WO2016121666A1 - 端末装置、基地局装置、集積回路、および、通信方法 - Google Patents
端末装置、基地局装置、集積回路、および、通信方法 Download PDFInfo
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- WO2016121666A1 WO2016121666A1 PCT/JP2016/051958 JP2016051958W WO2016121666A1 WO 2016121666 A1 WO2016121666 A1 WO 2016121666A1 JP 2016051958 W JP2016051958 W JP 2016051958W WO 2016121666 A1 WO2016121666 A1 WO 2016121666A1
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
- H04W72/20—Control channels or signalling for resource management
- H04W72/21—Control channels or signalling for resource management in the uplink direction of a wireless link, i.e. towards the network
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L1/00—Arrangements for detecting or preventing errors in the information received
- H04L1/12—Arrangements for detecting or preventing errors in the information received by using return channel
- H04L1/16—Arrangements for detecting or preventing errors in the information received by using return channel in which the return channel carries supervisory signals, e.g. repetition request signals
- H04L1/1607—Details of the supervisory signal
- H04L1/1614—Details of the supervisory signal using bitmaps
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L5/00—Arrangements affording multiple use of the transmission path
- H04L5/0001—Arrangements for dividing the transmission path
- H04L5/0003—Two-dimensional division
- H04L5/0005—Time-frequency
- H04L5/0007—Time-frequency the frequencies being orthogonal, e.g. OFDM(A), DMT
- H04L5/001—Time-frequency the frequencies being orthogonal, e.g. OFDM(A), DMT the frequencies being arranged in component carriers
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L5/00—Arrangements affording multiple use of the transmission path
- H04L5/003—Arrangements for allocating sub-channels of the transmission path
- H04L5/0053—Allocation of signaling, i.e. of overhead other than pilot signals
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
- H04W72/04—Wireless resource allocation
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- H04W—WIRELESS COMMUNICATION NETWORKS
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- H04W72/12—Wireless traffic scheduling
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W74/00—Wireless channel access
- H04W74/08—Non-scheduled access, e.g. ALOHA
- H04W74/0833—Random access procedures, e.g. with 4-step access
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
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- H04W80/00—Wireless network protocols or protocol adaptations to wireless operation
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
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- H04L1/00—Arrangements for detecting or preventing errors in the information received
- H04L1/12—Arrangements for detecting or preventing errors in the information received by using return channel
- H04L1/16—Arrangements for detecting or preventing errors in the information received by using return channel in which the return channel carries supervisory signals, e.g. repetition request signals
- H04L1/1607—Details of the supervisory signal
- H04L1/1671—Details of the supervisory signal the supervisory signal being transmitted together with control information
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- H—ELECTRICITY
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- H04L5/00—Arrangements affording multiple use of the transmission path
- H04L5/0091—Signaling for the administration of the divided path
- H04L5/0096—Indication of changes in allocation
- H04L5/0098—Signalling of the activation or deactivation of component carriers, subcarriers or frequency bands
Definitions
- the present invention relates to a terminal device, a base station device, an integrated circuit, and a communication method.
- LTE Long Term Evolution
- EUTRA Evolved Universal Terrestrial Radio Access
- 3GPP Third Generation Partnership Project
- a base station apparatus is also called eNodeB (evolvedvolveNodeB), and a terminal device is also called UE (UserUEEquipment).
- LTE is a cellular communication system in which a plurality of areas covered by a base station apparatus are arranged in a cell shape. A single base station apparatus may manage a plurality of cells.
- LTE supports Time Division Duplex (TDD).
- TDD Time Division Duplex
- uplink signals and downlink signals are time division multiplexed.
- LTE corresponds to Frequency Division Duplex (FDD).
- FDD Frequency Division Duplex
- 3GPP specifies carrier aggregation that allows a terminal device to simultaneously transmit and / or receive in up to five serving cells (component carriers).
- Non-Patent Document 1 it has been studied that a terminal device simultaneously performs transmission and / or reception in a serving cell (component carrier) that exceeds five (Non-Patent Document 1). In addition, it has been studied that a terminal apparatus transmits a physical uplink control channel in a secondary cell that is a serving cell other than the primary cell (Non-Patent Document 1).
- Some aspects of the present invention have been made in view of the above points, and an object thereof is a terminal device capable of efficiently communicating with a base station device using a plurality of cells (component carriers), Provided are an integrated circuit mounted on a terminal device, a communication method used for the terminal device, a base station device communicating with the terminal device, an integrated circuit mounted on the base station device, and a communication method used for the base station device The purpose is to do.
- the first aspect of the present invention is a terminal device based on the expiration of a first timer associated with a secondary cell that is set when an RRC (Radio Resource Control) connection is established or later.
- a MAC (Medium Access Control) layer processing unit that deactivates the secondary cell, and a transmission unit that transmits a scheduling request using a physical uplink control channel resource set in the secondary cell, When the resource of the physical uplink control channel for the scheduling request is set in the secondary cell, the first timer is not applied to the secondary cell.
- the second aspect of the present invention is an integrated circuit mounted on a terminal device, which is related to a secondary cell that is set when an RRC (Radio Resource Control) connection is established or later.
- a scheduling request is transmitted using a MAC (Medium Access Control) layer processing circuit that deactivates the secondary cell based on the expiration of the first timer and a physical uplink control channel resource set in the secondary cell.
- the first timer is not applied to the secondary cell when resources of the physical uplink control channel for the scheduling request are set in the secondary cell. .
- a third aspect of the present invention is a communication method used for a terminal apparatus, which is related to a secondary cell set at the time when an RRC (Radio Resource Control) connection is established or later.
- RRC Radio Resource Control
- the secondary cell is deactivated, a scheduling request is transmitted using a resource of a physical uplink control channel set in the secondary cell, and the scheduling request is transmitted in the secondary cell.
- the resource of the physical uplink control channel for setting is set, the first timer is not applied to the secondary cell.
- a terminal apparatus can efficiently communicate with a base station apparatus using a plurality of cells (component carriers).
- FIG. 1 is a conceptual diagram of the wireless communication system of the present embodiment.
- the radio communication system includes terminal apparatuses 1A to 1C and a base station apparatus 3.
- the terminal devices 1A to 1C are referred to as the terminal device 1.
- the terminal device 1 is set with a plurality of serving cells.
- a technique in which the terminal device 1 communicates via a plurality of serving cells is referred to as cell aggregation or carrier aggregation.
- the present invention may be applied to each of a plurality of serving cells set for the terminal device 1.
- the present invention may be applied to some of the set serving cells.
- the present invention may be applied to each of a plurality of set serving cell groups. Further, the present invention may be applied to a part of the set groups of a plurality of serving cells.
- carrier aggregation a plurality of set serving cells are also referred to as aggregated serving cells.
- TDD Time Division Duplex
- FDD Frequency Division Duplex
- TDD may be applied to all of a plurality of serving cells.
- a serving cell to which TDD is applied and a serving cell to which FDD is applied may be aggregated.
- the set plurality of serving cells include one primary cell and one or more secondary cells.
- the primary cell is a serving cell in which an initial connection establishment (initial connection establishment) procedure has been performed, a serving cell that has initiated a connection re-establishment procedure, or a cell designated as a primary cell in a handover procedure.
- a secondary cell may be set when an RRC (Radio Resource Control) connection is established or later.
- a carrier corresponding to a serving cell is referred to as a downlink component carrier.
- a carrier corresponding to a serving cell is referred to as an uplink component carrier.
- the downlink component carrier and the uplink component carrier are collectively referred to as a component carrier.
- the terminal device 1 can perform transmission and / or reception on a plurality of physical channels simultaneously in a plurality of serving cells (component carriers).
- One physical channel is transmitted in one serving cell (component carrier) among a plurality of serving cells (component carriers).
- a secondary cell used for transmission of PUCCH is referred to as a special secondary cell and a PUCCH secondary cell.
- secondary cells that are not used for PUCCH transmission are referred to as non-special secondary cells, non-PUCCH secondary cells, non-PUCCH serving cells, and non-PUCCH cells.
- the primary cell and the special secondary cell are collectively referred to as a PUCCH serving cell and a PUCCH cell.
- the PUCCH serving cell (primary cell, PUCCH secondary cell) has a downlink component carrier and an uplink component carrier.
- PUCCH serving cell primary cell, PUCCH secondary cell
- PUCCH resources are configured.
- a non-PUCCH serving cell may have only downlink component carriers.
- a non-PUCCH serving cell may have a downlink component carrier and an uplink component carrier.
- the terminal device 1 performs transmission on the PUCCH in the PUCCH serving cell.
- the terminal device 1 performs transmission on the PUCCH in the primary cell.
- the terminal device 1 performs transmission on the PUCCH in the special secondary cell.
- the terminal device 1 does not perform transmission on the PUCCH in the non-special secondary cell.
- the special secondary cell may be defined as a primary cell and a serving cell that is not a secondary cell.
- the following uplink physical channels are used in uplink wireless communication from the terminal device 1 to the base station device 3.
- the uplink physical channel is used for transmitting information output from an upper layer.
- -PUCCH Physical Uplink Control Channel
- PUSCH Physical Uplink Shared Channel
- PRACH Physical Random Access Channel
- Uplink Control Information includes downlink channel state information (Channel State Information: CSI) and a scheduling request (Scheduling Request: used to request PUSCH (Uplink-Shared Channel: UL-SCH) resources for initial transmission.
- CSI Downlink Channel State Information
- HARQ-ACK Hybrid, Automatic, Repeat, Request, ACKnowledgement
- HARQ-ACK indicates ACK (acknowledgement) or NACK (negative-acknowledgement).
- HARQ-ACK is also referred to as ACK / NACK, HARQ feedback, HARQ response, HARQ information, or HARQ control information.
- the scheduling request includes a positive scheduling request (positive scheduling request) or a negative scheduling request (negative scheduling request).
- a positive scheduling request indicates requesting UL-SCH resources for initial transmission.
- a negative scheduling request indicates that no UL-SCH resource is required for initial transmission.
- PUCCH format 1 is used to transmit a positive scheduling request.
- the PUCCH format 1a is used for transmitting 1-bit HARQ-ACK.
- the PUCCH format 1b is used for transmitting a 2-bit HARQ-ACK.
- the PUCCH format 1b with channel selection is used to transmit HARQ-ACK up to 4 bits when more than one serving cell is set in the terminal device.
- PUCCH format 3 may be used to transmit only HARQ-ACK.
- PUCCH format 3 may be used to transmit HARQ-ACK and a scheduling request (positive scheduling request or negative scheduling request).
- the PUSCH is used to transmit uplink data (Uplink-Shared Channel: UL-SCH).
- the PUSCH may also be used to transmit HARQ-ACK and / or channel state information along with uplink data. Also, the PUSCH may be used to transmit only channel state information or only HARQ-ACK and channel state information.
- the base station device 3 and the terminal device 1 exchange (transmit / receive) signals in a higher layer.
- the base station device 3 and the terminal device 1 transmit and receive RRC signaling (RRC message: Radio Resource Control message, RRC information: also called Radio Resource Control information) in a radio resource control (RRC: Radio Resource Control) layer. May be.
- RRC Radio Resource Control
- the base station device 3 and the terminal device 1 may transmit and receive MAC CE in a medium access control (MAC) layer.
- MAC medium access control
- RRC signaling and / or MAC CE is also referred to as higher layer signaling.
- the PUSCH is used to transmit RRC signaling and MAC CE.
- the RRC signaling transmitted from the base station apparatus 3 may be common signaling for a plurality of terminal apparatuses 1 in the cell.
- the RRC signaling transmitted from the base station device 3 may be signaling dedicated to a certain terminal device 1 (also referred to as dedicated signaling). That is, user apparatus specific (user apparatus specific) information is transmitted to a certain terminal apparatus 1 using dedicated signaling.
- PRACH is used to transmit a random access preamble.
- PRACH indicates the initial connection establishment (initial connection establishment) procedure, handover procedure, connection re-establishment (connection re-establishment) procedure, synchronization (timing adjustment) for uplink transmission, and PUSCH (UL-SCH) resource requirements. Used for.
- uplink physical signals are used in uplink wireless communication.
- the uplink physical signal is not used for transmitting information output from the upper layer, but is used by the physical layer.
- UL RS Uplink Reference Signal
- DMRS Demodulation Reference Signal
- SRS Sounding Reference Signal
- DMRS is related to transmission of PUSCH or PUCCH.
- DMRS is time-multiplexed with PUSCH or PUCCH.
- the base station apparatus 3 uses DMRS to perform propagation channel correction for PUSCH or PUCCH.
- transmitting both PUSCH and DMRS is simply referred to as transmitting PUSCH.
- transmitting both PUCCH and DMRS is simply referred to as transmitting PUCCH.
- SRS is not related to PUSCH or PUCCH transmission.
- the base station apparatus 3 uses SRS to measure the uplink channel state.
- the following downlink physical channels are used in downlink wireless communication from the base station apparatus 3 to the terminal apparatus 1.
- the downlink physical channel is used for transmitting information output from an upper layer.
- PBCH Physical Broadcast Channel
- PCFICH Physical Control Format Indicator Channel
- PHICH Physical Hybrid automatic repeat request Indicator Channel
- PDCCH Physical Downlink Control Channel
- EPDCCH Enhanced Physical Downlink Control Channel
- PDSCH Physical Downlink Shared Channel
- PMCH Physical Multicast Channel
- the PBCH is used to broadcast a master information block (Master Information Block: MIB, Broadcast Channel: BCH) commonly used in the terminal device 1.
- MIB Master Information Block
- BCH Broadcast Channel
- PCFICH is used for transmitting information indicating a region (OFDM symbol) used for transmission of PDCCH.
- the PHICH is used to transmit an HARQ indicator (HARQ feedback, response information) indicating ACK (ACKnowledgement) or NACK (Negative ACKnowledgement) for uplink data (Uplink Shared Channel: UL-SCH) received by the base station apparatus 3. It is done.
- HARQ indicator HARQ feedback, response information
- ACK acknowledgement
- NACK Negative ACKnowledgement
- the PDCCH and EPDCCH are used to transmit downlink control information (Downlink Control Information: DCI).
- DCI Downlink Control Information
- the downlink control information is also referred to as a DCI format.
- the downlink control information includes DCI format 3, DCI format 3A, downlink grant (downlink grant), and uplink grant (uplink grant).
- the downlink grant is also referred to as downlink assignment (downlink allocation) or downlink assignment (downlink allocation).
- the downlink grant is used for scheduling a single PDSCH within a single cell.
- the downlink grant is used for scheduling the PDSCH in the same subframe as the subframe in which the downlink grant is transmitted.
- the uplink grant is used for scheduling a single PUSCH within a single cell.
- the uplink grant is used for scheduling a single PUSCH in a subframe that is four or more after the subframe in which the uplink grant is transmitted.
- the uplink grant includes a TPC command for PUSCH.
- the CRC parity bits added to the downlink grant or uplink grant are scrambled by C-RNTI (Cell-Radio Network Temporary Identifier) or SPS C-RNTI (Semi Persistent Scheduling Cell-Radio Network Temporary Identifier).
- C-RNTI Cell-Radio Network Temporary Identifier
- SPS C-RNTI Semi Persistent Scheduling Cell-Radio Network Temporary Identifier
- the C-RNTI is used to control PDSCH or PUSCH in a single subframe.
- the SPS C-RNTI is used to periodically allocate PDSCH or PUSCH resources.
- PDSCH is used to transmit downlink data (Downlink Shared Channel: DL-SCH).
- PMCH is used to transmit multicast data (Multicast Channel: MCH).
- the following downlink physical signals are used in downlink wireless communication.
- the downlink physical signal is not used for transmitting information output from the upper layer, but is used by the physical layer.
- SS Synchronization signal
- DL RS Downlink Reference Signal
- the synchronization signal is used for the terminal device 1 to synchronize the downlink frequency domain and time domain.
- the synchronization signal is arranged in subframes 0, 1, 5, and 6 in the radio frame.
- the synchronization signal is arranged in subframes 0 and 5 in the radio frame.
- the downlink reference signal is used for the terminal device 1 to correct the propagation path of the downlink physical channel.
- the downlink reference signal is used for the terminal device 1 to calculate downlink channel state information.
- the following five types of downlink reference signals are used.
- -CRS Cell-specific Reference Signal
- URS UE-specific Reference Signal
- PDSCH PDSCH
- DMRS Demodulation Reference Signal
- EPDCCH Non-Zero Power Chanel State Information-Reference Signal
- ZP CSI-RS Zero Power Chanel State Information-Reference Signal
- MBSFN RS Multimedia Broadcast and Multicast Service over Single Frequency Network Reference signal
- PRS Positioning Reference Signal
- the downlink physical channel and the downlink physical signal are collectively referred to as a downlink signal.
- the uplink physical channel and the uplink physical signal are collectively referred to as an uplink signal.
- the downlink physical channel and the uplink physical channel are collectively referred to as a physical channel.
- the downlink physical signal and the uplink physical signal are collectively referred to as a physical signal.
- BCH, MCH, UL-SCH and DL-SCH are transport channels.
- a channel used in a medium access control (Medium Access Control: MAC) layer is referred to as a transport channel.
- a transport channel unit used in the MAC layer is also referred to as a transport block (transport block: TB) or a MAC PDU (Protocol Data Unit).
- HARQ HybridbrAutomatic Repeat reQuest
- the transport block is a unit of data that the MAC layer delivers to the physical layer.
- the transport block is mapped to a code word, and an encoding process is performed for each code word.
- the random access procedure may be executed in the primary cell and the secondary cell. However, only one random access procedure is executed at any point in the time domain. That is, a plurality of random access procedures are not executed simultaneously.
- PRACH may be transmitted in the primary cell.
- the terminal device 1 receives information (RRC message) related to the random access procedure in the primary cell from the base station device 3.
- the information regarding the random access procedure in the primary cell includes information indicating a set of PRACH resources in the primary cell.
- the PRACH may be transmitted in the secondary cell.
- the terminal device 1 receives information (RRC message) related to the random access procedure in the secondary cell from the base station device 3.
- the information regarding the random access procedure in the secondary cell includes information indicating a set of PRACH resources in the secondary cell.
- a group of a plurality of serving cells is referred to as a PUCCH cell group.
- a certain serving cell belongs to any one PUCCH cell group.
- One PUCCH cell group may include one or a plurality of PUCCH serving cells.
- One PUCCH cell group may include only one PUCCH serving cell.
- One PUCCH cell group may include one PUCCH serving cell and one or more non-PUCCH serving cells.
- a PUCCH cell group including a primary cell is referred to as a primary PUCCH cell group.
- a PUCCH cell group that does not include a primary cell is referred to as a secondary PUCCH cell group. That is, the secondary PUCCH cell group includes a PUCCH secondary cell.
- An index (cell group index) for identifying the PUCCH cell group may be defined.
- the index for the primary PUCCH cell group is always 0.
- the index for the secondary PUCCH cell group may be set by the network device (base station device 3).
- the PUCCH of the PUCCH serving cell is used to transmit uplink control information (HARQ-ACK and / or CSI) for serving cells (PUCCH serving cell, non-PUCCH serving cell) included in the PUCCH cell group to which the PUCCH serving cell belongs.
- HARQ-ACK and / or CSI uplink control information
- uplink control information (HARQ-ACK and / or CSI) for a serving cell (PUCCH serving cell, non-PUCCH serving cell) included in the PUCCH cell group is transmitted using the PUCCH in the PUCCH serving cell included in the PUCCH cell group. Is done.
- the uplink control information (HARQ-ACK and / or CSI) for the serving cell included in the primary PUCCH cell group may be transmitted using the PUCCH in the PUCCH secondary cell included in the primary PUCCH cell group.
- the PUCCH cell group for HARQ-ACK and the PUCCH cell group for CSI may be defined individually.
- the PUCCH cell group for HARQ-ACK and the PUCCH cell group for CSI may be common.
- the scheduling request is transmitted in one PUCCH serving cell among a plurality of PUCCH serving cells. In a plurality of PUCCH serving cells, a plurality of scheduling requests are not transmitted simultaneously.
- the scheduling request may be transmitted via the PUCCH in the primary cell.
- the scheduling request may be transmitted via the PUCCH in the special secondary cell.
- a PUCCH resource for a scheduling request is set in one PUCCH serving cell among a plurality of PUCCH serving cells.
- PUCCH format 1 is transmitted in the PUCCH resource for the scheduling request.
- An uplink subframe including a PUCCH resource (PUCCH format 1) for a scheduling request is referred to as an instance of scheduling request transmission. Instances of scheduling request transmission are periodic uplink subframes.
- the instance of scheduling request transmission is set by the upper layer.
- the base station device 3 transmits information (RRC message) indicating an instance of scheduling request transmission to the terminal device 1.
- Information indicating an instance of scheduling request transmission indicates a cycle and an offset.
- the base station apparatus 3 transmits information indicating the serving cell in which the PUCCH resource for the scheduling request is set to the terminal apparatus 1.
- the subframe is also referred to as TTI (Transmission Time Interval).
- FIG. 2 is a diagram illustrating an example of the PUCCH cell group in the present embodiment.
- each of the squares denoted by 200 to 207 indicates a serving cell to be aggregated.
- the serving cell 200 is a primary cell
- the serving cells 201 to 207 are secondary cells.
- serving cells 200, 202, and 204 are PUCCH serving cells
- serving cells 201, 203, 205, 206, and 207 are non-PUCCH serving cells.
- the PUCCH cell group for HARQ-ACK includes a primary PUCCH cell group 210 and a secondary PUCCH cell group 220.
- Primary PUCCH cell group 210 for HARQ-ACK includes serving cells 200-203.
- the HARQ-ACK for the serving cells 200 to 203 included in the primary PUCCH cell group 210 for HARQ-ACK may be transmitted using the PUCCH in any one of the serving cells 200 and 202.
- the primary PUCCH cell group 220 for HARQ-ACK includes serving cells 204 to 207.
- the HARQ-ACK for the serving cells 204 to 207 included in the primary PUCCH cell group 220 for HARQ-ACK may be transmitted using the PUCCH in the serving cell 204.
- the PUCCH cell group for CSI includes only one primary PUCCH cell group 230.
- Primary PUCCH cell group 230 for CSI includes serving cells 200-207.
- the CSI for the serving cells 200 to 207 included in the primary PUCCH cell group 230 for CSI may be transmitted using the PUCCH in any one of the serving cells 200, 202, 204.
- the SR may be transmitted using the PUCCH in any one of the serving cells 200, 202, and 204.
- the terminal device 1 sets the counter SR_COUNTER to 0.
- FIG. 3 is a diagram illustrating an example of processing related to a scheduling request executed for each subframe (TTI) in the present embodiment.
- the process of FIG. 3 is executed in the MAC layer. While at least one scheduling request is pending, the terminal device 1 performs the process in FIG. 3 for each subframe for which there is no UL-SCH available for transmission.
- the specific processing is not limited to the processing in FIG. 3, and includes processing changed by step replacement / addition / removal or the like without departing from the gist of the present invention. 3 can be variously modified within the scope of the claims, and embodiments obtained by appropriately combining the disclosed technical means are also included in the technical scope of the present invention.
- step 300 the terminal device 1 determines whether or not the condition included in the condition 300 is satisfied. If the condition included in the condition 300 is satisfied in step 300, the terminal device 1 proceeds to step 302. When the condition included in the condition 300 is not satisfied in step 300, the terminal device 1 proceeds to step 304.
- the condition 300 includes at least a condition that the terminal device 1 does not have a valid PUCCH resource for the scheduling request set in any subframe. That is, the condition 300 includes at least a condition that no PUCCH resource is set in any serving cell.
- step S302 the terminal device 1 executes the process 302, and proceeds to step 304.
- the process 302 includes at least a process of initiating a random access procedure in the primary cell and a process of canceling all pending scheduling requests.
- step 304 the terminal device 1 determines whether or not the condition included in the condition 304 is satisfied. If the condition included in the condition 304 is satisfied in step 304, the terminal device 1 proceeds to step 306. If the condition included in the condition 304 is not satisfied in step 304, the terminal device 1 proceeds to step 308.
- the condition 306 is that the terminal device 1 has a valid PUCCH resource for the scheduling request set in this subframe, and a valid PUCCH resource for the scheduling request is set in this subframe. At least a condition that the secondary cell is deactivated. That is, the condition 306 includes at least a condition that, in this subframe, a valid PUCCH resource for a scheduling request is set in the secondary cell, but the secondary cell is inactivated.
- step S306 the terminal device 1 executes the process 306, and proceeds to step 308.
- the process 306 includes at least a process of initiating a random access procedure in the primary cell.
- the process 306 may further include a process of canceling all pending scheduling requests.
- the terminal device 1 may not cancel the pending scheduling request. Accordingly, when a secondary cell in which a valid PUCCH resource for a scheduling request is set is activated, a scheduling request can be transmitted as soon as possible.
- step 308 the terminal device 1 determines whether or not the condition included in the condition 308 is satisfied. If the condition included in the condition 308 is satisfied in step 308, the terminal device 1 proceeds to step 310. If the condition included in the condition 308 is not satisfied in step 308, the terminal device 1 ends the process for this TTI.
- Condition 308 includes a condition that there is a valid PUCCH resource for the scheduling request set in this subframe, a condition that this subframe is not part of the measurement gap (measurement gap), and a timer sr ⁇ At least the condition that ProhibitTimer is not running is included.
- condition 308 may include a condition that a serving cell (primary cell or secondary cell) in which a valid PUCCH resource for a scheduling request is set in this subframe is activated. That is, the condition 308 includes at least a condition that, in the subframe, a valid PUCCH resource for a scheduling request is set in the serving cell and the serving cell is activated.
- step 310 the terminal device 1 determines whether or not the condition included in the condition 310 is satisfied. If none of the conditions included in the condition 310 is satisfied in step 310, the terminal device 1 ends the process for this TTI.
- the condition 310 includes a condition 3102, a condition 3104, and a condition 3106.
- the condition 3102 includes at least a condition that the value of the counter SR_COUNTER is smaller than a predetermined value dsr-TransMax.
- step S312 the terminal device 1 executes processing 312.
- the process 312 includes at least a process of incrementing the value of the counter SR_COUNTER, a process of notifying / instructing the physical layer to signal a scheduling request using the PUCCH, and a process of starting the timer sr-ProhibitTimer Including.
- the predetermined value dsr-TransMax may be controlled by the base station device 3.
- the base station device 3 may transmit information indicating the predetermined value dsr-TransMax to the terminal device 1.
- the default value of the predetermined value dsr-TransMax may be defined in advance.
- Condition 3104 is a condition that the value of the counter SR_COUNTER is the same as the predetermined value dsr-TransMax or larger than the predetermined value dsr-TransMax, and the condition that the PUCCH resource for the scheduling request is set in the primary cell. Including at least.
- step S314 the terminal device 1 executes processing 314.
- the process 314 is a process of notifying / instructing the RRC to release PUCCH / SRS for all serving cells, a process of clearing a configured downlink assignment and a configured uplink assignment, and randomly in a primary cell It includes at least a process for starting an access procedure and a process for canceling all pending scheduling requests.
- the PUCCH for all serving cells may include a PUCCH for CSI, a PUCCH for HARQ-ACK, and / or a PUCCH for a scheduling request.
- the uplink assignment is set semi-statically.
- Condition 3106 is a condition that the value of the counter SR_COUNTER is the same as the predetermined value dsr-TransMax or larger than the predetermined value dsr-TransMax, and the condition that the PUCCH resource for the scheduling request is set in the secondary cell. Including at least.
- step S316 the terminal device 1 executes processing 316.
- the process 316 is a process of notifying / instructing the RRC to release PUCCH / SRS for the secondary cell in which the PUCCH resource for the scheduling request is set, a process of starting a random access procedure in the primary cell, and all pending Including at least a process of canceling the scheduling request.
- the set downlink assignment and the set uplink assignment may not be cleared. That is, in the process 316, it is not necessary to notify / instruct the RRC to release PUCCH / SRS for all serving cells other than the secondary cell in which the PUCCH resource for the scheduling request is set.
- the PUCCH for the secondary cell in which the PUCCH resource for the scheduling request is set may include the PUCCH for CSI, the PUCCH for HARQ-ACK, and / or the PUCCH for the scheduling request.
- the uplink assignment is set semi-statically.
- the RRC layer releases PUCCH / SRS for all or some of the serving cells based on the notification / instruction from the MAC layer. That is, RRC releases PUCCH / SRS resources for all or some of the serving cells based on an instruction from the MAC layer.
- the physical layer signals a scheduling request using PUCCH based on the notification / instruction from the MAC layer.
- the terminal device 1 transmits the positive scheduling request using the PUCCH resource for scheduling request and the PUCCH format 1.
- the terminal apparatus 1 may transmit a positive scheduling request using a PUCCH resource for a scheduling request and PUCCH format 1, and may transmit a HARQ-ACK using a PUCCH resource for HARQ-ACK.
- the terminal apparatus 1 may transmit a positive scheduling request using the PUCCH resource for scheduling request and PUCCH format 1 and drop the transmission of HARQ-ACK.
- the terminal apparatus 1 may drop transmission of a positive scheduling request and transmit HARQ-ACK using PUCCH resources for HARQ-ACK.
- the terminal device 1 may transmit HARQ-ACK using the PUCCH resource for the scheduling request.
- terminal apparatus 1 uses the PUCCH resource for HARQ-ACK.
- HARQ-ACK is transmitted.
- the terminal device 1 may transmit a positive scheduling request using the PUCCH resource for the scheduling request and the PUCCH format 1, and may transmit HARQ-ACK using the PUCCH resource for the HARQ-ACK.
- the terminal device 1 may transmit a positive scheduling request using the PUCCH resource for scheduling request and the PUCCH format 1, and drop the transmission of HARQ-ACK.
- the terminal device 1 may drop transmission of a positive scheduling request and transmit HARQ-ACK using a PUCCH resource for HARQ-ACK.
- the terminal apparatus 1 transmits 1-bit HARQ-ACK (HARQ-ACK indicated by using 1-bit information bit, 1-bit HARQ-ACK) for each serving cell using the PUCCH resource for the scheduling request. May be. That is, for example, when 2 bits (b (0), b (1)) information bits are transmitted using a PUCCH resource for a scheduling request, 2 bits (b (0), b (1)) Each information bit corresponds to one serving cell.
- the 1-bit HARQ-ACK for the serving cell is It is a bit of HARQ-ACK corresponding to one transport block or PDCCH / EPDCCH indicating one downlink SPS release.
- the 1-bit HARQ-ACK for the serving cell spatially bundles the two HARQ-ACK bits corresponding to the two transport blocks Is generated by Bundling is performed by a logical sum operation.
- the HARQ-ACK bit for the serving cell is set to NACK.
- Two PUCCH cell groups are set for the terminal device 1, PUCCH format 1 b with channel selection is set for each of the two PUCCH cell groups, and transmission of PUCCH format 1 b with channel selection is performed.
- transmission of SR occurs in a subframe to be performed, if the scheduling request is a positive scheduling request, the terminal apparatus 1 uses the PUCCH resource for the scheduling request and uses 1-bit HARQ- for each PUCCH cell group.
- An ACK may be transmitted. That is, for example, when 2 bits (b (0), b (1)) information bits are transmitted using a PUCCH resource for a scheduling request, 2 bits (b (0), b (1)) Each information bit corresponds to one PUCCH cell group.
- HARQ-ACK and scheduling request using PUCCH resource and PUCCH format 3 for HARQ-ACK in the PUCCH serving cell in which the PUCCH resource for scheduling request is set Are transmitted together.
- the PUCCH resource and PUCCH format 3 for HARQ-ACK in the PUCCH serving cell other than the PUCCH serving cell in which the PUCCH resource for the scheduling request is set Used HARQ-ACK transmission and scheduling request
- PUCCH serving cell PUCCH resource is set for the PUCCH resources and PUCCH format 1 positive transmission of the scheduling request may be performed simultaneously using for scheduling requests.
- the PUCCH resource and PUCCH format 3 for HARQ-ACK in the PUCCH serving cell other than the PUCCH serving cell in which the PUCCH resource for the scheduling request is set The used HARQ-ACK is transmitted, and the scheduling request is transmitted.
- PUCCH resource is set for bets may drop the transmission of positive scheduling request using the PUCCH resources and PUCCH format 1 for scheduling requests.
- PUCCH format 3 in PUCCH serving cells other than the PUCCH serving cell in which the PUCCH resource for scheduling request is set Drop the used HARQ-ACK transmission and schedule In PUCCH serving cell PUCCH resource is set for the quest, transmission may be performed in the positive scheduling request using the PUCCH resources and PUCCH format 1 for scheduling requests.
- the PUCCH resource and PUCCH format 3 for HARQ-ACK in the PUCCH serving cell other than the PUCCH serving cell in which the PUCCH resource for the scheduling request is set Use HARQ-ACK and scheduling request, and It is sent to.
- the network (base station apparatus 3) can activate and deactivate the set secondary cell by sending activation / deactivation MAC (Medium Access Control) CE (Control Element).
- the terminal device 1 activates the set secondary cell based on reception of the activation / deactivation MAC CE instructing activation of the set serving cell.
- the terminal device 1 deactivates the set secondary cell based on reception of the activation / deactivation MAC CE instructing deactivation of the set serving cell.
- the terminal device 1 holds the sCellDeactivationTimer for each set secondary cell, and deactivates the associated secondary cell when the sCellDeactivationTimer expires.
- the terminal apparatus 1 (1) PDCCH monitoring in the activated secondary cell, (2) PDCCH monitoring for the activated secondary cell, (3 Apply normal secondary cell operation, including :) SRS transmission in the deactivated secondary cell, and (4) CSI reporting for the deactivated secondary cell.
- the terminal device 1 When the secondary cell is deactivated, the terminal device 1 (1) does not monitor the PDCCH in the deactivated secondary cell, and (2) monitors the PDCCH for the deactivated secondary cell. (3) do not transmit SRS in the deactivated secondary cell, (4) do not report CSI for the deactivated secondary cell, and (5) in the deactivated secondary cell The UL-SCH is not transmitted, (6) the PRACH is not transmitted in the deactivated secondary cell, and (7) the scheduling request is not transmitted in the deactivated secondary cell.
- the PUCCH secondary cell in which the PUCCH resource for the scheduling request is set may be always activated. That is, the activation / deactivation MAC CE and sCellDeactivationTimer may not be applied to the PUCCH secondary cell in which the PUCCH resource for the scheduling request is set. Activation / deactivation MAC CE and sCellDeactivationTimer are applied to a PUCCH secondary cell in which a PUCCH resource for a scheduling request is not set.
- the activation / deactivation MAC CE and sCellDeactivationTimer may not be applied to the PUCCH secondary cell.
- the PUCCH resource for the scheduling request is not set in the PUCCH secondary cell and the PUCCH resource for HARQ-ACK and / or CSI is set, the activation / deactivation MAC CE, and The sCellDeactivationTimer may be applied to the PUCCH secondary cell.
- the activation / deactivation MAC CE and sCellDeactivationTimer may not be applied to the secondary cell.
- the activation / deactivation MAC CE and sCellDeactivationTimer may be applied to the secondary cell.
- the secondary cell in which the PUCCH resource for scheduling request, HARQ-ACK, and / or CSI is set may be always activated.
- the activation / deactivation MAC CE and sCellDeactivationTimer are Need not be applied.
- the PUCCH resource for scheduling request, HARQ-ACK, and CSI is not set in the secondary cell, the activation / deactivation MAC CE and sCellDeactivationTimer are applied to the secondary cell. Also good.
- the PUCCH secondary cell in which the PUCCH resource for the scheduling request is set may be deactivated based on the activation / deactivation MAC CE and the sCellDeactivationTimer.
- FIG. 4 is a schematic block diagram showing the configuration of the terminal device 1 of the present embodiment.
- the terminal device 1 includes a wireless transmission / reception unit 10 and an upper layer processing unit 14.
- the wireless transmission / reception unit 10 includes an antenna unit 11, an RF (Radio Frequency) unit 12, and a baseband unit 13.
- the upper layer processing unit 14 includes a medium access control layer processing unit 15 and a radio resource control layer processing unit 16.
- the wireless transmission / reception unit 10 is also referred to as a transmission unit, a reception unit, or a physical layer processing unit.
- the upper layer processing unit 14 outputs the uplink data (transport block) generated by the user operation or the like to the radio transmission / reception unit 10.
- the upper layer processing unit 14 includes a medium access control (MAC: Medium Access Control) layer, a packet data integration protocol (Packet Data Convergence Protocol: PDCP) layer, a radio link control (Radio Link Control: RLC) layer, a radio resource control (Radio). Resource (Control: RRC) layer processing.
- MAC Medium Access Control
- PDCP Packet Data Convergence Protocol
- RLC Radio Link Control
- Radio Radio Resource
- Control Control
- the medium access control layer processing unit 15 included in the upper layer processing unit 14 performs processing of the medium access control layer.
- the medium access control layer processing unit 15 controls transmission of the scheduling request based on various setting information / parameters managed by the radio resource control layer processing unit 16.
- the radio resource control layer processing unit 16 included in the upper layer processing unit 14 performs processing of the radio resource control layer.
- the radio resource control layer processing unit 16 manages various setting information / parameters of the own device.
- the radio resource control layer processing unit 16 sets various setting information / parameters based on the upper layer signal received from the base station apparatus 3. That is, the radio resource control layer processing unit 16 sets various setting information / parameters based on information indicating various setting information / parameters received from the base station apparatus 3.
- the wireless transmission / reception unit 10 performs physical layer processing such as modulation, demodulation, encoding, and decoding.
- the radio transmission / reception unit 10 separates, demodulates, and decodes the signal received from the base station apparatus 3 and outputs the decoded information to the upper layer processing unit 14.
- the radio transmission / reception unit 10 generates a transmission signal by modulating and encoding data, and transmits the transmission signal to the base station apparatus 3.
- the RF unit 12 converts the signal received via the antenna unit 11 into a baseband signal by orthogonal demodulation (down-conversion: down covert), and removes unnecessary frequency components.
- the RF unit 12 outputs the processed analog signal to the baseband unit.
- the baseband unit 13 converts the analog signal input from the RF unit 12 into a digital signal.
- the baseband unit 13 removes a portion corresponding to CP (Cyclic Prefix) from the converted digital signal, performs fast Fourier transform (FFT) on the signal from which CP has been removed, and generates a frequency domain signal. Extract.
- CP Cyclic Prefix
- FFT fast Fourier transform
- the baseband unit 13 performs inverse fast Fourier transform (Inverse Fastier Transform: IFFT) to generate an SC-FDMA symbol, adds a CP to the generated SC-FDMA symbol, and converts a baseband digital signal into Generating and converting a baseband digital signal to an analog signal.
- IFFT inverse fast Fourier transform
- the baseband unit 13 outputs the converted analog signal to the RF unit 12.
- the RF unit 12 removes an extra frequency component from the analog signal input from the baseband unit 13 using a low-pass filter, up-converts the analog signal to a carrier frequency, and transmits the signal via the antenna unit 11. To do.
- the RF unit 12 amplifies power. Further, the RF unit 12 may have a function of controlling transmission power.
- the RF unit 12 is also referred to as a transmission power control unit.
- FIG. 5 is a schematic block diagram showing the configuration of the base station apparatus 3 of the present embodiment.
- the base station apparatus 3 includes a radio transmission / reception unit 30 and an upper layer processing unit 34.
- the wireless transmission / reception unit 30 includes an antenna unit 31, an RF unit 32, and a baseband unit 33.
- the upper layer processing unit 34 includes a medium access control layer processing unit 35 and a radio resource control layer processing unit 36.
- the wireless transmission / reception unit 30 is also referred to as a transmission unit, a reception unit, or a physical layer processing unit.
- the upper layer processing unit 34 includes a medium access control (MAC: Medium Access Control) layer, a packet data integration protocol (Packet Data Convergence Protocol: PDCP) layer, a radio link control (Radio Link Control: RLC) layer, a radio resource control (Radio). Resource (Control: RRC) layer processing.
- MAC Medium Access Control
- PDCP Packet Data Convergence Protocol
- RLC Radio Link Control
- Radio Radio Resource Control
- the medium access control layer processing unit 35 included in the upper layer processing unit 34 performs processing of the medium access control layer.
- the medium access control layer processing unit 35 performs processing related to the scheduling request based on various setting information / parameters managed by the radio resource control layer processing unit 36.
- the radio resource control layer processing unit 36 included in the upper layer processing unit 34 performs processing of the radio resource control layer.
- the radio resource control layer processing unit 36 generates downlink data (transport block), system information, RRC message, MAC CE (Control Element), etc. arranged in the physical downlink shared channel, or acquires it from the upper node. , Output to the wireless transceiver 30.
- the radio resource control layer processing unit 36 manages various setting information / parameters of each terminal device 1.
- the radio resource control layer processing unit 36 may set various setting information / parameters for each terminal device 1 via an upper layer signal. That is, the radio resource control layer processing unit 36 transmits / notifies information indicating various setting information / parameters.
- the function of the wireless transceiver 30 is the same as that of the wireless transceiver 10 and will not be described.
- a terminal apparatus is a terminal apparatus that communicates with a base station apparatus using two serving cells including one primary cell, the information indicating parameters related to a random access procedure in the primary cell, the primary cell
- a receiving unit that receives information indicating parameters related to a random access procedure in a serving cell other than, and information indicating a resource of a physical uplink control channel for a scheduling request in a serving cell other than the primary cell; and a unit other than the primary cell
- At least one scheduling request is pending in a certain TTI (Transmission Time Interval), there is no UL-SCH resource available for transmission in the certain TTI, and the terminal device has In the first case that satisfies the condition including at least the condition of having resources of a valid physical uplink control channel for the set scheduling request, if the value of the counter is smaller than a predetermined value, Incrementing the value by 1 and instructing the transmitter to transmit the scheduling request via the physical uplink control channel in a serving cell other than the primary cell, and in the first case, the value of the counter is Same as the predetermined value, Or if it is greater than the predetermined value, start a random access procedure in the primary cell, release resources of the physical uplink control channel for the scheduling request in a serving cell other than the primary cell, and A MAC layer processing unit that cancels the pending scheduling request.
- TTI Transmission Time Interval
- the terminal device is a terminal device that communicates with a base station device using two serving cells including one primary cell, the information indicating parameters related to a random access procedure in the primary cell, the primary cell A receiving unit that receives information indicating parameters related to a random access procedure in a serving cell other than, and information indicating a resource of a physical uplink control channel for a scheduling request in a serving cell other than the primary cell; and a unit other than the primary cell In the serving cell, a transmission for transmitting a scheduling request used for requesting UL-SCH (uplink shared channel) resources for initial transmission via the physical uplink control channel.
- a scheduling request used for requesting UL-SCH (uplink shared channel) resources for initial transmission via the physical uplink control channel.
- At least one scheduling request is pending in a certain TTI (Transmission Time Interval), there is no UL-SCH resource available for transmission in the certain TTI, and the terminal device has In the first case, which has resources of a valid physical uplink control channel for a scheduling request to be set, and satisfies the condition including at least a condition that a serving cell other than the primary cell is deactivated, the primary A MAC layer processing unit that starts a random access procedure in the cell and cancels all pending scheduling requests.
- TTI Transmission Time Interval
- the terminal apparatus is a terminal apparatus that communicates with a base station apparatus using two serving cells including one primary cell.
- a transmitting unit that transmits a scheduling request used to request UL-SCH (uplink shared channel) resources for initial transmission via a physical uplink control channel, and at least one TTI (Transmission Time Interval)
- UL-SCH uplink shared channel
- TTI Transmission Time Interval
- the counter value is set to one. Increment and instruct the transmitter to transmit the scheduling request via the physical uplink control channel in the primary cell or a serving cell other than the primary cell, and at least one scheduling request is pending in a certain TTI There is no UL-SCH resource available for transmission in the certain TTI and the terminal device is set in the primary cell for the certain TTI. If the value of the counter is equal to or greater than the predetermined value when a condition including at least the condition of having a valid physical uplink control channel resource is satisfied, Instructs the RRC to release a physical uplink control channel for the serving cell, at least one scheduling request is pending in a certain TTI, and there is no UL-SCH resource available for transmission in the certain TTI When the terminal device satisfies a condition including at least a condition that the terminal apparatus has a valid physical uplink control channel resource for a scheduling request
- At least one scheduling request is pending in a certain TTI, and there is no UL-SCH resource available for transmission in the certain TTI.
- the terminal apparatus satisfies a condition including at least a condition that the terminal apparatus has a valid physical uplink control channel resource for a scheduling request set in a serving cell other than the primary cell for the certain TTI, the counter If the value is equal to or larger than the predetermined value, the physical uplink control channel for the primary cell may not be released.
- the terminal device of the present embodiment is a terminal device that communicates with a base station device using two serving cells including one primary cell, and in the primary cell or a serving cell other than the primary cell, A transmitting unit that transmits a scheduling request used to request UL-SCH (uplink shared channel) resources for initial transmission via a physical uplink control channel, and at least one TTI (Transmission Time Interval) A scheduling request is pending, there is no UL-SCH resource available for transmission in the certain TTI, and the terminal apparatus is in the primary cell or a serving cell other than the primary cell for the certain TTI.
- UL-SCH uplink shared channel
- TTI Transmission Time Interval
- the counter value is set to one. Increment and instruct the transmitter to transmit the scheduling request via the physical uplink control channel in the primary cell or a serving cell other than the primary cell, and at least one scheduling request is pending in a certain TTI There is no UL-SCH resource available for transmission in the certain TTI and the terminal device is set in the primary cell for the certain TTI. If the value of the counter is equal to or greater than the predetermined value when a condition including at least the condition of having a valid physical uplink control channel resource is satisfied, Instructs the RRC to release a physical uplink control channel for the serving cell, at least one scheduling request is pending in a certain TTI, and there is no UL-SCH resource available for transmission in the certain TTI When the terminal device satisfies a condition including at least a condition that the terminal apparatus has a valid physical uplink control channel resource for a scheduling request
- the terminal apparatus is a terminal apparatus that communicates with a base station apparatus using two serving cells including one primary cell.
- a transmitting unit that transmits a scheduling request used to request UL-SCH (uplink shared channel) resources for initial transmission via a physical uplink control channel, and at least one TTI (Transmission Time Interval)
- UL-SCH uplink shared channel
- TTI Transmission Time Interval
- the counter value is set to one. Increment and instruct the transmitter to transmit the scheduling request via the physical uplink control channel in the primary cell or a serving cell other than the primary cell, and at least one scheduling request is pending in a certain TTI
- the terminal device is set in the primary cell for the certain TTI Is set if the value of the counter is equal to or greater than the predetermined value when a condition including at least a condition of having a valid physical uplink control channel resource for Clearing downlink assignments and configured uplink grants, at least one scheduling request is pending in a TTI, and there is no UL-SCH resource available for transmission in the TTI,
- the terminal apparatus satisfies a condition including at least a condition that the terminal apparatus has a valid physical uplink control channel resource for a scheduling request set in a serving cell other
- the terminal device of the present embodiment is a terminal device that communicates with a base station device using two serving cells including one primary cell, in each of the primary cell and a serving cell other than the primary cell.
- Physical uplink control for scheduling request used for requesting UL-SCH (uplink shared channel) resource for initial transmission in a transmitting unit that transmits a physical uplink control channel and a serving cell other than the primary cell
- a MAC layer processing unit that activates and deactivates a serving cell other than the primary cell based on a MAC control element when a channel resource is not set. In the cell, if the resources of the physical uplink control channel for the scheduling request is set, the serving cell other than the primary cell may always be activated.
- the base station apparatus of this embodiment is a terminal apparatus that communicates with a terminal apparatus using two serving cells including one primary cell, and each of the primary cell and the serving cell other than the primary cell A physical uplink control for a scheduling request used to request UL-SCH (uplink shared channel) resources for initial transmission in a receiving unit that receives a physical uplink control channel and a serving cell other than the primary cell
- a MAC layer processing unit that activates and deactivates a serving cell other than the primary cell by transmitting a MAC control element may be provided.
- the serving cell if the resources of the physical uplink control channel for the scheduling request is set, the serving cell other than the primary cell may always be activated.
- the terminal apparatus 1 can communicate with the base station apparatus 3 efficiently.
- a program that operates in the base station device 3 and the terminal device 1 related to the present invention is a program that controls a CPU (Central Processing Unit) or the like (a computer is functioned) so as to realize the functions of the above-described embodiments related to the present invention Program).
- Information handled by these devices is temporarily stored in RAM (Random Access Memory) during processing, and then stored in various ROMs such as Flash ROM (Read Only Memory) and HDD (Hard Disk Drive). Reading, correction, and writing are performed by the CPU as necessary.
- the program for realizing the control function may be recorded on a computer-readable recording medium, and the program recorded on the recording medium may be read by the computer system and executed.
- the “computer system” here is a computer system built in the terminal device 1 or the base station device 3 and includes hardware such as an OS and peripheral devices.
- the “computer-readable recording medium” refers to a storage device such as a flexible medium, a magneto-optical disk, a portable medium such as a ROM or a CD-ROM, and a hard disk incorporated in a computer system.
- the “computer-readable recording medium” is a medium that dynamically holds a program for a short time, such as a communication line when transmitting a program via a network such as the Internet or a communication line such as a telephone line,
- a volatile memory inside a computer system serving as a server or a client may be included and a program that holds a program for a certain period of time.
- the program may be a program for realizing a part of the functions described above, and may be a program capable of realizing the functions described above in combination with a program already recorded in a computer system.
- the base station device 3 in the above-described embodiment can be realized as an aggregate (device group) composed of a plurality of devices.
- Each of the devices constituting the device group may include a part or all of each function or each functional block of the base station device 3 according to the above-described embodiment.
- the device group only needs to have one function or each function block of the base station device 3.
- the terminal device 1 according to the above-described embodiment can also communicate with the base station device as an aggregate.
- the base station apparatus 3 in the above-described embodiment may be EUTRAN (Evolved Universal Terrestrial Radio Access Network).
- the base station device 3 in the above-described embodiment may have a part or all of the functions of the upper node for the eNodeB.
- a part or all of the terminal device 1 and the base station device 3 in the above-described embodiment may be realized as an LSI that is typically an integrated circuit, or may be realized as a chip set.
- Each functional block of the terminal device 1 and the base station device 3 may be individually chipped, or a part or all of them may be integrated into a chip.
- the method of circuit integration is not limited to LSI, and may be realized by a dedicated circuit or a general-purpose processor.
- an integrated circuit based on the technology can also be used.
- the terminal device is described as an example of the communication device.
- the present invention is not limited to this, and the stationary or non-movable electronic device installed indoors or outdoors,
- the present invention can also be applied to terminal devices or communication devices such as AV equipment, kitchen equipment, cleaning / washing equipment, air conditioning equipment, office equipment, vending machines, and other daily life equipment.
- One embodiment of the present invention can be applied to a terminal device, a base station device, an integrated circuit, a communication method, and the like that need to efficiently communicate with a base station device using a plurality of cells.
- Terminal device 3 Base station device 10 Wireless transmission / reception unit 11 Antenna unit 12 RF unit 13 Baseband unit 14 Upper layer processing unit 15 Medium access control layer processing unit 16 Radio resource control layer processing unit 30 Wireless transmission / reception Unit 31 antenna unit 32 RF unit 33 baseband unit 34 upper layer processing unit 35 medium access control layer processing unit 36 radio resource control layer processing unit
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Abstract
Description
本願は、2015年1月28日に、日本に出願された特願2015-014739号に基づき優先権を主張し、その内容をここに援用する。
・PUCCH(Physical Uplink Control Channel)
・PUSCH(Physical Uplink Shared Channel)
・PRACH(Physical Random Access Channel)
・上りリンク参照信号(Uplink Reference Signal: UL RS)
・DMRS(Demodulation Reference Signal)
・SRS(Sounding Reference Signal)
・PBCH(Physical Broadcast Channel)
・PCFICH(Physical Control Format Indicator Channel)
・PHICH(Physical Hybrid automatic repeat request Indicator Channel)
・PDCCH(Physical Downlink Control Channel)
・EPDCCH(Enhanced Physical Downlink Control Channel)
・PDSCH(Physical Downlink Shared Channel)
・PMCH(Physical Multicast Channel)
・同期信号(Synchronization signal: SS)
・下りリンク参照信号(Downlink Reference Signal: DL RS)
・CRS(Cell-specific Reference Signal)
・PDSCHに関連するURS(UE-specific Reference Signal)
・EPDCCHに関連するDMRS(Demodulation Reference Signal)
・NZP CSI-RS(Non-Zero Power Chanel State Information - Reference Signal)
・ZP CSI-RS(Zero Power Chanel State Information - Reference Signal)
・MBSFN RS(Multimedia Broadcast and Multicast Service over Single Frequency Network Reference signal)
・PRS(Positioning Reference Signal)
3 基地局装置
10 無線送受信部
11 アンテナ部
12 RF部
13 ベースバンド部
14 上位層処理部
15 媒体アクセス制御層処理部
16 無線リソース制御層処理部
30 無線送受信部
31 アンテナ部
32 RF部
33 ベースバンド部
34 上位層処理部
35 媒体アクセス制御層処理部
36 無線リソース制御層処理部
Claims (4)
- RRC(Radio Resource Control)コネクションが確立された時点、または、後に設定されるセカンダリ-セルに関連する第1のタイマーの満了に基づいて、前記セカンダリーセルをデアクティベートするMAC(Medium Access Control)層処理部と、
前記セカンダリーセルにおいて設定される物理上りリンク制御チャネルのリソースを用いてスケジューリングリクエストを送信する送信部と、を備え、
前記セカンダリーセルにおいて、前記スケジューリングリクエストのための前記物理上りリンク制御チャネルのリソースが設定されている場合には、前記セカンダリーセルに対して前記第1のタイマーは適用されない
端末装置。 - 前記スケジューリングリクエストは、初期送信のためのUL-SCH(uplink shared channel)リソースを要求するために用いられる
請求項1の端末装置。 - 端末装置に実装される集積回路であって、
RRC(Radio Resource Control)コネクションが確立された時点、または、後に設定されるセカンダリ-セルに関連する第1のタイマーの満了に基づいて、前記セカンダリーセルをデアクティベートするMAC(Medium Access Control)層処理回路と、
前記セカンダリーセルにおいて設定される物理上りリンク制御チャネルのリソースを用いてスケジューリングリクエストを送信する送信回路と、を備え、
前記セカンダリーセルにおいて、前記スケジューリングリクエストのための前記物理上りリンク制御チャネルのリソースが設定されている場合には、前記セカンダリーセルに対して前記第1のタイマーは適用されない
集積回路。 - 端末装置に用いられる通信方法であって、
RRC(Radio Resource Control)コネクションが確立された時点、または、後に設定されるセカンダリ-セルに関連する第1のタイマーの満了に基づいて、前記セカンダリーセルをデアクティベートし、
前記セカンダリーセルにおいて設定される物理上りリンク制御チャネルのリソースを用いてスケジューリングリクエストを送信し、
前記セカンダリーセルにおいて、前記スケジューリングリクエストのための前記物理上りリンク制御チャネルのリソースが設定されている場合には、前記セカンダリーセルに対して前記第1のタイマーは適用されない
通信方法。
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