uplink and downlink based on one carrier or a pair of carriers. The uplink and the downlink include a Physical Downlink Control CHannel (PDCCH), a Physical Control Format Indicator CHannel (PCFICH), a Physical Hybrid ARQ Indicator CHannel (PHICH), a Physical Uplink Control CHannel (PUCCH), an Enhanced Physical Downlink Control CHannel (EPDCCH), and the like. Control information is transmitted through the same control channel, and data is configured by a data channel such as a physical downlink shared channel (PDSCH) and a physical uplink shared channel (PUSCH).

On the other hand, control information may also be transmitted using an enhanced PDCCH (EPDCCH or extended PDCCH).

In the present specification, a cell means a component carrier having a coverage of a signal transmitted from a transmission / reception point or a signal transmitted from a transmission point or a transmission / reception point, and the transmission / reception point itself. Can be.

A wireless communication system to which embodiments are applied may be a coordinated multi-point transmission / reception system (CoMP system) or a coordinated multi-antenna transmission scheme in which two or more transmission / reception points cooperate to transmit a signal. antenna transmission system), a cooperative multi-cell communication system. The CoMP system may include at least two multiple transmission / reception points and terminals.

The multiple transmit / receive point is at least one having a base station or a macro cell (hereinafter referred to as an eNB) and a high transmission power or a low transmission power in a macro cell region, which is wired controlled by an optical cable or an optical fiber to the eNB. May be RRH.

In the following, downlink refers to a communication or communication path from a multiple transmission / reception point to a terminal, and uplink refers to a communication or communication path from a terminal to multiple transmission / reception points. In downlink, a transmitter may be part of multiple transmission / reception points, and a receiver may be part of a terminal. In uplink, a transmitter may be part of a terminal, and a receiver may be part of multiple transmission / reception points.

Hereinafter, a situation in which a signal is transmitted and received through a channel such as a PUCCH, a PUSCH, a PDCCH, an EPDCCH, and a PDSCH may be expressed in the form of 'sending and receiving a PUCCH, a PUSCH, a PDCCH, an EPDCCH, and a PDSCH.'

In addition, hereinafter, a description of transmitting or receiving a PDCCH or transmitting or receiving a signal through the PDCCH may be used as a meaning including transmitting or receiving an EPDCCH or transmitting or receiving a signal through the EPDCCH.

That is, the physical downlink control channel described below may mean PDCCH or EPDCCH, and may also be used to include both PDCCH and EPDCCH.

In addition, for convenience of description, the EPDCCH, which is an embodiment of the present invention, may be applied to the portion described as the PDCCH, and the EPDCCH may be applied to the portion described as the EPDCCH as an embodiment of the present invention.

Meanwhile, high layer signaling described below includes RRC signaling for transmitting RRC information including an RRC parameter.

The eNB performs downlink transmission to the terminals. The eNB includes downlink control information and an uplink data channel (eg, a physical downlink shared channel (PDSCH), which is a primary physical channel for unicast transmission, and scheduling required to receive the PDSCH. For example, a physical downlink control channel (PDCCH) for transmitting scheduling grant information for transmission on a physical uplink shared channel (PUSCH) may be transmitted. Hereinafter, the transmission and reception of signals through each channel will be described in the form of transmission and reception of the corresponding channel.

In a mobile communication system, mobility support of a terminal is essential. For mobility support, the UE may continuously measure signal quality of a serving cell currently being provided with a service and signal quality of neighboring cells around the serving cell. The measured result is transmitted to the base station under a special condition, and the base station can support the mobility of the terminal by instructing the terminal to handover to a neighbor cell based on the measurement result transmitted by the terminal.

Channel state measurement in the present specification means the signal quality measurement for the above-described serving cell or neighbor cells, and should be understood as the same meaning as the channel quality measurement or the signal quality measurement. In addition, the channel state measurement result refers to a result of measuring the channel state and is used in the same sense as the measurement result, the channel quality measurement result, or the signal quality measurement result.

The terminal determines a measurement target according to the measurement configuration information set by the base station and reports the corresponding measurement result. The terminal receiving the message including the measurement configuration information performs the channel state measurement operation according to the measurement configuration information and transmits the channel state measurement result generated as a result of the measurement operation to the base station.

For example, the measurement configuration information may include the following parameters.

-Measurement objects: Information about the object to be measured by the terminal. For example, the measurement object set in the terminal position may be an intra-frequency measurement object, an inter-frequency measurement object, or an inter-RAT measurement object, respectively. -RAT measurement object) may be one of. In the case of intra-frequency and inter-frequency measurement, a measurement object is one LTE carrier frequency.

Reporting configuration: reporting information of a base station report time point of a channel state measurement result including a result measured by the terminal. For example, it includes setting information on when the terminal should report the channel state measurement result generated as a result of measuring the channel state based on the measurement configuration information.

Measurement identities: Contains information about an ID that connects a specific measurement object to a specific reporting configuration.

Quantity configurations: Includes measurement quantity and configuration information for filtering the measurement results.

Measurement gaps: A portion in which data of a corresponding UE is not transmitted or received, and includes information on a time allocated to allow a UE to perform only a measurement operation.

The terminal receives the above-described measurement configuration information, and measures the channel state for the measurement object by using each piece of information included in the above-described measurement configuration information. The terminal may transmit the channel state measurement result to the base station by using the measurement configuration information and the measured result.

Meanwhile, the terminal may apply layer 3 filtering using Equation 1 below before transmitting the measured channel state measurement result to the base station.

Equation 1

Each parameter in Equation 1 means the following values.

M _n : Measurement result most recently received from the physical layer.

F _n : Updated filtered measurement result used for measurement reporting.

F _n-1 : Previously filtered measurement, except that F ₀ is set to M ₁ when the first measurement is received in the physical layer.

a = 1/2 ^{(k / 4)} , where k is the filter coefficient

The terminal may transmit the result of measuring the channel state to the base station through filtering according to Equation (1). Through this, the base station may check the channel state measurement result of the terminal, and set the carrier merge or dual connectivity configuration in the terminal. In addition, the base station may control whether the cell or carrier configured in the base station is activated or control the addition / modification of the cell or carrier using the channel state measurement result.

Meanwhile, according to the introduction of carrier aggregation (CA) technology, radio resources for uplink or downlink data transmission may be allocated to one UE through a plurality of carriers or serving cells. Therefore, it is possible to support an improved data transmission rate as compared with the existing communication method operating in a single carrier or serving cell.

As CA technology is supported, in case of a CA capable terminal belonging to the coverage of a base station supporting a CA, a primary cell connected through an initial RRC connection / configuration procedure with the base station In addition, the Scell (Secondary cell) addition / release process may be performed through the RRC connection reconfiguration process. In addition, the CA capable terminal may additionally combine up to five component carriers or serving cells through Scell activation / deactivation through MAC CE (Control Element) signaling.

1 exemplarily illustrates a layer 2 structure for downlink carrier aggregation. FIG. 2 is a diagram illustrating a layer 2 structure for uplink carrier aggregation. FIG.

In addition, in the case of a UE to which CA is applied, an independent HARQ entity is defined for each CC or serving cell when uplink or downlink data transmission is performed as shown in FIGS. 1 and 2, and is independent for each CC or serving cell. HARQ procedure may be operated.

As described above, HARQ entities are defined for each CC or serving cell, and as the HARQ procedure is independently performed for each CC or serving cell, a transport block (TB) in which initial transmission is performed through an arbitrary CC or serving cell is performed. Retransmission is performed through the same CC or serving cell.

<Licensed Assisted Access using LTE in unlicensed spectrum>

Mobile telecommunications operators in each country used the government licensed spectrum (licensed spectrum) exclusively to configure the radio cell, based on this to provide a wireless communication service for the user terminal. Therefore, a radio access technology (RAT) for efficiently using a limited frequency band is intended to provide high spectral efficiency through technologies such as MIMO, ICIC, and CoMP. In addition, we conducted a study on carrier aggregation (CA) technology that can support a higher data rate by merging a plurality of carriers present in consecutive or discontinuous frequency bands.

However, as mobile devices with high processing power, including smart phones and tablets, have recently been introduced, user's mobile traffic is rapidly increasing. Thus, each wireless carrier needs a number of frequency resources to cover the improved mobile traffic. However, licensed band frequency resources are limited or limited depending on the policy situation of each country.

In such a situation, there is an increasing need to provide LTE / LTE-A service through an unlicensed spectrum used for providing short-range wireless communication services such as WiFi and Bluetooth.

However, in the case of an unlicensed band, unlike a licensed band, a plurality of users, including individuals, are freely available to provide wireless communication service within the regulation of each country, not a wireless channel exclusively used by any operator. .

Therefore, signal interference and coexistence with other communication systems may occur when providing an LTE / LTE-Advanced service through an unlicensed band. For example, if a user wants to provide a mobile communication service such as LTE using an unlicensed band, co-existence with various short range wireless communication protocols, such as WiFi, Bluetooth, and NFC, is already provided through the unlicensed band. Problems may arise. In addition, a co-existence problem may occur for each LTE operator. Therefore, there is a need for a method for solving this problem.

For example, when providing an LTE / LTE-A service through an unlicensed band, sensing a power level of a radio channel or carrier to be used before transmitting a radio signal to avoid interference or collision between respective radio communication services. It may support a wireless channel access (LBT) -based wireless channel access (LBT) method for determining the availability of the corresponding radio channel or carrier. In this case, if a specific radio channel or carrier of the unlicensed band is in use by another wireless communication protocol or another operator, there is a possibility that it will be restricted from providing LTE / LTE-Advanced service through the corresponding band. Therefore, unlike LTE / LTE-Advanced service through a licensed band in providing an LTE / LTE-Advanced service through an unlicensed band, QoS desired by a user cannot be guaranteed.

3 is a diagram for explaining an operation of a terminal performing communication using a licensed band and an unlicensed band.

Referring to FIG. 3, in case of LTE / LTE-Advanced service provision through an unlicensed band, a licensed-assisted access scheme LTE through carrier aggregation with a carrier or a cell configured through a licensed band Consider providing services. In this case, the primary carrier supports a frame structure in the form of FDD or TDD through the licensed band, and in the case of a secondary carrier configured through the unlicensed band in the form of downlink only. Can be configured. Alternatively, the secondary carrier configured through the unlicensed band may be in the form of supporting both uplink and downlink. In other words, when the UE performs communication by performing carrier aggregation, the primary carrier may process both uplink and downlink using a licensed band exclusively used by the corresponding mobile communication system. Meanwhile, the UE may process only downlink-only data using a frequency using an unlicensed band as a secondary carrier. Alternatively, the terminal may process both uplink and downlink data through the secondary carrier.

Hereinafter, for convenience of understanding, a cell configured through the unlicensed band of FIG. 3 will be referred to as an unlicensed band cell. However, this is for convenience of description and has no limitation on its name, and may be used to include all cells of a mobile communication system using an unlicensed band frequency. That is, an unlicensed band cell refers to a cell using an unlicensed band frequency shared by one or more communication systems.

The present invention provides a method for stably processing data retransmission that may occur in a time interval in which an unlicensed band frequency cannot be used when communication is performed in an unlicensed band cell using frequencies of an unlicensed band shared by multiple communication systems. And an apparatus.

4 is an exemplary diagram for describing an available interval in an unlicensed band cell.

Referring to FIG. 4, in the case of an unlicensed band cell formed by an unlicensed band frequency by any one operator, an unlicensed band cell formed by another operator in a corresponding frequency band or another wireless access technology such as WiFi or Bluetooth (Radio) Access frequency (RAT) systems share the frequency band exclusively. Accordingly, when the corresponding frequency band is available through LBT (Listen before talk), it is possible to support the terminal by configuring an unlicensed band cell through the frequency band of the corresponding unlicensed band for a specific time. However, even if the unlicensed band cell is configured through the corresponding unlicensed band frequency, after a certain time, the specific frequency band must be emptied for another operator or another communication system for a specific time.

In the present invention, for convenience of understanding, as shown in FIG. 4, an unlicensed band cell in which an arbitrary licensee configures an unlicensed band cell to support a terminal of the corresponding licensee is referred to as an unlicensed band cell available period. In addition, a time period in which an unlicensed band cell cannot be configured in a corresponding frequency band is referred to as an unlicensed band cell unavailable section. However, this is also for convenience of description and the name is not limited.

For example, information on an available period of an unlicensed band cell may be indicated by the base station through a cell of a licensed spectrum such as a PCell of the terminal. The information on the available period of the unlicensed band cell may include information about the start time of the available period or the period of the available period.

In order to configure an unlicensed band cell through a licensed band cell, the base station may configure the UE to perform channel quality measurement for the unlicensed band cell.

The base station transmits a reference signal (RS) to an unlicensed band cell in an available period, and the terminal performs channel state measurement (eg, RSRP, RSRQ) of the corresponding cell.

However, since the base station and the terminal are separated from each other locally, the range for detecting a radio signal of an unlicensed spectrum frequency is inevitably different. Therefore, the base station needs to receive a report from the terminal about the channel state information using the unlicensed band frequency.

When the terminal performs channel state measurement only in an available period of an unlicensed band cell configured in the terminal, it may be difficult to accurately measure the channel state. For example, interference signals from other irregular and unexpected communication systems (eg, WLAN terminal, AP, etc.) may not be included in the channel state measurement result. In this case, the channel state measurement result of the corresponding cell may not properly reflect the actual channel state of the terminal. In particular, when the available period is short, the channel state measurement value of the corresponding cell is more likely to be incorrect.

In addition, since the corresponding unlicensed band frequency use state (load information) information is not accurately known at the location of the terminal, communication between the base station and the terminal may not be smooth.

In addition, even if the unlicensed band cell does not transmit data, the base station should reserve only a long time to transmit only the RS for measuring the unlicensed band cell quality of the terminals. In this case, the corresponding frequency cannot be used in another RAT such as WLAN. Frequency waste occurs.

The present invention for solving the above problems proposes a method and apparatus for performing channel state measurement by distinguishing the available period and the unavailable period of the unlicensed band cell. Through this, the base station can accurately grasp the state of the corresponding frequency band on the side (location) of the terminal, and can use a better quality unlicensed band cell.

In addition, the present invention can determine the usage status (load information) of the corresponding unlicensed band frequency at the terminal location based on the reported measurement results, it is possible to set the optimal unlicensed band cell for the terminal.

5 is a view for explaining the operation of the terminal according to an embodiment of the present invention.

In a channel state measuring method, a terminal according to an embodiment of the present invention, receiving measurement configuration information for measuring channel state of an unlicensed spectrum cell from an base station and a type of a section in which channel state measurement is performed And measuring the channel state of the unlicensed band cell based on the measurement configuration information, and transmitting the channel state measurement result of the unlicensed band cell to the base station.

Referring to Figure 5, the terminal of the present invention includes the step of receiving measurement configuration information for measuring the channel state of the unlicensed spectrum cell (Unlicensed spectrum cell) (S510). For example, the terminal may receive measurement configuration information for measuring the channel state of the frequency constituting the unlicensed band cell from the base station. The unlicensed band cell may consist of one or more frequency bands, and as described above, the frequency band of the unlicensed band cell means a frequency band shared with other communication systems. The terminal may receive measurement configuration information through the licensed band cell.

On the other hand, the measurement configuration information may include set information that is divided according to the type of section at the time when the terminal performs the channel state measurement. For example, the measurement configuration information may include the measurement configuration information for measuring the channel state in the available period and the measurement configuration information for measuring the channel state in the unavailable section. As such, the measurement configuration information, which is set separately according to the channel state measurement section, may be set differently from the measurement target and the measurement method. That is, some or all of the parameters constituting the measurement configuration information may be set differently according to each section type.

The type of the interval in which the UE performs channel state measurement may be divided into an available interval in which an unlicensed band cell can use an unlicensed band frequency and an unusable interval in which an unlicensed band cell cannot use an unlicensed band frequency. Unavailable interval means a time interval of unlicensed band frequency occupied by another communication system or another mobile communication provider.

The terminal includes measuring the channel state of the unlicensed band cell based on the type of the section in which the channel state measurement is performed and the measurement configuration information (S520). For example, the terminal measures the channel state using the received measurement configuration information. In this case, the terminal distinguishes whether a point in time at which the channel state measurement operation is performed is an available section or an unavailable section and performs channel state measurement by using measurement configuration information set according to each section type. That is, the terminal may perform a channel state measurement operation classified according to the type of the section to which the channel state measurement time belongs. The terminal may obtain an accurate channel state measurement result by performing a channel state measurement operation that is set separately for each channel state measurement section.

Specifically, the terminal performs the channel state measurement using the measurement configuration information when the corresponding unlicensed band cell is available at the time when the channel state measurement operation is performed. In this case, one or more of the aforementioned RSSI, RSRP, RSRQ, and energy detection may be performed. If the UE determines that the unlicensed band cell is not available at the time when the channel state measurement operation is performed, the terminal may not perform the channel state measurement operation. That is, the terminal primarily determines whether the unlicensed band cell is available or unusable at a time point for performing the channel state measuring operation, and performs the channel state measuring operation only when the unlicensed band cell is available. can do.

The terminal includes the step of transmitting the channel state measurement result of the unlicensed band cell to the base station (S530). The terminal may perform the divided operation according to the type of the channel state measurement section at the time when the channel state measurement operation is performed, and transmit the channel state measurement result generated to the base station. For example, the channel state measurement result may include indication information indicating which measurement section the corresponding channel state measurement result is. That is, the channel state measurement result may include indication information indicating the type of the section in which the channel state measurement is performed. The base station may check whether the corresponding measurement result information is information measured in which time interval of the unlicensed band cell through the indication information of the received channel state measurement result. Specifically, the indication information may be configured as 1 bit, but is not limited thereto.

Hereinafter, the detailed operation of the terminal of the present invention will be described with reference to FIGS. 6 and 7.

6 is a view for explaining a channel state measurement operation of the terminal according to another embodiment of the present invention.

Referring to FIG. 6, the terminal receives measurement configuration information for measuring an unlicensed band cell or an unlicensed band frequency from a base station (S610). The measurement configuration information may be received through higher layer signaling. For example, the measurement configuration information may be received in a form in which an unlicensed band is added to "MeasConfig" which is an information element (IE) of an RRC connection reconfiguration message. Alternatively, the measurement configuration information may be received through a newly defined information element.

For example, in the measurement configuration information received by the terminal, a measurement object for an unlicensed band may be set to one or a plurality of unlicensed band frequency (s).

Alternatively, the measurement configuration information received by the terminal may be set differently by dividing into an available period and an unavailable period for an unlicensed band cell or frequency set as a measurement object. For example, the measurement configuration information may set a value to be measured differently according to the type of section of the time point at which the measurement is performed for the unlicensed band cell or frequency set as the measurement target. For example, the value to be measured may be set to any one of energy detection, noise level measurement, SINR, Received Signal Strength Indicator (RSSI), RSRP, and RSRQ of each corresponding frequency or cell.

The UE may determine the type of the unlicensed band cell at the time when the channel state measurement of the unlicensed band cell is performed (S620). For example, it may be determined whether a reference signal received for channel state measurement is received in an available period of an unlicensed band cell or in an unavailable period. As described above, the terminal knows information about the available period or the unavailable period of the unlicensed band cell. Therefore, when the UE performs the channel state measurement based on the measurement configuration information, the terminal may check the type of section to which the corresponding channel state measurement time belongs.

Thereafter, the terminal divides the available interval and the unavailable interval based on the received measurement configuration information and performs a channel state measurement operation for an unlicensed band cell or frequency set as a measurement target (S630 and S640).

For example, when the time point for measuring the channel state belongs to the available section, the terminal may perform a channel state measurement operation using the measurement configuration information of the available section (S630). For example, the UE may perform RSSI, RSRP (Reference Signal Received Power) or RSRQ (Reference Signal Received Quality) measurement in an unlicensed band cell or frequency.

As another example, when the time point for measuring the channel state belongs to the unavailable period, the terminal may perform a channel state measurement operation using the measurement configuration information of the unavailable period (S640). For example, the terminal may perform RSSI, energy detection, or noise level measurement in an unlicensed band cell or frequency.

In addition, the terminal according to the measurement method for each section set by the measurement configuration information, RSSI, energy detection (noise detection), noise level measurement, RSSI, RSRP (Reference Signal Received Power) and RSRQ regardless of the reference signal transmission of the base station Reference Signal Received Quality One or more of the measurement operations may be performed.

In addition, the channel state measurement operation of the UE may be performed by performing detailed operations such as layer 3 filtering according to each of the available and unusable sections of the unlicensed band cell according to the measurement configuration information.

Including indication information in channel status measurement result

The terminal of the present invention transmits the result of measuring the channel state to the base station by the method described above. In this case, the base station needs to know in which time period of the unlicensed band cell the corresponding channel state measurement result is measured.

To this end, in transmitting the channel state measurement result, the terminal of the present invention may transmit indication information indicating that the measurement result is for the measurement result performed in which section. For example, if the time point at which the channel state measurement operation is performed is an available period, the indication information may be set to 0 and stored together with the channel state measurement result. If the time point at which the channel state measurement operation is performed is not available, the indication information is set to 1 and stored together with the channel state measurement result. In transmitting the channel state measurement result to the base station, the terminal may transmit the stored indication information together according to the reporting condition of the measurement configuration information.

A detailed operation of the terminal will be described with reference to FIG. 7.

7 is a view for explaining the transmission of the channel state measurement result of the terminal according to another embodiment of the present invention.

Referring to FIG. 7, the terminal of the present invention receives measurement configuration information for measuring an unlicensed band cell or an unlicensed band frequency from a base station (S710). The measurement configuration information may be received through higher layer signaling. For example, the measurement configuration information may be received in a form in which an unlicensed band is added to "MeasConfig" which is an information element (IE) of an RRC connection reconfiguration message. Alternatively, the measurement configuration information may be received through a newly defined information element.

For example, in the measurement configuration information received by the terminal, a measurement object for an unlicensed band may be set to one or a plurality of unlicensed band frequency (s).

Alternatively, the measurement configuration information received by the terminal may be set differently by dividing into an available period and an unavailable period for an unlicensed band cell or frequency set as a measurement object. For example, the measurement configuration information may set a value to be measured differently according to the type of section of the time point at which the measurement is performed for the unlicensed band cell or frequency set as the measurement target. For example, the value to be measured may be set to any one of energy detection, noise level measurement, SINR, RSSI, RSRP, and RSRQ of each corresponding frequency or cell. As such, the measurement configuration information may be set differently according to the section to which the channel state measurement time belongs.

The terminal may classify the channel state measurement operation according to the measurement configuration information and the section type at the channel state measurement time point (S720). A method of dividing the channel state measurement operation is described with reference to FIG.

The terminal determines to which section the time point at which the channel state measurement is performed belongs (S730). If the channel state measurement is performed in the available section of the unlicensed band cell, the corresponding measurement result information and information indicating the available section may be stored. On the contrary, when the channel state measurement is performed in the unusable section of the unlicensed band cell, the corresponding measurement result information and information indicating the unusable section may be stored.

Thereafter, in transmitting the channel state measurement result to the base station, the terminal may transmit the indication information indicating the available interval in the channel state measurement result (S740). Alternatively, when the channel state measurement is performed in the unavailable period, the indication information indicating the unavailable period may be included in the channel state measurement result and transmitted (S750). In addition, the channel state measurement result transmission of the terminal may be performed periodically or may occur when the set condition is satisfied. The channel state measurement result transmission operation may be performed differently according to the indication information. For example, the channel state measurement result transmitted along with the indication information indicating the available period may be periodically transmitted, and the channel state measurement result transmitted along with the indication information indicating the unavailable period may be transmitted when an event occurs. have. Of course, it can also work in the reverse case. In addition, when the channel condition measurement result reporting condition of the measurement configuration information is set differently for each section, the transmission operation of the channel state measurement result may be performed according to the corresponding reporting condition. There is no limitation on a specific method in which the transmission operation of the channel state measurement result is divided according to the indication information value.

In the above description, the indication information is included in the channel state measurement result, but the channel state measurement result and the indication information may be transmitted together. That is, the indication information may be included in the channel state measurement result or may be transmitted in connection with the channel state measurement result. The specific transmission method of the indication information is not limited.

An operation of a base station capable of performing all of the above-described operations of the present invention will be described with reference to the drawings.

8 is a view for explaining the operation of the base station according to another embodiment of the present invention.

According to another embodiment of the present invention, the base station sets the measurement configuration information for channel state measurement of an unlicensed band cell, transmits the measurement configuration information, and the type of the section where the channel state measurement is performed and the measurement configuration information. And receiving the channel state measurement result of the unlicensed band cell measured based on the measured result.

Referring to FIG. 8, the base station of the present invention includes setting measurement configuration information for channel state measurement of an unlicensed band cell (S810). As described above, the measurement configuration information may be set separately by the type of the section in which the channel state measurement is performed. For example, in the measurement configuration information received by the terminal, a measurement object for an unlicensed band may be set to one or a plurality of unlicensed band frequency (s). Alternatively, the measurement configuration information received by the terminal may be set differently by dividing into an available period and an unavailable period for an unlicensed band cell or frequency set as a measurement object. For example, the measurement configuration information may set a value to be measured differently according to the type of section of the time point at which the measurement is performed for the unlicensed band cell or frequency set as the measurement target. For example, the value to be measured may be set to any one of energy detection, noise level measurement, SINR, RSSI, RSRP, and RSRQ of each corresponding frequency or cell.

The base station includes transmitting the set measurement configuration information to the terminal (S820). For example, the measurement configuration information may be transmitted through higher layer signaling. For example, the measurement configuration information may be transmitted in a form in which an unlicensed band is added to "MeasConfig" which is an information element (IE) of an RRC connection reconfiguration message. As another example, the measurement configuration information may be transmitted through a newly defined information element.

The base station includes the step of receiving the channel state measurement result of the unlicensed band cell measured based on the type of the section where the channel state measurement is performed and the measurement configuration information (S830). As described above, the type of interval in which channel state measurement is performed may be divided into an available interval in which an unlicensed band cell can use an unlicensed band frequency and an unavailable interval in which an unlicensed band cell cannot use an unlicensed band frequency. On the other hand, the channel state measurement results include the measurement configuration information divided according to the type of the section in which the channel state measurement is performed and the result measured according to the divided measurement operation based on the type of the section in which the channel state measurement is performed.

As an example, the channel state measurement result may include result information measured by using measurement configuration information of the available section when the time point for the channel state measurement belongs to the available section. In this case, the channel state measurement result may include RSSI, Reference Signal Received Power (RSRP), or Reference Signal Received Quality (RSRQ) measurement information in an unlicensed band cell or frequency.

As another example, the channel state measurement result may include result information measured using the measurement configuration information of the unavailable period when the time point for the channel state measurement belongs to the unavailable period. In this case, the channel state measurement result may include RSSI, energy detection, or noise level measurement information in an unlicensed band cell or frequency.

As another example, the channel state measurement result may determine whether it is an available section, and may include only measurement results (eg, RSRP and RSRQ) for the channel state measured only in the available section. That is, the terminal may determine whether the corresponding unlicensed band cell is an available period at a time point for measuring the channel state, and perform the channel state measurement operation only in the available period.

In addition, the channel state measurement results are RSSI, RSRP (Reference Signal) irrespective of RSSI, energy detection, noise level measurement, and reference signal transmission from the base station measured according to the measurement method for each section set by the measurement configuration information. It may include one or more results of the received power (Received Power) and RSRQ (Reference Signal Received Quality) measurement results.

In addition, the channel state measurement result may include a result obtained by dividing a detailed operation such as layer 3 filtering according to each of an available period and an unavailable period of the unlicensed band cell.

If necessary, the channel state measurement result may include indication information indicating the type of the section in which the channel state measurement is performed. The indication information may indicate information on a time point at which the corresponding channel state measurement result is measured. As described with reference to FIG. 7, the indication information may be included in the channel state measurement result or may be separately received. The indication information may include information indicating whether the corresponding channel state measurement result is measured in the available section or in the unavailable section. For example, the indication information may be set to 1 bit having values of 0 and 1, and each value may indicate an available period and an unavailable period of the unlicensed band cell.

In addition, the base station of the present invention may perform all the operations of the base station required to carry out the above-described present invention.

9 and 10 briefly describe the configuration of the terminal and the base station for performing all of the above-described present invention.

9 is a view for explaining the configuration of a terminal according to another embodiment of the present invention.

Referring to FIG. 9, the user terminal 900 according to another embodiment of the present invention includes a receiver 930 and a channel state for receiving measurement configuration information for measuring a channel state of an unlicensed spectrum cell from a base station. And a control unit 910 for measuring a channel state of an unlicensed band cell and a transmitter 920 for transmitting a channel state measurement result of the unlicensed band cell to a base station based on the type of measurement interval and measurement configuration information.

The receiver 930 receives measurement configuration information for measuring a channel state of an unlicensed band cell from a base station. For example, the receiver 930 may receive measurement configuration information through higher layer signaling. In more detail, the measurement configuration information may be received in a form in which an unlicensed band is added to "MeasConfig" which is an information element (IE) of an RRC connection reconfiguration message. As another example, the measurement configuration information may be received through a newly defined information element.

In addition, as described above, the measurement configuration information may include information set differently according to a section in which channel state measurement is performed. For example, the measurement configuration information may be set differently from one or more of the measurement target, measurement method and reporting conditions for each channel state measurement interval.

In addition, the receiver 930 receives downlink control information, data, and a message from a base station through a corresponding channel.

The controller 910 may measure the channel state of the unlicensed band cell based on the type of the section in which the channel state measurement is performed and the measurement configuration information. For example, the controller 910 may identify the section type of the unlicensed band cell at the time of measuring the channel state of the unlicensed band cell, and measure the channel state using the value of the measurement configuration information corresponding to the section type. The controller 910 may perform different operations according to the measurement configuration information and the section type in measuring the channel state. As described above, the controller 910 may perform a measurement method or a layer 3 filtering operation differently according to the section type.

In addition, when the corresponding unlicensed band cell is available at the time when the channel state measurement operation is performed, the controller 910 performs channel state measurement using the measurement configuration information. In this case, one or more of the aforementioned RSSI, RSRP, RSRQ, and energy detection may be performed. If it is determined that the unlicensed band cell is not available at the time when the channel state measurement operation is performed, the controller 910 may not perform the channel state measurement operation. That is, the controller 910 primarily determines whether the unlicensed band cell is an available or unusable section at a time point for performing a channel state measurement operation, and measures the channel state only when the unlicensed band cell is an available section. You can perform the operation.

In addition, the controller 910 may control all operations of the base station required to perform the above-described operation of the present invention.

The transmitter 920 transmits the measured channel state measurement result to the base station. The channel state measurement result may include indication information indicating information on a section type in which the corresponding measurement result is performed.

In addition, the transmitter 920 transmits uplink control information, data, and a message to a base station through a corresponding channel.

10 is a view for explaining the configuration of a base station according to another embodiment of the present invention.

Referring to FIG. 10, the base station 1000 according to another embodiment of the present invention transmits a control unit 1010 and measurement configuration information for setting measurement configuration information for channel state measurement of an unlicensed spectrum cell. The transmitter 1020 and a receiver 1030 for receiving the channel state measurement result of the unlicensed band cell measured based on the type of the section where the channel state measurement is performed and the measurement configuration information.

The controller 1010 sets measurement configuration information for channel state measurement of an unlicensed spectrum cell. The measurement configuration information may be set separately by the type of the section in which the channel state measurement is performed. For example, the controller 1010 may set a measurement object for the unlicensed band to one or a plurality of unlicensed band frequency (s). Alternatively, the controller 1010 may divide the measurement configuration information into an available period and an unavailable period according to an unlicensed band cell or frequency set as a measurement object. For example, the controller 1010 may differently set a value to be measured according to the type of section of the time point at which the measurement is performed for the unlicensed band cell or frequency set as the measurement target. For example, the value to be measured may be set to any one of energy detection, noise level measurement, SINR, RSSI, RSRP, and RSRQ of each corresponding frequency or cell.

In addition, the controller 1010 controls the overall operation of the base station required to perform the above-described present invention.

The transmitter 1020 may transmit the generated measurement configuration information to the terminal. In this case, the measurement configuration information may be transmitted through the licensed band cell. In addition, the measurement configuration information may be transmitted through higher layer signaling. For example, the measurement configuration information may be transmitted in a form in which an unlicensed band is added to "MeasConfig" which is an information element (IE) of an RRC connection reconfiguration message. As another example, the measurement configuration information may be transmitted through a newly defined information element.

The receiver 1030 receives the channel state measurement result of the unlicensed band cell measured based on the type of the section where the channel state measurement is performed and the measurement configuration information. That is, the channel state measurement result includes measurement results according to the divided measurement operation based on the measurement configuration information set and the type of the section in which the channel state measurement is performed by being divided by the type of the section in which the channel state measurement is performed.

As an example, the channel state measurement result may include result information measured by using measurement configuration information of the available section when the time point for the channel state measurement belongs to the available section. In this case, the channel state measurement result may include RSSI, Reference Signal Received Power (RSRP), or Reference Signal Received Quality (RSRQ) measurement information in an unlicensed band cell or frequency.

As another example, the channel state measurement result may include result information measured using the measurement configuration information of the unavailable period when the time point for the channel state measurement belongs to the unavailable period. In this case, the channel state measurement result may include RSSI, energy detection, or noise level measurement information in an unlicensed band cell or frequency.

As another example, the channel state measurement result may determine whether it is an available section, and may include only measurement results (eg, RSRP and RSRQ) for the channel state measured only in the available section. That is, the terminal may determine whether the corresponding unlicensed band cell is an available period at a time point for measuring the channel state, and perform the channel state measurement operation only in the available period.

In addition, the channel state measurement results are RSSI, RSRP (Reference Signal) irrespective of RSSI, energy detection, noise level measurement, and reference signal transmission from the base station measured according to the measurement method for each section set by the measurement configuration information. It may include one or more results of the received power (Received Power) and RSRQ (Reference Signal Received Quality) measurement results. In addition, the channel state measurement result may include a result obtained by dividing a detailed operation such as layer 3 filtering according to each of an available period and an unavailable period of the unlicensed band cell.

The receiver 1030 may further receive indication information indicating the type of the section in which the channel state measurement is performed. The indication information may indicate information on a time point at which the corresponding channel state measurement result is measured. The indication information may be included in the channel state measurement result or may be separately received. The indication information may include information indicating whether the corresponding channel state measurement result is measured in the available section or in the unavailable section.

In addition, the transmitter 1020 and the receiver 1030 are used to transmit and receive signals, messages, and data necessary for carrying out the present invention described above.

As described above, according to the present invention, by performing channel state measurement for each section of an unlicensed band cell, an effect of accurately identifying a state of a corresponding frequency band at a side of a terminal and using an unlicensed band cell of higher quality is possible. To provide. In addition, the present invention can determine the utilization state (load information) of the corresponding unlicensed band frequency at the terminal location based on the reported measurement results, thereby providing the effect of setting the optimal unlicensed band cell to the terminal.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and changes without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical spirit of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of the present invention.

CROSS-REFERENCE TO RELATED APPLICATION

This patent application is related to the patent application No. 10-2014-0095000 filed in Korea on July 25, 2014 and the patent application No. 10-2015-0081830 filed in Korea on June 10, 2015. Priority is claimed under section (a) (35 USC § 119 (a)), all of which is incorporated by reference in this patent application. In addition, if this patent application claims priority for the same reason for countries other than the United States, all its contents are incorporated into this patent application by reference.

Claims (20)

1. In the channel state measurement method of the terminal,

   Receiving measurement configuration information for measuring channel conditions of an unlicensed spectrum cell from a base station;

   Measuring a channel state of the unlicensed band cell based on a type of a section in which the channel state measurement is performed and the measurement configuration information; And

   And transmitting the channel state measurement result of the unlicensed band cell to the base station.

   The unlicensed band cell uses a frequency of an unlicensed band shared by one or more communication systems.
2. The method of claim 1,

   The type of the section in which the channel state measurement is performed,

   And an unlicensed band in which the unlicensed band cell can use the unlicensed band frequency and an unusable section in which the unlicensed band cell cannot use the unlicensed band frequency.
3. The method of claim 1,

   The measurement configuration information,

   And information set according to the type of the section in which the channel state measurement is performed.
4. The method of claim 1,

   Measuring the channel state,

   And classifying a channel state measurement operation according to the measurement configuration information set separately for each type of the section where the channel state measurement is performed and the type of the section where the channel state measurement is performed.
5. The method of claim 1,

   Measuring the channel state,

   Determining whether the section in which the channel state measurement is performed is an available section or an unavailable section; And

   If the section in which the channel state measurement is performed is an available section, the channel state of the unlicensed band cell is measured. If the section in which the channel state measurement is performed is an unavailable section, the channel state of the unlicensed band cell is not measured. And further comprising a step.
6. The method of claim 1,

   The channel state measurement result,

   And indication information indicating a type of a section in which the channel state measurement is performed.
7. In the method for the base station to control the channel state measurement of the terminal,

   Setting measurement configuration information for channel state measurement of an unlicensed spectrum cell;

   Transmitting the measurement configuration information; And

   And receiving a channel state measurement result of the unlicensed band cell measured based on the type of the section where the channel state measurement is performed and the measurement configuration information.

   The unlicensed band cell uses a frequency of an unlicensed band shared by one or more communication systems.
8. The method of claim 7, wherein

   The type of the section in which the channel state measurement is performed,

   And an unlicensed band in which the unlicensed band cell can use the unlicensed band frequency and an unusable section in which the unlicensed band cell cannot use the unlicensed band frequency.
9. The method of claim 7, wherein

   The measurement configuration information,

   And classifying and setting the type of the section in which the channel state measurement is performed.
10. The method of claim 7, wherein

    The channel state measurement result,

    And measuring according to the measurement operation divided based on the measurement configuration information set separately for each type of the section in which the channel state measurement is performed and the type of the section in which the channel state measurement is performed.
11. The method of claim 7, wherein

    The channel state measurement result,

    And only the measured result when the section in which the channel state measurement is performed is an available section.
12. The method of claim 7, wherein

    The channel state measurement result,

    And indication information indicating a type of a section in which the channel state measurement is performed.
13. In the terminal for measuring the channel state,

    Receiving unit for receiving the measurement configuration information for measuring the channel state of the unlicensed spectrum cell (Unlicensed spectrum cell) from the base station;

    A controller for measuring a channel state of the unlicensed band cell based on a type of a section in which the channel state measurement is performed and the measurement configuration information; And

    A transmitter for transmitting the channel state measurement result of the unlicensed band cell to the base station,

    The unlicensed band cell uses a frequency of an unlicensed band shared by one or more communication systems.
14. The method of claim 13,

    The type of the section in which the channel state measurement is performed,

    And an unlicensed band in which the unlicensed band cell can use the unlicensed band frequency and an unusable section in which the unlicensed band cell cannot use the unlicensed band frequency.
15. The method of claim 13,

    The measurement configuration information,

    The terminal characterized in that it comprises the information set separately for each type of section in which the channel state measurement is performed.
16. The method of claim 13,

    The control unit,

    And performing channel state measurement according to the type of the measurement configuration information and the type of the section in which the channel state measurement is performed.
17. The method of claim 13,

    The control unit,

    It is determined whether the section in which the channel state measurement is performed is an available section or an unavailable section,

    If the section in which the channel state measurement is performed is an available section, the channel state of the unlicensed band cell is measured. If the section in which the channel state measurement is performed is an unavailable section, the channel state of the unlicensed band cell is not measured. Terminal, characterized in that.
18. The method of claim 13,

    The channel state measurement result,

    And indication information indicating a type of a section in which the channel state measurement is performed.
19. In the base station for controlling the channel state measurement of the terminal,

    A control unit for setting measurement configuration information for measuring a channel state of an unlicensed spectrum cell;

    A transmitter for transmitting the measurement configuration information; And

    And a receiver configured to receive a channel state measurement result of the unlicensed band cell measured based on a type of a section in which the channel state measurement is performed and the measurement configuration information.

    The unlicensed band cell uses a frequency of an unlicensed band shared by one or more communication systems.
20. The method of claim 19,

    The channel state measurement result,

    The base station characterized in that it is measured according to the measurement operation is divided on the basis of the measurement configuration information and the type of the section is performed for the channel state measurement is set separately by the type of the section in which the channel state measurement is performed.

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