WO2012124557A1 - Wireless communication system, base station, mobile station, wireless communication method, and integrated circuit - Google Patents
Wireless communication system, base station, mobile station, wireless communication method, and integrated circuit Download PDFInfo
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- WO2012124557A1 WO2012124557A1 PCT/JP2012/055757 JP2012055757W WO2012124557A1 WO 2012124557 A1 WO2012124557 A1 WO 2012124557A1 JP 2012055757 W JP2012055757 W JP 2012055757W WO 2012124557 A1 WO2012124557 A1 WO 2012124557A1
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W56/00—Synchronisation arrangements
- H04W56/004—Synchronisation arrangements compensating for timing error of reception due to propagation delay
- H04W56/0045—Synchronisation arrangements compensating for timing error of reception due to propagation delay compensating for timing error by altering transmission time
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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
- H04B—TRANSMISSION
- H04B7/00—Radio transmission systems, i.e. using radiation field
- H04B7/02—Diversity systems; Multi-antenna system, i.e. transmission or reception using multiple antennas
- H04B7/022—Site diversity; Macro-diversity
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W28/00—Network traffic management; Network resource management
- H04W28/02—Traffic management, e.g. flow control or congestion control
- H04W28/06—Optimizing the usage of the radio link, e.g. header compression, information sizing, discarding information
Definitions
- the present invention relates to a radio communication system, a base station apparatus, a mobile station apparatus, a radio communication method, and an integrated circuit, and more particularly to an operation at the time of notification of uplink transmission timing.
- the W-CDMA system has been standardized as a third-generation cellular mobile communication system, and services have been started sequentially.
- HSDPA with higher communication speed has been standardized and the service has started.
- EUTRA Evolved Universal Terrestrial Radio Access
- SC-FDMA peak-to-average power ratio
- PAPR Peak to Average Power Ratio
- Advanced-EUTRA a further evolution of EUTRA.
- communication at a maximum transmission rate of 1 Gbps or more and 500 Mbps or more of the uplink is performed using a band up to a maximum of 100 MHz bandwidth in the uplink and the downlink.
- Advanced-EUTRA is considering to realize a maximum of 100 MHz band by bundling a plurality of bands below 20 MHz of EUTRA so that EUTRA mobile station devices can be accommodated.
- one band of 20 MHz or less of EUTRA is called a component carrier (CC) (Non-patent Document 2).
- CC component carrier
- one cell is configured by combining one downlink component carrier and one uplink component carrier.
- One cell can be configured with only one downlink component carrier.
- the base station apparatus allocates a plurality of cells to the mobile station apparatus and communicates with the mobile station apparatus via the allocated cells.
- the mobile station apparatus When the mobile station apparatus communicates with the base station apparatus using a plurality of cells, the mobile station apparatus may connect to the base station apparatus via a repeater (Repeator) or the like.
- the reception timing of data from the downlink component carrier in the mobile station apparatus is different for each cell, and the transmission timing to the base station apparatus is different for each uplink component carrier of each cell. Therefore, the mobile station apparatus needs to adjust the transmission timing for each uplink component carrier of each cell and perform data transmission to the base station apparatus.
- notifying transmission timing information of all uplink component carriers means that if there are a plurality of uplink component carriers having the same transmission timing, a plurality of the same transmission timing information is transmitted, and the utilization efficiency of radio resources is poor.
- An object of the present invention is to provide a radio communication system, a base station apparatus, a mobile station apparatus, a radio communication method, and an integrated circuit.
- a radio communication system in which a base station device allocates a plurality of cells to a mobile station device, and the base station device and the mobile station device communicate via the plurality of cells.
- the plurality of cells are always composed of one first cell of an activation cell and one or more second cells of an activation cell or a deactivation cell.
- the first cell and the second cell have a first transmission timing group composed of second cells having the same uplink transmission timing as the first cell, and the same uplink transmission timing different from the uplink transmission timing of the first cell. To the second transmission timing group composed of the second cells.
- the base station apparatus transmits transmission timing group information to the mobile station apparatus in advance, and transmits a transmission timing message including the transmission timing information to the mobile station apparatus via one cell among the plurality of cells.
- the mobile station apparatus applies the transmission timing information to the cells in the transmission timing group to which one cell that has received the transmission timing message belongs based on the information on the transmission timing group.
- the cell in the transmission timing group to which the transmission timing information is applied is an activate cell.
- a radio communication system in which a base station device allocates a plurality of cells to a mobile station device, and the base station device and the mobile station device communicate via the plurality of cells.
- the plurality of cells are always composed of one first cell of an activation cell and one or more second cells of an activation cell or a deactivation cell.
- the first cell and the second cell have a first transmission timing group composed of second cells having the same uplink transmission timing as the first cell, and the same uplink transmission timing different from the uplink transmission timing of the first cell. To the second transmission timing group composed of the second cells.
- the base station apparatus transmits in advance a transmission timing group information and cell information in which the base station apparatus transmits a transmission timing message to the mobile station apparatus, and transmits a transmission timing message including the transmission timing information to one cell in the plurality of cells. Is transmitted to the mobile station apparatus. If the mobile station apparatus receives a transmission timing message via one cell and one cell is the same as the cell that transmits the transmission timing information, the mobile station apparatus is based on the information on the transmission timing group, and within the transmission timing group to which one cell belongs. The transmission timing information is applied to the cells.
- the cell in the transmission timing group to which the transmission timing information is applied is an activate cell.
- a base station apparatus that allocates a plurality of cells to a mobile station apparatus and communicates with the mobile station apparatus through the plurality of cells.
- the plurality of cells are always composed of one first cell of an activation cell and one or more second cells of an activation cell or a deactivation cell.
- the first cell and the second cell have a first transmission timing group composed of second cells having the same uplink transmission timing as the first cell, and the same uplink transmission timing different from the uplink transmission timing of the first cell.
- the base station apparatus transmits transmission timing group information to the mobile station apparatus in advance, and transmits a transmission timing message including transmission timing information to the mobile station apparatus via one cell among a plurality of cells based on the transmission timing group. To do.
- a base station apparatus that allocates a plurality of cells to a mobile station apparatus and communicates with the mobile station apparatus through the plurality of cells.
- the plurality of cells are always composed of one first cell of an activation cell and one or more second cells of an activation cell or a deactivation cell.
- the first cell and the second cell have a first transmission timing group composed of second cells having the same uplink transmission timing as the first cell, and the same uplink transmission timing different from the uplink transmission timing of the first cell. To the second transmission timing group composed of the second cells.
- the base station apparatus transmits in advance a transmission timing group information and cell information in which the base station apparatus transmits a transmission timing message to the mobile station apparatus, and transmits a plurality of transmission timing messages including the transmission timing information based on the transmission timing group. Is transmitted to the mobile station apparatus via one cell.
- a mobile station apparatus that is assigned a plurality of cells from a base station apparatus and communicates with the base station apparatus through the plurality of cells.
- the plurality of cells are always composed of one first cell of an activation cell and one or more second cells of an activation cell or a deactivation cell.
- the first cell and the second cell have a first transmission timing group composed of second cells having the same uplink transmission timing as the first cell, and the same uplink transmission timing different from the uplink transmission timing of the first cell. To the second transmission timing group composed of the second cells.
- the mobile station apparatus When the mobile station apparatus receives the transmission timing group information from the base station apparatus in advance and receives the transmission timing message including the transmission timing information via one cell of the plurality of cells, the mobile station apparatus 1 Transmission timing information is applied to the cells in the transmission timing group to which one cell belongs.
- transmission timing information is applied to the activated cells in the transmission timing group.
- a mobile station apparatus that is assigned a plurality of cells from a base station apparatus and communicates with the base station apparatus through the plurality of cells.
- the plurality of cells are always composed of one first cell of an activation cell and one or more second cells of an activation cell or a deactivation cell.
- the first cell and the second cell have a first transmission timing group composed of second cells having the same uplink transmission timing as the first cell, and the same uplink transmission timing different from the uplink transmission timing of the first cell. To the second transmission timing group composed of the second cells.
- the mobile station apparatus receives in advance transmission timing group information from the base station apparatus and cell information in which the base station apparatus transmits a transmission timing message including the transmission timing information, and transmits the transmission timing message via one cell of a plurality of cells.
- the transmission timing information is applied to the cells in the transmission timing group to which the one cell belongs based on the transmission timing group information.
- transmission timing information is applied to the activated cells in the transmission timing group.
- a radio communication method applied to a radio communication system in which a base station apparatus allocates a plurality of cells to a mobile station apparatus and the base station apparatus and the mobile station apparatus communicate via the plurality of cells.
- the plurality of cells are always composed of one first cell of an activation cell and one or more second cells of an activation cell or a deactivation cell.
- the first cell and the second cell have a first transmission timing group composed of second cells having the same uplink transmission timing as the first cell, and the same uplink transmission timing different from the uplink transmission timing of the first cell. To the second transmission timing group composed of the second cells.
- the base station device transmits in advance transmission timing group information to the mobile station device, and the base station device moves a transmission timing message including the transmission timing information via one cell among a plurality of cells.
- a radio communication method applied to a radio communication system in which a base station apparatus allocates a plurality of cells to a mobile station apparatus and the base station apparatus and the mobile station apparatus communicate via the plurality of cells.
- the plurality of cells are always composed of one first cell of an activation cell and one or more second cells of an activation cell or a deactivation cell.
- the first cell and the second cell have a first transmission timing group composed of second cells having the same uplink transmission timing as the first cell, and the same uplink transmission timing different from the uplink transmission timing of the first cell. To the second transmission timing group composed of the second cells.
- the wireless communication method includes a step in which a base station apparatus transmits in advance transmission node information and cell information in which a base station apparatus transmits a transmission timing message to a mobile station apparatus, and a transmission timing in which the base station apparatus includes transmission timing information.
- an integrated circuit is provided that is applied to a base station apparatus that allocates a plurality of cells to a mobile station apparatus and communicates with the mobile station apparatus via the plurality of cells.
- the plurality of cells are always composed of one first cell of an activation cell and one or more second cells of an activation cell or a deactivation cell.
- the first cell and the second cell have a first transmission timing group composed of second cells having the same uplink transmission timing as the first cell, and the same uplink transmission timing different from the uplink transmission timing of the first cell.
- the integrated circuit transmits a transmission timing message including transmission timing information based on the transmission timing group to a mobile station apparatus via one cell among a plurality of cells. Means for transmitting.
- an integrated circuit is provided that is applied to a mobile station apparatus that is assigned a plurality of cells from a base station apparatus and communicates with the base station apparatus via the plurality of cells.
- the plurality of cells are always composed of one first cell of an activation cell and one or more second cells of an activation cell or a deactivation cell.
- the first cell and the second cell have a first transmission timing group composed of second cells having the same uplink transmission timing as the first cell, and the same uplink transmission timing different from the uplink transmission timing of the first cell. To the second transmission timing group composed of the second cells.
- the integrated circuit is based on means for receiving transmission timing group information from the base station apparatus in advance, means for receiving a transmission timing message including transmission timing information via one cell of a plurality of cells, and transmission timing group information. Means for applying transmission timing information to an activated cell in a transmission timing group to which one cell belongs.
- an integrated circuit is provided that is applied to a base station apparatus that allocates a plurality of cells to a mobile station apparatus and communicates with the mobile station apparatus via the plurality of cells.
- the plurality of cells are always composed of one first cell of an activation cell and one or more second cells of an activation cell or a deactivation cell.
- the first cell and the second cell have a first transmission timing group composed of second cells having the same uplink transmission timing as the first cell, and the same uplink transmission timing different from the uplink transmission timing of the first cell. To the second transmission timing group composed of the second cells.
- the integrated circuit includes means for previously transmitting to the mobile station apparatus information on the transmission timing group and cell information on which the base station apparatus transmits the transmission timing message, and a plurality of transmission timing messages including the transmission timing information based on the transmission timing group. Means for transmitting to the mobile station apparatus via one of the cells.
- an integrated circuit is provided that is applied to a mobile station apparatus that is assigned a plurality of cells from a base station apparatus and communicates with the base station apparatus via the plurality of cells.
- the plurality of cells are always composed of one first cell of an activation cell and one or more second cells of an activation cell or a deactivation cell.
- the first cell and the second cell have a first transmission timing group composed of second cells having the same uplink transmission timing as the first cell, and the same uplink transmission timing different from the uplink transmission timing of the first cell. To the second transmission timing group composed of the second cells.
- the integrated circuit includes means for receiving transmission timing group information from the base station apparatus and cell information for the base station apparatus to transmit a transmission timing message including the transmission timing information, and a transmission timing message via one cell of the plurality of cells. Transmission timing information is applied to the activated cells in the transmission timing group to which one cell belongs based on the information of the transmission timing group, when the cell receiving means is the same as the cell that transmits the transmission timing information. Means.
- uplink transmission timing when uplink transmission timing is different in each cell, it is only necessary to notify one transmission timing information to one transmission timing group, and it is a useless radio resource for notification of transmission timing information. It is not necessary to use.
- the downlink of EUTRA includes a downlink reference signal (Downlink Reference Signal), a downlink synchronization channel DSCH (Downlink Synchronization Channel), a downlink shared channel PDSCH (Physical Downlink Channel control), and a downlink shared channel PDCH (Physical Downlink Channel control)
- the broadcast channel PBCH Physical Broadcast Channel
- the uplink of EUTRA is an uplink reference signal (Uplink Reference Signal), a random access channel RACH (Random Access Channel), an uplink shared channel PUSCH (Physical Uplink Shared Channel), and an uplink control channel PUCCHP It is configured.
- the uplink reference signal includes two types of signals: a demodulation reference signal (Demodulation Reference Signal) and a measurement reference signal (Sounding Reference Signal).
- FIG. 1 is a diagram illustrating a channel configuration in EUTRA
- FIG. 2 is a diagram illustrating an uplink configuration in EUTRA.
- One block includes 12 subcarriers and 7 OFDM symbols.
- one resource block (RB) is configured using the two blocks.
- the uplink shared channel PUSCH and the uplink control channel PUCCH are used in units of one resource block.
- the random access channel RACH is configured using 6 resource blocks.
- the uplink reference signal is arranged in a specific OFDM symbol in the resource block.
- Each uplink channel is divided into an uplink shared channel PUSCH region, an uplink control channel PUCCH region, and a random access channel RACH as shown in FIG.
- Information on each region of the uplink shared channel PUSCH and the uplink control channel PUCCH is broadcast from the base station apparatus.
- the base station apparatus allocates radio resources for the uplink shared channel PUSCH and the uplink control channel PUCCH for each mobile station apparatus from each region.
- the random access channel RACH is arranged at a constant period.
- the downlink shared channel PDSCH is used for transmitting user data and control data from the base station apparatus to the mobile station apparatus.
- the downlink control channel PDCCH is used for notification of control information such as radio resource allocation information for the downlink shared channel PDSCH and the uplink shared channel PUSCH from the base station apparatus to the mobile station apparatus.
- the downlink reference signal is used to demodulate the downlink shared channel PDSCH and the downlink control channel PDCCH.
- the downlink synchronization channel DSCH is used for the mobile station apparatus to perform downlink synchronization.
- the broadcast channel PBCH is used to notify information related to the system information of the cell of the base station device.
- the uplink shared channel PUSCH is used for transmission of user data and control data from the mobile station apparatus to the base station apparatus.
- data transmitted and received on the uplink shared channel PUSCH and the downlink shared channel PDSCH is subjected to HARQ (Hybrid Automatic Repeat reQuest) processing, and the retransmission is performed by combining the initial transmission data and the retransmission data at the time of retransmission.
- HARQ Hybrid Automatic Repeat reQuest
- the uplink control channel PUCCH is used to notify control information such as a response (ACK (Acknowledge)) / NACK (Negative Acknowledge)) to downlink data from the base station apparatus and downlink radio channel quality information.
- ACK Acknowledge
- NACK Negative Acknowledge
- the random access channel RACH is mainly used for random access preamble transmission for acquiring transmission timing information from the mobile station apparatus to the base station apparatus. Random access preamble transmission is performed in a random access procedure.
- the reference signal for demodulation of the uplink reference signal is used by the base station device to demodulate the uplink shared channel PUSCH, and is inserted into the fourth symbol position and the 11th symbol position of the uplink shared channel PUSCH. .
- the reference signal for measuring the uplink reference signal is used by the base station apparatus to measure the uplink radio channel quality, and is inserted into the 14th symbol position of the uplink shared channel PUSCH. Note that the radio resource for transmitting the measurement reference signal is allocated from the base station apparatus to each mobile station apparatus.
- the random access procedure includes two access procedures: Contention based Random Access (contention based random access) and Non-contention based Random Access (non-contention based random access) (Non-Patent Document 1).
- FIG. 3 is a diagram showing the procedure of Contention based Random Access.
- Contention based Random Access is a random access procedure that may collide between mobile station devices.
- the Contention based Random Access is uplinked to the mobile station device at the time of initial access from a state where it is not connected (communication) with the base station device or while being connected to the base station device, but the uplink synchronization is lost. This is done for scheduling requests when data transmission occurs.
- FIG. 4 is a diagram showing the procedure of Non-contention based Random Access.
- Non-contention based Random Access is a random access procedure in which no collision occurs between mobile station apparatuses.
- Non-contention based Random Access is connected to the base station device and the mobile station device, but when the uplink synchronization is lost, the uplink synchronization between the mobile station device and the base station device can be performed quickly.
- the mobile station device starts a random access procedure instructed by the base station device (Non-patent Document 1).
- Non-contention based Random Access is indicated by a message in the RRC (Radio Resource Control: Layer 3) layer and control data of the downlink control channel PDCCH.
- RRC Radio Resource Control: Layer 3
- the mobile station apparatus 1-1 transmits a random access preamble to the base station apparatus 3 (message 1 (1), step S1). Then, the base station device 3 that has received the random access preamble transmits a response to the random access preamble (random access response) to the mobile station device 1-1 (message 2 (2), step S2). The mobile station apparatus 1-1 transmits a message of the upper layer (Layer2 / Layer3) based on the scheduling information included in the random access response (message 3 (3), step S3). The base station apparatus 3 transmits a collision confirmation message to the mobile station apparatus 1-1 that has received the upper layer message of (3) (message 4 (4), step S4). Note that the Contention based Random Access is also referred to as random preamble transmission.
- the base station device 3 notifies the mobile station device 1-1 of the preamble number (or sequence number) and the random access channel number to be used (message 0 (1 '), step S11).
- the mobile station apparatus 1-1 transmits the random access preamble having the designated preamble number to the designated random access channel RACH (message 1 (2 '), step S12).
- the base station device 3 that has received the random access preamble transmits a response to the random access preamble (random access response) to the mobile station device 1-1 (message 2 (3 '), step S13).
- Contention based Random Access is performed.
- Non-contention based Random Access is also referred to as dedicated preamble transmission.
- the mobile station apparatus 1-1 acquires system information of the base station apparatus 3 from the broadcast channel PBCH and the like, executes a random access procedure from random access related information included in the system information, Connect.
- the mobile station apparatus 1-1 generates a random access preamble from the random access related information in the system information.
- the mobile station apparatus 1-1 transmits a random access preamble using the random access channel RACH (message 1 (1)).
- the base station device 3 When the base station device 3 detects the random access preamble from the mobile station device 1-1, the base station device 3 calculates the amount of transmission timing shift between the mobile station device 1-1 and the base station device 3 from the random access preamble, and the Layer 2 In order to transmit (L2) / Layer3 (L3) message, scheduling (designation of uplink radio resource position (position of uplink shared channel PUSCH), transmission format (message size), etc.) is performed, and Temporary C-RNTI (Cell- Radio Network Temporary Identity (mobile station device identification information) is assigned, and the random access preamble of the random access channel RACH is transmitted to the downlink control channel PDCCH.
- L2 Layer2
- L3 (L3) message scheduling (designation of uplink radio resource position (position of uplink shared channel PUSCH), transmission format (message size), etc.) is performed, and Temporary C-RNTI (Cell- Radio Network Temporary Identity (mobile station device identification information) is assigned, and the random access preamble
- RA-RNTI Random Access-Radio Network Temporary Identity: Random Access Response Identification Information
- RA-RNTI Random Access Response Identification Information
- transmission timing information transmission timing information
- scheduling information Temporary C-RNTI
- received on downlink shared channel PDSCH A random access response message including information on the random access preamble is transmitted (message 2 (2)).
- the mobile station apparatus 1-1 When the mobile station apparatus 1-1 detects the presence of RA-RNTI in the downlink control channel PDCCH, the mobile station apparatus 1-1 confirms the contents of the random access response message arranged in the downlink shared channel PDSCH, and transmits the information on the transmitted random access preamble. Is included, the uplink transmission timing is adjusted from the transmission timing information included in the random access response message, and the C-RNTI (or Temporary C-RNTI) or the scheduled radio resource and the transmission format are used. An L2 / L3 message including information for identifying the mobile station device 1-1 such as IMSI (International Mobile Subscriber Identity) is transmitted (message 3 (3)). When the transmission timing is adjusted, the mobile station apparatus 1-1 starts a transmission timing timer in which the adjusted transmission timing is valid.
- IMSI International Mobile Subscriber Identity
- the adjusted transmission timing becomes invalid. While the transmission timing is valid, the mobile station apparatus 1-1 can transmit data to the base station apparatus. When the transmission timing is invalid, the mobile station apparatus 1-1 can only transmit a random access preamble. Further, a period in which the transmission timing is valid is referred to as an uplink synchronization state, and a period in which the transmission timing is not valid is also referred to as an uplink asynchronous state.
- the base station apparatus 3 Upon receiving the L2 / L3 message from the mobile station apparatus 1-1, the base station apparatus 3 uses the C-RNTI (or Temporary C-RNTI) or IMSI included in the received L2 / L3 message to A collision confirmation (contention resolution) message for determining whether or not a collision occurs between the apparatuses 1-1 to 1-3 is transmitted to the mobile station apparatus 1-1 (message 4 (4)).
- C-RNTI or Temporary C-RNTI
- IMSI included in the received L2 / L3 message
- a collision confirmation (contention resolution) message for determining whether or not a collision occurs between the apparatuses 1-1 to 1-3 is transmitted to the mobile station apparatus 1-1 (message 4 (4)).
- the mobile station device 1-1 does not detect a random access response message including a preamble number corresponding to the random access preamble transmitted within a certain period, fails to transmit the message 3, or within a certain period If the identification information of the mobile station apparatus 1-1 is not detected in the collision confirmation message, the process starts again from transmission of the random access preamble (message 1 (1)). When the number of random access preamble transmissions exceeds the maximum number of random access preamble transmissions indicated by the system information, the mobile station device 1-1 determines that the random access has failed and performs communication with the base station device 3. Disconnect. After the random access procedure is successful, control data for connection is further exchanged between the base station apparatus 3 and the mobile station apparatus 1-1. At this time, the base station apparatus 3 notifies the mobile station apparatus 1-1 of uplink reference signals to be individually allocated and allocation information of the uplink control channel PUCCH.
- Update of uplink transmission timing after completion of the random access procedure is performed by using the uplink reference signal (measurement reference signal or demodulation signal) transmitted from the mobile station apparatus 1-1 by the base station apparatus 3 as shown in FIG. (Reference signal) is measured, transmission timing information is calculated, and a transmission timing message including the calculated transmission timing information is notified to the mobile station apparatus 1-1.
- the mobile station apparatus 1-1 adjusts the uplink transmission timing from the transmission timing information notified from the base station apparatus 3
- the mobile station apparatus 1-1 restarts the transmission timing timer.
- the base station apparatus 3 also holds the same transmission timing timer as that of the mobile station apparatus 1-1, and starts or restarts the transmission timing timer when transmitting a transmission timing message. By doing so, the uplink synchronization state is managed by the base station apparatus 3 and the mobile station apparatus 1-1.
- the transmission timing timer expires, the transmission timing becomes invalid, and uplink transmission other than the random access preamble transmission is stopped.
- Advanced-EUTRA a further evolution of EUTRA.
- communication at a maximum transmission rate of 1 Gbps or higher and 500 Mbps or higher of the uplink is performed using a band up to a maximum of 100 MHz bandwidth in the uplink and the downlink, respectively.
- FIG. 6 is an explanatory diagram of downlink component carriers in Advanced-EUTRA.
- FIG. 7 is an explanatory diagram of an uplink component carrier in Advanced-EUTRA.
- Advanced-EUTRA is considering to realize a maximum of 100 MHz band by bundling a plurality of bands below 20 MHz of EUTRA so that EUTRA mobile station devices can be accommodated.
- one band of 20 MHz or less of EUTRA is called a component carrier (CC) (Non-patent Document 2).
- CC component carrier
- one cell is configured by combining one downlink component carrier and one uplink component carrier.
- One cell can be configured with only one downlink component carrier.
- the base station apparatus allocates a plurality of cells that match the communication capability and communication conditions of the mobile station apparatus, and communicates with the mobile station apparatus via the allocated plurality of cells.
- one cell is a first cell (Primary Cell) and the other cells are second cells (Secondary Cell).
- Special functions such as allocation of the uplink control channel PUCCH and permission to access the random access channel RACH are set in the first cell.
- the mobile station apparatus does not perform downlink reception processing on the second cell immediately after allocation (or radio resource allocation information indicated by the downlink control channel).
- the downlink reception process is started for the second cell instructed to activate (or the radio instructed by the downlink control channel). According to the resource allocation information).
- the mobile station apparatus performs downlink reception processing on the second cell instructed to deactivate. It stops (or does not follow the radio resource allocation information indicated by the downlink control channel).
- the second cell that is instructed to activate by the base station device and is performing downlink reception processing is called an activation cell, and the second cell and deactivation immediately after allocation from the base station device to the mobile station device
- the second cell that has been instructed and has stopped the downlink reception process is called a deactivated cell.
- the first cell is always an activated cell.
- the mobile station apparatus when the mobile station apparatus communicates with the base station apparatus using a plurality of cells, the mobile station apparatus may be connected to the base station apparatus via a repeater as shown in FIG. In such a case, both or one of the reception timing of the downlink component carrier in the mobile station apparatus and the transmission timing to the base station apparatus for each uplink component carrier is different for each cell. In particular, when the transmission timing to the base station apparatus for each uplink component carrier is different, the mobile station apparatus adjusts the transmission timing for each uplink component carrier of each cell and transmits data to the base station apparatus. There is a need.
- FIG. 9 is a diagram illustrating the configuration of the mobile station apparatus according to the embodiment of the present invention.
- Each of the mobile station apparatuses 1-1 to 1-3 includes a radio unit 101, a transmission processing unit 103, a modulation unit 105, a transmission HARQ processing unit 107, a control unit 109, an uplink reference signal generation unit 111, and a random access preamble generation unit. 113, a reception processing unit 115, a demodulation unit 117, a reception HARQ processing unit 119, and a mobile station management unit 121.
- the mobile station management unit 121 includes a UL schedule unit 123, a control data creation unit 125, a control data analysis unit 127, a cell management unit 129, and a TA management unit 131.
- User data and control data are input to the transmission HARQ processing unit 107.
- the transmission HARQ processing unit 107 encodes input data according to an instruction from the control unit 109, and performs puncture processing on the encoded data. Then, transmission HARQ processing section 107 outputs the punctured data to modulation section 105 and stores the encoded data.
- the transmission HARQ processing unit 107 performs puncture processing different from the puncture performed on the previously stored encoded data, and the punctured data is processed. Output to the modulation unit 105.
- the transmission HARQ processing unit 107 deletes the stored data according to an instruction from the control unit 109.
- Modulation section 105 modulates input data from transmission HARQ processing section 107 and outputs the result to transmission processing section 103.
- the transmission processing unit 103 receives input data (or input signals) from the modulation unit 105, the uplink reference signal generation unit 111, and the random access preamble generation unit 113 according to instructions from the control unit 109, for each uplink component carrier of each cell. Mapping to the channel, OFDM signal processing such as serial / parallel conversion, DFT-IFFT (Inverse Fast Fourier Transform) conversion, and CP insertion is performed on the mapped data to generate an OFDM signal.
- OFDM signal processing such as serial / parallel conversion, DFT-IFFT (Inverse Fast Fourier Transform) conversion, and CP insertion is performed on the mapped data to generate an OFDM signal.
- the transmission processing unit 103 adjusts the transmission timing of the signal output for each uplink component carrier of each cell from the transmission timing information passed from the control unit 109 and the transmission timing group information for adjusting the transmission timing, and transmits After the timing adjustment, the OFDM signal is output to the wireless unit 101.
- the uplink reference signal generation unit 111 generates an uplink reference signal from the uplink reference signal generation information acquired from the mobile station management unit 121 according to an instruction from the control unit 109, and transmits the generated uplink reference signal to the transmission processing unit 103. Output to.
- the random access preamble generation unit 113 generates a random access preamble from information regarding random access acquired from the mobile station management unit 121 according to an instruction from the control unit 109, and outputs the generated random access preamble to the transmission processing unit 103.
- the radio unit 101 up-converts the input signal from the transmission processing unit 103 to a radio frequency according to an instruction from the control unit 109, and transmits the radio signal from the transmission antenna.
- Radio section 101 down-converts the radio signal received from the antenna and outputs it to reception processing section 115.
- the reception processing unit 115 performs FFT (Fast Fourier Transform) processing on the input signal from the radio unit 101 and outputs the processed signal to the demodulation unit 117.
- Demodulation section 117 performs demodulation processing of input data and outputs the demodulated data to reception HARQ processing section 119.
- the reception HARQ processing unit 119 performs a decoding process on the input data. If the decoding process is successful, the reception HARQ processing unit 119 outputs control data to the mobile station management unit 121 and outputs user data to an upper layer.
- the reception HARQ processing unit 119 stores the data that has failed in the decoding process when the decoding process of the input data has failed.
- the reception HARQ processing unit 119 When receiving the retransmission data, the reception HARQ processing unit 119 combines the stored data and the retransmission data and performs a decoding process. Also, the reception HARQ processing unit 119 notifies the mobile station management unit 121 of success or failure of input data decoding processing. Further, the reception HARQ processing unit 119 deletes the stored data in accordance with an instruction from the control unit 109.
- the control unit 109 is configured to include a radio unit 101, a transmission processing unit 103, a modulation unit 105, a transmission HARQ processing unit 107, an uplink reference signal generation unit 111, and a random access preamble generation unit 113.
- the reception processing unit 115, the demodulation unit 117, and the reception HARQ processing unit 119 are controlled.
- the mobile station management unit 121 includes a UL schedule unit 123, a control data creation unit 125, a control data analysis unit 127, a cell management unit 129, and a TA management unit 131.
- the control data creation unit 125 creates a data ACK / NACK message from the decoding result of the received data from the reception HARQ processing unit 119, creates control data such as a message indicating downlink radio quality, and creates the created control Data is output to the transmission HARQ processing unit 107.
- the control data analysis unit 127 analyzes the control data input from the reception HARQ processing unit 119.
- the control data analysis unit 127 outputs the cell system information, the cell allocation information, the random access response message, the uplink reference signal generation information, and the like received from the base station device 3 to the cell management unit 129, and the transmission timing message, Information of the cell from which the transmission timing message is acquired, transmission timing timer information, and the like are output to the TA management unit 131.
- the UL scheduling unit 123 transmits a transmission processing unit 103, a modulation unit 105, and a transmission through the control unit 109 based on uplink data scheduling information from the base station apparatus 3 and a transmitted uplink data response (ACK / NACK).
- the HARQ processing unit 107 is controlled.
- the UL schedule unit 123 instructs the cell management unit 129 to start random access based on control information from an upper layer.
- the cell management unit 129 manages the cells allocated from the base station apparatus 3, and the physical channel configuration, transmission power information, information on random access, and uplink reference signal generation information for each cell received from the base station apparatus 3 For example, system resources of each cell, radio resources of uplink reference signals (measurement reference signals), radio resources individually allocated to the mobile station apparatus 1-1 such as radio resources of the uplink control channel PUCCH, etc. .
- the cell management unit 129 notifies the random access preamble generation unit 113 of information related to random access via the control unit 109, and notifies the uplink reference signal generation unit 111 of generation information of the uplink reference signal.
- the cell management unit 129 notifies the TA management unit 131 of group information of cells having the same transmission timing.
- the cell management unit 129 instructs the random access preamble generation unit 113 via the control unit 109 to transmit a random access preamble to the base station device 3 when starting communication or when making a schedule request for uplink data. .
- the cell management unit 129 When notified from the TA management unit 131 that the transmission timing timer has expired, the cell management unit 129 instructs the transmission HARQ processing unit 107 to stop HARQ processing of the cell whose transmission timing has expired via the control unit 109. And erasing data stored in the cell whose transmission timing has expired, and instructing the uplink reference signal generation section 111 to stop generating the uplink reference signal of the cell whose transmission timing has expired. Further, the cell management unit 129 releases the radio resource of the uplink control channel PUCCH and the radio resource of the uplink reference signal (measurement reference signal) allocated from the base station apparatus 3 of the cell whose transmission timing has expired.
- the TA management unit 131 manages the transmission timing and the transmission timing timer for each cell or each transmission timing group. Further, the TA management unit 131 also manages group information of cells having the same transmission timing. When the TA management unit 131 acquires the transmission timing message, the TA management unit 131 notifies the transmission processing unit 103 of the transmission timing group information and the transmission timing information to which the transmission timing included in the transmission timing message is applied via the control unit 109, and transmits the transmission timing message. The transmission timing timer of the transmission timing group to which the timing is applied is started or restarted. Then, the TA management unit 131 notifies the cell management unit 129 that the transmission timing timer has been started or restarted for each cell. Further, when the transmission timing timer expires for each cell, the TA management unit 131 notifies the cell management unit 129 that the transmission timing timer of the target cell has expired.
- FIG. 10 is a diagram showing a configuration of the base station apparatus 3 according to the embodiment of the present invention.
- the base station apparatus 3 includes a radio unit 201, a transmission processing unit 203, a modulation unit 205, a transmission HARQ processing unit 207, a control unit 209, a downlink reference signal generation unit 211, a preamble detection unit 213, a reception processing unit 215, and a demodulation unit 217.
- the base station management unit 221 includes a DL / UL schedule unit 223, a control data creation unit 225, a control data analysis unit 227, a cell management unit 229, and a TA management unit 231.
- Transmission HARQ processing unit 207 performs encoding on the input data and performs puncture processing on the encoded data according to an instruction from the control unit 209. Then, transmission HARQ processing section 207 outputs the punctured data to modulation section 205 and stores the encoded data. Further, when the control unit 209 instructs the transmission HARQ processing unit 207 to retransmit the data, the transmission HARQ processing unit 207 performs puncture processing different from the previously performed puncture on the stored encoded data, and the punctured data is processed. The result is output to the modulation unit 205. Further, the transmission HARQ processing unit 207 deletes the stored data in accordance with an instruction from the control unit 209.
- the modulation unit 205 modulates the input data from the transmission HARQ processing unit 207 and outputs it to the transmission processing unit 203.
- the transmission processing unit 203 receives the input data (or signal) from the modulation unit 205 and the downlink reference signal generation unit 211 according to an instruction from the control unit 209, the downlink control channel PDCCH of the downlink component carrier of each cell, and the downlink Mapping to each channel such as synchronous channel DSCH, broadcast channel PBCH, downlink shared channel PDSCH, etc., serial / parallel conversion, IFFT (Inverse Fast Fourier Transform) conversion, CP insertion, etc. OFDM signal processing is performed to generate an OFDM signal. Then, the transmission processing unit 203 outputs the generated OFDM signal to the wireless unit 201.
- the radio unit 201 up-converts the input signal from the transmission processing unit 203 to a radio frequency according to an instruction from the control unit 209, and transmits the radio signal to the mobile station apparatuses 1-1 to 1-3 from the transmission antenna.
- Radio section 201 receives a radio signal from mobile station apparatus 1-1 from the antenna, down-converts the received signal into a baseband signal, and outputs the received signal to reception processing section 215 or preamble detection section 213. To do.
- the reception processing unit 215 performs FFT (Fast Fourier Transform) processing on the input signal from the radio unit 201 and outputs the processed signal to the demodulation unit 217.
- FFT Fast Fourier Transform
- the reception processing unit 215 measures the radio channel quality and the amount of transmission timing deviation from the uplink reference signal (measurement reference signal), and passes the measurement result to the base station management unit 221.
- the uplink communication scheme is assumed to be a single carrier scheme such as DFT-spread OFDM, but a multicarrier scheme such as the OFDM scheme may be used.
- Demodulation section 217 performs demodulation processing of input data and outputs the demodulated data to reception HARQ processing section 219.
- the reception HARQ processing unit 219 performs the decoding process of the input data, and when the decoding process is successful, outputs the control data to the base station management unit 221 and outputs the user data to the upper layer.
- the reception HARQ processing unit 219 stores the data that has failed in the decoding process when the decoding process of the input data has failed.
- the reception HARQ processing unit 219 combines the stored data and the retransmission data and performs a decoding process. Also, the reception HARQ processing unit 219 notifies the base station management unit 221 of the success or failure of the input data decoding process. Further, the reception HARQ processing unit 219 deletes the stored data in accordance with an instruction from the control unit 209.
- the preamble detection unit 213 performs a correlation process on the input signal from the radio unit 201 and performs a random access preamble detection process.
- a transmission timing deviation amount is calculated from the detected random access preamble, and the base station management unit 221 is notified of the cell in which the random access preamble is detected, information on the detected preamble, and the transmission timing deviation amount.
- the control unit 209 Based on an instruction from the base station management unit 221, the control unit 209 performs a radio unit 201, a transmission processing unit 203, a modulation unit 205, a transmission HARQ processing unit 207, a downlink reference signal generation unit 211, a reception processing unit 215, a demodulation Unit 217 and reception HARQ processing unit 219 are controlled.
- the base station management unit 221 includes a DL / UL schedule unit 223 that performs downlink and uplink schedules, a control data creation unit 225, a control data analysis unit 227, a cell management unit 229, and a TA management unit 231.
- the DL / UL schedule unit 223 includes downlink radio channel quality information notified from the mobile station apparatus 1-1, data information of each user notified from the upper layer, and control data generated by the control data generation unit 225.
- a schedule for mapping user data and control data to each downlink channel is performed from the data, and the schedule result is passed to the control unit 209.
- the DL / UL schedule unit 223 maps user data to each uplink channel from the uplink radio channel quality result from the reception processing unit 215 and the radio resource allocation request from the mobile station apparatus 1-1.
- the DL / UL schedule unit 223 allocates the uplink shared channel PUSCH and controls the allocated uplink shared channel PUSCH and the preamble number.
- the data creation unit 225 is notified.
- the DL / UL scheduling unit 223 moves from the downlink and uplink schedule status of the mobile station apparatus 1-1. It is determined whether or not to transmit the transmission timing information to the station apparatus 1-1.
- the TA management unit 231 is reported to transmit the transmission timing information, and the transmission timing information and the transmission timing are applied.
- the control data creation unit 225 is notified of the transmission timing group information.
- the control data creation unit 225 creates control data arranged on the downlink control channel PDCCH and control data arranged on the downlink shared channel PDSCH.
- Control message including schedule information, uplink data response (ACK / NACK), system information message including configuration information of physical channel, transmission power information of each channel, information on random access, setting information of cell to be used ( Initial setting message including information on random access), random access response message including preamble number, transmission timing information and scheduling information, contention resolution message, and transmission timing message including transmission timing information, Control data is created.
- the control data analysis unit 227 controls the transmission HARQ processing unit 207 via the control unit 209 according to the downlink data response (ACK / NACK) result from the mobile station apparatus 1-1.
- the cell management unit 229 manages each cell and system information of each cell (physical channel configuration information, transmission power information of each channel, information on random access, cell relation information of transmission timing, etc.). In addition, the cell management unit 229 allocates one or more cells to the mobile station apparatuses 1-1 to 1-3, and the radio resources of the uplink reference signal (measurement reference signal) and the uplink control channel PUCCH Allocate radio resources. Then, the cell management unit 229 passes the cell allocation information, the cell system information, the allocated radio resource information, and the like to the control data creation unit 225 so as to notify the information related to the allocated cell.
- the cell management unit 229 instructs the transmission HARQ processing unit 207 to stop HARQ processing of the cell whose transmission timing has expired via the control unit 209. Then, it instructs the transmission HARQ processing unit 207 to erase the data stored in the cell whose transmission timing has expired, and the radio resource and uplink of the uplink reference signal (measurement reference signal) assigned to the mobile station apparatus 1-1 Releases radio resources of the control channel PUCCH.
- the TA management unit 231 manages the transmission timing and transmission timing timer for each cell of the mobile station apparatuses 1-1 to 1-3. Further, the TA management unit 231 also manages cell related information that has the same transmission timing.
- the TA management unit 231 acquires a transmission timing shift amount from the preamble detection unit 213 or the reception processing unit 215, the TA management unit 231 creates transmission timing information and transmission timing group information to which the transmission timing is applied, and a DL / UL scheduling unit 223. Is notified of transmission timing information and transmission timing group information to which the transmission timing is applied.
- the TA management unit 231 starts or restarts the transmission timing timer.
- the TA management unit 231 notifies the cell management unit 229 that the transmission timing timer of the target cell has expired.
- a radio communication system is assumed in which the base station apparatus described in FIG. 6 and FIG. 7 allocates a plurality of cells to the mobile station apparatus, and the base station apparatus and the mobile station apparatus communicate with each other through the allocated plurality of cells. .
- a wireless communication system is assumed in which communication is performed via a plurality of cells having different transmission timings from the mobile station apparatus described in FIG.
- the base station apparatus allocates one or more cells having different frequencies corresponding to the communication capability and communication conditions of the mobile station apparatus for each frequency from among a plurality of cells. Then, the mobile station apparatus transmits / receives data to / from the base station apparatus via the assigned cell.
- a mobile station apparatus communicates with a base station apparatus using a plurality of cells, it may be connected to the base station apparatus via a repeater as shown in FIG. In such a case, the reception timing of data from the downlink component carrier in the mobile station apparatus may be different for each cell.
- the transmission timing to the base station apparatus may be different for each uplink component carrier of each cell. When the transmission timing to the base station apparatus differs for each uplink component carrier, the mobile station apparatus needs to adjust the transmission timing for each uplink component carrier of each cell.
- the base station apparatus needs to notify transmission timing information for each uplink component carrier of each cell.
- notifying transmission timing information of all uplink component carriers means that when there are a plurality of uplink component carriers having the same transmission timing, a plurality of the same transmission timing information is transmitted, and the utilization efficiency of radio resources is poor.
- the base station apparatus groups cells having the same transmission timing from the mobile station apparatus (hereinafter referred to as “transmission timing group”). Then, the base station apparatus sets one cell as the first cell and sets the other cells as the second cell.
- transmission timing group cells having the same transmission timing from the mobile station apparatus
- the base station apparatus sets one cell as the first cell and sets the other cells as the second cell.
- the mobile station apparatus acquires transmission timing information from a certain cell after setting a plurality of cells and transmission timing groups from the base station apparatus, the mobile station apparatus transmits to all cells in the transmission timing group to which the cell that has notified the transmission timing information belongs.
- the uplink transmission timing is adjusted using the acquired transmission timing information. In this way, it is only necessary to notify one transmission timing information to one transmission timing group, and it is not necessary to use useless radio resources.
- the transmission timing group is the same as the first transmission timing group composed of the first cell and the second cell having the same uplink transmission timing as the first cell, and the uplink transmission timing of the first cell is the same. It is classified into a second transmission timing group composed of a second cell of uplink transmission timing.
- the first transmission timing group includes at least a first cell
- the second transmission timing group includes at least one second cell.
- the base station apparatus 3 includes cells 1 to 5 as shown in FIG. 11.
- the cells 1 to 3 are transmission timing groups having the same transmission timing, and the cells 4 to 5 are Assume that the transmission timings are different transmission timing groups.
- the mobile station apparatus 1-1 performs a cell search and finds one cell of the base station apparatus 3. Here, assume that cell 1 is found.
- the mobile station apparatus 1-1 receives the broadcast channel PBCH of the cell 1, and acquires system information (cell physical channel configuration, transmission power information, information on random access, etc.). Then, the mobile station apparatus 1-1 transmits a random access preamble to the random access channel RACH of the cell 1 for initial access using information on random access included in the system information. Then, the mobile station apparatus 1-1 acquires a random access response message including transmission timing information for the cell 1 from the base station apparatus 3, and determines the uplink component carrier for the cell 1 from the transmission timing information included in the random access response. Adjust the transmission timing and start the transmission timing timer.
- the mobile station apparatus 1-1 transmits the message 3 to the base station apparatus 3 via the cell 1.
- the mobile station apparatus 1-1 transmits the message 3 including the content indicating the initial access in the message 3.
- the mobile station apparatus 1-1 will complete
- the base station device 3 allocates a cell to be used by the mobile station device 1-1 and notifies the cell configuration information.
- the cell configuration information indicates cell information of the first cell and information on the transmission timing group.
- base station apparatus 3 assigns cells 1 to 5 to mobile station apparatus 1-1, sets cell 1 as the first cell, sets cells 2 to 5 as the second cell, and sets cell 1 Cell 3 is set to the same transmission timing group, and cell 4 and cell 5 are set to the same transmission timing group.
- the base station apparatus 3 transmits the system information of the cell allocated to the mobile station apparatus 1-1, the group information of the transmission timing group, the allocation information of the uplink control channel PUCCH of the first cell, the uplink reference signal (for measurement). Reference information) generation information, radio resource allocation information for transmitting an uplink reference signal (measurement reference signal), and setting information such as periodic uplink shared channel PUSCH radio resource allocation information are also included in the mobile station apparatus. Notify 1-1.
- the base station apparatus 3 instructs the mobile station apparatus 1-1 to activate, and instructs the cells 2 to 5 to start the downlink reception process.
- the mobile station apparatus 1-1 transmits the same transmission as that of the cell 1 from the group information of the transmission timing group and the acquired transmission timing information.
- the uplink transmission timings of cell 2 and cell 3 that are timing groups are adjusted.
- data is exchanged between the mobile station apparatus 1-1 and the base station apparatus 3 via the downlink component carriers of the cell 1 to cell 5 and the uplink component carriers of the cell 1 to cell 3.
- the base station device 3 When the amount of transmission data from the mobile station device 1-1 increases and there is a cell that is not used by the mobile station device 1-1, the base station device 3 is a random instruction that instructs to perform non-contention based random access.
- the access instruction information is notified by the downlink control channel PDCCH.
- the base station apparatus 3 notifies the mobile station apparatus 1-1 of random access instruction information for the cell 5.
- the random access instruction information includes a preamble number and a random access channel number, and the mobile station apparatus 1-1 uses the preamble specified by the base station apparatus 3 and the random access channel RACH to perform random access.
- the access preamble is transmitted to the random access channel RACH of the cell 5.
- the base station apparatus 3 When the base station apparatus 3 detects the random access preamble, it calculates a transmission timing shift amount from the random access preamble, and the mobile station apparatus 1-1 includes the random timing information including the transmission timing information via the downlink component carrier of the cell 5. Notify access response. When receiving the random access response, the mobile station apparatus 1-1 adjusts the transmission timing information included in the random access response as the uplink transmission timing of the cell 5, and further sets the transmission timing information to the same transmission timing group. The transmission timing is adjusted as the uplink transmission timing of the cell 4, and the transmission timing timer is started. Then, the mobile station apparatus 1-1 completes the Non-contention based Random Access procedure. Thereafter, data is exchanged between the mobile station apparatus 1-1 and the base station apparatus 3 including the uplink component carriers of the cells 4 and 5.
- the mobile station apparatus 1-1 has one transmission timing timer for each transmission timing group, and when the transmission timing information is acquired, starts or restarts the transmission timing timer.
- the base station apparatus 3 has one transmission timing timer for each transmission timing group, and when the transmission timing information is transmitted, the transmission timing timer is started or restarted. While the transmission timing timer is operating, it is in uplink synchronization (transmission timing is valid), and the mobile station apparatus 1-1 transmits uplink transmission on the uplink component carrier of the target transmission timing group. Is possible.
- the transmission timing timer may be configured to be provided for each cell.
- the base station apparatus 3 measures the uplink reference signal of each cell transmitted from the mobile station apparatus 1-1, and shifts the transmission timing group 1 or the transmission timing group 2 of the mobile station apparatus 1-1. Calculate the amount. Then, the mobile station apparatus 1-1 is notified of a transmission timing message including transmission timing information within a period in which the transmission timing of each transmission timing group is valid. The transmission timing message is notified via any one cell in the transmission timing group to be notified. For example, the transmission timing message of the transmission timing group 1 is notified to the mobile station apparatus 1-1 via any one of the cell 1, the cell 2, and the cell 3.
- the mobile station apparatus 1-1 uses the transmission timing information included in the transmission timing message for all the cells in the transmission timing group to which the cell notified of the transmission timing message belongs. To adjust the transmission timing. For example, when the mobile station apparatus 1-1 receives a transmission timing message in the cell 1, the cell 1, cell 2 and cell of the transmission timing group 1 to which the cell 1 belongs using the transmission timing information included in the transmission timing message. 3 transmission timing is adjusted.
- the cells 2 to 5 of the second cell have been instructed to activate and are performing downlink reception processing. However, if there is a cell that is not instructed to activate (deactivate cell), It is not necessary to adjust the transmission timing for the activate cell.
- the mobile station apparatus 1-1 adjusts the transmission timing for the cell.
- the transmission timing message may be sent as a transmission timing message alone, or may be sent together with user data or other control messages.
- the transmission timing may be calculated from the uplink reference signal received by each cell by the base station apparatus 3, or may be calculated from the uplink reference signal of a specific cell in each transmission timing group. Good. Moreover, it is good also as a transmission timing which notifies the transmission timing of one cell calculated at a certain time, and it is good also considering the average value of the transmission timing measured in each cell in each transmission timing group as a transmission timing.
- FIG. 12 shows a processing flowchart of the mobile station apparatus 1-1 when the transmission timing information is received.
- the mobile station apparatus 1-1 receives a transmission timing message via a certain cell
- the mobile station apparatus 1-1 uses the transmission timing message as the uplink transmission timing of the activated cell in the transmission timing group to which the cell receiving the transmission timing message belongs.
- the included transmission timing information is applied (step S101).
- the mobile station apparatus 1-1 restarts the transmission timing timer of the transmission timing group for which the transmission timing is set (step S102).
- the base station device 3 only needs to notify one transmission timing information to one transmission timing group to the mobile station device 1-1, and uses useless radio resources. No need.
- a method is shown in which the base station apparatus 3 designates a cell for notifying the mobile station apparatus 1-1 of a transmission timing message. Then, when the mobile station apparatus 1-1 receives the transmission timing message via the designated cell and receives the transmission timing message in a cell other than the designated cell, the mobile station apparatus 1-1 determines that the transmission timing message is invalid. And discard it. By doing so, it is possible to prevent malfunction when the transmission timing message is transmitted by mistake.
- FIG. 9 is a diagram illustrating the configuration of the mobile station apparatus according to the embodiment of the present invention.
- Each of the mobile station apparatuses 1-1 to 1-3 includes a radio unit 101, a transmission processing unit 103, a modulation unit 105, a transmission HARQ processing unit 107, a control unit 109, an uplink reference signal generation unit 111, and a random access preamble generation unit. 113, a reception processing unit 115, a demodulation unit 117, a reception HARQ processing unit 119, and a mobile station management unit 121.
- the mobile station management unit 121 includes a UL schedule unit 123, a control data creation unit 125, a control data analysis unit 127, a cell management unit 129, and a TA management unit 131.
- the mobile station management unit 121 includes a UL schedule unit 123, a control data creation unit 125, a control data analysis unit 127, a cell management unit 129, and a TA management unit 131.
- the control data creation unit 125 creates control data for the mobile station device 1-1.
- the control data creation unit 125 creates a data ACK / NACK message from the decoding result of the received data from the reception HARQ processing unit 119, creates control data such as a message indicating downlink radio quality, and creates the created control Data is output to the transmission HARQ processing unit 107.
- the control data analysis unit 127 analyzes the control data input from the reception HARQ processing unit 119.
- the control data analysis unit 127 outputs the cell system information, cell allocation information, random access response message, uplink reference signal generation information, and the like received from the base station apparatus 3 to the cell management unit 129, and the transmission timing message is displayed.
- the notified cell information, the transmission timing message, the information of the cell from which the transmission timing message is acquired, the transmission timing timer information, and the like are output to the TA management unit 131.
- the UL scheduling unit 123 performs allocation to each uplink channel based on the scheduling information of the uplink data from the base station apparatus 3 and the response (ACK / NACK) of the transmitted uplink data, and via the control unit 109
- the transmission processing unit 103, the modulation unit 105, and the transmission HARQ processing unit 107 are controlled. Further, the cell management unit 129 is instructed to perform random access based on control information from the upper layer.
- the cell management unit 129 manages the cells allocated from the base station apparatus 3, and the physical channel configuration, transmission power information, information on random access, and uplink reference signal generation information for each cell received from the base station apparatus 3 For example, system resources of each cell, radio resources of uplink reference signals (measurement reference signals), radio resources individually allocated to the mobile station apparatus 1-1 such as radio resources of the uplink control channel PUCCH, etc. .
- the cell management unit 129 notifies the random access preamble generation unit 113 of information related to random access via the control unit 109, and notifies the uplink reference signal generation unit 111 of generation information of the uplink reference signal.
- the cell management unit 129 notifies the TA management unit 131 of group information of cells having the same transmission timing.
- the cell management unit 129 instructs the random access preamble generation unit 113 via the control unit 109 to transmit a random access preamble to the base station device 3 when starting communication or when making a schedule request for uplink data. .
- the cell management unit 129 When notified from the TA management unit 131 that the transmission timing timer has expired, the cell management unit 129 instructs the transmission HARQ processing unit 107 to stop HARQ processing of the cell whose transmission timing has expired via the control unit 109. And erasing data stored in the cell whose transmission timing has expired, and instructing the uplink reference signal generation section 111 to stop generating the uplink reference signal of the cell whose transmission timing has expired. Further, the cell management unit 129 releases the radio resource of the uplink control channel PUCCH and the radio resource of the uplink reference signal (measurement reference signal) allocated from the base station apparatus 3 of the cell whose transmission timing has expired.
- the TA management unit 131 manages the transmission timing and the transmission timing timer for each cell or each transmission timing group. In addition, the TA management unit 131 also manages cells to which group information (transmission timing group information) and transmission timing messages of cells having the same transmission timing are notified. When the TA management unit 131 acquires the transmission timing message and the information of the cell that has received the transmission timing message, the TA management unit 131 checks whether the cell is the cell designated by the base station device 3. When the TA management unit 131 determines that the transmission timing message is received from the cell specified by the base station apparatus 3, the TA management unit 131 determines which group the cell that has received the transmission timing message belongs to, and controls the control unit 109.
- the transmission processing unit 103 is notified of the transmission timing information included in the transmission timing message and the group information of the cell for adjusting the transmission timing, and the transmission timing timer is started or restarted. Then, the TA management unit 131 notifies the cell management unit 129 that the transmission timing timer has been started or restarted for each cell. Further, when the transmission timing timer expires for each cell, the TA management unit 131 notifies the cell management unit 129 that the transmission timing timer of the target cell has expired. Note that if the received transmission timing information is a cell designated by the base station apparatus 3, the TA management unit 131 discards the received transmission timing information.
- FIG. 10 is a diagram showing a configuration of the base station apparatus 3 according to the embodiment of the present invention.
- the base station apparatus 3 includes a radio unit 201, a transmission processing unit 203, a modulation unit 205, a transmission HARQ processing unit 207, a control unit 209, a downlink reference signal generation unit 211, a preamble detection unit 213, a reception processing unit 215, and a demodulation unit 217.
- the base station management unit 221 includes a DL / UL schedule unit 223, a control data creation unit 225, a control data analysis unit 227, a cell management unit 229, and a TA management unit 231.
- Radio section 201 transmission processing section 203, modulation section 205, transmission HARQ processing section 207, control section 209, downlink reference signal generation section 211, preamble detection section 213, reception processing section 215, demodulation section 217, and reception HARQ Since the operation of the processing unit 219 is the same as that of the first embodiment, detailed description will not be repeated.
- the base station management unit 221 includes a DL / UL schedule unit 223 that performs downlink and uplink schedules, a control data creation unit 225, a control data analysis unit 227, a cell management unit 229, and a TA management unit 231.
- the DL / UL schedule unit 223 includes downlink radio channel quality information notified from the mobile station apparatus 1-1, data information of each user notified from the upper layer, and control data generated by the control data generation unit 225.
- a schedule for mapping user data and control data to each downlink channel is performed from the data, and the schedule result is passed to the control unit 209.
- the DL / UL scheduling unit 223 maps user data to each uplink channel from the uplink radio channel quality result from the reception processing unit 215 and the radio resource allocation request from the mobile station device 1-1. Schedule.
- the DL / UL schedule unit 223 allocates the uplink shared channel PUSCH and controls the allocated uplink shared channel PUSCH and the preamble number.
- the data creation unit 225 is notified.
- the DL / UL schedule unit 223 is notified of the transmission timing information from the TA management unit 231
- the DL / UL schedule unit 223 notifies the mobile station device 1-1 of the transmission timing information from the downlink and uplink schedule status of the mobile station device 1-1.
- the TA management unit 231 is notified of the transmission timing information, and the transmission timing information is notified to the control data creation unit 225.
- the DL / UL schedule unit 223 schedules the transmission timing information in a cell designated by the TA management unit 231.
- the control data creation unit 225 creates control data arranged on the downlink control channel PDCCH and control data arranged on the downlink shared channel PDSCH.
- Control message including schedule information, uplink data response (ACK / NACK), system information message including configuration information of physical channel, transmission power information of each channel, information on random access, setting information of cell to be used ( Initial setting message including information on random access), random access response message including preamble number, transmission timing information and scheduling information, contention resolution message, message specifying a cell notifying transmission timing, and And control data such as a transmission timing message including transmission timing information.
- the control data analysis unit 227 analyzes the control data sent from the mobile station device 1-1.
- the control data analysis unit 227 controls the transmission HARQ processing unit 207 via the control unit 209 according to the downlink data response (ACK / NACK) result from the mobile station apparatus 1-1.
- the cell management unit 229 manages each cell and system information of each cell (physical channel configuration information, transmission power information of each channel, information on random access, cell relation information of transmission timing, etc.). In addition, the cell management unit 229 allocates one or more cells to the mobile station apparatuses 1-1 to 1-3, and the radio resources of the uplink reference signal (measurement reference signal) and the uplink control channel PUCCH Allocate radio resources. Then, the cell management unit 229 passes the cell allocation information, the cell system information, the allocated radio resource information, and the like to the control data creation unit 225 so as to notify the information related to the allocated cell.
- the cell management unit 229 instructs the transmission HARQ processing unit 207 to stop HARQ processing of the cell whose transmission timing has expired via the control unit 209. Then, it instructs the transmission HARQ processing unit 207 to erase the data stored in the cell whose transmission timing has expired, and the radio resource and uplink of the uplink reference signal (measurement reference signal) assigned to the mobile station apparatus 1-1 Releases radio resources of the control channel PUCCH.
- the TA management unit 231 manages the transmission timing and transmission timing timer for each cell of the mobile station apparatuses 1-1 to 1-3. Further, the TA management unit 231 also manages cell related information that has the same transmission timing. TA management unit 231 determines in which cell transmission timing information is to be notified to mobile station apparatuses 1-1 to 1-3, and creates a cell for reporting transmission timing information with DL / UL scheduling unit 223 and control data. To the unit 225. When the TA management unit 231 acquires a transmission timing shift amount from the preamble detection unit 213 or the reception processing unit 215, the TA management unit 231 creates transmission timing information and notifies the control data creation unit 225 of the transmission timing information.
- the transmission timing timer is started or restarted.
- the TA management unit 231 notifies the cell management unit 229 that the transmission timing timer of the target cell has expired.
- a radio communication system is assumed in which the base station apparatus described in FIG. 6 and FIG. 7 allocates a plurality of cells to the mobile station apparatus, and the base station apparatus and the mobile station apparatus communicate with each other via the allocated plurality of cells.
- a wireless communication system is assumed in which communication is performed via a plurality of cells having different transmission timings from the mobile station apparatus described in FIG.
- the base station apparatus 3 includes cells 1 to 5 as shown in FIG. 13, and the cells 1 to 3 are transmission timing groups (transmission timing group 1) having the same transmission timing.
- the cells 4 to 5 are assumed to be another transmission timing group (transmission timing group 2) having the same transmission timing.
- the mobile station apparatus 1-1 performs a cell search and finds one cell of the base station apparatus 3. Here, assume that cell 1 is found.
- the mobile station apparatus 1-1 receives the broadcast channel PBCH of the cell 1, and acquires system information (cell physical channel configuration, transmission power information, information on random access, etc.). Then, the mobile station apparatus 1-1 transmits a random access preamble to the random access channel RACH of the cell 1 for initial access using information on random access included in the system information. Then, the mobile station apparatus 1-1 acquires a random access response message including transmission timing information for the cell 1 from the base station apparatus 3, and determines the uplink component carrier for the cell 1 from the transmission timing information included in the random access response. Adjust the transmission timing and start the transmission timing timer.
- the mobile station apparatus 1-1 transmits the message 3 to the base station apparatus 3 via the cell 1.
- the mobile station apparatus 1-1 transmits the message 3 including the content indicating the initial access in the message 3.
- the mobile station apparatus 1-1 will complete
- the base station device 3 allocates a cell to be used by the mobile station device 1-1 and notifies the cell configuration information.
- the cell configuration information indicates cell information of the first cell and information on the transmission timing group.
- base station apparatus 3 assigns cells 1 to 5 to mobile station apparatus 1-1, sets cell 1 as the first cell, and sets cells 2 to 5 as the second cell.
- Cell 1 to cell 3 are set to a transmission timing group (transmission timing group 1) having the same transmission timing
- cell 4 and cell 5 are set to different transmission timing groups (transmission timing group 2) having the same transmission timing. It is set.
- the mobile station apparatus 1-1 is set to be notified of the transmission timing information via the cell 1 and the cell 4.
- the base station apparatus 3 transmits the system information of the cell allocated to the mobile station apparatus 1-1, the group information of the transmission timing group, the information of the cell notifying the transmission timing message, the uplink control channel PUCCH of the first cell.
- Assignment information uplink reference signal (measurement reference signal) generation information, radio resource assignment information for transmitting an uplink reference signal (measurement reference signal), periodic uplink shared channel PUSCH radio resource assignment information
- the base station apparatus 3 instructs the mobile station apparatus 1-1 to activate the cells 2 to 5, and the downlink reception process for the cells 2 to 5 is performed. Suppose you want to start.
- the mobile station apparatus 1-1 transmits the same transmission as that of the cell 1 from the acquired group information of the transmission timing group and the transmission timing information.
- the uplink transmission timings of cell 2 and cell 3 that are timing groups are adjusted.
- data is exchanged between the mobile station apparatus 1-1 and the base station apparatus 3 via the downlink component carriers of the cell 1 to cell 5 and the uplink component carriers of the cell 1 to cell 3.
- the base station device 3 When the amount of transmission data from the mobile station device 1-1 increases and there is a cell that is not used by the mobile station device 1-1, the base station device 3 is a random instruction that instructs to perform non-contention based random access.
- the access instruction information is notified by the downlink control channel PDCCH.
- the base station apparatus 3 notifies the mobile station apparatus 1-1 of random access instruction information for the cell 5.
- the random access instruction information includes a preamble number and a random access channel number, and the mobile station apparatus 1-1 uses the preamble and random access channel RACH specified by the base station apparatus 3 to perform random access.
- the preamble is transmitted to the random access channel RACH of the cell 5.
- the base station device 3 When the base station device 3 detects the random access preamble, the base station device 3 calculates transmission timing from the random access preamble, and transmits to the mobile station device 1-1 a random access response including transmission timing information via the downlink component carrier of the cell 5. To be notified. When receiving the random access response, the mobile station apparatus 1-1 adjusts the transmission timing information included in the random access response as the uplink transmission timing of the cell 5, and further sets the transmission timing information to the same transmission timing group. The transmission timing is adjusted as the uplink transmission timing of the cell 4, and the transmission timing timer is started. Then, the mobile station apparatus 1-1 completes the Non-contention based Random Access procedure. Thereafter, data is exchanged between the mobile station apparatus 1-1 and the base station apparatus 3 including the uplink component carriers of the cells 4 and 5.
- the mobile station apparatus 1-1 has one transmission timing timer for each transmission timing group, and starts or restarts the transmission timing timer when receiving transmission timing information.
- the base station apparatus 3 has one transmission timing timer for each transmission timing group, and when the transmission timing information is transmitted, the transmission timing timer is started or restarted. While the transmission timing timer is operating, it is in uplink synchronization (transmission timing is valid), and the mobile station apparatus 1-1 transmits uplink transmission on the uplink component carrier of the target transmission timing group. Is possible.
- the transmission timing timer may be configured to be provided for each cell.
- the base station device 3 measures the uplink reference signal of each cell transmitted from the mobile station device 1-1, and determines the transmission timing of the transmission timing group 1 or the transmission timing group 2 of the mobile station device 1-1. calculate. Then, the mobile station apparatus 1-1 is notified of a transmission timing message including transmission timing information measured within a period in which the transmission timing of each transmission timing group is valid. Note that the transmission timing message is notified via the cell designated to the mobile station apparatus 1-1 in the transmission timing group to be notified. For example, the transmission timing message of the transmission timing group 1 is notified to the mobile station apparatus 1-1 via the cell 1.
- the mobile station apparatus 1-1 When the mobile station apparatus 1-1 receives the transmission timing information in the designated cell, the mobile station apparatus 1-1 adjusts the transmission timing from the transmission timing information for all the cells in the transmission timing group to which the cell to which the transmission timing information is notified belongs. . For example, when the mobile station apparatus 1-1 receives the transmission timing message in the designated cell 1, the mobile station apparatus 1-1 adjusts the transmission timing for the cells 1, 2, and 3 in the transmission timing group 1. Note that when the mobile station apparatus 1-1 receives the transmission timing message in the cell 2 or the cell 3, the mobile station apparatus 1-1 discards the received transmission timing message because it has been received in a cell not designated.
- the activation is instructed to the cells 2 to 5 of the second cell and the downlink reception process is performed.
- the transmission timing may not be adjusted for a cell that is not instructed to be activated (deactivated cell).
- the mobile station apparatus 1-1 adjusts the transmission timing for the cell.
- the transmission timing message may be sent as a transmission timing message alone, or may be sent together with user data or other control messages.
- the transmission timing may be calculated from the uplink reference signal received by each cell by the base station apparatus 3, or may be calculated from the uplink reference signal of a specific cell in each transmission timing group. Good. Moreover, it is good also as a transmission timing which notifies the transmission timing of one cell calculated at a certain time, and it is good also considering the average value of the transmission timing measured in each cell in each transmission timing group as a transmission timing.
- FIG. 15 shows a processing flowchart of the mobile station apparatus 1-1 when a transmission timing message is received.
- the mobile station apparatus 1-1 checks whether or not the cell is a cell designated as a cell that notifies the transmission timing message from the base station apparatus 3 (step S201). ).
- the mobile station apparatus 1-1 transmits the transmission timing at the uplink transmission timing of the activated cell in the transmission timing group to which the cell belongs.
- the transmission timing information included in the message is applied (step S202).
- the mobile station apparatus 1-1 restarts the transmission timing timer of the transmission timing group for which the transmission timing is set (step S203).
- the mobile station apparatus 1-1 discards the acquired transmission timing message (step S204). ).
- the base station apparatus 3 only needs to notify one transmission timing information to one transmission timing group to the mobile station apparatus 1-1, and uses a useless radio resource. You don't have to. Further, since the mobile station apparatus 1-1 updates the transmission timing only when it receives the transmission timing message in the designated cell, it may be caused by erroneous transmission of the base station apparatus 3 or erroneous reception of the mobile station apparatus 1-1. Malfunctions can be prevented.
- the mobile station device 1-1 and the base station device 3 of the embodiment have been described using functional block diagrams, but the functions of the respective parts of the mobile station device 1-1 and the base station device 3 or these
- a program for realizing a part of the above functions is recorded on a computer-readable recording medium, and the program recorded on the recording medium is read into a computer system and executed, whereby the mobile station apparatus and the base station apparatus Control may be performed.
- the “computer system” includes an OS and hardware such as peripheral devices.
- the “computer-readable recording medium” means a storage device such as a flexible disk, a magneto-optical disk, a portable medium such as a ROM and a CD-ROM, and a hard disk incorporated in a computer system.
- the “computer-readable recording medium” means that a program is dynamically held for a short time, like a communication line when a program is transmitted via a network such as the Internet or a communication line such as a telephone line. In this case, it is intended to include those that hold a program for a certain period of time, such as a volatile memory inside a computer system serving as a server or a client in that case.
- the program may be for realizing a part of the above-described functions, and may be capable of realizing the above-described functions in combination with a program already recorded in the computer system. .
- Each functional block used in each of the above embodiments may be realized as an LSI (Large Scale Integration) that is typically an integrated circuit.
- LSI Large Scale Integration
- Each functional block may be individually formed into chips, 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.
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Abstract
Provided is a wireless communication system wherein a base station assigns a plurality of cells to a mobile station, and the base station and the mobile station communicate via the plurality of cells. The base station transmits transmission timing group information to the mobile station in advance, and transmits a transmission timing message containing transmission timing information to the mobile station via one of the plurality of cells. The mobile station applies the transmission timing information to the cells in the transmission timing group to which the one cell that received the transmission timing message belongs on the basis of the transmission timing group information.
Description
本発明は、無線通信システム、基地局装置、移動局装置、無線通信方法、および集積回路に関し、より詳細には、上りリンクの送信タイミングの通知時の動作に関するものである。
The present invention relates to a radio communication system, a base station apparatus, a mobile station apparatus, a radio communication method, and an integrated circuit, and more particularly to an operation at the time of notification of uplink transmission timing.
3GPP(3rd Generation Partnership Project)では、W-CDMA方式が第三世代セルラー移動通信方式として標準化され、順次サービスが開始されている。また、通信速度をさらに上げたHSDPAも標準化され、サービスが開始されている。
In 3GPP (3rd Generation Partnership Project), the W-CDMA system has been standardized as a third-generation cellular mobile communication system, and services have been started sequentially. In addition, HSDPA with higher communication speed has been standardized and the service has started.
一方、3GPPでは、第三世代無線アクセスの進化(Evolved Universal Terrestrial Radio Access;以下、「EUTRA」と呼称する。)の標準化が進められている。EUTRAの下りリンクの通信方式として、マルチパス干渉に強く、高速伝送に適したOFDM(Orthogonal Frequency Division Multiplexing)方式を採用している。また、上りリンクの通信方式として、移動局装置のコストと消費電力を考慮し、送信信号のピーク対平均電力比PAPR(Peak to Average Power Ratio)を低減できるシングルキャリア周波数分割多重方式SC-FDMA(Single Carrier-Frequency Division Multiple Access)のDFT(Discrete Fourier Transform(離散フーリエ変換))-spread OFDM方式を採用している。
On the other hand, in 3GPP, standardization of the evolution of third generation wireless access (Evolved Universal Terrestrial Radio Access; hereinafter referred to as “EUTRA”) is underway. As an EUTRA downlink communication system, an OFDM (Orthogonal Frequency Division Multiplexing) system that is resistant to multipath interference and suitable for high-speed transmission is adopted. Also, as an uplink communication method, considering the cost and power consumption of the mobile station device, a single carrier frequency division multiplexing SC-FDMA (peak-to-average power ratio) that can reduce the peak-to-average power ratio PAPR (Peak to Average Power Ratio) of the transmission signal. The DFT (Discrete Fourier Transform) -spread OFDM system of Single Carrier-Frequency Division Multiple Access is adopted.
また、3GPPでは、EUTRAのさらなる進化のAdvanced-EUTRAの議論も始まっている。Advanced-EUTRAでは、上りリンクおよび下りリンクでそれぞれ最大100MHz帯域幅までの帯域を使用して、最大で、下りリンク1Gbps以上、上りリンク500Mbps以上の伝送レートの通信を行なうことを想定している。
Also, 3GPP has begun discussions on Advanced-EUTRA, a further evolution of EUTRA. In Advanced-EUTRA, it is assumed that communication at a maximum transmission rate of 1 Gbps or more and 500 Mbps or more of the uplink is performed using a band up to a maximum of 100 MHz bandwidth in the uplink and the downlink.
Advanced-EUTRAでは、EUTRAの移動局装置も収容できるようにEUTRAの20MHz以下の帯域を複数個束ねることで、最大で100MHz帯域を実現することを考えている。なお、Advanced-EUTRAでは、EUTRAの1つの20MHz以下の帯域をコンポーネントキャリア(Component Carrier:CC)と呼んでいる(非特許文献2)。また、1つの下りリンクのコンポーネントキャリアと1つの上りリンクのコンポーネントキャリアを組み合わせて1つのセルを構成する。なお、1つの下りリンクコンポーネントキャリアのみでも1つのセルを構成できる。基地局装置は、移動局装置に複数セルを割り当てて、割り当てたセルを介して移動局装置と通信を行なう。
Advanced-EUTRA is considering to realize a maximum of 100 MHz band by bundling a plurality of bands below 20 MHz of EUTRA so that EUTRA mobile station devices can be accommodated. In Advanced-EUTRA, one band of 20 MHz or less of EUTRA is called a component carrier (CC) (Non-patent Document 2). Further, one cell is configured by combining one downlink component carrier and one uplink component carrier. One cell can be configured with only one downlink component carrier. The base station apparatus allocates a plurality of cells to the mobile station apparatus and communicates with the mobile station apparatus via the allocated cells.
移動局装置が、複数のセルを使用して基地局装置と通信を行なう場合、リピータ(Repeater)などを介して基地局装置へ接続する場合がある。このような場合、移動局装置での下りリンクコンポーネントキャリアからのデータの受信タイミングは、セル毎に異なり、さらに各セルの上りリンクコンポーネントキャリア毎に基地局装置への送信タイミングが異なることとなる。そのため、移動局装置は、各セルの上りリンクコンポーネントキャリア毎に送信タイミングの調整を行なって、基地局装置へのデータ送信を行なう必要がある。
When the mobile station apparatus communicates with the base station apparatus using a plurality of cells, the mobile station apparatus may connect to the base station apparatus via a repeater (Repeator) or the like. In such a case, the reception timing of data from the downlink component carrier in the mobile station apparatus is different for each cell, and the transmission timing to the base station apparatus is different for each uplink component carrier of each cell. Therefore, the mobile station apparatus needs to adjust the transmission timing for each uplink component carrier of each cell and perform data transmission to the base station apparatus.
そのため、各セルの上りリンクコンポーネントキャリア毎に送信タイミング情報を通知する必要がある。しかしながら、全ての上りリンクコンポーネントキャリアの送信タイミング情報を通知することは、送信タイミングが同じ上りリンクコンポーネントキャリアが複数ある場合、同じ送信タイミング情報を複数送ることとなり、無線リソースの利用効率が悪い。
Therefore, it is necessary to notify transmission timing information for each uplink component carrier of each cell. However, notifying transmission timing information of all uplink component carriers means that if there are a plurality of uplink component carriers having the same transmission timing, a plurality of the same transmission timing information is transmitted, and the utilization efficiency of radio resources is poor.
本発明は、このような事情に鑑みてなされたものであり、上りリンクコンポーネントキャリア毎に移動局装置からのデータ送信の送信タイミングが異なる場合について、効率良く送信タイミング情報を通知し、送信タイミング情報を設定するための無線通信システム、基地局装置、移動局装置、無線通信方法、および集積回路を提供することを目的とする。
The present invention has been made in view of such circumstances, and in the case where the transmission timing of data transmission from the mobile station apparatus is different for each uplink component carrier, the transmission timing information is efficiently notified. An object of the present invention is to provide a radio communication system, a base station apparatus, a mobile station apparatus, a radio communication method, and an integrated circuit.
一実施形態に従えば、基地局装置が移動局装置に複数セルを割り当て、基地局装置と移動局装置とが複数セルを介して通信を行なう無線通信システムが提供される。複数セルは、常にアクティベートセルの1つの第一セルと、アクティベートセルまたはデアクティベートセルの1つ以上の第二セルとから構成される。第一セルおよび第二セルは、第一セルと同じ上りリンク送信タイミングの第二セルから構成される第一の送信タイミンググループと、第一セルの上りリンク送信タイミングとは異なる同じ上りリンク送信タイミングの第二セルから構成される第二の送信タイミンググループとにグループ化される。基地局装置は、送信タイミンググループの情報を移動局装置に予め送信し、送信タイミング情報を含む送信タイミングメッセージを複数セルの中の1つのセルを介して移動局装置に送信する。移動局装置は、送信タイミンググループの情報に基づき、送信タイミングメッセージを受信した1つのセルが属する送信タイミンググループ内のセルに対して、送信タイミング情報を適用する。
According to one embodiment, a radio communication system is provided in which a base station device allocates a plurality of cells to a mobile station device, and the base station device and the mobile station device communicate via the plurality of cells. The plurality of cells are always composed of one first cell of an activation cell and one or more second cells of an activation cell or a deactivation cell. The first cell and the second cell have a first transmission timing group composed of second cells having the same uplink transmission timing as the first cell, and the same uplink transmission timing different from the uplink transmission timing of the first cell. To the second transmission timing group composed of the second cells. The base station apparatus transmits transmission timing group information to the mobile station apparatus in advance, and transmits a transmission timing message including the transmission timing information to the mobile station apparatus via one cell among the plurality of cells. The mobile station apparatus applies the transmission timing information to the cells in the transmission timing group to which one cell that has received the transmission timing message belongs based on the information on the transmission timing group.
好ましくは、送信タイミング情報を適用する送信タイミンググループ内のセルは、アクティベートセルである。
Preferably, the cell in the transmission timing group to which the transmission timing information is applied is an activate cell.
一実施形態に従えば、基地局装置が移動局装置に複数セルを割り当て、基地局装置と移動局装置とが複数セルを介して通信を行なう無線通信システムが提供される。複数セルは、常にアクティベートセルの1つの第一セルと、アクティベートセルまたはデアクティベートセルの1つ以上の第二セルとから構成される。第一セルおよび第二セルは、第一セルと同じ上りリンク送信タイミングの第二セルから構成される第一の送信タイミンググループと、第一セルの上りリンク送信タイミングとは異なる同じ上りリンク送信タイミングの第二セルから構成される第二の送信タイミンググループとにグループ化される。基地局装置は、送信タイミンググループの情報と基地局装置が送信タイミングメッセージを送信するセル情報とを移動局装置に予め送信し、送信タイミング情報を含む送信タイミングメッセージを複数セルの中の1つのセルを介して移動局装置に送信する。移動局装置は、1つのセルを介して送信タイミングメッセージを受信し、1つのセルが送信タイミング情報を送信するセルと同じ場合、送信タイミンググループの情報に基づき、1つのセルが属する送信タイミンググループ内のセルに対して、送信タイミング情報を適用する。
According to one embodiment, a radio communication system is provided in which a base station device allocates a plurality of cells to a mobile station device, and the base station device and the mobile station device communicate via the plurality of cells. The plurality of cells are always composed of one first cell of an activation cell and one or more second cells of an activation cell or a deactivation cell. The first cell and the second cell have a first transmission timing group composed of second cells having the same uplink transmission timing as the first cell, and the same uplink transmission timing different from the uplink transmission timing of the first cell. To the second transmission timing group composed of the second cells. The base station apparatus transmits in advance a transmission timing group information and cell information in which the base station apparatus transmits a transmission timing message to the mobile station apparatus, and transmits a transmission timing message including the transmission timing information to one cell in the plurality of cells. Is transmitted to the mobile station apparatus. If the mobile station apparatus receives a transmission timing message via one cell and one cell is the same as the cell that transmits the transmission timing information, the mobile station apparatus is based on the information on the transmission timing group, and within the transmission timing group to which one cell belongs. The transmission timing information is applied to the cells.
好ましくは、送信タイミング情報を適用する送信タイミンググループ内のセルは、アクティベートセルである。
Preferably, the cell in the transmission timing group to which the transmission timing information is applied is an activate cell.
一実施形態に従えば、移動局装置に複数セルを割り当て、移動局装置と複数セルを介して通信を行なう基地局装置が提供される。複数セルは、常にアクティベートセルの1つの第一セルと、アクティベートセルまたはデアクティベートセルの1つ以上の第二セルとから構成される。第一セルおよび第二セルは、第一セルと同じ上りリンク送信タイミングの第二セルから構成される第一の送信タイミンググループと、第一セルの上りリンク送信タイミングとは異なる同じ上りリンク送信タイミングの第二セルから構成される第二の送信タイミンググループとにグループ化される。基地局装置は、送信タイミンググループの情報を移動局装置に予め送信し、送信タイミンググループに基づいて送信タイミング情報を含む送信タイミングメッセージを複数セルの中の1つのセルを介して移動局装置に送信する。
According to one embodiment, a base station apparatus that allocates a plurality of cells to a mobile station apparatus and communicates with the mobile station apparatus through the plurality of cells is provided. The plurality of cells are always composed of one first cell of an activation cell and one or more second cells of an activation cell or a deactivation cell. The first cell and the second cell have a first transmission timing group composed of second cells having the same uplink transmission timing as the first cell, and the same uplink transmission timing different from the uplink transmission timing of the first cell. To the second transmission timing group composed of the second cells. The base station apparatus transmits transmission timing group information to the mobile station apparatus in advance, and transmits a transmission timing message including transmission timing information to the mobile station apparatus via one cell among a plurality of cells based on the transmission timing group. To do.
一実施形態に従えば、移動局装置に複数セルを割り当て、移動局装置と複数セルを介して通信を行なう基地局装置が提供される。複数セルは、常にアクティベートセルの1つの第一セルと、アクティベートセルまたはデアクティベートセルの1つ以上の第二セルとから構成される。第一セルおよび第二セルは、第一セルと同じ上りリンク送信タイミングの第二セルから構成される第一の送信タイミンググループと、第一セルの上りリンク送信タイミングとは異なる同じ上りリンク送信タイミングの第二セルから構成される第二の送信タイミンググループとにグループ化される。基地局装置は、送信タイミンググループの情報と基地局装置が送信タイミングメッセージを送信するセル情報とを移動局装置に予め送信し、送信タイミンググループに基づいて送信タイミング情報を含む送信タイミングメッセージを複数セルの中の1つのセルを介して移動局装置に送信する。
According to one embodiment, a base station apparatus that allocates a plurality of cells to a mobile station apparatus and communicates with the mobile station apparatus through the plurality of cells is provided. The plurality of cells are always composed of one first cell of an activation cell and one or more second cells of an activation cell or a deactivation cell. The first cell and the second cell have a first transmission timing group composed of second cells having the same uplink transmission timing as the first cell, and the same uplink transmission timing different from the uplink transmission timing of the first cell. To the second transmission timing group composed of the second cells. The base station apparatus transmits in advance a transmission timing group information and cell information in which the base station apparatus transmits a transmission timing message to the mobile station apparatus, and transmits a plurality of transmission timing messages including the transmission timing information based on the transmission timing group. Is transmitted to the mobile station apparatus via one cell.
一実施形態に従えば、基地局装置から複数セルを割り当てられ、基地局装置と複数セルを介して通信を行なう移動局装置が提供される。複数セルは、常にアクティベートセルの1つの第一セルと、アクティベートセルまたはデアクティベートセルの1つ以上の第二セルとから構成される。第一セルおよび第二セルは、第一セルと同じ上りリンク送信タイミングの第二セルから構成される第一の送信タイミンググループと、第一セルの上りリンク送信タイミングとは異なる同じ上りリンク送信タイミングの第二セルから構成される第二の送信タイミンググループとにグループ化される。移動局装置は、基地局装置から送信タイミンググループの情報を予め受信し、複数セルの1つのセルを介して送信タイミング情報を含む送信タイミングメッセージを受信した場合、送信タイミンググループの情報に基づき、1つのセルが属する送信タイミンググループ内のセルに対して、送信タイミング情報を適用する。
According to one embodiment, there is provided a mobile station apparatus that is assigned a plurality of cells from a base station apparatus and communicates with the base station apparatus through the plurality of cells. The plurality of cells are always composed of one first cell of an activation cell and one or more second cells of an activation cell or a deactivation cell. The first cell and the second cell have a first transmission timing group composed of second cells having the same uplink transmission timing as the first cell, and the same uplink transmission timing different from the uplink transmission timing of the first cell. To the second transmission timing group composed of the second cells. When the mobile station apparatus receives the transmission timing group information from the base station apparatus in advance and receives the transmission timing message including the transmission timing information via one cell of the plurality of cells, the mobile station apparatus 1 Transmission timing information is applied to the cells in the transmission timing group to which one cell belongs.
好ましくは、送信タイミンググループ内のアクティベートセルに対して、送信タイミング情報を適用する。
Preferably, transmission timing information is applied to the activated cells in the transmission timing group.
一実施形態に従えば、基地局装置から複数セルを割り当てられ、基地局装置と複数セルを介して通信を行なう移動局装置が提供される。複数セルは、常にアクティベートセルの1つの第一セルと、アクティベートセルまたはデアクティベートセルの1つ以上の第二セルとから構成される。第一セルおよび第二セルは、第一セルと同じ上りリンク送信タイミングの第二セルから構成される第一の送信タイミンググループと、第一セルの上りリンク送信タイミングとは異なる同じ上りリンク送信タイミングの第二セルから構成される第二の送信タイミンググループとにグループ化される。移動局装置は、基地局装置から送信タイミンググループの情報と基地局装置が送信タイミング情報を含む送信タイミングメッセージを送信するセル情報とを予め受信し、複数セルの1つのセルを介して送信タイミングメッセージを受信し、1つのセルが送信タイミング情報を送信するセルと同じ場合、送信タイミンググループの情報に基づき、1つのセルが属する送信タイミンググループ内のセルに対して、送信タイミング情報を適用する。
According to one embodiment, there is provided a mobile station apparatus that is assigned a plurality of cells from a base station apparatus and communicates with the base station apparatus through the plurality of cells. The plurality of cells are always composed of one first cell of an activation cell and one or more second cells of an activation cell or a deactivation cell. The first cell and the second cell have a first transmission timing group composed of second cells having the same uplink transmission timing as the first cell, and the same uplink transmission timing different from the uplink transmission timing of the first cell. To the second transmission timing group composed of the second cells. The mobile station apparatus receives in advance transmission timing group information from the base station apparatus and cell information in which the base station apparatus transmits a transmission timing message including the transmission timing information, and transmits the transmission timing message via one cell of a plurality of cells. When one cell is the same as the cell that transmits the transmission timing information, the transmission timing information is applied to the cells in the transmission timing group to which the one cell belongs based on the transmission timing group information.
好ましくは、送信タイミンググループ内のアクティベートセルに対して、送信タイミング情報を適用する。
Preferably, transmission timing information is applied to the activated cells in the transmission timing group.
一実施形態に従えば、基地局装置が移動局装置に複数セルを割り当て、基地局装置と移動局装置とが複数セルを介して通信を行なう無線通信システムに適用される無線通信方法が提供される。複数セルは、常にアクティベートセルの1つの第一セルと、アクティベートセルまたはデアクティベートセルの1つ以上の第二セルとから構成される。第一セルおよび第二セルは、第一セルと同じ上りリンク送信タイミングの第二セルから構成される第一の送信タイミンググループと、第一セルの上りリンク送信タイミングとは異なる同じ上りリンク送信タイミングの第二セルから構成される第二の送信タイミンググループとにグループ化される。無線通信方法は、基地局装置が送信タイミンググループの情報を移動局装置に予め送信するステップと、基地局装置が送信タイミング情報を含む送信タイミングメッセージを複数セルの中の1つのセルを介して移動局装置に送信するステップと、移動局装置が送信タイミンググループの情報に基づき、1つのセルが属する送信タイミンググループ内のアクティベートセルに対して、送信タイミング情報を適用するステップとを含む。
According to an embodiment, there is provided a radio communication method applied to a radio communication system in which a base station apparatus allocates a plurality of cells to a mobile station apparatus and the base station apparatus and the mobile station apparatus communicate via the plurality of cells. The The plurality of cells are always composed of one first cell of an activation cell and one or more second cells of an activation cell or a deactivation cell. The first cell and the second cell have a first transmission timing group composed of second cells having the same uplink transmission timing as the first cell, and the same uplink transmission timing different from the uplink transmission timing of the first cell. To the second transmission timing group composed of the second cells. In the wireless communication method, the base station device transmits in advance transmission timing group information to the mobile station device, and the base station device moves a transmission timing message including the transmission timing information via one cell among a plurality of cells. A step of transmitting to the station device, and a step of applying the transmission timing information to the activated cell in the transmission timing group to which one cell belongs based on the information of the transmission timing group by the mobile station device.
一実施形態に従えば、基地局装置が移動局装置に複数セルを割り当て、基地局装置と移動局装置とが複数セルを介して通信を行なう無線通信システムに適用される無線通信方法が提供される。複数セルは、常にアクティベートセルの1つの第一セルと、アクティベートセルまたはデアクティベートセルの1つ以上の第二セルとから構成される。第一セルおよび第二セルは、第一セルと同じ上りリンク送信タイミングの第二セルから構成される第一の送信タイミンググループと、第一セルの上りリンク送信タイミングとは異なる同じ上りリンク送信タイミングの第二セルから構成される第二の送信タイミンググループとにグループ化される。無線通信方法は、基地局装置が送信タイミンググループの情報と基地局装置が送信タイミングメッセージを送信するセル情報とを移動局装置に予め送信するステップと、基地局装置が送信タイミング情報を含む送信タイミングメッセージを複数セルの中の1つのセルを介して移動局装置に送信するステップと、移動局装置が1つのセルを介して送信タイミングメッセージを受信するステップと、移動局装置が、1つのセルが送信タイミング情報を送信するセルと同じ場合、送信タイミンググループの情報に基づき、1つのセルが属する送信タイミンググループ内のアクティベートセルに対して、送信タイミング情報を適用するステップとを含む。
According to an embodiment, there is provided a radio communication method applied to a radio communication system in which a base station apparatus allocates a plurality of cells to a mobile station apparatus and the base station apparatus and the mobile station apparatus communicate via the plurality of cells. The The plurality of cells are always composed of one first cell of an activation cell and one or more second cells of an activation cell or a deactivation cell. The first cell and the second cell have a first transmission timing group composed of second cells having the same uplink transmission timing as the first cell, and the same uplink transmission timing different from the uplink transmission timing of the first cell. To the second transmission timing group composed of the second cells. The wireless communication method includes a step in which a base station apparatus transmits in advance transmission node information and cell information in which a base station apparatus transmits a transmission timing message to a mobile station apparatus, and a transmission timing in which the base station apparatus includes transmission timing information. A step of transmitting a message to a mobile station apparatus via one cell of a plurality of cells, a step of the mobile station apparatus receiving a transmission timing message via one cell, If the cell is the same as the cell that transmits the transmission timing information, the method includes the step of applying the transmission timing information to the activated cell in the transmission timing group to which one cell belongs based on the information of the transmission timing group.
一実施形態に従えば、移動局装置に複数セルを割り当て、移動局装置と複数セルを介して通信を行なう基地局装置に適用される集積回路が提供される。複数セルは、常にアクティベートセルの1つの第一セルと、アクティベートセルまたはデアクティベートセルの1つ以上の第二セルとから構成される。第一セルおよび第二セルは、第一セルと同じ上りリンク送信タイミングの第二セルから構成される第一の送信タイミンググループと、第一セルの上りリンク送信タイミングとは異なる同じ上りリンク送信タイミングの第二セルから構成される第二の送信タイミンググループとにグループ化される。集積回路は、送信タイミンググループの情報を移動局装置に予め送信する手段と、送信タイミンググループに基づいて送信タイミング情報を含む送信タイミングメッセージを複数セルの中の1つのセルを介して移動局装置に送信する手段とを含む。
According to one embodiment, an integrated circuit is provided that is applied to a base station apparatus that allocates a plurality of cells to a mobile station apparatus and communicates with the mobile station apparatus via the plurality of cells. The plurality of cells are always composed of one first cell of an activation cell and one or more second cells of an activation cell or a deactivation cell. The first cell and the second cell have a first transmission timing group composed of second cells having the same uplink transmission timing as the first cell, and the same uplink transmission timing different from the uplink transmission timing of the first cell. To the second transmission timing group composed of the second cells. The integrated circuit transmits a transmission timing message including transmission timing information based on the transmission timing group to a mobile station apparatus via one cell among a plurality of cells. Means for transmitting.
一実施形態に従えば、基地局装置から複数セルを割り当てられ、基地局装置と複数セルを介して通信を行なう移動局装置に適用される集積回路が提供される。複数セルは、常にアクティベートセルの1つの第一セルと、アクティベートセルまたはデアクティベートセルの1つ以上の第二セルとから構成される。第一セルおよび第二セルは、第一セルと同じ上りリンク送信タイミングの第二セルから構成される第一の送信タイミンググループと、第一セルの上りリンク送信タイミングとは異なる同じ上りリンク送信タイミングの第二セルから構成される第二の送信タイミンググループとにグループ化される。集積回路は、基地局装置から送信タイミンググループの情報を予め受信する手段と、複数セルの1つのセルを介して送信タイミング情報を含む送信タイミングメッセージを受信する手段と、送信タイミンググループの情報に基づき、1つのセルが属する送信タイミンググループ内のアクティベートセルに対して、送信タイミング情報を適用する手段とを含む。
According to one embodiment, an integrated circuit is provided that is applied to a mobile station apparatus that is assigned a plurality of cells from a base station apparatus and communicates with the base station apparatus via the plurality of cells. The plurality of cells are always composed of one first cell of an activation cell and one or more second cells of an activation cell or a deactivation cell. The first cell and the second cell have a first transmission timing group composed of second cells having the same uplink transmission timing as the first cell, and the same uplink transmission timing different from the uplink transmission timing of the first cell. To the second transmission timing group composed of the second cells. The integrated circuit is based on means for receiving transmission timing group information from the base station apparatus in advance, means for receiving a transmission timing message including transmission timing information via one cell of a plurality of cells, and transmission timing group information. Means for applying transmission timing information to an activated cell in a transmission timing group to which one cell belongs.
一実施形態に従えば、移動局装置に複数セルを割り当て、移動局装置と複数セルを介して通信を行なう基地局装置に適用される集積回路が提供される。複数セルは、常にアクティベートセルの1つの第一セルと、アクティベートセルまたはデアクティベートセルの1つ以上の第二セルとから構成される。第一セルおよび第二セルは、第一セルと同じ上りリンク送信タイミングの第二セルから構成される第一の送信タイミンググループと、第一セルの上りリンク送信タイミングとは異なる同じ上りリンク送信タイミングの第二セルから構成される第二の送信タイミンググループとにグループ化される。集積回路は、送信タイミンググループの情報と基地局装置が送信タイミングメッセージを送信するセル情報とを移動局装置に予め送信する手段と、送信タイミンググループに基づいて送信タイミング情報を含む送信タイミングメッセージを複数セルの中の1つのセルを介して移動局装置に送信する手段とを含む。
According to one embodiment, an integrated circuit is provided that is applied to a base station apparatus that allocates a plurality of cells to a mobile station apparatus and communicates with the mobile station apparatus via the plurality of cells. The plurality of cells are always composed of one first cell of an activation cell and one or more second cells of an activation cell or a deactivation cell. The first cell and the second cell have a first transmission timing group composed of second cells having the same uplink transmission timing as the first cell, and the same uplink transmission timing different from the uplink transmission timing of the first cell. To the second transmission timing group composed of the second cells. The integrated circuit includes means for previously transmitting to the mobile station apparatus information on the transmission timing group and cell information on which the base station apparatus transmits the transmission timing message, and a plurality of transmission timing messages including the transmission timing information based on the transmission timing group. Means for transmitting to the mobile station apparatus via one of the cells.
一実施形態に従えば、基地局装置から複数セルを割り当てられ、基地局装置と複数セルを介して通信を行なう移動局装置に適用される集積回路が提供される。複数セルは、常にアクティベートセルの1つの第一セルと、アクティベートセルまたはデアクティベートセルの1つ以上の第二セルとから構成される。第一セルおよび第二セルは、第一セルと同じ上りリンク送信タイミングの第二セルから構成される第一の送信タイミンググループと、第一セルの上りリンク送信タイミングとは異なる同じ上りリンク送信タイミングの第二セルから構成される第二の送信タイミンググループとにグループ化される。集積回路は、基地局装置から送信タイミンググループの情報と基地局装置が送信タイミング情報を含む送信タイミングメッセージを送信するセル情報とを受信する手段と、複数セルの1つのセルを介して送信タイミングメッセージを受信する手段と、1つのセルが送信タイミング情報を送信するセルと同じ場合、送信タイミンググループの情報に基づき、1つのセルが属する送信タイミンググループ内のアクティベートセルに対して、送信タイミング情報を適用する手段とを含む。
According to one embodiment, an integrated circuit is provided that is applied to a mobile station apparatus that is assigned a plurality of cells from a base station apparatus and communicates with the base station apparatus via the plurality of cells. The plurality of cells are always composed of one first cell of an activation cell and one or more second cells of an activation cell or a deactivation cell. The first cell and the second cell have a first transmission timing group composed of second cells having the same uplink transmission timing as the first cell, and the same uplink transmission timing different from the uplink transmission timing of the first cell. To the second transmission timing group composed of the second cells. The integrated circuit includes means for receiving transmission timing group information from the base station apparatus and cell information for the base station apparatus to transmit a transmission timing message including the transmission timing information, and a transmission timing message via one cell of the plurality of cells. Transmission timing information is applied to the activated cells in the transmission timing group to which one cell belongs based on the information of the transmission timing group, when the cell receiving means is the same as the cell that transmits the transmission timing information. Means.
本発明によれば、各セルにおいて上りリンク送信タイミングが異なる場合に、1つの送信タイミンググループに対して1つの送信タイミング情報を通知するだけでよく、送信タイミング情報の通知のために無駄な無線リソースを使用しなくて済む。
According to the present invention, when uplink transmission timing is different in each cell, it is only necessary to notify one transmission timing information to one transmission timing group, and it is a useless radio resource for notification of transmission timing information. It is not necessary to use.
[第1の実施形態]
EUTRAの下りリンクは、下りリンク参照信号(Downlink Reference Signal)、下りリンク同期チャネルDSCH(Downlink Synchronization Channel)、下りリンク共用チャネルPDSCH(Physical Downlink Shared Channel)、下りリンク制御チャネルPDCCH(Physical Downlink Control Channel)、報知チャネルPBCH(Physical Broadcast Channel)により構成されている。 [First Embodiment]
The downlink of EUTRA includes a downlink reference signal (Downlink Reference Signal), a downlink synchronization channel DSCH (Downlink Synchronization Channel), a downlink shared channel PDSCH (Physical Downlink Channel control), and a downlink shared channel PDCH (Physical Downlink Channel control) The broadcast channel PBCH (Physical Broadcast Channel).
EUTRAの下りリンクは、下りリンク参照信号(Downlink Reference Signal)、下りリンク同期チャネルDSCH(Downlink Synchronization Channel)、下りリンク共用チャネルPDSCH(Physical Downlink Shared Channel)、下りリンク制御チャネルPDCCH(Physical Downlink Control Channel)、報知チャネルPBCH(Physical Broadcast Channel)により構成されている。 [First Embodiment]
The downlink of EUTRA includes a downlink reference signal (Downlink Reference Signal), a downlink synchronization channel DSCH (Downlink Synchronization Channel), a downlink shared channel PDSCH (Physical Downlink Channel control), and a downlink shared channel PDCH (Physical Downlink Channel control) The broadcast channel PBCH (Physical Broadcast Channel).
EUTRAの上りリンクは、上りリンク参照信号(Uplink Reference Signal)、ランダムアクセスチャネルRACH(Random Access Channel)、上りリンク共用チャネルPUSCH(Physical Uplink Shared Channel)、上りリンク制御チャネルPUCCH(Physical Uplink Control Channel)により構成されている。また、上りリンク参照信号には、復調用参照信号(Demodulation Reference Signal)と測定用参照信号(Sounding Reference Signal)との2種類の信号がある。
The uplink of EUTRA is an uplink reference signal (Uplink Reference Signal), a random access channel RACH (Random Access Channel), an uplink shared channel PUSCH (Physical Uplink Shared Channel), and an uplink control channel PUCCHP It is configured. In addition, the uplink reference signal includes two types of signals: a demodulation reference signal (Demodulation Reference Signal) and a measurement reference signal (Sounding Reference Signal).
図1は、EUTRAにおけるチャネル構成を示す図であり、図2は、EUTRAにおける上りリンクの構成を示す図である。1ブロックは、12本のサブキャリアと7つのOFDMシンボルとから構成される。そして、2つのブロックを使用して、1リソースブロック(Resource Block:RB)を構成する。上りリンク共用チャネルPUSCHと上りリンク制御チャネルPUCCHとは、1リソースブロック単位で使用される。ランダムアクセスチャネルRACHは、6リソースブロック分を使用して構成される。
FIG. 1 is a diagram illustrating a channel configuration in EUTRA, and FIG. 2 is a diagram illustrating an uplink configuration in EUTRA. One block includes 12 subcarriers and 7 OFDM symbols. Then, one resource block (RB) is configured using the two blocks. The uplink shared channel PUSCH and the uplink control channel PUCCH are used in units of one resource block. The random access channel RACH is configured using 6 resource blocks.
上りリンク参照信号は、リソースブロック内の特定のOFDMシンボルに配置される。上りリンクの各チャネルは、図2のように、上りリンク共用チャネルPUSCHの領域と、上りリンク制御チャネルPUCCHの領域と、ランダムアクセスチャネルRACHとに分けられている。上りリンク共用チャネルPUSCHと上りリンク制御チャネルPUCCHとの各領域に関する情報は、基地局装置から報知される。また、基地局装置は、各領域の中から移動局装置個別に上りリンク共用チャネルPUSCHと上りリンク制御チャネルPUCCHとの無線リソースを割り当てる。なお、ランダムアクセスチャネルRACHは、一定の周期で配置される。
The uplink reference signal is arranged in a specific OFDM symbol in the resource block. Each uplink channel is divided into an uplink shared channel PUSCH region, an uplink control channel PUCCH region, and a random access channel RACH as shown in FIG. Information on each region of the uplink shared channel PUSCH and the uplink control channel PUCCH is broadcast from the base station apparatus. Also, the base station apparatus allocates radio resources for the uplink shared channel PUSCH and the uplink control channel PUCCH for each mobile station apparatus from each region. The random access channel RACH is arranged at a constant period.
下りリンク共用チャネルPDSCHは、基地局装置から移動局装置へのユーザーデータや制御データの送信に使用される。下りリンク制御チャネルPDCCHは、基地局装置から移動局装置への下りリンク共用チャネルPDSCHと上りリンク共用チャネルPUSCHとの無線リソース割り当て情報などの制御情報通知に使用される。下りリンク参照信号は、下りリンク共用チャネルPDSCHと下りリンク制御チャネルPDCCHとを復調するために使用される。下りリンク同期チャネルDSCHは、移動局装置が下りリンクの同期を取るために使用される。報知チャネルPBCHは、基地局装置のセルのシステム情報に関する情報を通知するために使用される。
The downlink shared channel PDSCH is used for transmitting user data and control data from the base station apparatus to the mobile station apparatus. The downlink control channel PDCCH is used for notification of control information such as radio resource allocation information for the downlink shared channel PDSCH and the uplink shared channel PUSCH from the base station apparatus to the mobile station apparatus. The downlink reference signal is used to demodulate the downlink shared channel PDSCH and the downlink control channel PDCCH. The downlink synchronization channel DSCH is used for the mobile station apparatus to perform downlink synchronization. The broadcast channel PBCH is used to notify information related to the system information of the cell of the base station device.
上りリンク共用チャネルPUSCHは、移動局装置から基地局装置へのユーザーデータや制御データの送信に使用される。なお、上りリンク共用チャネルPUSCHと下りリンク共用チャネルPDSCHとで送受信されるデータは、HARQ(Hybrid Automatic Repeat reQuset)処理が行なわれ、再送時に初送データと再送データとを合成処理することで、再送時のデータの誤り訂正能力を向上させている。上りリンク制御チャネルPUCCHは、基地局装置からの下りリンクのデータに対する応答(ACK(Acknowledge)/NACK(Negative Acknowledge))や下りリンクの無線伝搬路品質情報などの制御情報を通知するために使用される。
The uplink shared channel PUSCH is used for transmission of user data and control data from the mobile station apparatus to the base station apparatus. Note that data transmitted and received on the uplink shared channel PUSCH and the downlink shared channel PDSCH is subjected to HARQ (Hybrid Automatic Repeat reQuest) processing, and the retransmission is performed by combining the initial transmission data and the retransmission data at the time of retransmission. The error correction ability of the data at the time is improved. The uplink control channel PUCCH is used to notify control information such as a response (ACK (Acknowledge)) / NACK (Negative Acknowledge)) to downlink data from the base station apparatus and downlink radio channel quality information. The
ランダムアクセスチャネルRACHは、主に移動局装置から基地局装置への送信タイミング情報を取得するためのランダムアクセスプリアンブル送信に使用される。ランダムアクセスプリアンブル送信は、ランダムアクセス手順の中で行なわれる。上りリンク参照信号の復調用参照信号は、基地局装置が上りリンク共用チャネルPUSCHを復調するために使用され、上りリンク共用チャネルPUSCHの4番目のシンボル位置と11番目のシンボル位置とに挿入される。上りリンク参照信号の測定用参照信号は、基地局装置が上りリンクの無線伝搬路品質を測定するために使用され、上りリンク共用チャネルPUSCHの14番目のシンボル位置に挿入される。なお、測定用参照信号を送信するための無線リソースは、基地局装置から移動局装置個別に割り当てられる。
The random access channel RACH is mainly used for random access preamble transmission for acquiring transmission timing information from the mobile station apparatus to the base station apparatus. Random access preamble transmission is performed in a random access procedure. The reference signal for demodulation of the uplink reference signal is used by the base station device to demodulate the uplink shared channel PUSCH, and is inserted into the fourth symbol position and the 11th symbol position of the uplink shared channel PUSCH. . The reference signal for measuring the uplink reference signal is used by the base station apparatus to measure the uplink radio channel quality, and is inserted into the 14th symbol position of the uplink shared channel PUSCH. Note that the radio resource for transmitting the measurement reference signal is allocated from the base station apparatus to each mobile station apparatus.
ランダムアクセス手順には、Contention based Random Access(競合ベースランダムアクセス)とNon-contention based Random Access(非競合ベースランダムアクセス)との2つのアクセス手順がある(非特許文献1)。
The random access procedure includes two access procedures: Contention based Random Access (contention based random access) and Non-contention based Random Access (non-contention based random access) (Non-Patent Document 1).
図3は、Contention based Random Accessの手順を示す図である。Contention based Random Accessは、移動局装置間で衝突する可能性のあるランダムアクセス手順である。Contention based Random Accessは、基地局装置と接続(通信)していない状態からの初期アクセス時や、基地局装置と接続中であるが、上りリンク同期が外れている状態で移動局装置に上りリンクデータ送信が発生した場合のスケジューリングリクエスト、などに行なわれる。
FIG. 3 is a diagram showing the procedure of Contention based Random Access. Contention based Random Access is a random access procedure that may collide between mobile station devices. The Contention based Random Access is uplinked to the mobile station device at the time of initial access from a state where it is not connected (communication) with the base station device or while being connected to the base station device, but the uplink synchronization is lost. This is done for scheduling requests when data transmission occurs.
図4は、Non-contention based Random Accessの手順を示す図である。Non-contention based Random Accessは、移動局装置間で衝突が発生しないランダムアクセス手順である。Non-contention based Random Accessは、基地局装置と移動局装置とが接続中であるが、上りリンクの同期が外れている場合に迅速に移動局装置と基地局装置との間の上りリンク同期をとるためのハンドオーバーや、移動局装置の送信タイミングが有効でない場合等の特別な場合に、基地局装置から指示されて移動局装置がランダムアクセス手順を開始する(非特許文献1)。Non-contention based Random Accessは、RRC(Radio Resource Control:Layer3)層のメッセージおよび下りリンク制御チャネルPDCCHの制御データにより指示される。
FIG. 4 is a diagram showing the procedure of Non-contention based Random Access. Non-contention based Random Access is a random access procedure in which no collision occurs between mobile station apparatuses. Non-contention based Random Access is connected to the base station device and the mobile station device, but when the uplink synchronization is lost, the uplink synchronization between the mobile station device and the base station device can be performed quickly. In a special case such as a handover to be taken or when the transmission timing of the mobile station device is not valid, the mobile station device starts a random access procedure instructed by the base station device (Non-patent Document 1). Non-contention based Random Access is indicated by a message in the RRC (Radio Resource Control: Layer 3) layer and control data of the downlink control channel PDCCH.
図3を用いて、Contention based Random Access手順を簡単に説明する。まず、移動局装置1-1がランダムアクセスプリアンブルを基地局装置3に送信する(メッセージ1(1)、ステップS1)。そして、ランダムアクセスプリアンブルを受信した基地局装置3が、ランダムアクセスプリアンブルに対する応答(ランダムアクセスレスポンス)を移動局装置1-1に送信する(メッセージ2(2)、ステップS2)。移動局装置1-1がランダムアクセスレスポンスに含まれているスケジューリング情報を元に上位レイヤ(Layer2/Layer3)のメッセージを送信する(メッセージ3(3)、ステップS3)。基地局装置3は、(3)の上位レイヤメッセージを受信できた移動局装置1-1に衝突確認メッセージを送信する(メッセージ4(4)、ステップS4)。なお、Contention based Random Accessをランダムプリアンブル送信とも言う。
The Content based Random Access procedure will be briefly described with reference to FIG. First, the mobile station apparatus 1-1 transmits a random access preamble to the base station apparatus 3 (message 1 (1), step S1). Then, the base station device 3 that has received the random access preamble transmits a response to the random access preamble (random access response) to the mobile station device 1-1 (message 2 (2), step S2). The mobile station apparatus 1-1 transmits a message of the upper layer (Layer2 / Layer3) based on the scheduling information included in the random access response (message 3 (3), step S3). The base station apparatus 3 transmits a collision confirmation message to the mobile station apparatus 1-1 that has received the upper layer message of (3) (message 4 (4), step S4). Note that the Contention based Random Access is also referred to as random preamble transmission.
図4を用いて、Non-contention based Random Access手順を簡単に説明する。まず、基地局装置3は、プリアンブル番号(または、シーケンス番号)と使用するランダムアクセスチャネル番号を移動局装置1-1に通知する(メッセージ0(1’)、ステップS11)。移動局装置1-1は、指定されたプリアンブル番号のランダムアクセスプリアンブルを指定されたランダムアクセスチャネルRACHに送信する(メッセージ1(2’)、ステップS12)。そして、ランダムアクセスプリアンブルを受信した基地局装置3が、ランダムアクセスプリアンブルに対する応答(ランダムアクセスレスポンス)を移動局装置1-1に送信する(メッセージ2(3’)、ステップS13)。ただし、通知されたプリアンブル番号の値が0の場合は、Contention based Random Accessを行なう。なお、Non-contention based Random Accessを専用プリアンブル送信とも言う。
The non-contention based Random Access procedure will be briefly described with reference to FIG. First, the base station device 3 notifies the mobile station device 1-1 of the preamble number (or sequence number) and the random access channel number to be used (message 0 (1 '), step S11). The mobile station apparatus 1-1 transmits the random access preamble having the designated preamble number to the designated random access channel RACH (message 1 (2 '), step S12). The base station device 3 that has received the random access preamble transmits a response to the random access preamble (random access response) to the mobile station device 1-1 (message 2 (3 '), step S13). However, if the value of the notified preamble number is 0, Contention based Random Access is performed. Non-contention based Random Access is also referred to as dedicated preamble transmission.
図3および図5を用いて、移動局装置1-1が基地局装置3への接続手順を説明する。まず、移動局装置1-1は、報知チャネルPBCH等から基地局装置3のシステム情報を取得し、システム情報に含まれているランダムアクセス関連情報からランダムアクセス手順を実行し、基地局装置3との接続を行なう。移動局装置1-1は、システム情報のランダムアクセス関連情報等からランダムアクセスプリアンブルを生成する。そして、移動局装置1-1は、ランダムアクセスチャネルRACHでランダムアクセスプリアンブルを送信する(メッセージ1(1))。
The connection procedure from the mobile station apparatus 1-1 to the base station apparatus 3 will be described with reference to FIG. 3 and FIG. First, the mobile station apparatus 1-1 acquires system information of the base station apparatus 3 from the broadcast channel PBCH and the like, executes a random access procedure from random access related information included in the system information, Connect. The mobile station apparatus 1-1 generates a random access preamble from the random access related information in the system information. Then, the mobile station apparatus 1-1 transmits a random access preamble using the random access channel RACH (message 1 (1)).
基地局装置3は、移動局装置1-1からのランダムアクセスプリアンブルを検出すると、ランダムアクセスプリアンブルから移動局装置1-1と基地局装置3との間の送信タイミングのずれ量を算出し、Layer2(L2)/Layer3(L3)メッセージを送信するためスケジューリング(上りリンク無線リソース位置(上りリンク共用チャネルPUSCHの位置)、送信フォーマット(メッセージサイズ)などの指定)を行ない、Temporary C-RNTI(Cell-Radio Network Temporary Identity:移動局装置識別情報)を割り当て、下りリンク制御チャネルPDCCHにランダムアクセスチャネルRACHのランダムアクセスプリアンブルを送信した移動局装置1-1宛の応答(ランダムアクセスレスポンス)を示すRA-RNTI(Random Access-Radio Network Temporary Identity:ランダムアクセスレスポンス識別情報)を配置し、下りリンク共用チャネルPDSCHに送信タイミング情報、スケジューリング情報、Temporary C-RNTI、および受信したランダムアクセスプリアンブルの情報を含んだランダムアクセスレスポンスメッセージを送信する(メッセージ2(2))。
When the base station device 3 detects the random access preamble from the mobile station device 1-1, the base station device 3 calculates the amount of transmission timing shift between the mobile station device 1-1 and the base station device 3 from the random access preamble, and the Layer 2 In order to transmit (L2) / Layer3 (L3) message, scheduling (designation of uplink radio resource position (position of uplink shared channel PUSCH), transmission format (message size), etc.) is performed, and Temporary C-RNTI (Cell- Radio Network Temporary Identity (mobile station device identification information) is assigned, and the random access preamble of the random access channel RACH is transmitted to the downlink control channel PDCCH. RA-RNTI (Random Access-Radio Network Temporary Identity: Random Access Response Identification Information) indicating (Random Access Response) is placed, transmission timing information, scheduling information, Temporary C-RNTI and received on downlink shared channel PDSCH A random access response message including information on the random access preamble is transmitted (message 2 (2)).
移動局装置1-1は、下りリンク制御チャネルPDCCHにRA-RNTIがあることを検出すると、下りリンク共用チャネルPDSCHに配置されたランダムアクセスレスポンスメッセージの中身を確認し、送信したランダムアクセスプリアンブルの情報が含まれている場合、ランダムアクセスレスポンスメッセージに含まれる送信タイミング情報から上りリンクの送信タイミングを調整し、スケジューリングされた無線リソースと送信フォーマットとで、C-RNTI(またはTemporary C-RNTI)または、IMSI(International Mobile Subscriber Identity)等の移動局装置1-1を識別する情報を含むL2/L3メッセージを送信する(メッセージ3(3))。移動局装置1-1は、送信タイミングを調整した場合に、調整した送信タイミングが有効である送信タイミングタイマーをスタートする。この送信タイミングタイマーが満了すると、調整した送信タイミングは無効となる。送信タイミングが有効の間、移動局装置1-1は、基地局装置へのデータ送信が可能であり、送信タイミングが無効の場合、ランダムアクセスプリアンブルの送信のみが可能である。また、送信タイミングが有効な期間を上りリンク同期状態と言い、送信タイミングが有効でない期間を上りリンク非同期状態とも言う。
When the mobile station apparatus 1-1 detects the presence of RA-RNTI in the downlink control channel PDCCH, the mobile station apparatus 1-1 confirms the contents of the random access response message arranged in the downlink shared channel PDSCH, and transmits the information on the transmitted random access preamble. Is included, the uplink transmission timing is adjusted from the transmission timing information included in the random access response message, and the C-RNTI (or Temporary C-RNTI) or the scheduled radio resource and the transmission format are used. An L2 / L3 message including information for identifying the mobile station device 1-1 such as IMSI (International Mobile Subscriber Identity) is transmitted (message 3 (3)). When the transmission timing is adjusted, the mobile station apparatus 1-1 starts a transmission timing timer in which the adjusted transmission timing is valid. When this transmission timing timer expires, the adjusted transmission timing becomes invalid. While the transmission timing is valid, the mobile station apparatus 1-1 can transmit data to the base station apparatus. When the transmission timing is invalid, the mobile station apparatus 1-1 can only transmit a random access preamble. Further, a period in which the transmission timing is valid is referred to as an uplink synchronization state, and a period in which the transmission timing is not valid is also referred to as an uplink asynchronous state.
基地局装置3は、移動局装置1-1からのL2/L3メッセージを受信すると、受信したL2/L3メッセージに含まれるC-RNTI(またはTemporary C-RNTI)またはIMSIを使用して、移動局装置1-1~1-3間で衝突が起こっているかどうか判断するための衝突確認(コンテンションレゾリューション)メッセージを移動局装置1-1に送信する(メッセージ4(4))。
Upon receiving the L2 / L3 message from the mobile station apparatus 1-1, the base station apparatus 3 uses the C-RNTI (or Temporary C-RNTI) or IMSI included in the received L2 / L3 message to A collision confirmation (contention resolution) message for determining whether or not a collision occurs between the apparatuses 1-1 to 1-3 is transmitted to the mobile station apparatus 1-1 (message 4 (4)).
移動局装置1-1は、一定期間内に送信したランダムアクセスプリアンブルに対応するプリアンブル番号を含むランダムアクセスレスポンスメッセージを検出しなかった場合、メッセージ3の送信に失敗した場合、または、一定期間内に衝突確認メッセージに自移動局装置1-1の識別情報を検出しなかった場合、ランダムアクセスプリアンブルの送信(メッセージ1(1))からやり直す。そして、ランダムアクセスプリアンブルの送信回数がシステム情報で示されたランダムアクセスプリアンブルの最大送信回数を越えた場合、移動局装置1-1は、ランダムアクセス失敗と判断し、基地局装置3との通信を切断する。なお、ランダムアクセス手順成功後は、さらに基地局装置3と移動局装置1-1との間で接続のための制御データのやり取りがされる。この時、基地局装置3は、個別に割り当てる上りリンク参照信号や上りリンク制御チャネルPUCCHの割り当て情報を移動局装置1-1に通知する。
The mobile station device 1-1 does not detect a random access response message including a preamble number corresponding to the random access preamble transmitted within a certain period, fails to transmit the message 3, or within a certain period If the identification information of the mobile station apparatus 1-1 is not detected in the collision confirmation message, the process starts again from transmission of the random access preamble (message 1 (1)). When the number of random access preamble transmissions exceeds the maximum number of random access preamble transmissions indicated by the system information, the mobile station device 1-1 determines that the random access has failed and performs communication with the base station device 3. Disconnect. After the random access procedure is successful, control data for connection is further exchanged between the base station apparatus 3 and the mobile station apparatus 1-1. At this time, the base station apparatus 3 notifies the mobile station apparatus 1-1 of uplink reference signals to be individually allocated and allocation information of the uplink control channel PUCCH.
ランダムアクセス手順完了以降の上りリンクの送信タイミングの更新は、図5に示すように基地局装置3が移動局装置1-1から送信される上りリンク参照信号(測定用参照信号、または、復調用参照信号)を測定して、送信タイミング情報を算出し、算出した送信タイミング情報含む送信タイミングメッセージを移動局装置1-1に通知することで行なわれる。移動局装置1-1は、基地局装置3から通知された送信タイミング情報から上りリンクの送信タイミングを調整すると、送信タイミングタイマーをリスタート(restart)する。なお、基地局装置3も移動局装置1-1と同じ送信タイミングタイマーを保持しており、送信タイミングメッセージを送信した場合に送信タイミングタイマーをスタート、または、リスタートする。このようにすることで、基地局装置3と移動局装置1-1とで上りリンク同期状態を管理する。送信タイミングタイマーが満了すると送信タイミングは無効となり、ランダムアクセスプリアンブルの送信以外の上りリンク送信を停止する。
Update of uplink transmission timing after completion of the random access procedure is performed by using the uplink reference signal (measurement reference signal or demodulation signal) transmitted from the mobile station apparatus 1-1 by the base station apparatus 3 as shown in FIG. (Reference signal) is measured, transmission timing information is calculated, and a transmission timing message including the calculated transmission timing information is notified to the mobile station apparatus 1-1. When the mobile station apparatus 1-1 adjusts the uplink transmission timing from the transmission timing information notified from the base station apparatus 3, the mobile station apparatus 1-1 restarts the transmission timing timer. The base station apparatus 3 also holds the same transmission timing timer as that of the mobile station apparatus 1-1, and starts or restarts the transmission timing timer when transmitting a transmission timing message. By doing so, the uplink synchronization state is managed by the base station apparatus 3 and the mobile station apparatus 1-1. When the transmission timing timer expires, the transmission timing becomes invalid, and uplink transmission other than the random access preamble transmission is stopped.
また、3GPPでは、EUTRAのさらなる進化のAdvanced-EUTRAの議論も始まっている。Advanced-EUTRAでは、上りリンクおよび下りリンクでそれぞれ最大100MHz帯域幅までの帯域を使用して、最大で下りリンク1Gbps以上、上りリンク500Mbps以上の伝送レートの通信を行なうことを想定している。
Also, 3GPP has begun discussions on Advanced-EUTRA, a further evolution of EUTRA. In Advanced-EUTRA, it is assumed that communication at a maximum transmission rate of 1 Gbps or higher and 500 Mbps or higher of the uplink is performed using a band up to a maximum of 100 MHz bandwidth in the uplink and the downlink, respectively.
図6は、Advanced-EUTRAにおける下りリンクのコンポーネントキャリアについての説明図である。図7は、Advanced-EUTRAにおける上りリンクのコンポーネントキャリアについての説明図である。
FIG. 6 is an explanatory diagram of downlink component carriers in Advanced-EUTRA. FIG. 7 is an explanatory diagram of an uplink component carrier in Advanced-EUTRA.
Advanced-EUTRAでは、EUTRAの移動局装置も収容できるようにEUTRAの20MHz以下の帯域を複数個束ねることで、最大で100MHz帯域を実現することを考えている。なお、Advanced-EUTRAでは、EUTRAの1つの20MHz以下の帯域をコンポーネントキャリア(Component Carrier:CC)と呼んでいる(非特許文献2)。また、1つの下りリンクのコンポーネントキャリアと1つの上りリンクのコンポーネントキャリアとを組み合わせて1つのセルを構成する。なお、1つの下りリンクコンポーネントキャリアのみでも1つのセルを構成できる。
Advanced-EUTRA is considering to realize a maximum of 100 MHz band by bundling a plurality of bands below 20 MHz of EUTRA so that EUTRA mobile station devices can be accommodated. In Advanced-EUTRA, one band of 20 MHz or less of EUTRA is called a component carrier (CC) (Non-patent Document 2). Also, one cell is configured by combining one downlink component carrier and one uplink component carrier. One cell can be configured with only one downlink component carrier.
つまり、基地局装置は、移動局装置の通信能力や通信条件にあった複数のセルを割り当て、割り当てた複数のセルを介して移動局装置と通信を行なうようにしている。なお、移動局装置に割り当てられた複数のセルは、1つのセルを第一セル(Primary Cell)とそれ以外のセルを第二セル(Secondary Cell)としている。第一セルには、上りリンク制御チャネルPUCCHの割り当てや、ランダムアクセスチャネルRACHへのアクセス許可など特別な機能を設定している。
That is, the base station apparatus allocates a plurality of cells that match the communication capability and communication conditions of the mobile station apparatus, and communicates with the mobile station apparatus via the allocated plurality of cells. In the plurality of cells assigned to the mobile station apparatus, one cell is a first cell (Primary Cell) and the other cells are second cells (Secondary Cell). Special functions such as allocation of the uplink control channel PUCCH and permission to access the random access channel RACH are set in the first cell.
また、移動局装置の消費電力を少なくするために、割り当て直後の第二セルに対し、移動局装置は下りリンクの受信処理を行なわず(または、下りリンク制御チャネルで指示された無線リソース割り当て情報に従わない)、基地局装置からアクティベート(Activate)を指示された後、アクティベートを指示された第二セルに対して下りリンクの受信処理を開始する(または、下りリンク制御チャネルで指示された無線リソース割り当て情報に従う)ようにしている。また、移動局装置は、基地局装置からアクティベートしている第二セルに対してデアクティベート(deactivate)を指示された後、デアクティベートを指示された第二セルに対して下りリンクの受信処理を停止する(または、下りリンク制御チャネルで指示された無線リソース割り当て情報に従わない)ようにしている。なお、基地局装置からアクティベートを指示され、下りリンクの受信処理を行なっている第二セルをアクティベートセルと言い、また、基地局装置から移動局装置への割り当て直後の第二セルおよびデアクティベートを指示され、下りリンクの受信処理を停止している第二セルをデアクティベートセルと言う。また、第一セルは、常にアクティベートセルである。
In addition, in order to reduce the power consumption of the mobile station apparatus, the mobile station apparatus does not perform downlink reception processing on the second cell immediately after allocation (or radio resource allocation information indicated by the downlink control channel). After the activation is instructed from the base station apparatus, the downlink reception process is started for the second cell instructed to activate (or the radio instructed by the downlink control channel). According to the resource allocation information). In addition, after the mobile station apparatus is instructed to deactivate the second cell activated by the base station apparatus, the mobile station apparatus performs downlink reception processing on the second cell instructed to deactivate. It stops (or does not follow the radio resource allocation information indicated by the downlink control channel). The second cell that is instructed to activate by the base station device and is performing downlink reception processing is called an activation cell, and the second cell and deactivation immediately after allocation from the base station device to the mobile station device The second cell that has been instructed and has stopped the downlink reception process is called a deactivated cell. The first cell is always an activated cell.
しかし、移動局装置が、複数のセルを使用して基地局装置と通信を行なう場合、図8のようにリピータ(Repeater)などを介して基地局装置へ接続する場合がある。このような場合、移動局装置での下りリンクコンポーネントキャリアの受信タイミングと、上りリンクコンポーネントキャリア毎の基地局装置への送信タイミングの両方または一方がセル毎に異なることとなる。特に、上りリンクコンポーネントキャリア毎の基地局装置への送信タイミングが異なる場合、移動局装置は、各セルの上りリンクコンポーネントキャリア毎に送信タイミングの調整を行なって、基地局装置へのデータ送信を行なう必要がある。
However, when the mobile station apparatus communicates with the base station apparatus using a plurality of cells, the mobile station apparatus may be connected to the base station apparatus via a repeater as shown in FIG. In such a case, both or one of the reception timing of the downlink component carrier in the mobile station apparatus and the transmission timing to the base station apparatus for each uplink component carrier is different for each cell. In particular, when the transmission timing to the base station apparatus for each uplink component carrier is different, the mobile station apparatus adjusts the transmission timing for each uplink component carrier of each cell and transmits data to the base station apparatus. There is a need.
[構成]
図9は、本発明の実施形態に係る移動局装置の構成を示す図である。移動局装置1-1~1-3の各々は、無線部101、送信処理部103、変調部105、送信HARQ処理部107、制御部109、上りリンク参照信号生成部111、ランダムアクセスプリアンブル生成部113、受信処理部115、復調部117、受信HARQ処理部119、および移動局管理部121を含む。移動局管理部121は、ULスケジュール部123、制御データ作成部125、制御データ解析部127、セル管理部129、およびTA管理部131を含む。 [Constitution]
FIG. 9 is a diagram illustrating the configuration of the mobile station apparatus according to the embodiment of the present invention. Each of the mobile station apparatuses 1-1 to 1-3 includes aradio unit 101, a transmission processing unit 103, a modulation unit 105, a transmission HARQ processing unit 107, a control unit 109, an uplink reference signal generation unit 111, and a random access preamble generation unit. 113, a reception processing unit 115, a demodulation unit 117, a reception HARQ processing unit 119, and a mobile station management unit 121. The mobile station management unit 121 includes a UL schedule unit 123, a control data creation unit 125, a control data analysis unit 127, a cell management unit 129, and a TA management unit 131.
図9は、本発明の実施形態に係る移動局装置の構成を示す図である。移動局装置1-1~1-3の各々は、無線部101、送信処理部103、変調部105、送信HARQ処理部107、制御部109、上りリンク参照信号生成部111、ランダムアクセスプリアンブル生成部113、受信処理部115、復調部117、受信HARQ処理部119、および移動局管理部121を含む。移動局管理部121は、ULスケジュール部123、制御データ作成部125、制御データ解析部127、セル管理部129、およびTA管理部131を含む。 [Constitution]
FIG. 9 is a diagram illustrating the configuration of the mobile station apparatus according to the embodiment of the present invention. Each of the mobile station apparatuses 1-1 to 1-3 includes a
ユーザーデータや制御データは、送信HARQ処理部107に入力される。送信HARQ処理部107は、制御部109の指示により、入力データに符号化を行ない、符号化したデータにパンクチャ処理を行なう。そして、送信HARQ処理部107は、パンクチャしたデータを変調部105に出力し、符号化したデータを保存しておく。また、送信HARQ処理部107は、制御部109より、データの再送を指示された場合、保存されている符号化したデータに前回に行なったパンクチャとは異なるパンクチャ処理を行ない、そのパンクチャしたデータを変調部105に出力する。また、送信HARQ処理部107は、制御部109からの指示により、保存してあるデータを消去する。
User data and control data are input to the transmission HARQ processing unit 107. The transmission HARQ processing unit 107 encodes input data according to an instruction from the control unit 109, and performs puncture processing on the encoded data. Then, transmission HARQ processing section 107 outputs the punctured data to modulation section 105 and stores the encoded data. In addition, when the control unit 109 instructs the transmission HARQ processing unit 107 to retransmit data, the transmission HARQ processing unit 107 performs puncture processing different from the puncture performed on the previously stored encoded data, and the punctured data is processed. Output to the modulation unit 105. In addition, the transmission HARQ processing unit 107 deletes the stored data according to an instruction from the control unit 109.
変調部105は、送信HARQ処理部107からの入力データに変調を行ない、送信処理部103に出力する。送信処理部103は、制御部109の指示により、変調部105や上りリンク参照信号生成部111やランダムアクセスプリアンブル生成部113からの入力データ(または入力信号)を各セルの上りリンクコンポーネントキャリアの各チャネルにマッピングし、マッピングしたデータに対して直列/並列変換、DFT-IFFT(Inverse Fast Fourier Transform:逆高速フーリエ変換)変換、CP挿入などのOFDM信号処理を行ない、OFDM信号を生成する。また、送信処理部103は、制御部109から渡される送信タイミング情報と送信タイミングを調整する送信タイミンググループ情報とから各セルの上りリンクコンポーネントキャリア毎に出力される信号の送信タイミングを調整し、送信タイミングの調整後、OFDM信号を無線部101に出力する。
Modulation section 105 modulates input data from transmission HARQ processing section 107 and outputs the result to transmission processing section 103. The transmission processing unit 103 receives input data (or input signals) from the modulation unit 105, the uplink reference signal generation unit 111, and the random access preamble generation unit 113 according to instructions from the control unit 109, for each uplink component carrier of each cell. Mapping to the channel, OFDM signal processing such as serial / parallel conversion, DFT-IFFT (Inverse Fast Fourier Transform) conversion, and CP insertion is performed on the mapped data to generate an OFDM signal. Further, the transmission processing unit 103 adjusts the transmission timing of the signal output for each uplink component carrier of each cell from the transmission timing information passed from the control unit 109 and the transmission timing group information for adjusting the transmission timing, and transmits After the timing adjustment, the OFDM signal is output to the wireless unit 101.
上りリンク参照信号生成部111は、制御部109の指示により、移動局管理部121から取得した上りリンク参照信号生成情報から上りリンク参照信号を生成し、生成した上りリンク参照信号を送信処理部103に出力する。ランダムアクセスプリアンブル生成部113は、制御部109の指示により、移動局管理部121から取得したランダムアクセスに関する情報からランダムアクセスプリアンブルを生成し、生成したランダムアクセスプリアンブルを送信処理部103に出力する。
The uplink reference signal generation unit 111 generates an uplink reference signal from the uplink reference signal generation information acquired from the mobile station management unit 121 according to an instruction from the control unit 109, and transmits the generated uplink reference signal to the transmission processing unit 103. Output to. The random access preamble generation unit 113 generates a random access preamble from information regarding random access acquired from the mobile station management unit 121 according to an instruction from the control unit 109, and outputs the generated random access preamble to the transmission processing unit 103.
無線部101は、制御部109からの指示により送信処理部103からの入力信号を無線周波数にアップコンバートし、送信アンテナから送信する。また、無線部101は、アンテナより受信した無線信号をダウンコンバートし、受信処理部115に出力する。受信処理部115は、無線部101からの入力信号をFFT(Fast Fourier Transform:高速フーリエ変換)処理を行ない、復調部117に出力する。復調部117は、入力データの復調処理を行ない、復調したデータを受信HARQ処理部119に出力する。
The radio unit 101 up-converts the input signal from the transmission processing unit 103 to a radio frequency according to an instruction from the control unit 109, and transmits the radio signal from the transmission antenna. Radio section 101 down-converts the radio signal received from the antenna and outputs it to reception processing section 115. The reception processing unit 115 performs FFT (Fast Fourier Transform) processing on the input signal from the radio unit 101 and outputs the processed signal to the demodulation unit 117. Demodulation section 117 performs demodulation processing of input data and outputs the demodulated data to reception HARQ processing section 119.
受信HARQ処理部119は、入力データの復号処理を行ない、復号処理に成功した場合、制御データを移動局管理部121に出力し、ユーザーデータを上位層に出力する。受信HARQ処理部119は、入力データの復号処理に失敗した場合、復号処理に失敗したデータを保存しておく。受信HARQ処理部119は、再送データを受信した場合、保存してあるデータと再送データとを合成し、復号処理を行なう。また、受信HARQ処理部119は、入力データの復号処理の成否を移動局管理部121に通知する。また、受信HARQ処理部119は、制御部109からの指示により、保存してあるデータを消去する。
The reception HARQ processing unit 119 performs a decoding process on the input data. If the decoding process is successful, the reception HARQ processing unit 119 outputs control data to the mobile station management unit 121 and outputs user data to an upper layer. The reception HARQ processing unit 119 stores the data that has failed in the decoding process when the decoding process of the input data has failed. When receiving the retransmission data, the reception HARQ processing unit 119 combines the stored data and the retransmission data and performs a decoding process. Also, the reception HARQ processing unit 119 notifies the mobile station management unit 121 of success or failure of input data decoding processing. Further, the reception HARQ processing unit 119 deletes the stored data in accordance with an instruction from the control unit 109.
制御部109は、移動局管理部121からの指示に基づいて、無線部101、送信処理部103、変調部105、送信HARQ処理部107、上りリンク参照信号生成部111、ランダムアクセスプリアンブル生成部113、受信処理部115、復調部117、および受信HARQ処理部119の制御を行なう。
Based on instructions from the mobile station management unit 121, the control unit 109 is configured to include a radio unit 101, a transmission processing unit 103, a modulation unit 105, a transmission HARQ processing unit 107, an uplink reference signal generation unit 111, and a random access preamble generation unit 113. The reception processing unit 115, the demodulation unit 117, and the reception HARQ processing unit 119 are controlled.
移動局管理部121は、ULスケジュール部123、制御データ作成部125、制御データ解析部127、セル管理部129、およびTA管理部131を含む。制御データ作成部125は、受信HARQ処理部119からの受信データの復号結果からデータのACK/NACKメッセージを作成し、また下りリンクの無線品質を示すメッセージなどの制御データを作成し、作成した制御データを送信HARQ処理部107に出力する。制御データ解析部127は、受信HARQ処理部119から入力された制御データを解析する。制御データ解析部127は、基地局装置3から受信したセルのシステム情報、セルの割り当て情報、ランダムアクセスレスポンスメッセージ、上りリンク参照信号の生成情報などをセル管理部129に出力し、送信タイミングメッセージ、送信タイミングメッセージを取得したセルの情報、送信タイミングタイマー情報などをTA管理部131に出力する。
The mobile station management unit 121 includes a UL schedule unit 123, a control data creation unit 125, a control data analysis unit 127, a cell management unit 129, and a TA management unit 131. The control data creation unit 125 creates a data ACK / NACK message from the decoding result of the received data from the reception HARQ processing unit 119, creates control data such as a message indicating downlink radio quality, and creates the created control Data is output to the transmission HARQ processing unit 107. The control data analysis unit 127 analyzes the control data input from the reception HARQ processing unit 119. The control data analysis unit 127 outputs the cell system information, the cell allocation information, the random access response message, the uplink reference signal generation information, and the like received from the base station device 3 to the cell management unit 129, and the transmission timing message, Information of the cell from which the transmission timing message is acquired, transmission timing timer information, and the like are output to the TA management unit 131.
ULスケジュール部123は、基地局装置3からの上りリンクデータのスケジューリング情報や送信した上りリンクデータの応答(ACK/NACK)を元に制御部109を介して送信処理部103、変調部105、送信HARQ処理部107を制御する。また、ULスケジュール部123は、上位層からの制御情報を元にセル管理部129にランダムアクセスを開始するよう指示する。
The UL scheduling unit 123 transmits a transmission processing unit 103, a modulation unit 105, and a transmission through the control unit 109 based on uplink data scheduling information from the base station apparatus 3 and a transmitted uplink data response (ACK / NACK). The HARQ processing unit 107 is controlled. In addition, the UL schedule unit 123 instructs the cell management unit 129 to start random access based on control information from an upper layer.
セル管理部129は、基地局装置3から割り当てられたセルを管理し、基地局装置3から受信したセル毎の物理チャネルの構成、送信電力情報、ランダムアクセスに関する情報および上りリンク参照信号の生成情報などの各セルのシステム情報、上りリンク参照信号(測定用参照信号)の無線リソース、上りリンク制御チャネルPUCCHの無線リソースなどの移動局装置1-1に個別に割り当てられた無線リソースなどを管理する。セル管理部129は、制御部109を介してランダムアクセスに関する情報をランダムアクセスプリアンブル生成部113に通知し、上りリンク参照信号の生成情報を上りリンク参照信号生成部111に通知する。セル管理部129は、送信タイミングが同じセルのグループ情報をTA管理部131に通知する。セル管理部129は、通信の開始時や上りリンクデータのスケジュール要求を行なう場合、基地局装置3にランダムアクセスプリアンブルを送信するように、制御部109を介してランダムアクセスプリアンブル生成部113に指示する。
The cell management unit 129 manages the cells allocated from the base station apparatus 3, and the physical channel configuration, transmission power information, information on random access, and uplink reference signal generation information for each cell received from the base station apparatus 3 For example, system resources of each cell, radio resources of uplink reference signals (measurement reference signals), radio resources individually allocated to the mobile station apparatus 1-1 such as radio resources of the uplink control channel PUCCH, etc. . The cell management unit 129 notifies the random access preamble generation unit 113 of information related to random access via the control unit 109, and notifies the uplink reference signal generation unit 111 of generation information of the uplink reference signal. The cell management unit 129 notifies the TA management unit 131 of group information of cells having the same transmission timing. The cell management unit 129 instructs the random access preamble generation unit 113 via the control unit 109 to transmit a random access preamble to the base station device 3 when starting communication or when making a schedule request for uplink data. .
セル管理部129は、TA管理部131から送信タイミングタイマーが満了したことが通知された場合、制御部109を介して、送信HARQ処理部107に送信タイミングが満了したセルのHARQ処理停止を指示し、送信タイミングが満了したセルの保存してあるデータの消去を指示し、上りリンク参照信号生成部111に送信タイミングが満了したセルの上りリンク参照信号の生成を停止するように指示する。また、セル管理部129は、送信タイミングが満了したセルの基地局装置3から割り当てられた上りリンク制御チャネルPUCCHの無線リソースと上りリンク参照信号(測定用参照信号)の無線リソースとを解放する。
When notified from the TA management unit 131 that the transmission timing timer has expired, the cell management unit 129 instructs the transmission HARQ processing unit 107 to stop HARQ processing of the cell whose transmission timing has expired via the control unit 109. And erasing data stored in the cell whose transmission timing has expired, and instructing the uplink reference signal generation section 111 to stop generating the uplink reference signal of the cell whose transmission timing has expired. Further, the cell management unit 129 releases the radio resource of the uplink control channel PUCCH and the radio resource of the uplink reference signal (measurement reference signal) allocated from the base station apparatus 3 of the cell whose transmission timing has expired.
TA管理部131は、セル毎または送信タイミンググループ毎の送信タイミングと送信タイミングタイマーとを管理する。また、TA管理部131は、送信タイミングが同じとなるセルのグループ情報も管理する。TA管理部131は、送信タイミングメッセージを取得した場合、送信タイミングメッセージに含まれる送信タイミングを適用する送信タイミンググループ情報と送信タイミング情報とを制御部109を介して送信処理部103に通知し、送信タイミングを適用する送信タイミンググループの送信タイミングタイマーをスタート、または、リスタートする。そして、TA管理部131は、セル管理部129にセル毎に送信タイミングタイマーがスタート、または、リスタートしたことを通知する。また、TA管理部131は、セル毎に送信タイミングタイマーが満了した場合、セル管理部129に対象となるセルの送信タイミングタイマーが満了したことを通知する。
The TA management unit 131 manages the transmission timing and the transmission timing timer for each cell or each transmission timing group. Further, the TA management unit 131 also manages group information of cells having the same transmission timing. When the TA management unit 131 acquires the transmission timing message, the TA management unit 131 notifies the transmission processing unit 103 of the transmission timing group information and the transmission timing information to which the transmission timing included in the transmission timing message is applied via the control unit 109, and transmits the transmission timing message. The transmission timing timer of the transmission timing group to which the timing is applied is started or restarted. Then, the TA management unit 131 notifies the cell management unit 129 that the transmission timing timer has been started or restarted for each cell. Further, when the transmission timing timer expires for each cell, the TA management unit 131 notifies the cell management unit 129 that the transmission timing timer of the target cell has expired.
図10は、本発明の実施形態に係る基地局装置3の構成を示す図である。基地局装置3は、無線部201、送信処理部203、変調部205、送信HARQ処理部207、制御部209、下りリンク参照信号生成部211、プリアンブル検出部213、受信処理部215、復調部217、受信HARQ処理部219、および基地局管理部221を含む。基地局管理部221は、DL/ULスケジュール部223、制御データ作成部225、制御データ解析部227、セル管理部229、およびTA管理部231を含む。
FIG. 10 is a diagram showing a configuration of the base station apparatus 3 according to the embodiment of the present invention. The base station apparatus 3 includes a radio unit 201, a transmission processing unit 203, a modulation unit 205, a transmission HARQ processing unit 207, a control unit 209, a downlink reference signal generation unit 211, a preamble detection unit 213, a reception processing unit 215, and a demodulation unit 217. A reception HARQ processing unit 219 and a base station management unit 221. The base station management unit 221 includes a DL / UL schedule unit 223, a control data creation unit 225, a control data analysis unit 227, a cell management unit 229, and a TA management unit 231.
ユーザーデータや制御データは、送信HARQ処理部207に入力される。送信HARQ処理部207は、制御部209の指示により、入力データに符号化を行ない、符号化したデータにパンクチャ処理を行なう。そして、送信HARQ処理部207は、パンクチャしたデータを変調部205に出力し、符号化したデータを保存しておく。また、送信HARQ処理部207は、制御部209より、データの再送を指示された場合、保存されている符号化したデータに前回に行なったパンクチャとは異なるパンクチャ処理を行ない、そのパンクチャしたデータを変調部205に出力する。また、送信HARQ処理部207は、制御部209からの指示により、保存してあるデータを消去する。
User data and control data are input to the transmission HARQ processing unit 207. The transmission HARQ processing unit 207 performs encoding on the input data and performs puncture processing on the encoded data according to an instruction from the control unit 209. Then, transmission HARQ processing section 207 outputs the punctured data to modulation section 205 and stores the encoded data. Further, when the control unit 209 instructs the transmission HARQ processing unit 207 to retransmit the data, the transmission HARQ processing unit 207 performs puncture processing different from the previously performed puncture on the stored encoded data, and the punctured data is processed. The result is output to the modulation unit 205. Further, the transmission HARQ processing unit 207 deletes the stored data in accordance with an instruction from the control unit 209.
変調部205は、送信HARQ処理部207からの入力データに変調を行ない、送信処理部203に出力する。送信処理部203は、制御部209の指示により、変調部205や下りリンク参照信号生成部211からの入力データ(または信号)を、各セルの下りリンクコンポーネントキャリアの下りリンク制御チャネルPDCCH、下りリンク同期チャネルDSCH、報知チャネルPBCH、下りリンク共用チャネルPDSCHなどの各チャネルにマッピングし、マッピングしたデータに対して直列/並列変換、IFFT(Inverse Fast Fourier Transform:逆高速フーリエ変換)変換、CP挿入などのOFDM信号処理を行ない、OFDM信号を生成する。そして、送信処理部203は、生成したOFDM信号を無線部201に出力する。
The modulation unit 205 modulates the input data from the transmission HARQ processing unit 207 and outputs it to the transmission processing unit 203. The transmission processing unit 203 receives the input data (or signal) from the modulation unit 205 and the downlink reference signal generation unit 211 according to an instruction from the control unit 209, the downlink control channel PDCCH of the downlink component carrier of each cell, and the downlink Mapping to each channel such as synchronous channel DSCH, broadcast channel PBCH, downlink shared channel PDSCH, etc., serial / parallel conversion, IFFT (Inverse Fast Fourier Transform) conversion, CP insertion, etc. OFDM signal processing is performed to generate an OFDM signal. Then, the transmission processing unit 203 outputs the generated OFDM signal to the wireless unit 201.
無線部201は、制御部209からの指示により送信処理部203からの入力信号を無線周波数にアップコンバートして、送信アンテナから移動局装置1-1~1-3に送信する。また、無線部201は、アンテナより移動局装置1-1からの無線信号を受信し、受信信号をベースバンド信号にダウンコンバートし、受信信号を受信処理部215、または、プリアンブル検出部213に出力する。受信処理部215は、無線部201からの入力信号にFFT(Fast Fourier Transform:高速フーリエ変換)処理を行ない、復調部217に出力する。また、受信処理部215は、上りリンク参照信号(測定用参照信号)から無線伝搬路品質や送信タイミングのずれ量を測定し、測定結果を基地局管理部221に渡す。なお、上りリンクの通信方式は、DFT-spread OFDM等のようなシングルキャリア方式を想定しているが、OFDM方式のようなマルチキャリア方式でもかまわない。復調部217は、入力データの復調処理を行ない、復調したデータを受信HARQ処理部219に出力する。
The radio unit 201 up-converts the input signal from the transmission processing unit 203 to a radio frequency according to an instruction from the control unit 209, and transmits the radio signal to the mobile station apparatuses 1-1 to 1-3 from the transmission antenna. Radio section 201 receives a radio signal from mobile station apparatus 1-1 from the antenna, down-converts the received signal into a baseband signal, and outputs the received signal to reception processing section 215 or preamble detection section 213. To do. The reception processing unit 215 performs FFT (Fast Fourier Transform) processing on the input signal from the radio unit 201 and outputs the processed signal to the demodulation unit 217. Further, the reception processing unit 215 measures the radio channel quality and the amount of transmission timing deviation from the uplink reference signal (measurement reference signal), and passes the measurement result to the base station management unit 221. The uplink communication scheme is assumed to be a single carrier scheme such as DFT-spread OFDM, but a multicarrier scheme such as the OFDM scheme may be used. Demodulation section 217 performs demodulation processing of input data and outputs the demodulated data to reception HARQ processing section 219.
受信HARQ処理部219は、入力データの復号処理を行ない、復号処理に成功した場合、制御データを基地局管理部221に出力し、ユーザーデータを上位層に出力する。受信HARQ処理部219は、入力データの復号処理に失敗した場合、復号処理に失敗したデータを保存する。受信HARQ処理部219は、再送データを受信した場合、保存してあるデータと再送データとを合成し、復号処理を行なう。また、受信HARQ処理部219は、入力データの復号処理の成否を基地局管理部221に通知する。また、受信HARQ処理部219は、制御部209からの指示により、保存してあるデータを消去する。
The reception HARQ processing unit 219 performs the decoding process of the input data, and when the decoding process is successful, outputs the control data to the base station management unit 221 and outputs the user data to the upper layer. The reception HARQ processing unit 219 stores the data that has failed in the decoding process when the decoding process of the input data has failed. When receiving the retransmission data, the reception HARQ processing unit 219 combines the stored data and the retransmission data and performs a decoding process. Also, the reception HARQ processing unit 219 notifies the base station management unit 221 of the success or failure of the input data decoding process. Further, the reception HARQ processing unit 219 deletes the stored data in accordance with an instruction from the control unit 209.
プリアンブル検出部213は、無線部201から入力信号に対して、相関処理を行ない、ランダムアクセスプリアンブルの検出処理を行なう。ランダムアクセスプリアンブルを検出した場合、検出したランダムアクセスプリアンブルから送信タイミングずれ量を算出し、ランダムアクセスプリアンブルを検出したセル、検出したプリアンブルの情報、および送信タイミングずれ量を基地局管理部221に通知する。制御部209は、基地局管理部221からの指示に基づいて、無線部201、送信処理部203、変調部205、送信HARQ処理部207、下りリンク参照信号生成部211、受信処理部215、復調部217、および受信HARQ処理部219の制御を行なう。
The preamble detection unit 213 performs a correlation process on the input signal from the radio unit 201 and performs a random access preamble detection process. When a random access preamble is detected, a transmission timing deviation amount is calculated from the detected random access preamble, and the base station management unit 221 is notified of the cell in which the random access preamble is detected, information on the detected preamble, and the transmission timing deviation amount. . Based on an instruction from the base station management unit 221, the control unit 209 performs a radio unit 201, a transmission processing unit 203, a modulation unit 205, a transmission HARQ processing unit 207, a downlink reference signal generation unit 211, a reception processing unit 215, a demodulation Unit 217 and reception HARQ processing unit 219 are controlled.
基地局管理部221は、下りリンクおよび上りリンクのスケジュールを行なうDL/ULスケジュール部223、制御データ作成部225、制御データ解析部227、セル管理部229、およびTA管理部231を含む。DL/ULスケジュール部223は、移動局装置1-1から通知される下りリンクの無線伝搬路品質情報、上位層からの通知される各ユーザーのデータ情報、制御データ作成部225で作成される制御データから、下りリンクの各チャネルにユーザーデータおよび制御データをマッピングするためのスケジュールを行ない、スケジュール結果を制御部209に渡す。また、DL/ULスケジュール部223は、受信処理部215からの上りリンクの無線伝搬路品質結果と移動局装置1-1からの無線リソース割り当て要求とから上りリンクの各チャネルにユーザーデータをマッピングするためのスケジュールを行なう。
The base station management unit 221 includes a DL / UL schedule unit 223 that performs downlink and uplink schedules, a control data creation unit 225, a control data analysis unit 227, a cell management unit 229, and a TA management unit 231. The DL / UL schedule unit 223 includes downlink radio channel quality information notified from the mobile station apparatus 1-1, data information of each user notified from the upper layer, and control data generated by the control data generation unit 225. A schedule for mapping user data and control data to each downlink channel is performed from the data, and the schedule result is passed to the control unit 209. Also, the DL / UL schedule unit 223 maps user data to each uplink channel from the uplink radio channel quality result from the reception processing unit 215 and the radio resource allocation request from the mobile station apparatus 1-1. Schedule for
また、DL/ULスケジュール部223は、プリアンブル検出部213からランダムアクセスプリアンブルを検出したことが通知された場合、上りリンク共用チャネルPUSCHを割り当てて、割り当てた上りリンク共用チャネルPUSCHとプリアンブル番号とを制御データ作成部225に通知する。DL/ULスケジュール部223は、TA管理部231から送信タイミング情報と送信タイミングを適用する送信タイミンググループ情報とを通知された場合、移動局装置1-1の下りリンクおよび上りリンクのスケジュール状況から移動局装置1-1に送信タイミング情報を通知するかどうか判定し、送信タイミング情報を通知する場合、TA管理部231に送信タイミング情報を送信することを報告し、送信タイミング情報と送信タイミングを適用する送信タイミンググループ情報とを制御データ作成部225に通知する。
Also, when notified from the preamble detector 213 that the random access preamble has been detected, the DL / UL schedule unit 223 allocates the uplink shared channel PUSCH and controls the allocated uplink shared channel PUSCH and the preamble number. The data creation unit 225 is notified. When notified from the TA management unit 231 of the transmission timing information and the transmission timing group information to which the transmission timing is applied, the DL / UL scheduling unit 223 moves from the downlink and uplink schedule status of the mobile station apparatus 1-1. It is determined whether or not to transmit the transmission timing information to the station apparatus 1-1. When the transmission timing information is notified, the TA management unit 231 is reported to transmit the transmission timing information, and the transmission timing information and the transmission timing are applied. The control data creation unit 225 is notified of the transmission timing group information.
制御データ作成部225は、下りリンク制御チャネルPDCCHに配置される制御データや下りリンク共用チャネルPDSCHに配置される制御データを作成する。スケジュール情報を含んだ制御メッセージ、上りリンクデータの応答(ACK/NACK)、物理チャネルの構成情報や各チャネルの送信電力情報やランダムアクセスに関する情報などを含むシステム情報メッセージ、利用するセルの設定情報(ランダムアクセスに関する情報を含む)を含んだ初期設定メッセージ、プリアンブル番号や送信タイミング情報やスケジューリング情報を含んだランダムアクセスレスポンスメッセージ、コンテンションレゾリューションメッセージ、および、送信タイミング情報を含んだ送信タイミングメッセージ、といった制御データを作成する。制御データ解析部227は、移動局装置1-1からの下りリンクデータの応答(ACK/NACK)結果により、制御部209を介して、送信HARQ処理部207を制御する。
The control data creation unit 225 creates control data arranged on the downlink control channel PDCCH and control data arranged on the downlink shared channel PDSCH. Control message including schedule information, uplink data response (ACK / NACK), system information message including configuration information of physical channel, transmission power information of each channel, information on random access, setting information of cell to be used ( Initial setting message including information on random access), random access response message including preamble number, transmission timing information and scheduling information, contention resolution message, and transmission timing message including transmission timing information, Control data is created. The control data analysis unit 227 controls the transmission HARQ processing unit 207 via the control unit 209 according to the downlink data response (ACK / NACK) result from the mobile station apparatus 1-1.
セル管理部229は、各セルや各セルのシステム情報(物理チャネルの構成情報、各チャネルの送信電力情報、ランダムアクセスに関する情報、送信タイミングのセル関係情報など)を管理する。また、セル管理部229は、移動局装置1-1~1-3に1つ以上のセルを割り当てて、また、上りリンク参照信号(測定用参照信号)の無線リソースや上りリンク制御チャネルPUCCHの無線リソースを割り当てる。そして、セル管理部229は、割り当てたセルに関する情報を通知するように、セルの割り当て情報、セルのシステム情報、割り当てる無線リソース情報などを制御データ作成部225に渡す。
The cell management unit 229 manages each cell and system information of each cell (physical channel configuration information, transmission power information of each channel, information on random access, cell relation information of transmission timing, etc.). In addition, the cell management unit 229 allocates one or more cells to the mobile station apparatuses 1-1 to 1-3, and the radio resources of the uplink reference signal (measurement reference signal) and the uplink control channel PUCCH Allocate radio resources. Then, the cell management unit 229 passes the cell allocation information, the cell system information, the allocated radio resource information, and the like to the control data creation unit 225 so as to notify the information related to the allocated cell.
セル管理部229は、TA管理部231から送信タイミングタイマーが満了したことが通知された場合、制御部209を介して、送信HARQ処理部207に送信タイミングが満了したセルのHARQ処理停止を指示し、送信HARQ処理部207に送信タイミングが満了したセルの保存してあるデータの消去を指示し、移動局装置1-1に割り当てた上りリンク参照信号(測定用参照信号)の無線リソースおよび上りリンク制御チャネルPUCCHの無線リソースを解放する。
When notified from the TA management unit 231 that the transmission timing timer has expired, the cell management unit 229 instructs the transmission HARQ processing unit 207 to stop HARQ processing of the cell whose transmission timing has expired via the control unit 209. Then, it instructs the transmission HARQ processing unit 207 to erase the data stored in the cell whose transmission timing has expired, and the radio resource and uplink of the uplink reference signal (measurement reference signal) assigned to the mobile station apparatus 1-1 Releases radio resources of the control channel PUCCH.
TA管理部231は、移動局装置1-1~1-3のセル毎の送信タイミングと送信タイミングタイマーとを管理する。また、TA管理部231は、送信タイミングが同じとなるセル関係情報も管理する。TA管理部231は、プリアンブル検出部213や受信処理部215から送信タイミングのずれ量を取得した場合、送信タイミング情報と送信タイミングを適用する送信タイミンググループ情報とを作成し、DL/ULスケジュール部223に送信タイミング情報と送信タイミングを適用する送信タイミンググループ情報とを通知する。TA管理部231は、DL/ULスケジュール部223から送信タイミング情報の送信を通知されると、送信タイミングタイマーをスタート、または、リスタートする。また、TA管理部231は、セル毎に送信タイミングタイマーが満了した場合、セル管理部229に対象となるセルの送信タイミングタイマーが満了したことを通知する。
The TA management unit 231 manages the transmission timing and transmission timing timer for each cell of the mobile station apparatuses 1-1 to 1-3. Further, the TA management unit 231 also manages cell related information that has the same transmission timing. When the TA management unit 231 acquires a transmission timing shift amount from the preamble detection unit 213 or the reception processing unit 215, the TA management unit 231 creates transmission timing information and transmission timing group information to which the transmission timing is applied, and a DL / UL scheduling unit 223. Is notified of transmission timing information and transmission timing group information to which the transmission timing is applied. When notified of transmission of transmission timing information from the DL / UL scheduling unit 223, the TA management unit 231 starts or restarts the transmission timing timer. When the transmission timing timer expires for each cell, the TA management unit 231 notifies the cell management unit 229 that the transmission timing timer of the target cell has expired.
[動作説明]
図6および図7で説明した基地局装置が移動局装置に複数セルを割り当て、割り当てた複数のセルを介して、基地局装置と移動局装置とが通信を行なう無線通信システムを想定している。また、図8で説明した移動局装置からの送信タイミングが異なる複数のセルを介して通信を行なうような無線通信システムを想定している。 [Description of operation]
A radio communication system is assumed in which the base station apparatus described in FIG. 6 and FIG. 7 allocates a plurality of cells to the mobile station apparatus, and the base station apparatus and the mobile station apparatus communicate with each other through the allocated plurality of cells. . A wireless communication system is assumed in which communication is performed via a plurality of cells having different transmission timings from the mobile station apparatus described in FIG.
図6および図7で説明した基地局装置が移動局装置に複数セルを割り当て、割り当てた複数のセルを介して、基地局装置と移動局装置とが通信を行なう無線通信システムを想定している。また、図8で説明した移動局装置からの送信タイミングが異なる複数のセルを介して通信を行なうような無線通信システムを想定している。 [Description of operation]
A radio communication system is assumed in which the base station apparatus described in FIG. 6 and FIG. 7 allocates a plurality of cells to the mobile station apparatus, and the base station apparatus and the mobile station apparatus communicate with each other through the allocated plurality of cells. . A wireless communication system is assumed in which communication is performed via a plurality of cells having different transmission timings from the mobile station apparatus described in FIG.
Advanced-EUTRAでは、基地局装置は、複数あるセルの中から移動局装置の通信能力や通信条件にあった、1つ以上の異なる周波数のセルを周波数毎に割り当てる。そして、移動局装置は、割り当てられたセルを介して基地局装置とデータの送受信を行なう。移動局装置が、複数のセルを使用して基地局装置と通信を行なう場合、図8のようにリピータ(Repeater)などを介して基地局装置へ接続する場合がある。このような場合、移動局装置での下りリンクコンポーネントキャリアからのデータの受信タイミングは、セル毎に異なる場合がある。さらに、各セルの上りリンクコンポーネントキャリア毎に基地局装置への送信タイミングも異なる場合がある。上りリンクコンポーネントキャリア毎に基地局装置への送信タイミングが異なる場合、移動局装置は、各セルの上りリンクコンポーネントキャリア毎に送信タイミングの調整が必要ということになっている。
In Advanced-EUTRA, the base station apparatus allocates one or more cells having different frequencies corresponding to the communication capability and communication conditions of the mobile station apparatus for each frequency from among a plurality of cells. Then, the mobile station apparatus transmits / receives data to / from the base station apparatus via the assigned cell. When a mobile station apparatus communicates with a base station apparatus using a plurality of cells, it may be connected to the base station apparatus via a repeater as shown in FIG. In such a case, the reception timing of data from the downlink component carrier in the mobile station apparatus may be different for each cell. Furthermore, the transmission timing to the base station apparatus may be different for each uplink component carrier of each cell. When the transmission timing to the base station apparatus differs for each uplink component carrier, the mobile station apparatus needs to adjust the transmission timing for each uplink component carrier of each cell.
そのため、基地局装置は、各セルの上りリンクコンポーネントキャリア毎に送信タイミング情報を通知する必要がある。しかしながら、全ての上りリンクコンポーネントキャリアの送信タイミング情報を通知することは、送信タイミングが同じ上りリンクコンポーネントキャリアが複数ある場合、同じ送信タイミング情報を複数送ることとなり無線リソースの利用効率が悪い。
Therefore, the base station apparatus needs to notify transmission timing information for each uplink component carrier of each cell. However, notifying transmission timing information of all uplink component carriers means that when there are a plurality of uplink component carriers having the same transmission timing, a plurality of the same transmission timing information is transmitted, and the utilization efficiency of radio resources is poor.
基地局装置は、移動局装置からの送信タイミングが同じとなるセルをグループ化(以下、「送信タイミンググループ」と呼称する。)する。そして、基地局装置は、1つのセルを第一セルに設定し、それ以外のセルを第二セルに設定する。移動局装置は、基地局装置から複数セルと送信タイミンググループとを設定された後、あるセルから送信タイミング情報を取得すると、送信タイミング情報を通知したセルが属する送信タイミンググループ内のすべてのセルに対して、取得した送信タイミング情報を使用して上りリンクの送信タイミングを調整するようにする。このようにすることで、1つの送信タイミンググループに対して1つの送信タイミング情報を通知するだけでよく、無駄な無線リソースを使用しなくて済む。
The base station apparatus groups cells having the same transmission timing from the mobile station apparatus (hereinafter referred to as “transmission timing group”). Then, the base station apparatus sets one cell as the first cell and sets the other cells as the second cell. When the mobile station apparatus acquires transmission timing information from a certain cell after setting a plurality of cells and transmission timing groups from the base station apparatus, the mobile station apparatus transmits to all cells in the transmission timing group to which the cell that has notified the transmission timing information belongs. On the other hand, the uplink transmission timing is adjusted using the acquired transmission timing information. In this way, it is only necessary to notify one transmission timing information to one transmission timing group, and it is not necessary to use useless radio resources.
なお、送信タイミンググループは、第一セルと、第一セルと同じ上りリンク送信タイミングの第二セルとから構成される第一の送信タイミンググループと、第一セルの上りリンク送信タイミングとは異なる同じ上りリンク送信タイミングの第二セルから構成される第二の送信タイミンググループとに分類される。第一の送信タイミンググループは、少なくとも第一セルを含み、第二の送信タイミンググループは、少なくとも1つの第二セルを含む。
The transmission timing group is the same as the first transmission timing group composed of the first cell and the second cell having the same uplink transmission timing as the first cell, and the uplink transmission timing of the first cell is the same. It is classified into a second transmission timing group composed of a second cell of uplink transmission timing. The first transmission timing group includes at least a first cell, and the second transmission timing group includes at least one second cell.
移動局装置1-1および基地局装置3の動作を説明する。なお、例として、基地局装置3は、図11のようにセル1~セル5から構成されていて、セル1~セル3は、送信タイミングが同じ送信タイミンググループであり、セル4~セル5は、送信タイミングが同じ別の送信タイミンググループであるとする。
The operation of mobile station apparatus 1-1 and base station apparatus 3 will be described. As an example, the base station apparatus 3 includes cells 1 to 5 as shown in FIG. 11. The cells 1 to 3 are transmission timing groups having the same transmission timing, and the cells 4 to 5 are Assume that the transmission timings are different transmission timing groups.
移動局装置1-1は、セルサーチを行ない、基地局装置3の1つのセルを見つける。ここではセル1を見つけるとする。移動局装置1-1は、セル1の報知チャネルPBCHなどを受信し、システム情報(セルの物理チャネル構成、送信電力情報、ランダムアクセスに関する情報など)を取得する。そして、移動局装置1-1は、システム情報に含まれるランダムアクセスに関する情報を使用して、初期アクセスのためにセル1のランダムアクセスチャネルRACHへランダムアクセスプリアンブルを送信する。そして、移動局装置1-1は、基地局装置3からセル1に対する送信タイミング情報を含んだランダムアクセスレスポンスメッセージを取得し、ランダムアクセスレスポンスに含まれる送信タイミング情報からセル1に対する上りリンクコンポーネントキャリアの送信タイミングを調整して、送信タイミングタイマーをスタートさせる。移動局装置1-1は、セル1を介してメッセージ3を基地局装置3へ送信する。なお、移動局装置1-1は、このメッセージ3に初期アクセスを示した内容を含めてメッセージ3を送信する。そして、移動局装置1-1は、コンテンションレゾリューションを基地局装置3から受信すると、Contention based Random Access手順を終了する。
The mobile station apparatus 1-1 performs a cell search and finds one cell of the base station apparatus 3. Here, assume that cell 1 is found. The mobile station apparatus 1-1 receives the broadcast channel PBCH of the cell 1, and acquires system information (cell physical channel configuration, transmission power information, information on random access, etc.). Then, the mobile station apparatus 1-1 transmits a random access preamble to the random access channel RACH of the cell 1 for initial access using information on random access included in the system information. Then, the mobile station apparatus 1-1 acquires a random access response message including transmission timing information for the cell 1 from the base station apparatus 3, and determines the uplink component carrier for the cell 1 from the transmission timing information included in the random access response. Adjust the transmission timing and start the transmission timing timer. The mobile station apparatus 1-1 transmits the message 3 to the base station apparatus 3 via the cell 1. The mobile station apparatus 1-1 transmits the message 3 including the content indicating the initial access in the message 3. And the mobile station apparatus 1-1 will complete | finish a Contention based Random Access procedure, if contention resolution is received from the base station apparatus 3. FIG.
ランダムアクセス手順が完了後、基地局装置3は、移動局装置1-1に使用させるセルを割り当て、セルの構成情報を通知する。なお、セルの構成情報は、第一セルのセル情報と送信タイミンググループに関する情報とを示す。ここでは、基地局装置3は、移動局装置1-1にセル1~セル5を割り当てて、セル1を第一セルに設定し、セル2~セル5を第二セルに設定し、セル1~セル3を同じ送信タイミンググループに設定し、セル4とセル5とを同じ送信タイミンググループに設定している。
After the random access procedure is completed, the base station device 3 allocates a cell to be used by the mobile station device 1-1 and notifies the cell configuration information. The cell configuration information indicates cell information of the first cell and information on the transmission timing group. Here, base station apparatus 3 assigns cells 1 to 5 to mobile station apparatus 1-1, sets cell 1 as the first cell, sets cells 2 to 5 as the second cell, and sets cell 1 Cell 3 is set to the same transmission timing group, and cell 4 and cell 5 are set to the same transmission timing group.
そして、基地局装置3は、移動局装置1-1に割り当てたセルのシステム情報や、送信タイミンググループのグループ情報、第一セルの上りリンク制御チャネルPUCCHの割り当て情報、上りリンク参照信号(測定用参照信号)の生成情報や、上りリンク参照信号(測定用参照信号)を送信するための無線リソース割り当て情報、定期的な上りリンク共用チャネルPUSCHの無線リソース割り当て情報などの設定情報も、移動局装置1-1に通知する。なお、ここでは、上記情報を通知後、基地局装置3は、移動局装置1-1にアクティベートを指示し、セル2~セル5に対して下りリンク受信処理を開始するように指示するとする。
Then, the base station apparatus 3 transmits the system information of the cell allocated to the mobile station apparatus 1-1, the group information of the transmission timing group, the allocation information of the uplink control channel PUCCH of the first cell, the uplink reference signal (for measurement). Reference information) generation information, radio resource allocation information for transmitting an uplink reference signal (measurement reference signal), and setting information such as periodic uplink shared channel PUSCH radio resource allocation information are also included in the mobile station apparatus. Notify 1-1. Here, after notifying the above information, the base station apparatus 3 instructs the mobile station apparatus 1-1 to activate, and instructs the cells 2 to 5 to start the downlink reception process.
そして、移動局装置1-1は、割り当てられたセルのシステム情報や送信タイミンググループのグループ情報を取得後、送信タイミンググループのグループ情報と取得している送信タイミング情報とから、セル1と同じ送信タイミンググループであるセル2およびセル3の上りリンクの送信タイミングを調整する。この後、移動局装置1-1と基地局装置3との間でセル1~セル5の下りリンクコンポーネントキャリアとセル1~セル3の上りリンクコンポーネントキャリアとを介してデータのやり取りがされる。
Then, after acquiring the system information of the allocated cell and the group information of the transmission timing group, the mobile station apparatus 1-1 transmits the same transmission as that of the cell 1 from the group information of the transmission timing group and the acquired transmission timing information. The uplink transmission timings of cell 2 and cell 3 that are timing groups are adjusted. Thereafter, data is exchanged between the mobile station apparatus 1-1 and the base station apparatus 3 via the downlink component carriers of the cell 1 to cell 5 and the uplink component carriers of the cell 1 to cell 3.
移動局装置1-1からの送信データ量が多くなり、移動局装置1-1で利用していないセルがある場合、基地局装置3は、Non-contention based Random Accessを行なうように指示するランダムアクセス指示情報を下りリンク制御チャネルPDCCHで通知する。ここでは、基地局装置3は、セル5に対してのランダムアクセス指示情報を移動局装置1-1に通知するとする。ランダムアクセス指示情報には、プリアンブル番号とランダムアクセスチャネル番号とが含まれており、移動局装置1-1は、基地局装置3から指定されたプリアンブルとランダムアクセスチャネルRACHとを使用して、ランダムアクセスプリアンブルをセル5のランダムアクセスチャネルRACHに送信する。
When the amount of transmission data from the mobile station device 1-1 increases and there is a cell that is not used by the mobile station device 1-1, the base station device 3 is a random instruction that instructs to perform non-contention based random access. The access instruction information is notified by the downlink control channel PDCCH. Here, it is assumed that the base station apparatus 3 notifies the mobile station apparatus 1-1 of random access instruction information for the cell 5. The random access instruction information includes a preamble number and a random access channel number, and the mobile station apparatus 1-1 uses the preamble specified by the base station apparatus 3 and the random access channel RACH to perform random access. The access preamble is transmitted to the random access channel RACH of the cell 5.
基地局装置3は、ランダムアクセスプリアンブルを検出すると、ランダムアクセスプリアンブルから送信タイミングずれ量を算出して、移動局装置1-1にセル5の下りリンクコンポーネントキャリアを介して送信タイミング情報を含んだランダムアクセスレスポンスを通知する。移動局装置1-1は、ランダムアクセスレスポンスを受信するとランダムアクセスレスポンスに含まれている送信タイミング情報をセル5の上りリンクの送信タイミングとして調整し、さらに、送信タイミング情報を同じ送信タイミンググループであるセル4の上りリンクの送信タイミングとして調整し、送信タイミングタイマーをスタートする。そして、移動局装置1-1は、Non-contention based Random Access手順を完了する。この後、セル4とセル5の上りリンクコンポーネントキャリアも含めて、移動局装置1-1と基地局装置3との間でデータのやり取りを行なう。
When the base station apparatus 3 detects the random access preamble, it calculates a transmission timing shift amount from the random access preamble, and the mobile station apparatus 1-1 includes the random timing information including the transmission timing information via the downlink component carrier of the cell 5. Notify access response. When receiving the random access response, the mobile station apparatus 1-1 adjusts the transmission timing information included in the random access response as the uplink transmission timing of the cell 5, and further sets the transmission timing information to the same transmission timing group. The transmission timing is adjusted as the uplink transmission timing of the cell 4, and the transmission timing timer is started. Then, the mobile station apparatus 1-1 completes the Non-contention based Random Access procedure. Thereafter, data is exchanged between the mobile station apparatus 1-1 and the base station apparatus 3 including the uplink component carriers of the cells 4 and 5.
移動局装置1-1は、送信タイミンググループ毎に1つの送信タイミングタイマーを持ち、送信タイミング情報を取得すると、送信タイミングタイマーをスタート、またはリスタートする。基地局装置3も同様に、送信タイミンググループ毎に1つの送信タイミングタイマーを持ち、送信タイミング情報を送信すると、送信タイミングタイマーをスタート、またはリスタートする。送信タイミングタイマーが動作中は、上りリンク同期している(送信タイミングが有効である)状態であり、移動局装置1-1は、対象となる送信タイミンググループの上りリンクコンポーネントキャリアでの上りリンク送信が可能である。なお、送信タイミングタイマーは、セル毎に持つように構成してもよい。
The mobile station apparatus 1-1 has one transmission timing timer for each transmission timing group, and when the transmission timing information is acquired, starts or restarts the transmission timing timer. Similarly, the base station apparatus 3 has one transmission timing timer for each transmission timing group, and when the transmission timing information is transmitted, the transmission timing timer is started or restarted. While the transmission timing timer is operating, it is in uplink synchronization (transmission timing is valid), and the mobile station apparatus 1-1 transmits uplink transmission on the uplink component carrier of the target transmission timing group. Is possible. Note that the transmission timing timer may be configured to be provided for each cell.
そして、基地局装置3は、移動局装置1-1から送信された各セルの上りリンク参照信号を計測して、移動局装置1-1の送信タイミンググループ1または送信タイミンググループ2の送信タイミングずれ量を算出する。そして、各送信タイミンググループの送信タイミングが有効である期間内に送信タイミング情報を含んだ送信タイミングメッセージを移動局装置1-1に通知する。なお、送信タイミングメッセージの通知は、通知する送信タイミンググループ内のいずれか1つのセルを介して通知する。例えば、送信タイミンググループ1の送信タイミングメッセージは、セル1、セル2、セル3のいずれかのセルを介して移動局装置1-1に通知される。移動局装置1-1は、あるセルで送信タイミングメッセージを受信すると、送信タイミングメッセージが通知されたセルが属する送信タイミンググループ内のすべてのセルに対して送信タイミングメッセージに含まれる送信タイミング情報を使用して送信タイミングを調整する。例えば、移動局装置1-1は、セル1で送信タイミングメッセージを受信した場合、送信タイミングメッセージに含まれる送信タイミング情報を使用してセル1が属する送信タイミンググループ1のセル1、セル2及びセル3の送信タイミングを調整する。
Then, the base station apparatus 3 measures the uplink reference signal of each cell transmitted from the mobile station apparatus 1-1, and shifts the transmission timing group 1 or the transmission timing group 2 of the mobile station apparatus 1-1. Calculate the amount. Then, the mobile station apparatus 1-1 is notified of a transmission timing message including transmission timing information within a period in which the transmission timing of each transmission timing group is valid. The transmission timing message is notified via any one cell in the transmission timing group to be notified. For example, the transmission timing message of the transmission timing group 1 is notified to the mobile station apparatus 1-1 via any one of the cell 1, the cell 2, and the cell 3. When the mobile station apparatus 1-1 receives a transmission timing message in a certain cell, the mobile station apparatus 1-1 uses the transmission timing information included in the transmission timing message for all the cells in the transmission timing group to which the cell notified of the transmission timing message belongs. To adjust the transmission timing. For example, when the mobile station apparatus 1-1 receives a transmission timing message in the cell 1, the cell 1, cell 2 and cell of the transmission timing group 1 to which the cell 1 belongs using the transmission timing information included in the transmission timing message. 3 transmission timing is adjusted.
上記では、第二セルのセル2~セル5はアクティベートを指示され、下りリンクの受信処理を行なっている状態で説明したが、アクティベートを指示されていないセル(デアクティベートセル)がある場合、デアクティベートセルに対しての送信タイミングの調整は行なわなくてもよい。そして、デアクティベートセルがアクティベートを指示された場合、移動局装置1-1は、そのセルに対して送信タイミングを調整するようにする。なお、送信タイミングメッセージは、送信タイミングメッセージ単体として送られてもよいし、ユーザーデータや他の制御メッセージと一緒に送られてもよい。
In the above description, the cells 2 to 5 of the second cell have been instructed to activate and are performing downlink reception processing. However, if there is a cell that is not instructed to activate (deactivate cell), It is not necessary to adjust the transmission timing for the activate cell. When the deactivation cell is instructed to activate, the mobile station apparatus 1-1 adjusts the transmission timing for the cell. The transmission timing message may be sent as a transmission timing message alone, or may be sent together with user data or other control messages.
また、送信タイミングの算出は、基地局装置3が、各セルで受信した上りリンク参照信号から算出してもよいし、各送信タイミンググループ内の特定のセルの上りリンク参照信号から算出してもよい。また、ある時点で算出された1つのセルの送信タイミングを通知する送信タイミングとしてもよいし、各送信タイミンググループ内の各セルで測定された送信タイミングの平均値を送信タイミングとしてもよい。
The transmission timing may be calculated from the uplink reference signal received by each cell by the base station apparatus 3, or may be calculated from the uplink reference signal of a specific cell in each transmission timing group. Good. Moreover, it is good also as a transmission timing which notifies the transmission timing of one cell calculated at a certain time, and it is good also considering the average value of the transmission timing measured in each cell in each transmission timing group as a transmission timing.
送信タイミング情報を受信した場合の移動局装置1-1の処理フローチャートを図12に示す。移動局装置1-1は、ある1つのセルを介して送信タイミングメッセージを受信した場合、送信タイミングメッセージを受信したセルが属する送信タイミンググループ内のアクティベートセルの上りリンク送信タイミングとして、送信タイミングメッセージに含まれる送信タイミング情報を適用する(ステップS101)。そして、移動局装置1-1は、送信タイミングを設定した送信タイミンググループの送信タイミングタイマーをリスタートする(ステップS102)。
FIG. 12 shows a processing flowchart of the mobile station apparatus 1-1 when the transmission timing information is received. When the mobile station apparatus 1-1 receives a transmission timing message via a certain cell, the mobile station apparatus 1-1 uses the transmission timing message as the uplink transmission timing of the activated cell in the transmission timing group to which the cell receiving the transmission timing message belongs. The included transmission timing information is applied (step S101). Then, the mobile station apparatus 1-1 restarts the transmission timing timer of the transmission timing group for which the transmission timing is set (step S102).
このように構成することで、基地局装置3は、移動局装置1-1に対して1つの送信タイミンググループに対して1つの送信タイミング情報を通知するだけでよく、無駄な無線リソースを使用しなくて済む。
[第2の実施形態]
本実施形態では、基地局装置3が移動局装置1-1に送信タイミングメッセージを通知するセルを指定する方法を示す。そして、移動局装置1-1は、指定されたセルを介して送信タイミングメッセージを受信し、指定されたセル以外のセルで送信タイミングメッセージを受信した場合、その送信タイミングメッセージは無効であると判定し、破棄するようにする。このようにすることで、送信タイミングメッセージが間違って送信された場合の誤動作を防ぐことができる。 With this configuration, thebase station device 3 only needs to notify one transmission timing information to one transmission timing group to the mobile station device 1-1, and uses useless radio resources. No need.
[Second Embodiment]
In the present embodiment, a method is shown in which thebase station apparatus 3 designates a cell for notifying the mobile station apparatus 1-1 of a transmission timing message. Then, when the mobile station apparatus 1-1 receives the transmission timing message via the designated cell and receives the transmission timing message in a cell other than the designated cell, the mobile station apparatus 1-1 determines that the transmission timing message is invalid. And discard it. By doing so, it is possible to prevent malfunction when the transmission timing message is transmitted by mistake.
[第2の実施形態]
本実施形態では、基地局装置3が移動局装置1-1に送信タイミングメッセージを通知するセルを指定する方法を示す。そして、移動局装置1-1は、指定されたセルを介して送信タイミングメッセージを受信し、指定されたセル以外のセルで送信タイミングメッセージを受信した場合、その送信タイミングメッセージは無効であると判定し、破棄するようにする。このようにすることで、送信タイミングメッセージが間違って送信された場合の誤動作を防ぐことができる。 With this configuration, the
[Second Embodiment]
In the present embodiment, a method is shown in which the
[構成説明]
図9は、本発明の実施形態に係る移動局装置の構成を示す図である。移動局装置1-1~1-3の各々は、無線部101、送信処理部103、変調部105、送信HARQ処理部107、制御部109、上りリンク参照信号生成部111、ランダムアクセスプリアンブル生成部113、受信処理部115、復調部117、受信HARQ処理部119、および移動局管理部121を含む。移動局管理部121は、ULスケジュール部123、制御データ作成部125、制御データ解析部127、セル管理部129、およびTA管理部131を含む。無線部101、送信処理部103、変調部105、送信HARQ処理部107、制御部109、上りリンク参照信号生成部111、ランダムアクセスプリアンブル生成部113、受信処理部115、復調部117、および受信HARQ処理部119の動作は、上述の実施形態1と同様であるので詳細な説明は繰り返さない。 [Configuration explanation]
FIG. 9 is a diagram illustrating the configuration of the mobile station apparatus according to the embodiment of the present invention. Each of the mobile station apparatuses 1-1 to 1-3 includes aradio unit 101, a transmission processing unit 103, a modulation unit 105, a transmission HARQ processing unit 107, a control unit 109, an uplink reference signal generation unit 111, and a random access preamble generation unit. 113, a reception processing unit 115, a demodulation unit 117, a reception HARQ processing unit 119, and a mobile station management unit 121. The mobile station management unit 121 includes a UL schedule unit 123, a control data creation unit 125, a control data analysis unit 127, a cell management unit 129, and a TA management unit 131. Radio section 101, transmission processing section 103, modulation section 105, transmission HARQ processing section 107, control section 109, uplink reference signal generation section 111, random access preamble generation section 113, reception processing section 115, demodulation section 117, and reception HARQ Since the operation of the processing unit 119 is the same as that of the first embodiment, detailed description will not be repeated.
図9は、本発明の実施形態に係る移動局装置の構成を示す図である。移動局装置1-1~1-3の各々は、無線部101、送信処理部103、変調部105、送信HARQ処理部107、制御部109、上りリンク参照信号生成部111、ランダムアクセスプリアンブル生成部113、受信処理部115、復調部117、受信HARQ処理部119、および移動局管理部121を含む。移動局管理部121は、ULスケジュール部123、制御データ作成部125、制御データ解析部127、セル管理部129、およびTA管理部131を含む。無線部101、送信処理部103、変調部105、送信HARQ処理部107、制御部109、上りリンク参照信号生成部111、ランダムアクセスプリアンブル生成部113、受信処理部115、復調部117、および受信HARQ処理部119の動作は、上述の実施形態1と同様であるので詳細な説明は繰り返さない。 [Configuration explanation]
FIG. 9 is a diagram illustrating the configuration of the mobile station apparatus according to the embodiment of the present invention. Each of the mobile station apparatuses 1-1 to 1-3 includes a
移動局管理部121は、ULスケジュール部123、制御データ作成部125、制御データ解析部127、セル管理部129、およびTA管理部131を含む。制御データ作成部125は、移動局装置1-1の制御データを作成する。制御データ作成部125は、受信HARQ処理部119からの受信データの復号結果からデータのACK/NACKメッセージを作成し、また下りリンクの無線品質を示すメッセージなどの制御データを作成し、作成した制御データを送信HARQ処理部107に出力する。制御データ解析部127は、受信HARQ処理部119から入力された制御データを解析する。制御データ解析部127は、基地局装置3から受信したセルのシステム情報、セルの割り当て情報、ランダムアクセスレスポンスメッセージ、上りリンク参照信号の生成情報などをセル管理部129に出力し、送信タイミングメッセージが通知されるセル情報、送信タイミングメッセージや送信タイミングメッセージを取得したセルの情報、送信タイミングタイマー情報などをTA管理部131に出力する。
The mobile station management unit 121 includes a UL schedule unit 123, a control data creation unit 125, a control data analysis unit 127, a cell management unit 129, and a TA management unit 131. The control data creation unit 125 creates control data for the mobile station device 1-1. The control data creation unit 125 creates a data ACK / NACK message from the decoding result of the received data from the reception HARQ processing unit 119, creates control data such as a message indicating downlink radio quality, and creates the created control Data is output to the transmission HARQ processing unit 107. The control data analysis unit 127 analyzes the control data input from the reception HARQ processing unit 119. The control data analysis unit 127 outputs the cell system information, cell allocation information, random access response message, uplink reference signal generation information, and the like received from the base station apparatus 3 to the cell management unit 129, and the transmission timing message is displayed. The notified cell information, the transmission timing message, the information of the cell from which the transmission timing message is acquired, the transmission timing timer information, and the like are output to the TA management unit 131.
ULスケジュール部123は、基地局装置3からの上りリンクデータのスケジューリング情報や送信した上りリンクデータの応答(ACK/NACK)を元に上りリンクの各チャネルへの割り当てを行ない、制御部109を介して送信処理部103、変調部105、送信HARQ処理部107を制御する。また、上位層からの制御情報を元にセル管理部129にランダムアクセスを指示する。
The UL scheduling unit 123 performs allocation to each uplink channel based on the scheduling information of the uplink data from the base station apparatus 3 and the response (ACK / NACK) of the transmitted uplink data, and via the control unit 109 The transmission processing unit 103, the modulation unit 105, and the transmission HARQ processing unit 107 are controlled. Further, the cell management unit 129 is instructed to perform random access based on control information from the upper layer.
セル管理部129は、基地局装置3から割り当てられたセルを管理し、基地局装置3から受信したセル毎の物理チャネルの構成、送信電力情報、ランダムアクセスに関する情報および上りリンク参照信号の生成情報などの各セルのシステム情報、上りリンク参照信号(測定用参照信号)の無線リソース、上りリンク制御チャネルPUCCHの無線リソースなどの移動局装置1-1に個別に割り当てられた無線リソースなどを管理する。セル管理部129は、制御部109を介してランダムアクセスに関する情報をランダムアクセスプリアンブル生成部113に通知し、上りリンク参照信号の生成情報を上りリンク参照信号生成部111に通知する。セル管理部129は、送信タイミングが同じセルのグループ情報をTA管理部131に通知する。セル管理部129は、通信の開始時や上りリンクデータのスケジュール要求を行なう場合、基地局装置3にランダムアクセスプリアンブルを送信するように、制御部109を介してランダムアクセスプリアンブル生成部113に指示する。
The cell management unit 129 manages the cells allocated from the base station apparatus 3, and the physical channel configuration, transmission power information, information on random access, and uplink reference signal generation information for each cell received from the base station apparatus 3 For example, system resources of each cell, radio resources of uplink reference signals (measurement reference signals), radio resources individually allocated to the mobile station apparatus 1-1 such as radio resources of the uplink control channel PUCCH, etc. . The cell management unit 129 notifies the random access preamble generation unit 113 of information related to random access via the control unit 109, and notifies the uplink reference signal generation unit 111 of generation information of the uplink reference signal. The cell management unit 129 notifies the TA management unit 131 of group information of cells having the same transmission timing. The cell management unit 129 instructs the random access preamble generation unit 113 via the control unit 109 to transmit a random access preamble to the base station device 3 when starting communication or when making a schedule request for uplink data. .
セル管理部129は、TA管理部131から送信タイミングタイマーが満了したことが通知された場合、制御部109を介して、送信HARQ処理部107に送信タイミングが満了したセルのHARQ処理停止を指示し、送信タイミングが満了したセルの保存してあるデータの消去を指示し、上りリンク参照信号生成部111に送信タイミングが満了したセルの上りリンク参照信号の生成を停止するように指示する。また、セル管理部129は、送信タイミングが満了したセルの基地局装置3から割り当てられた上りリンク制御チャネルPUCCHの無線リソースと上りリンク参照信号(測定用参照信号)の無線リソースとを解放する。
When notified from the TA management unit 131 that the transmission timing timer has expired, the cell management unit 129 instructs the transmission HARQ processing unit 107 to stop HARQ processing of the cell whose transmission timing has expired via the control unit 109. And erasing data stored in the cell whose transmission timing has expired, and instructing the uplink reference signal generation section 111 to stop generating the uplink reference signal of the cell whose transmission timing has expired. Further, the cell management unit 129 releases the radio resource of the uplink control channel PUCCH and the radio resource of the uplink reference signal (measurement reference signal) allocated from the base station apparatus 3 of the cell whose transmission timing has expired.
TA管理部131は、セル毎または送信タイミンググループ毎の送信タイミングと送信タイミングタイマーとを管理する。また、TA管理部131は、送信タイミングが同じとなるセルのグループ情報(送信タイミンググループ情報)や送信タイミングメッセージが通知されるセルも管理する。TA管理部131は、送信タイミングメッセージおよび送信タイミングメッセージを受信したセルの情報を取得した場合、基地局装置3が指定したセルかどうか確認する。そして、TA管理部131は、送信タイミングメッセージが基地局装置3から指定されたセルから受信したと判断した場合、送信タイミングメッセージを受信したセルがどのグループに属しているか判断し、制御部109を介して送信タイミングメッセージに含まれる送信タイミング情報と送信タイミングを調整するセルのグループ情報とを送信処理部103に通知し、送信タイミングタイマーをスタート、または、リスタートする。そして、TA管理部131は、セル管理部129にセル毎に送信タイミングタイマーがスタート、または、リスタートしたことを通知する。また、TA管理部131は、セル毎に送信タイミングタイマーが満了した場合、セル管理部129に対象となるセルの送信タイミングタイマーが満了したことを通知する。なお、TA管理部131は、受信した送信タイミング情報が基地局装置3から指定されたセルの場合、受信した送信タイミング情報を破棄する。
The TA management unit 131 manages the transmission timing and the transmission timing timer for each cell or each transmission timing group. In addition, the TA management unit 131 also manages cells to which group information (transmission timing group information) and transmission timing messages of cells having the same transmission timing are notified. When the TA management unit 131 acquires the transmission timing message and the information of the cell that has received the transmission timing message, the TA management unit 131 checks whether the cell is the cell designated by the base station device 3. When the TA management unit 131 determines that the transmission timing message is received from the cell specified by the base station apparatus 3, the TA management unit 131 determines which group the cell that has received the transmission timing message belongs to, and controls the control unit 109. The transmission processing unit 103 is notified of the transmission timing information included in the transmission timing message and the group information of the cell for adjusting the transmission timing, and the transmission timing timer is started or restarted. Then, the TA management unit 131 notifies the cell management unit 129 that the transmission timing timer has been started or restarted for each cell. Further, when the transmission timing timer expires for each cell, the TA management unit 131 notifies the cell management unit 129 that the transmission timing timer of the target cell has expired. Note that if the received transmission timing information is a cell designated by the base station apparatus 3, the TA management unit 131 discards the received transmission timing information.
図10は、本発明の実施形態に係る基地局装置3の構成を示す図である。基地局装置3は、無線部201、送信処理部203、変調部205、送信HARQ処理部207、制御部209、下りリンク参照信号生成部211、プリアンブル検出部213、受信処理部215、復調部217、受信HARQ処理部219、および基地局管理部221を含む。基地局管理部221は、DL/ULスケジュール部223、制御データ作成部225、制御データ解析部227、セル管理部229、およびTA管理部231を含む。なお、無線部201、送信処理部203、変調部205、送信HARQ処理部207、制御部209、下りリンク参照信号生成部211、プリアンブル検出部213、受信処理部215、復調部217、および受信HARQ処理部219の動作は、上述の実施形態1と同様であるので詳細な説明は繰り返さない。
FIG. 10 is a diagram showing a configuration of the base station apparatus 3 according to the embodiment of the present invention. The base station apparatus 3 includes a radio unit 201, a transmission processing unit 203, a modulation unit 205, a transmission HARQ processing unit 207, a control unit 209, a downlink reference signal generation unit 211, a preamble detection unit 213, a reception processing unit 215, and a demodulation unit 217. A reception HARQ processing unit 219 and a base station management unit 221. The base station management unit 221 includes a DL / UL schedule unit 223, a control data creation unit 225, a control data analysis unit 227, a cell management unit 229, and a TA management unit 231. Radio section 201, transmission processing section 203, modulation section 205, transmission HARQ processing section 207, control section 209, downlink reference signal generation section 211, preamble detection section 213, reception processing section 215, demodulation section 217, and reception HARQ Since the operation of the processing unit 219 is the same as that of the first embodiment, detailed description will not be repeated.
基地局管理部221は、下りリンクおよび上りリンクのスケジュールを行なうDL/ULスケジュール部223、制御データ作成部225、制御データ解析部227、セル管理部229、およびTA管理部231を含む。DL/ULスケジュール部223は、移動局装置1-1から通知される下りリンクの無線伝搬路品質情報、上位層からの通知される各ユーザーのデータ情報、制御データ作成部225で作成される制御データから、下りリンクの各チャネルにユーザーデータおよび制御データをマッピングするためのスケジュールを行ない、スケジュール結果を制御部209に渡す。また、DL/ULスケジュール部223は、受信処理部215からの上りリンクの無線伝搬路品質結果と移動局装置1-1からの無線リソース割り当て要求から上りリンクの各チャネルにユーザーデータをマッピングするためのスケジュールを行なう。
The base station management unit 221 includes a DL / UL schedule unit 223 that performs downlink and uplink schedules, a control data creation unit 225, a control data analysis unit 227, a cell management unit 229, and a TA management unit 231. The DL / UL schedule unit 223 includes downlink radio channel quality information notified from the mobile station apparatus 1-1, data information of each user notified from the upper layer, and control data generated by the control data generation unit 225. A schedule for mapping user data and control data to each downlink channel is performed from the data, and the schedule result is passed to the control unit 209. The DL / UL scheduling unit 223 maps user data to each uplink channel from the uplink radio channel quality result from the reception processing unit 215 and the radio resource allocation request from the mobile station device 1-1. Schedule.
また、DL/ULスケジュール部223は、プリアンブル検出部213からランダムアクセスプリアンブルを検出したことが通知された場合、上りリンク共用チャネルPUSCHを割り当てて、割り当てた上りリンク共用チャネルPUSCHとプリアンブル番号とを制御データ作成部225に通知する。DL/ULスケジュール部223は、TA管理部231から送信タイミング情報を通知された場合、移動局装置1-1の下りリンクおよび上りリンクのスケジュール状況から移動局装置1-1に送信タイミング情報を通知するかどうか判定し、送信タイミング情報を通知する場合、TA管理部231に送信タイミング情報の通知を報告し、送信タイミング情報を制御データ作成部225に通知する。なお、DL/ULスケジュール部223は、TA管理部231から指定されたセルで送信タイミング情報を通知するようにスケジュールを行なう。
Also, when notified from the preamble detector 213 that the random access preamble has been detected, the DL / UL schedule unit 223 allocates the uplink shared channel PUSCH and controls the allocated uplink shared channel PUSCH and the preamble number. The data creation unit 225 is notified. When the DL / UL schedule unit 223 is notified of the transmission timing information from the TA management unit 231, the DL / UL schedule unit 223 notifies the mobile station device 1-1 of the transmission timing information from the downlink and uplink schedule status of the mobile station device 1-1. When the transmission timing information is notified, the TA management unit 231 is notified of the transmission timing information, and the transmission timing information is notified to the control data creation unit 225. The DL / UL schedule unit 223 schedules the transmission timing information in a cell designated by the TA management unit 231.
制御データ作成部225は、下りリンク制御チャネルPDCCHに配置される制御データや下りリンク共用チャネルPDSCHに配置される制御データを作成する。スケジュール情報を含んだ制御メッセージ、上りリンクデータの応答(ACK/NACK)、物理チャネルの構成情報や各チャネルの送信電力情報やランダムアクセスに関する情報などを含むシステム情報メッセージ、利用するセルの設定情報(ランダムアクセスに関する情報を含む)を含んだ初期設定メッセージ、プリアンブル番号や送信タイミング情報やスケジューリング情報を含んだランダムアクセスレスポンスメッセージ、コンテンションレゾリューションメッセージ、送信タイミングを通知するセルを指定するメッセージ、および、送信タイミング情報を含んだ送信タイミングメッセージ、といった制御データを作成する。制御データ解析部227は、移動局装置1-1から送られる制御データを解析する。制御データ解析部227は、移動局装置1-1からの下りリンクデータの応答(ACK/NACK)結果により、制御部209を介して、送信HARQ処理部207を制御する。
The control data creation unit 225 creates control data arranged on the downlink control channel PDCCH and control data arranged on the downlink shared channel PDSCH. Control message including schedule information, uplink data response (ACK / NACK), system information message including configuration information of physical channel, transmission power information of each channel, information on random access, setting information of cell to be used ( Initial setting message including information on random access), random access response message including preamble number, transmission timing information and scheduling information, contention resolution message, message specifying a cell notifying transmission timing, and And control data such as a transmission timing message including transmission timing information. The control data analysis unit 227 analyzes the control data sent from the mobile station device 1-1. The control data analysis unit 227 controls the transmission HARQ processing unit 207 via the control unit 209 according to the downlink data response (ACK / NACK) result from the mobile station apparatus 1-1.
セル管理部229は、各セルや各セルのシステム情報(物理チャネルの構成情報、各チャネルの送信電力情報、ランダムアクセスに関する情報、送信タイミングのセル関係情報など)を管理する。また、セル管理部229は、移動局装置1-1~1-3に1つ以上のセルを割り当てて、また、上りリンク参照信号(測定用参照信号)の無線リソースや上りリンク制御チャネルPUCCHの無線リソースを割り当てる。そして、セル管理部229は、割り当てたセルに関する情報を通知するように、セルの割り当て情報、セルのシステム情報、割り当てる無線リソース情報などを制御データ作成部225に渡す。
The cell management unit 229 manages each cell and system information of each cell (physical channel configuration information, transmission power information of each channel, information on random access, cell relation information of transmission timing, etc.). In addition, the cell management unit 229 allocates one or more cells to the mobile station apparatuses 1-1 to 1-3, and the radio resources of the uplink reference signal (measurement reference signal) and the uplink control channel PUCCH Allocate radio resources. Then, the cell management unit 229 passes the cell allocation information, the cell system information, the allocated radio resource information, and the like to the control data creation unit 225 so as to notify the information related to the allocated cell.
セル管理部229は、TA管理部231から送信タイミングタイマーが満了したことが通知された場合、制御部209を介して、送信HARQ処理部207に送信タイミングが満了したセルのHARQ処理停止を指示し、送信HARQ処理部207に送信タイミングが満了したセルの保存してあるデータの消去を指示し、移動局装置1-1に割り当てた上りリンク参照信号(測定用参照信号)の無線リソースおよび上りリンク制御チャネルPUCCHの無線リソースを解放する。
When notified from the TA management unit 231 that the transmission timing timer has expired, the cell management unit 229 instructs the transmission HARQ processing unit 207 to stop HARQ processing of the cell whose transmission timing has expired via the control unit 209. Then, it instructs the transmission HARQ processing unit 207 to erase the data stored in the cell whose transmission timing has expired, and the radio resource and uplink of the uplink reference signal (measurement reference signal) assigned to the mobile station apparatus 1-1 Releases radio resources of the control channel PUCCH.
TA管理部231は、移動局装置1-1~1-3のセル毎の送信タイミングと送信タイミングタイマーとを管理する。また、TA管理部231は、送信タイミングが同じとなるセル関係情報も管理する。TA管理部231は、移動局装置1-1~1-3に対してどのセルで送信タイミング情報を通知するか決定し、送信タイミング情報を通知するセルをDL/ULスケジュール部223と制御データ作成部225とに通知する。TA管理部231は、プリアンブル検出部213や受信処理部215から送信タイミングのずれ量を取得した場合、送信タイミング情報を作成し、制御データ作成部225に通知する。セル管理部229から送信タイミング情報の送信を通知されると送信タイミングタイマーをスタート、または、リスタートする。また、TA管理部231は、セル毎に送信タイミングタイマーが満了した場合、セル管理部229に対象となるセルの送信タイミングタイマーが満了したことを通知する。
The TA management unit 231 manages the transmission timing and transmission timing timer for each cell of the mobile station apparatuses 1-1 to 1-3. Further, the TA management unit 231 also manages cell related information that has the same transmission timing. TA management unit 231 determines in which cell transmission timing information is to be notified to mobile station apparatuses 1-1 to 1-3, and creates a cell for reporting transmission timing information with DL / UL scheduling unit 223 and control data. To the unit 225. When the TA management unit 231 acquires a transmission timing shift amount from the preamble detection unit 213 or the reception processing unit 215, the TA management unit 231 creates transmission timing information and notifies the control data creation unit 225 of the transmission timing information. When the transmission of transmission timing information is notified from the cell management unit 229, the transmission timing timer is started or restarted. When the transmission timing timer expires for each cell, the TA management unit 231 notifies the cell management unit 229 that the transmission timing timer of the target cell has expired.
[動作説明]
図6および図7で説明した基地局装置が移動局装置に複数セルを割り当て、割り当てた複数のセルを介して、基地局装置と移動局装置が通信を行なう無線通信システムを想定している。また、図8で説明した移動局装置からの送信タイミングが異なる複数のセルを介して通信を行なうような無線通信システムを想定している。 [Description of operation]
A radio communication system is assumed in which the base station apparatus described in FIG. 6 and FIG. 7 allocates a plurality of cells to the mobile station apparatus, and the base station apparatus and the mobile station apparatus communicate with each other via the allocated plurality of cells. A wireless communication system is assumed in which communication is performed via a plurality of cells having different transmission timings from the mobile station apparatus described in FIG.
図6および図7で説明した基地局装置が移動局装置に複数セルを割り当て、割り当てた複数のセルを介して、基地局装置と移動局装置が通信を行なう無線通信システムを想定している。また、図8で説明した移動局装置からの送信タイミングが異なる複数のセルを介して通信を行なうような無線通信システムを想定している。 [Description of operation]
A radio communication system is assumed in which the base station apparatus described in FIG. 6 and FIG. 7 allocates a plurality of cells to the mobile station apparatus, and the base station apparatus and the mobile station apparatus communicate with each other via the allocated plurality of cells. A wireless communication system is assumed in which communication is performed via a plurality of cells having different transmission timings from the mobile station apparatus described in FIG.
移動局装置1-1と基地局装置3の動作を説明する。なお、例として、基地局装置3は、図13のようにセル1~セル5から構成されていて、セル1~セル3は、送信タイミングが同じ送信タイミンググループ(送信タイミンググループ1)であり、セル4~セル5は、送信タイミングが同じ別の送信タイミンググループ(送信タイミンググループ2)であるとする。
The operation of mobile station apparatus 1-1 and base station apparatus 3 will be described. As an example, the base station apparatus 3 includes cells 1 to 5 as shown in FIG. 13, and the cells 1 to 3 are transmission timing groups (transmission timing group 1) having the same transmission timing. The cells 4 to 5 are assumed to be another transmission timing group (transmission timing group 2) having the same transmission timing.
移動局装置1-1は、セルサーチを行ない、基地局装置3の1つのセルを見つける。ここではセル1を見つけるとする。移動局装置1-1は、セル1の報知チャネルPBCHなどを受信し、システム情報(セルの物理チャネル構成、送信電力情報、ランダムアクセスに関する情報など)を取得する。そして、移動局装置1-1は、システム情報に含まれるランダムアクセスに関する情報を使用して、初期アクセスのためにセル1のランダムアクセスチャネルRACHへランダムアクセスプリアンブルを送信する。そして、移動局装置1-1は、基地局装置3からセル1に対する送信タイミング情報を含んだランダムアクセスレスポンスメッセージを取得し、ランダムアクセスレスポンスに含まれる送信タイミング情報からセル1に対する上りリンクコンポーネントキャリアの送信タイミングを調整して、送信タイミングタイマーをスタートさせる。移動局装置1-1は、セル1を介してメッセージ3を基地局装置3へ送信する。なお、移動局装置1-1は、このメッセージ3に初期アクセスを示した内容を含めてメッセージ3を送信する。そして、移動局装置1-1は、コンテンションレゾリューションを基地局装置3から受信すると、Contention based Random Access手順を終了する。
The mobile station apparatus 1-1 performs a cell search and finds one cell of the base station apparatus 3. Here, assume that cell 1 is found. The mobile station apparatus 1-1 receives the broadcast channel PBCH of the cell 1, and acquires system information (cell physical channel configuration, transmission power information, information on random access, etc.). Then, the mobile station apparatus 1-1 transmits a random access preamble to the random access channel RACH of the cell 1 for initial access using information on random access included in the system information. Then, the mobile station apparatus 1-1 acquires a random access response message including transmission timing information for the cell 1 from the base station apparatus 3, and determines the uplink component carrier for the cell 1 from the transmission timing information included in the random access response. Adjust the transmission timing and start the transmission timing timer. The mobile station apparatus 1-1 transmits the message 3 to the base station apparatus 3 via the cell 1. The mobile station apparatus 1-1 transmits the message 3 including the content indicating the initial access in the message 3. And the mobile station apparatus 1-1 will complete | finish a Contention based Random Access procedure, if contention resolution is received from the base station apparatus 3. FIG.
ランダムアクセス手順が完了後、基地局装置3は、移動局装置1-1に使用させるセルを割り当て、セルの構成情報を通知する。なお、セルの構成情報は、第一セルのセル情報と送信タイミンググループに関する情報とを示す。ここでは、図14のように、基地局装置3は、移動局装置1-1にセル1~セル5を割り当てて、セル1を第一セルに設定し、セル2~セル5を第二セルに設定し、セル1~セル3を送信タイミングが同じ送信タイミンググループ(送信タイミンググループ1)に設定し、セル4とセル5とを送信タイミングが同じ別の送信タイミンググループ(送信タイミンググループ2)に設定している。そして、移動局装置1-1に対して、セル1とセル4とを介して送信タイミング情報が通知されるように設定する。
After the random access procedure is completed, the base station device 3 allocates a cell to be used by the mobile station device 1-1 and notifies the cell configuration information. The cell configuration information indicates cell information of the first cell and information on the transmission timing group. Here, as shown in FIG. 14, base station apparatus 3 assigns cells 1 to 5 to mobile station apparatus 1-1, sets cell 1 as the first cell, and sets cells 2 to 5 as the second cell. Cell 1 to cell 3 are set to a transmission timing group (transmission timing group 1) having the same transmission timing, and cell 4 and cell 5 are set to different transmission timing groups (transmission timing group 2) having the same transmission timing. It is set. Then, the mobile station apparatus 1-1 is set to be notified of the transmission timing information via the cell 1 and the cell 4.
そして、基地局装置3は、移動局装置1-1に割り当てたセルのシステム情報や、送信タイミンググループのグループ情報、送信タイミングメッセージを通知するセルの情報、第一セルの上りリンク制御チャネルPUCCHの割り当て情報、上りリンク参照信号(測定用参照信号)の生成情報、上りリンク参照信号(測定用参照信号)を送信するための無線リソース割り当て情報、定期的な上りリンク共用チャネルPUSCHの無線リソース割り当て情報などの設定情報も、移動局装置1-1に通知する。なお、ここでは、上記情報を通知後、基地局装置3は、移動局装置1-1にセル2~セル5をアクティベートするように指示し、セル2~セル5に対して下りリンクの受信処理を開始するように指示するとする。
Then, the base station apparatus 3 transmits the system information of the cell allocated to the mobile station apparatus 1-1, the group information of the transmission timing group, the information of the cell notifying the transmission timing message, the uplink control channel PUCCH of the first cell. Assignment information, uplink reference signal (measurement reference signal) generation information, radio resource assignment information for transmitting an uplink reference signal (measurement reference signal), periodic uplink shared channel PUSCH radio resource assignment information Such setting information is also notified to the mobile station apparatus 1-1. Here, after notifying the above information, the base station apparatus 3 instructs the mobile station apparatus 1-1 to activate the cells 2 to 5, and the downlink reception process for the cells 2 to 5 is performed. Suppose you want to start.
そして、移動局装置1-1は、割り当てられたセルのシステム情報や送信タイミンググループのグループ情報を取得後、取得している送信タイミンググループのグループ情報と送信タイミング情報とから、セル1と同じ送信タイミンググループであるセル2およびセル3の上りリンクの送信タイミングを調整する。この後、移動局装置1-1と基地局装置3との間でセル1~セル5の下りリンクコンポーネントキャリアとセル1~セル3の上りリンクコンポーネントキャリアとを介してデータのやり取りがされる。
Then, after acquiring the system information of the allocated cell and the group information of the transmission timing group, the mobile station apparatus 1-1 transmits the same transmission as that of the cell 1 from the acquired group information of the transmission timing group and the transmission timing information. The uplink transmission timings of cell 2 and cell 3 that are timing groups are adjusted. Thereafter, data is exchanged between the mobile station apparatus 1-1 and the base station apparatus 3 via the downlink component carriers of the cell 1 to cell 5 and the uplink component carriers of the cell 1 to cell 3.
移動局装置1-1からの送信データ量が多くなり、移動局装置1-1で利用していないセルがある場合、基地局装置3は、Non-contention based Random Accessを行なうように指示するランダムアクセス指示情報を下りリンク制御チャネルPDCCHで通知する。ここでは、基地局装置3は、セル5に対してのランダムアクセス指示情報を移動局装置1-1に通知するとする。ランダムアクセス指示情報には、プリアンブル番号とランダムアクセスチャネル番号とが含まれており、移動局装置1-1は、基地局装置3から指定されたプリアンブルとランダムアクセスチャネルRACHを使用して、ランダムアクセスプリアンブルをセル5のランダムアクセスチャネルRACHに送信する。
When the amount of transmission data from the mobile station device 1-1 increases and there is a cell that is not used by the mobile station device 1-1, the base station device 3 is a random instruction that instructs to perform non-contention based random access. The access instruction information is notified by the downlink control channel PDCCH. Here, it is assumed that the base station apparatus 3 notifies the mobile station apparatus 1-1 of random access instruction information for the cell 5. The random access instruction information includes a preamble number and a random access channel number, and the mobile station apparatus 1-1 uses the preamble and random access channel RACH specified by the base station apparatus 3 to perform random access. The preamble is transmitted to the random access channel RACH of the cell 5.
基地局装置3は、ランダムアクセスプリアンブルを検出すると、ランダムアクセスプリアンブルから送信タイミングを算出して、移動局装置1-1にセル5の下りリンクコンポーネントキャリアを介して送信タイミング情報を含んだランダムアクセスレスポンスを通知する。移動局装置1-1は、ランダムアクセスレスポンスを受信するとランダムアクセスレスポンスに含まれている送信タイミング情報をセル5の上りリンクの送信タイミングとして調整し、さらに、送信タイミング情報を同じ送信タイミンググループであるセル4の上りリンクの送信タイミングとして調整し、送信タイミングタイマーをスタートする。そして、移動局装置1-1は、Non-contention based Random Access手順を完了する。この後、セル4とセル5の上りリンクコンポーネントキャリアも含めて、移動局装置1-1と基地局装置3との間でデータのやり取りを行なう。
When the base station device 3 detects the random access preamble, the base station device 3 calculates transmission timing from the random access preamble, and transmits to the mobile station device 1-1 a random access response including transmission timing information via the downlink component carrier of the cell 5. To be notified. When receiving the random access response, the mobile station apparatus 1-1 adjusts the transmission timing information included in the random access response as the uplink transmission timing of the cell 5, and further sets the transmission timing information to the same transmission timing group. The transmission timing is adjusted as the uplink transmission timing of the cell 4, and the transmission timing timer is started. Then, the mobile station apparatus 1-1 completes the Non-contention based Random Access procedure. Thereafter, data is exchanged between the mobile station apparatus 1-1 and the base station apparatus 3 including the uplink component carriers of the cells 4 and 5.
移動局装置1-1は、送信タイミンググループ毎に1つの送信タイミングタイマーを持ち、送信タイミング情報を受信すると、送信タイミングタイマーをスタート、またはリスタートする。基地局装置3も同様に、送信タイミンググループ毎に1つの送信タイミングタイマーを持ち、送信タイミング情報を送信すると、送信タイミングタイマーをスタート、またはリスタートする。送信タイミングタイマーが動作中は、上りリンク同期している(送信タイミングが有効である)状態であり、移動局装置1-1は、対象となる送信タイミンググループの上りリンクコンポーネントキャリアでの上りリンク送信が可能である。なお、送信タイミングタイマーは、セル毎に持つように構成してもよい。
The mobile station apparatus 1-1 has one transmission timing timer for each transmission timing group, and starts or restarts the transmission timing timer when receiving transmission timing information. Similarly, the base station apparatus 3 has one transmission timing timer for each transmission timing group, and when the transmission timing information is transmitted, the transmission timing timer is started or restarted. While the transmission timing timer is operating, it is in uplink synchronization (transmission timing is valid), and the mobile station apparatus 1-1 transmits uplink transmission on the uplink component carrier of the target transmission timing group. Is possible. Note that the transmission timing timer may be configured to be provided for each cell.
そして、基地局装置3は、移動局装置1-1から送信された各セルの上りリンク参照信号を計測して、移動局装置1-1の送信タイミンググループ1または送信タイミンググループ2の送信タイミングを算出する。そして、各送信タイミンググループの送信タイミングが有効である期間内に計測した送信タイミング情報を含んだ送信タイミングメッセージを移動局装置1-1に通知する。なお、送信タイミングメッセージの通知は、通知する送信タイミンググループ内の移動局装置1-1に指定したセルを介して通知する。例えば、送信タイミンググループ1の送信タイミングメッセージは、セル1を介して移動局装置1-1に通知される。移動局装置1-1は、指定されたセルで送信タイミング情報を受信すると、送信タイミング情報が通知されたセルが属する送信タイミンググループ内のすべてのセルに対して送信タイミング情報から送信タイミングを調整する。例えば、移動局装置1-1は、指定されたセル1で送信タイミングメッセージを受信した場合、送信タイミンググループ1のセル1、セル2及びセル3に対して送信タイミングを調整する。なお、移動局装置1-1は、セル2またはセル3で送信タイミングメッセージを受信した場合、指定されていないセルで受信したため、受信した送信タイミングメッセージを破棄する。
Then, the base station device 3 measures the uplink reference signal of each cell transmitted from the mobile station device 1-1, and determines the transmission timing of the transmission timing group 1 or the transmission timing group 2 of the mobile station device 1-1. calculate. Then, the mobile station apparatus 1-1 is notified of a transmission timing message including transmission timing information measured within a period in which the transmission timing of each transmission timing group is valid. Note that the transmission timing message is notified via the cell designated to the mobile station apparatus 1-1 in the transmission timing group to be notified. For example, the transmission timing message of the transmission timing group 1 is notified to the mobile station apparatus 1-1 via the cell 1. When the mobile station apparatus 1-1 receives the transmission timing information in the designated cell, the mobile station apparatus 1-1 adjusts the transmission timing from the transmission timing information for all the cells in the transmission timing group to which the cell to which the transmission timing information is notified belongs. . For example, when the mobile station apparatus 1-1 receives the transmission timing message in the designated cell 1, the mobile station apparatus 1-1 adjusts the transmission timing for the cells 1, 2, and 3 in the transmission timing group 1. Note that when the mobile station apparatus 1-1 receives the transmission timing message in the cell 2 or the cell 3, the mobile station apparatus 1-1 discards the received transmission timing message because it has been received in a cell not designated.
上記では、第二セルのセル2~セル5に対してアクティベートを指示し、下りリンクの受信処理を行なっている状態で説明したが、基地局装置3からアクティベートの指示されていないセルがある場合、アクティベートを指示されていないセル(デアクティベートセル)に対しての送信タイミングの調整は行なわなくてもよい。そして、デアクティベートセルがアクティベートを指示された場合、移動局装置1-1は、そのセルに対して送信タイミングを調整するようにする。なお、送信タイミングメッセージは、送信タイミングメッセージ単体として送られてもよいし、ユーザーデータや他の制御メッセージと一緒に送られてもよい。
In the above description, the activation is instructed to the cells 2 to 5 of the second cell and the downlink reception process is performed. However, there is a cell for which activation is not instructed from the base station apparatus 3. The transmission timing may not be adjusted for a cell that is not instructed to be activated (deactivated cell). When the deactivation cell is instructed to activate, the mobile station apparatus 1-1 adjusts the transmission timing for the cell. The transmission timing message may be sent as a transmission timing message alone, or may be sent together with user data or other control messages.
なお、送信タイミングの算出は、基地局装置3が、各セルで受信した上りリンク参照信号から算出してもよいし、各送信タイミンググループ内の特定のセルの上りリンク参照信号から算出してもよい。また、ある時点で算出された1つのセルの送信タイミングを通知する送信タイミングとしてもよいし、各送信タイミンググループ内の各セルで測定された送信タイミングの平均値を送信タイミングとしてもよい。
Note that the transmission timing may be calculated from the uplink reference signal received by each cell by the base station apparatus 3, or may be calculated from the uplink reference signal of a specific cell in each transmission timing group. Good. Moreover, it is good also as a transmission timing which notifies the transmission timing of one cell calculated at a certain time, and it is good also considering the average value of the transmission timing measured in each cell in each transmission timing group as a transmission timing.
送信タイミングメッセージを受信した場合の移動局装置1-1の処理フローチャートを図15に示す。移動局装置1-1は、ある1つのセルを介して送信タイミングメッセージを受信した場合、そのセルが基地局装置3から送信タイミングメッセージを通知するセルに指定されたセルかどうか確認する(ステップS201)。そのセルが、基地局装置3から送信タイミングメッセージを通知するセルに指定されている場合、移動局装置1-1は、そのセルが属する送信タイミンググループ内のアクティベートセルの上りリンク送信タイミングに送信タイミングメッセージに含まれる送信タイミング情報を適用する(ステップS202)。そして、移動局装置1-1は、送信タイミングが設定された送信タイミンググループの送信タイミングタイマーをリスタートする(ステップS203)。また、送信タイミングメッセージを受信したセルが、基地局装置3から送信タイミングメッセージを通知されるセルに指定されていない場合、移動局装置1-1は、取得した送信タイミングメッセージを破棄する(ステップS204)。
FIG. 15 shows a processing flowchart of the mobile station apparatus 1-1 when a transmission timing message is received. When the mobile station apparatus 1-1 receives a transmission timing message via a certain cell, the mobile station apparatus 1-1 checks whether or not the cell is a cell designated as a cell that notifies the transmission timing message from the base station apparatus 3 (step S201). ). When the cell is designated as a cell that notifies the transmission timing message from the base station apparatus 3, the mobile station apparatus 1-1 transmits the transmission timing at the uplink transmission timing of the activated cell in the transmission timing group to which the cell belongs. The transmission timing information included in the message is applied (step S202). Then, the mobile station apparatus 1-1 restarts the transmission timing timer of the transmission timing group for which the transmission timing is set (step S203). On the other hand, if the cell that has received the transmission timing message is not designated as the cell that is notified of the transmission timing message from the base station apparatus 3, the mobile station apparatus 1-1 discards the acquired transmission timing message (step S204). ).
このように構成することで、基地局装置3は、移動局装置1-1に対して1つの送信タイミンググループに対して1つの送信タイミング情報を通知するだけでよく、無駄な無線リソースを使用しなくて済む。また、移動局装置1-1は指定されたセルで送信タイミングメッセージを受信した場合のみ、送信タイミングの更新を行なうので、基地局装置3の誤送信や移動局装置1-1の誤受信等による誤動作を防ぐことができる。
With this configuration, the base station apparatus 3 only needs to notify one transmission timing information to one transmission timing group to the mobile station apparatus 1-1, and uses a useless radio resource. You don't have to. Further, since the mobile station apparatus 1-1 updates the transmission timing only when it receives the transmission timing message in the designated cell, it may be caused by erroneous transmission of the base station apparatus 3 or erroneous reception of the mobile station apparatus 1-1. Malfunctions can be prevented.
以上、図面を参照してこの発明の一実施形態について詳しく説明してきたが、具体的な構成は上述のものに限られることはなく、この発明の要旨を逸脱しない範囲内において様々な設計変更等をすることが可能である。
As described above, the embodiment of the present invention has been described in detail with reference to the drawings. However, the specific configuration is not limited to that described above, and various design changes and the like can be made without departing from the scope of the present invention. It is possible to
また、説明の便宜上、実施形態の移動局装置1-1および基地局装置3を機能的なブロック図を用いて説明したが、移動局装置1-1および基地局装置3の各部の機能またはこれらの機能の一部を実現するためのプログラムをコンピュータ読み取り可能な記録媒体に記録して、この記録媒体に記録されたプログラムをコンピュータシステムに読み込ませ、実行することにより移動局装置や基地局装置の制御を行なってもよい。なお、ここでいう「コンピュータシステム」とは、OSや周辺機器等のハードウェアを含むものとする。
Further, for convenience of explanation, the mobile station device 1-1 and the base station device 3 of the embodiment have been described using functional block diagrams, but the functions of the respective parts of the mobile station device 1-1 and the base station device 3 or these A program for realizing a part of the above functions is recorded on a computer-readable recording medium, and the program recorded on the recording medium is read into a computer system and executed, whereby the mobile station apparatus and the base station apparatus Control may be performed. Here, the “computer system” includes an OS and hardware such as peripheral devices.
また、「コンピュータ読み取り可能な記録媒体」とは、フレキシブルディスク、光磁気ディスク、ROM、CD-ROM等の可搬媒体、コンピュータシステムに内蔵されるハードディスク等の記憶装置のことをいう。さらに、「コンピュータ読み取り可能な記録媒体」とは、インターネット等のネットワークや電話回線等の通信回線を介してプログラムを送信する場合の通信線のように、短時間の間、動的にプログラムを保持するもの、その場合のサーバやクライアントとなるコンピュータシステム内部の揮発性メモリのように、一定時間プログラムを保持しているものも含むものとする。また上記プログラムは、前述した機能の一部を実現するためのものであってもよく、さらに、前述した機能をコンピュータシステムに既に記録されているプログラムとの組み合わせで実現できるものであってもよい。
Further, the “computer-readable recording medium” means a storage device such as a flexible disk, a magneto-optical disk, a portable medium such as a ROM and a CD-ROM, and a hard disk incorporated in a computer system. Furthermore, the “computer-readable recording medium” means that a program is dynamically held for a short time, like a communication line when a program is transmitted via a network such as the Internet or a communication line such as a telephone line. In this case, it is intended to include those that hold a program for a certain period of time, such as a volatile memory inside a computer system serving as a server or a client in that case. Further, the program may be for realizing a part of the above-described functions, and may be capable of realizing the above-described functions in combination with a program already recorded in the computer system. .
また、上記各実施形態に用いた各機能ブロックは、典型的には集積回路であるLSI(Large Scale Integration)として実現してもよい。各機能ブロックは個別にチップ化してもよいし、一部または全部を集積してチップ化してもよい。また、集積回路化の手法はLSIに限らず専用回路または汎用プロセッサで実現してもよい。また、半導体技術の進歩によりLSIに代替する集積回路化の技術が出現した場合、当該技術による集積回路を用いることも可能である。
Each functional block used in each of the above embodiments may be realized as an LSI (Large Scale Integration) that is typically an integrated circuit. Each functional block may be individually formed into chips, or a part or all of them may be integrated into a chip. Further, the method of circuit integration is not limited to LSI, and may be realized by a dedicated circuit or a general-purpose processor. In addition, when an integrated circuit technology that replaces LSI appears due to progress in semiconductor technology, an integrated circuit based on the technology can also be used.
以上、この発明の実施形態について図面を参照して詳述してきたが、具体的な構成はこの実施形態に限られるものではなく、この発明の要旨を逸脱しない範囲の設計等も請求の範囲に含まれる。
The embodiment of the present invention has been described in detail with reference to the drawings, but the specific configuration is not limited to this embodiment, and the design and the like without departing from the spirit of the present invention are within the scope of the claims. included.
1 移動局装置、3 基地局装置、101,201 無線部、103,203 送信処理部、105,205 変調部、107,207 送信HARQ処理部、109,209 制御部、111 上りリンク参照信号生成部、113 ランダムアクセスプリアンブル生成部、115,215 受信処理部、117,217 復調部、119,219 受信HARQ処理部、121 移動局管理部、123 ULスケジュール部、125,225 制御データ作成部、127,227 制御データ解析部、129,229 セル管理部、131,231 TA管理部、211 下りリンク参照信号生成部、213 プリアンブル検出部、221 基地局管理部、223 DL/ULスケジュール部。
1 mobile station device, 3 base station device, 101, 201 radio unit, 103, 203 transmission processing unit, 105, 205 modulation unit, 107, 207 transmission HARQ processing unit, 109, 209 control unit, 111 uplink reference signal generation unit , 113 Random access preamble generation unit, 115, 215 reception processing unit, 117, 217 demodulation unit, 119, 219 reception HARQ processing unit, 121 mobile station management unit, 123 UL schedule unit, 125, 225 control data creation unit, 127, 227 Control data analysis unit, 129, 229 Cell management unit, 131, 231 TA management unit, 211 Downlink reference signal generation unit, 213 Preamble detection unit, 221 Base station management unit, 223 DL / UL schedule unit
Claims (16)
- 基地局装置が移動局装置に複数セルを割り当て、前記基地局装置と前記移動局装置とが前記複数セルを介して通信を行なう無線通信システムであって、
前記複数セルは、常にアクティベートセルの1つの第一セルと、アクティベートセルまたはデアクティベートセルの1つ以上の第二セルとから構成され、
前記第一セルおよび前記第二セルは、前記第一セルと同じ上りリンク送信タイミングの第二セルから構成される第一の送信タイミンググループと、前記第一セルの上りリンク送信タイミングと異なる同じ上りリンク送信タイミングの第二セルから構成される第二の送信タイミンググループとにグループ化され、
前記基地局装置は、前記送信タイミンググループの情報を前記移動局装置に予め送信し、送信タイミング情報を含む送信タイミングメッセージを前記複数セルの中の1つのセルを介して前記移動局装置に送信し、
前記移動局装置は、前記送信タイミンググループの情報に基づき、前記送信タイミングメッセージを受信した前記1つのセルが属する前記送信タイミンググループ内のセルに対して、前記送信タイミング情報を適用する、無線通信システム。 A base station apparatus allocates a plurality of cells to a mobile station apparatus, and the base station apparatus and the mobile station apparatus communicate with each other via the plurality of cells,
The plurality of cells are always composed of one first cell of an activation cell and one or more second cells of an activation cell or a deactivation cell,
The first cell and the second cell have a first transmission timing group composed of second cells having the same uplink transmission timing as the first cell, and the same uplink different from the uplink transmission timing of the first cell. Grouped into a second transmission timing group composed of second cells of link transmission timing,
The base station apparatus transmits the transmission timing group information to the mobile station apparatus in advance, and transmits a transmission timing message including transmission timing information to the mobile station apparatus via one cell among the plurality of cells. ,
The mobile station apparatus applies the transmission timing information to cells in the transmission timing group to which the one cell that has received the transmission timing message belongs based on the information of the transmission timing group. . - 前記送信タイミング情報を適用する前記送信タイミンググループ内の前記セルは、アクティベートセルである、請求項1記載の無線通信システム。 The wireless communication system according to claim 1, wherein the cell in the transmission timing group to which the transmission timing information is applied is an activated cell.
- 基地局装置が移動局装置に複数セルを割り当て、前記基地局装置と前記移動局装置とが前記複数セルを介して通信を行なう無線通信システムであって、
前記複数セルは、常にアクティベートセルの1つの第一セルと、アクティベートセルまたはデアクティベートセルの1つ以上の第二セルとから構成され、
前記第一セルおよび前記第二セルは、前記第一セルと同じ上りリンク送信タイミングの第二セルから構成される第一の送信タイミンググループと、前記第一セルの上りリンク送信タイミングと異なる同じ上りリンク送信タイミングの第二セルから構成される第二の送信タイミンググループとにグループ化され、
前記基地局装置は、前記送信タイミンググループの情報と前記基地局装置が送信タイミングメッセージを送信するセル情報とを前記移動局装置に予め送信し、送信タイミング情報を含む送信タイミングメッセージを前記複数セルの中の1つのセルを介して前記移動局装置に送信し、
前記移動局装置は、前記1つのセルを介して前記送信タイミングメッセージを受信し、前記1つのセルが前記送信タイミング情報を送信するセルと同じ場合、前記送信タイミンググループの情報に基づき、前記1つのセルが属する前記送信タイミンググループ内のセルに対して、前記送信タイミング情報を適用する、無線通信システム。 A base station apparatus allocates a plurality of cells to a mobile station apparatus, and the base station apparatus and the mobile station apparatus communicate with each other via the plurality of cells,
The plurality of cells are always composed of one first cell of an activation cell and one or more second cells of an activation cell or a deactivation cell,
The first cell and the second cell have a first transmission timing group composed of second cells having the same uplink transmission timing as the first cell, and the same uplink different from the uplink transmission timing of the first cell. Grouped into a second transmission timing group composed of second cells of link transmission timing,
The base station apparatus transmits in advance the transmission timing group information and cell information to which the base station apparatus transmits a transmission timing message to the mobile station apparatus, and transmits a transmission timing message including transmission timing information to the plurality of cells. Transmitting to the mobile station device through one cell in the middle,
When the mobile station apparatus receives the transmission timing message via the one cell and the one cell is the same as the cell that transmits the transmission timing information, the mobile station apparatus is configured based on the transmission timing group information. A radio communication system that applies the transmission timing information to a cell in the transmission timing group to which the cell belongs. - 前記送信タイミング情報を適用する前記送信タイミンググループ内の前記セルは、アクティベートセルである、請求項3記載の無線通信システム。 The wireless communication system according to claim 3, wherein the cell in the transmission timing group to which the transmission timing information is applied is an activated cell.
- 移動局装置に複数セルを割り当て、前記移動局装置と前記複数セルを介して通信を行なう基地局装置であって、
前記複数セルは、常にアクティベートセルの1つの第一セルと、アクティベートセルまたはデアクティベートセルの1つ以上の第二セルとから構成され、
前記第一セルおよび前記第二セルは、前記第一セルと同じ上りリンク送信タイミングの第二セルから構成される第一の送信タイミンググループと、前記第一セルの上りリンク送信タイミングとは異なる同じ上りリンク送信タイミングの第二セルから構成される第二の送信タイミンググループとにグループ化され、
前記送信タイミンググループの情報を前記移動局装置に予め送信し、前記送信タイミンググループに基づいて送信タイミング情報を含む送信タイミングメッセージを前記複数セルの中の1つのセルを介して前記移動局装置に送信する、基地局装置。 A base station apparatus that allocates a plurality of cells to a mobile station apparatus and communicates with the mobile station apparatus via the plurality of cells,
The plurality of cells are always composed of one first cell of an activation cell and one or more second cells of an activation cell or a deactivation cell,
The first cell and the second cell are different from the first transmission timing group configured of the second cell having the same uplink transmission timing as the first cell, and the uplink transmission timing of the first cell is the same. Grouped into a second transmission timing group composed of second cells of uplink transmission timing,
Information on the transmission timing group is transmitted in advance to the mobile station apparatus, and a transmission timing message including transmission timing information is transmitted to the mobile station apparatus via one cell of the plurality of cells based on the transmission timing group. A base station apparatus. - 移動局装置に複数セルを割り当て、前記移動局装置と前記複数セルを介して通信を行なう基地局装置であって、
前記複数セルは、常にアクティベートセルの1つの第一セルと、アクティベートセルまたはデアクティベートセルの1つ以上の第二セルとから構成され、
前記第一セルおよび前記第二セルは、前記第一セルと同じ上りリンク送信タイミングの第二セルから構成される第一の送信タイミンググループと、前記第一セルの上りリンク送信タイミングとは異なる同じ上りリンク送信タイミングの第二セルから構成される第二の送信タイミンググループとにグループ化され、
前記送信タイミンググループの情報と前記基地局装置が送信タイミングメッセージを送信するセル情報とを前記移動局装置に予め送信し、前記送信タイミンググループに基づいて送信タイミング情報を含む送信タイミングメッセージを前記複数セルの中の1つのセルを介して前記移動局装置に送信する、基地局装置。 A base station apparatus that allocates a plurality of cells to a mobile station apparatus and communicates with the mobile station apparatus via the plurality of cells,
The plurality of cells are always composed of one first cell of an activation cell and one or more second cells of an activation cell or a deactivation cell,
The first cell and the second cell are different from the first transmission timing group configured of the second cell having the same uplink transmission timing as the first cell, and the uplink transmission timing of the first cell is the same. Grouped into a second transmission timing group composed of second cells of uplink transmission timing,
Information on the transmission timing group and cell information on which the base station apparatus transmits a transmission timing message are transmitted in advance to the mobile station apparatus, and a transmission timing message including transmission timing information based on the transmission timing group is transmitted to the plurality of cells. A base station device that transmits to the mobile station device via one of the cells. - 基地局装置から複数セルを割り当てられ、前記基地局装置と前記複数セルを介して通信を行なう移動局装置であって、
前記複数セルは、常にアクティベートセルの1つの第一セルと、アクティベートセルまたはデアクティベートセルの1つ以上の第二セルとから構成され、
前記第一セルおよび前記第二セルは、前記第一セルと同じ上りリンク送信タイミングの第二セルから構成される第一の送信タイミンググループと、前記第一セルの上りリンク送信タイミングとは異なる同じ上りリンク送信タイミングの第二セルから構成される第二の送信タイミンググループとにグループ化され、
前記基地局装置から送信タイミンググループの情報を予め受信し、前記複数セルの1つのセルを介して送信タイミング情報を含む送信タイミングメッセージを受信した場合、前記送信タイミンググループの情報に基づき、前記1つのセルが属する前記送信タイミンググループ内のセルに対して、前記送信タイミング情報を適用する、移動局装置。 A mobile station apparatus that is assigned a plurality of cells from a base station apparatus and communicates with the base station apparatus via the plurality of cells,
The plurality of cells are always composed of one first cell of an activation cell and one or more second cells of an activation cell or a deactivation cell,
The first cell and the second cell are different from the first transmission timing group configured of the second cell having the same uplink transmission timing as the first cell, and the uplink transmission timing of the first cell is the same. Grouped into a second transmission timing group composed of second cells of uplink transmission timing,
When receiving transmission timing group information from the base station apparatus in advance and receiving a transmission timing message including transmission timing information via one cell of the plurality of cells, based on the transmission timing group information, the one A mobile station apparatus that applies the transmission timing information to a cell in the transmission timing group to which the cell belongs. - 前記送信タイミンググループ内のアクティベートセルに対して、前記送信タイミング情報を適用する、請求項7記載の移動局装置。 The mobile station apparatus according to claim 7, wherein the transmission timing information is applied to an activated cell in the transmission timing group.
- 基地局装置から複数セルを割り当てられ、前記基地局装置と前記複数セルを介して通信を行なう移動局装置であって、
前記複数セルは、常にアクティベートセルの1つの第一セルと、アクティベートセルまたはデアクティベートセルの1つ以上の第二セルとから構成され、
前記第一セルおよび前記第二セルは、前記第一セルと同じ上りリンク送信タイミングの第二セルから構成される第一の送信タイミンググループと、前記第一セルの上りリンク送信タイミングとは異なる同じ上りリンク送信タイミングの第二セルから構成される第二の送信タイミンググループとにグループ化され、
前記基地局装置から送信タイミンググループの情報と基地局装置が送信タイミング情報を含む送信タイミングメッセージを送信するセル情報とを予め受信し、前記複数セルの1つのセルを介して送信タイミングメッセージを受信し、前記1つのセルが前記送信タイミング情報を送信するセルと同じ場合、前記送信タイミンググループの情報に基づき、前記1つのセルが属する前記送信タイミンググループ内のセルに対して、前記送信タイミング情報を適用することを特徴とする移動局装置。 A mobile station apparatus that is assigned a plurality of cells from a base station apparatus and communicates with the base station apparatus via the plurality of cells,
The plurality of cells are always composed of one first cell of an activation cell and one or more second cells of an activation cell or a deactivation cell,
The first cell and the second cell are different from the first transmission timing group configured of the second cell having the same uplink transmission timing as the first cell, and the uplink transmission timing of the first cell is the same. Grouped into a second transmission timing group composed of second cells of uplink transmission timing,
The base station apparatus receives in advance transmission timing group information and cell information for transmitting a transmission timing message including transmission timing information from the base station apparatus, and receives the transmission timing message via one cell of the plurality of cells. When the one cell is the same as the cell that transmits the transmission timing information, the transmission timing information is applied to a cell in the transmission timing group to which the one cell belongs based on the information of the transmission timing group. A mobile station apparatus characterized by: - 前記送信タイミンググループ内のアクティベートセルに対して、前記送信タイミング情報を適用する、請求項9記載の移動局装置。 The mobile station apparatus according to claim 9, wherein the transmission timing information is applied to an activated cell in the transmission timing group.
- 基地局装置が移動局装置に複数セルを割り当て、前記基地局装置と前記移動局装置が前記複数セルを介して通信を行なう無線通信システムに適用される無線通信方法であって、
前記複数セルは、常にアクティベートセルの1つの第一セルと、アクティベートセルまたはデアクティベートセルの1つ以上の第二セルとから構成され、
前記第一セルおよび前記第二セルは、前記第一セルと同じ上りリンク送信タイミングの第二セルから構成される第一の送信タイミンググループと、前記第一セルの上りリンク送信タイミングとは異なる同じ上りリンク送信タイミングの第二セルから構成される第二の送信タイミンググループとにグループ化され、
前記基地局装置が前記送信タイミンググループの情報を前記移動局装置に予め送信するステップと、送信タイミング情報を含む送信タイミングメッセージを前記複数セルの中の1つのセルを介して前記移動局装置に送信するステップと、
前記移動局装置が前記送信タイミンググループの情報に基づき、前記1つのセルが属する前記送信タイミンググループ内のアクティベートセルに対して、前記送信タイミング情報を適用するステップとを含む、無線通信方法。 A radio communication method applied to a radio communication system in which a base station apparatus allocates a plurality of cells to a mobile station apparatus, and the base station apparatus and the mobile station apparatus communicate via the plurality of cells,
The plurality of cells are always composed of one first cell of an activation cell and one or more second cells of an activation cell or a deactivation cell,
The first cell and the second cell are different from the first transmission timing group configured of the second cell having the same uplink transmission timing as the first cell, and the uplink transmission timing of the first cell is the same. Grouped into a second transmission timing group composed of second cells of uplink transmission timing,
The base station device transmits the transmission timing group information to the mobile station device in advance, and transmits a transmission timing message including transmission timing information to the mobile station device via one cell among the plurality of cells. And steps to
And a step of applying the transmission timing information to an activated cell in the transmission timing group to which the one cell belongs based on the information of the transmission timing group. - 基地局装置が移動局装置に複数セルを割り当て、前記基地局装置と前記移動局装置が前記複数セルを介して通信を行なう無線通信システムに適用される無線通信方法であって、
前記複数セルは、常にアクティベートセルの1つの第一セルと、アクティベートセルまたはデアクティベートセルの1つ以上の第二セルとから構成され、
前記第一セルおよび前記第二セルは、前記第一セルと同じ上りリンク送信タイミングの第二セルから構成される第一の送信タイミンググループと、前記第一セルの上りリンク送信タイミングとは異なる同じ上りリンク送信タイミングの第二セルから構成される第二の送信タイミンググループとにグループ化され、
前記基地局装置が前記送信タイミンググループの情報と前記基地局装置が送信タイミングメッセージを送信するセル情報とを前記移動局装置に予め送信するステップと、
前記基地局装置が送信タイミング情報を含む送信タイミングメッセージを前記複数セルの中の1つのセルを介して前記移動局装置に送信するステップと、
前記移動局装置が前記1つのセルを介して前記送信タイミングメッセージを受信するステップと、
前記移動局装置が、前記1つのセルが前記送信タイミング情報を送信するセルと同じ場合、前記送信タイミンググループの情報に基づき、前記1つのセルが属する前記送信タイミンググループ内のアクティベートセルに対して、前記送信タイミング情報を適用するステップとを含む、無線通信方法。 A radio communication method applied to a radio communication system in which a base station apparatus allocates a plurality of cells to a mobile station apparatus, and the base station apparatus and the mobile station apparatus communicate via the plurality of cells,
The plurality of cells are always composed of one first cell of an activation cell and one or more second cells of an activation cell or a deactivation cell,
The first cell and the second cell are different from the first transmission timing group configured of the second cell having the same uplink transmission timing as the first cell, and the uplink transmission timing of the first cell is the same. Grouped into a second transmission timing group composed of second cells of uplink transmission timing,
The base station device transmitting in advance to the mobile station device information on the transmission timing group and cell information on which the base station device transmits a transmission timing message;
The base station device transmitting a transmission timing message including transmission timing information to the mobile station device via one cell of the plurality of cells;
The mobile station apparatus receiving the transmission timing message via the one cell;
When the mobile station apparatus is the same as the cell in which the one cell transmits the transmission timing information, based on the information on the transmission timing group, for the activated cell in the transmission timing group to which the one cell belongs, Applying the transmission timing information. - 移動局装置に複数セルを割り当て、前記移動局装置と前記複数セルを介して通信を行なう基地局装置に適用される集積回路であって、
前記複数セルは、常にアクティベートセルの1つの第一セルと、アクティベートセルまたはデアクティベートセルの1つ以上の第二セルとから構成され、
前記第一セルおよび前記第二セルは、前記第一セルと同じ上りリンク送信タイミングの第二セルから構成される第一の送信タイミンググループと、前記第一セルの上りリンク送信タイミングとは異なる同じ上りリンク送信タイミングの第二セルから構成される第二の送信タイミンググループとにグループ化され、
前記送信タイミンググループの情報を前記移動局装置に予め送信する手段と、
前記送信タイミンググループに基づいて送信タイミング情報を含む送信タイミングメッセージを前記複数セルの中の1つのセルを介して前記移動局装置に送信する手段とを含む、集積回路。 An integrated circuit applied to a base station apparatus that assigns a plurality of cells to a mobile station apparatus and communicates with the mobile station apparatus via the plurality of cells,
The plurality of cells are always composed of one first cell of an activation cell and one or more second cells of an activation cell or a deactivation cell,
The first cell and the second cell are different from the first transmission timing group configured of the second cell having the same uplink transmission timing as the first cell, and the uplink transmission timing of the first cell is the same. Grouped into a second transmission timing group composed of second cells of uplink transmission timing,
Means for previously transmitting information of the transmission timing group to the mobile station device;
Means for transmitting a transmission timing message including transmission timing information based on the transmission timing group to the mobile station apparatus via one cell of the plurality of cells. - 基地局装置から複数セルを割り当てられ、前記基地局装置と前記複数セルを介して通信を行なう移動局装置に適用される集積回路であって、
前記複数セルは、常にアクティベートセルの1つの第一セルと、アクティベートセルまたはデアクティベートセルの1つ以上の第二セルとから構成され、
前記第一セルおよび前記第二セルは、前記第一セルと同じ上りリンク送信タイミングの第二セルから構成される第一の送信タイミンググループと、前記第一セルの上りリンク送信タイミングとは異なる同じ上りリンク送信タイミングの第二セルから構成される第二の送信タイミンググループとにグループ化され、
前記基地局装置から送信タイミンググループの情報を予め受信する手段と、
前記複数セルの1つのセルを介して送信タイミング情報を含む送信タイミングメッセージを受信する手段と、
前記送信タイミンググループの情報に基づき、前記1つのセルが属する前記送信タイミンググループ内のアクティベートセルに対して、前記送信タイミング情報を適用する手段とを含む、集積回路。 An integrated circuit applied to a mobile station apparatus that is assigned a plurality of cells from a base station apparatus and communicates with the base station apparatus via the plurality of cells,
The plurality of cells are always composed of one first cell of an activation cell and one or more second cells of an activation cell or a deactivation cell,
The first cell and the second cell are different from the first transmission timing group configured of the second cell having the same uplink transmission timing as the first cell, and the uplink transmission timing of the first cell is the same. Grouped into a second transmission timing group composed of second cells of uplink transmission timing,
Means for receiving in advance transmission timing group information from the base station apparatus;
Means for receiving a transmission timing message including transmission timing information via one cell of the plurality of cells;
Means for applying the transmission timing information to an activated cell in the transmission timing group to which the one cell belongs based on the information of the transmission timing group. - 移動局装置に複数セルを割り当て、前記移動局装置と前記複数セルを介して通信を行なう基地局装置に適用される集積回路であって、
前記複数セルは、常にアクティベートセルの1つの第一セルと、アクティベートセルまたはデアクティベートセルの1つ以上の第二セルとから構成され、
前記第一セルおよび前記第二セルは、前記第一セルと同じ上りリンク送信タイミングの第二セルから構成される第一の送信タイミンググループと、前記第一セルの上りリンク送信タイミングとは異なる同じ上りリンク送信タイミングの第二セルから構成される第二の送信タイミンググループとにグループ化され、
前記送信タイミンググループの情報と前記基地局装置が送信タイミングメッセージを送信するセル情報とを前記移動局装置に予め送信する手段と、
前記送信タイミンググループに基づいて送信タイミング情報を含む送信タイミングメッセージを前記複数セルの中の1つのセルを介して前記移動局装置に送信する手段とを含む、集積回路。 An integrated circuit applied to a base station apparatus that assigns a plurality of cells to a mobile station apparatus and communicates with the mobile station apparatus via the plurality of cells,
The plurality of cells are always composed of one first cell of an activation cell and one or more second cells of an activation cell or a deactivation cell,
The first cell and the second cell are different from the first transmission timing group configured of the second cell having the same uplink transmission timing as the first cell, and the uplink transmission timing of the first cell is the same. Grouped into a second transmission timing group composed of second cells of uplink transmission timing,
Means for transmitting in advance the information on the transmission timing group and cell information on which the base station apparatus transmits a transmission timing message to the mobile station apparatus;
Means for transmitting a transmission timing message including transmission timing information based on the transmission timing group to the mobile station apparatus via one cell of the plurality of cells. - 基地局装置から複数セルを割り当てられ、前記基地局装置と前記複数セルを介して通信を行なう移動局装置に適用される集積回路であって、
前記複数セルは、常にアクティベートセルの1つの第一セルと、アクティベートセルまたはデアクティベートセルの1つ以上の第二セルとから構成され、
前記第一セルおよび前記第二セルは、前記第一セルと同じ上りリンク送信タイミングの第二セルから構成される第一の送信タイミンググループと、前記第一セルの上りリンク送信タイミングとは異なる同じ上りリンク送信タイミングの第二セルから構成される第二の送信タイミンググループとにグループ化され、
前記基地局装置から送信タイミンググループの情報と基地局装置が送信タイミング情報を含む送信タイミングメッセージを送信するセル情報とを受信する手段と、
前記複数セルの1つのセルを介して送信タイミングメッセージを受信する手段と、
前記1つのセルが前記送信タイミング情報を送信するセルと同じ場合、前記送信タイミンググループの情報に基づき、前記1つのセルが属する前記送信タイミンググループ内のアクティベートセルに対して、前記送信タイミング情報を適用する手段とを含む、集積回路。 An integrated circuit applied to a mobile station apparatus that is assigned a plurality of cells from a base station apparatus and communicates with the base station apparatus via the plurality of cells,
The plurality of cells are always composed of one first cell of an activation cell and one or more second cells of an activation cell or a deactivation cell,
The first cell and the second cell are different from the first transmission timing group configured of the second cell having the same uplink transmission timing as the first cell, and the uplink transmission timing of the first cell is the same. Grouped into a second transmission timing group composed of second cells of uplink transmission timing,
Means for receiving information on a transmission timing group from the base station apparatus and cell information on which the base station apparatus transmits a transmission timing message including transmission timing information;
Means for receiving a transmission timing message via one cell of the plurality of cells;
When the one cell is the same as the cell transmitting the transmission timing information, the transmission timing information is applied to the activated cell in the transmission timing group to which the one cell belongs based on the information of the transmission timing group. And an integrated circuit.
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JP2011053735A JP2012191466A (en) | 2011-03-11 | 2011-03-11 | Radio communication system, base station device, mobile station device, radio communication method, and integrated circuit |
JP2011-053735 | 2011-03-11 |
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WO2012124557A1 true WO2012124557A1 (en) | 2012-09-20 |
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PCT/JP2012/055757 WO2012124557A1 (en) | 2011-03-11 | 2012-03-07 | Wireless communication system, base station, mobile station, wireless communication method, and integrated circuit |
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JP (1) | JP2012191466A (en) |
WO (1) | WO2012124557A1 (en) |
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2012
- 2012-03-07 WO PCT/JP2012/055757 patent/WO2012124557A1/en active Application Filing
Non-Patent Citations (5)
Title |
---|
CATT: "Multiple TA in CA", R2-100057, 3GPP, 22 January 2010 (2010-01-22) * |
NOKIA SIEMENS NETWORKS ET AL.: "Multiple Timing Advance", R2-111897, 3GPP, 15 April 2011 (2011-04-15) * |
NTT DOCOMO, INC.: "CA support for multi-TA", R2-101567, 3GPP, 26 February 2010 (2010-02-26) * |
PANASONIC: "Time Alignment in case of multiple TA", R2-112819, 3GPP, 13 May 2011 (2011-05-13) * |
QUALCOMM INCORPORATED: "Supporting multiple timing advance groups", R2-100423, 3GPP, 22 January 2010 (2010-01-22) * |
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