WO2011016403A1 - 無線通信システム、基地局装置、移動局装置および無線通信方法 - Google Patents
無線通信システム、基地局装置、移動局装置および無線通信方法 Download PDFInfo
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- WO2011016403A1 WO2011016403A1 PCT/JP2010/062953 JP2010062953W WO2011016403A1 WO 2011016403 A1 WO2011016403 A1 WO 2011016403A1 JP 2010062953 W JP2010062953 W JP 2010062953W WO 2011016403 A1 WO2011016403 A1 WO 2011016403A1
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- random access
- station apparatus
- mobile station
- base station
- downlink
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W74/00—Wireless channel access
- H04W74/002—Transmission of channel access control information
- H04W74/004—Transmission of channel access control information in the uplink, i.e. towards network
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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
- H04L5/0091—Signaling for the administration of the divided path
- H04L5/0096—Indication of changes in allocation
- H04L5/0098—Signalling of the activation or deactivation of component carriers, subcarriers or frequency bands
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
- H04W72/04—Wireless resource allocation
- H04W72/044—Wireless resource allocation based on the type of the allocated resource
- H04W72/0453—Resources in frequency domain, e.g. a carrier in FDMA
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- H04W72/21—Control channels or signalling for resource management in the uplink direction of a wireless link, i.e. towards the network
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- H04W—WIRELESS COMMUNICATION NETWORKS
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- H04W72/20—Control channels or signalling for resource management
- H04W72/23—Control channels or signalling for resource management in the downlink direction of a wireless link, i.e. towards a terminal
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- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W74/00—Wireless channel access
- H04W74/002—Transmission of channel access control information
- H04W74/006—Transmission of channel access control information in the downlink, i.e. towards the terminal
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
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- H04W74/08—Non-scheduled access, e.g. ALOHA
- H04W74/0833—Random access procedures, e.g. with 4-step access
- H04W74/0838—Random access procedures, e.g. with 4-step access using contention-free random access [CFRA]
Definitions
- the present invention relates to a radio communication system, a base station apparatus, a mobile station apparatus, and a radio communication method in which a base station apparatus and a mobile station apparatus perform communication using a plurality of uplink carrier elements and downlink carrier elements.
- LTE Long Term Evolution
- EUTRA Evolved Universal Terrestrial Radio Access
- LTE-A Long Term Evolution-Advanced
- A-EUTRA Advanced Evolved Universal Terrestrial Radio Access
- an orthogonal frequency division multiplexing (OFDM) method which is multicarrier transmission, is used as a communication method (downlink) from a base station device to a mobile station device.
- OFDM orthogonal frequency division multiplexing
- SC-FDMA Single-Carrier Frequency Division Multiple Access
- a synchronization channel (Synchronization Channel; SCH), a broadcast channel (Physical Broadcast Channel; PBCH), a downlink control channel (Physical Downlink Control Channel; PDCCH), a downlink shared channel (Physical Downlink Shared Channel). ; PDSCH), multicast channel (Physical Multicast Channel; PMCH), control format indicator channel (Physical Control Format Indicator Indicator Channel; PCFICH), and HARQ indicator channel (Physical Hybrid repeat request Request Indicator Channel; PHICH).
- an uplink shared channel Physical Uplink Shared Channel; PUSCH
- an uplink control channel Physical Uplink Control Channel
- PUCCH Physical Uplink Control Channel
- PRACH Physical Random Access Channel
- the purpose of using the random access channel is to synchronize the mobile station apparatus and the base station apparatus in the uplink and to request allocation of uplink radio resources.
- the mobile station device is out of synchronization with the base station device, when there is data information that the mobile station device transmits to the base station device through the uplink shared channel, or when the base station device is the mobile station device Random access is activated when the downlink control channel is notified to start random access processing.
- Contention based Random Access is an access method that may collide between mobile station apparatuses, and is a random access that is normally performed.
- Non-contention based Random Access is an access method that does not cause collisions between mobile station devices, and in order to quickly synchronize the mobile station device and the base station device, it is led by the base station device in special cases such as handover. Random access performed in
- the mobile station device transmits only the preamble for synchronization.
- the preamble includes a signature which is a signal pattern representing information, and several bits of information can be expressed by preparing dozens of types of signatures.
- a signature which is a signal pattern representing information
- several bits of information can be expressed by preparing dozens of types of signatures.
- the mobile station device transmits 6-bit information using a preamble, and it is assumed that 64 types of signatures are prepared.
- FIG. 16 is a diagram illustrating a procedure example of Contention based Random Access according to the related art.
- the mobile station apparatus 1 determines a signature range to be selected from downlink channel quality and the like, randomly selects a signature from the selected signature range, and transmits a preamble on a random access channel ( Message 1 (M1)).
- M1 Message 1
- the base station apparatus 3 When the base station apparatus 3 receives the preamble transmitted from the mobile station apparatus 1, the base station apparatus 3 calculates a synchronization timing shift between the mobile station apparatus 1 and the base station apparatus 3 from the preamble, and the mobile station apparatus 1 transmits the message 3. Scheduling (designation of uplink radio resource allocation, transmission format (message size), etc.). Then, the base station apparatus 3 assigns a temporary C-RNTI (Cell-Radio Network Temporary Identifier) to the mobile station apparatus 1 and RA-RNTI (Random Access-Radio) corresponding to the random access channel that has received the preamble in the downlink control channel.
- C-RNTI Cell-Radio Network Temporary Identifier
- RA-RNTI Random Access-Radio
- a random access response including a preamble ID is transmitted (message 2 (M2)).
- the mobile station apparatus 1 When the mobile station apparatus 1 confirms that the RA-RNTI is included in the downlink control channel, the mobile station apparatus 1 displays the contents of the random access response arranged in the downlink shared channel indicated by the radio resource allocation included in the downlink control channel. Check. Then, the mobile station apparatus 1 extracts a response including the preamble signature number transmitted by the mobile station apparatus 1, corrects the synchronization timing shift, and makes a connection request using the radio resources and transmission format of the allocated uplink shared channel. The message 3 including the information is transmitted (message 3 (M3)).
- M3 messages 3
- the base station apparatus 3 When the base station apparatus 3 receives the message 3 from the mobile station apparatus 1, the mobile station apparatus 1 has succeeded in random access, that is, there is no preamble collision between the mobile station apparatuses 1, or the mobile station apparatus 1. When a preamble collision occurs, a contention resolution indicating that the collision has been overcome is transmitted to the mobile station apparatus 1 (message 4 (M4)).
- M4 messages 4
- the mobile station apparatus 1 determines that the random access is successful, and ends the process related to the random access.
- the mobile station apparatus 1 did not detect the number of the preamble signature transmitted within the random access response reception period, or did not detect the contention resolution within the contention resolution reception period. If so, start over with preamble transmission.
- FIG. 17 is a diagram illustrating a procedure example of Non-contention based Random Access according to the related art.
- the base station apparatus 3 notifies the mobile station apparatus 1 of information indicating the signature number and the radio resource of the random access channel using the downlink control channel or the like.
- the mobile station apparatus 1 transmits the preamble including the signature of the number notified from the base station apparatus 3 using the random access channel notified from the base station apparatus 3 (message 1 (N1)).
- the base station apparatus 3 When the base station apparatus 3 receives the preamble including the signature of the number notified to the mobile station apparatus 1, the base station apparatus 3 calculates a synchronization timing shift between the mobile station apparatus 1 and the base station apparatus 3 from the preamble.
- the RA-RNTI corresponding to the random access channel that received the preamble is arranged in the downlink control channel, the synchronization timing shift information is received in the downlink shared channel indicated by the radio resource allocation included in the downlink control channel, and A random access response including the preamble signature number is transmitted (message 2 (N2)).
- the mobile station apparatus 1 When the mobile station apparatus 1 confirms that the RA-RNTI is included in the downlink control channel, the mobile station apparatus 1 displays the contents of the random access response arranged in the downlink shared channel indicated by the radio resource allocation included in the downlink control channel. Check. Then, when the number of the preamble signature transmitted by the mobile station device 1 is included, the mobile station device 1 determines that the random access has been successful, and ends the process related to the random access (see non-patent document 1, section 5.1). .
- LTE-A has backward compatibility with LTE, that is, an LTE-A base station apparatus performs radio communication simultaneously with both LTE-A and LTE mobile station apparatuses.
- -A mobile station apparatus is required to be able to perform radio communication with both LTE-A and LTE base station apparatuses, and it is considered that LTE-A uses the same channel structure as LTE. Yes.
- LTE-A uses a plurality of frequency bands having the same channel structure as LTE (hereinafter, referred to as “carrier element (Carrier—Component; CC)” or “component carrier (Component—Carrier; CC))”.
- carrier element Carrier—Component; CC
- component carrier Component—Carrier; CC
- a technique frequency band aggregation: also called spectrumSpecaggregation, carrier aggregation, frequency aggregation, etc.
- frequency band aggregation also called spectrumSpecaggregation, carrier aggregation, frequency aggregation, etc.
- a broadcast channel, a downlink control channel, a downlink shared channel, a multicast channel, a control format indicator channel, and a HARQ indicator channel are transmitted for each downlink carrier element,
- An uplink shared channel, an uplink control channel, and a random access channel are assigned to each link carrier element. That is, in the frequency band aggregation, in the uplink and downlink, the base station apparatus and the plurality of mobile station apparatuses use an uplink control channel, an uplink shared channel, a downlink control channel, a downlink shared channel, etc.
- Is a technology for simultaneously transmitting and receiving a plurality of data information and a plurality of control information see Chapter 5 of Non-Patent Document 2.
- the base station apparatus and the mobile station apparatus communicate with each other using a single set of uplink carrier elements and downlink carrier elements, so that the base station apparatus transmits a plurality of uplink carrier elements and downlink to the mobile station apparatus.
- the downlink control channel instructing the start of random access processing transmitted by the downlink carrier element is a radio resource (random access resource) of a random access channel corresponding to any downlink carrier element
- the present invention has been made in view of the above points, and an object of the present invention is to assign a plurality of uplink carrier elements and downlink carrier elements to a mobile station apparatus by a base station apparatus, and to use any one downlink carrier element. Whether the downlink control channel instructing the start of the received random access process instructs the start of the random access process in the radio resource (random access resource) of the random access channel corresponding to which downlink carrier element
- An object of the present invention is to provide a radio communication system, a base station apparatus, a mobile station apparatus, and a radio communication method that can be determined by a mobile station apparatus.
- the radio communication system of the present invention is a radio communication system in which a base station apparatus and a mobile station apparatus communicate with each other using a plurality of component carriers.
- a random access control unit that pre-allocates random access resources corresponding to a specific downlink component carrier capable of starting access communication, and a transmission processing unit that transmits control information instructing the start of random access processing.
- the station apparatus receives control information instructing the start of the random access process, the station apparatus starts the random access process with a random access resource corresponding to a specific downlink component carrier pre-assigned to the base station apparatus.
- a processing unit is provided.
- the transmission processing unit may arbitrarily select control information instructing the start of the random access processing from among a plurality of downlink component carriers set in the mobile station apparatus. Transmission is performed using one downlink component carrier.
- the radio communication system is a radio communication system in which a base station apparatus and a mobile station apparatus perform communication using a plurality of component carriers, and the base station apparatus includes the mobile station Corresponding to the selected random access resource, and a random access control unit that selects a random access resource that causes the mobile station apparatus to start random access communication from among random access resources corresponding to each downlink component carrier set in the apparatus
- a transmission processing unit that transmits control information for instructing the start of random access processing on the downlink component carrier, and the mobile station device instructs to start the random access processing on any downlink component carrier
- the control Characterized in that it comprises a random access processing unit to initiate the random access process at the random access resources corresponding to the downlink component carrier that received the broadcast.
- the base station device and the mobile station device each include an uplink component carrier including a random access resource that the mobile station device has started a random access process, and the uplink component. Random access message communication is performed on a downlink component carrier corresponding to the carrier.
- the transmission processing unit includes information indicating a random access resource corresponding to a specific downlink component carrier allocated to the mobile station apparatus, and transmits the radio resource control signal. It is characterized by doing.
- control information instructing the start of the random access processing is further processed by the mobile station apparatus from random access resources corresponding to the downlink component carrier.
- Information indicating a random access resource that can be started and information indicating a signature are included.
- the random access control unit instructs the mobile station apparatus to use Contention based Random Access as a random access method
- the information indicating the signature is used as a specific code point.
- the random access processing unit selects Content based Random Access as a random access method when the information indicating the signature is a specific code point.
- the random access processing unit when the random access processing unit selects Contention based Random Access as a random access method, the random access processing unit sends a random access resource for starting random access processing to the base station device.
- the random access resource corresponding to a specific downlink component carrier assigned in advance is selected.
- the random access processing unit when the random access processing unit selects Contention based Random Access as a random access method, the random access processing unit sends a random access resource for starting a random access process to the base station apparatus. It is characterized by selecting from all random access resources corresponding to each set downlink component carrier.
- the base station apparatus is a base station apparatus that communicates with a mobile station apparatus using a plurality of component carriers, and the mobile station apparatus is capable of starting a random access communication.
- a random access control unit that pre-allocates a random access resource corresponding to a link component carrier, and a transmission processing unit that transmits control information instructing start of the random access process are provided.
- the base station apparatus of this invention is a base station apparatus which communicates with a mobile station apparatus using a some component carrier, Comprising: Each downlink component carrier set to the said mobile station apparatus is corresponded.
- a random access control unit that selects a random access resource that causes the mobile station device to start random access communication from among the random access resources, and a random access process is started by a downlink component carrier corresponding to the selected random access resource.
- a transmission processing unit that transmits control information to be instructed.
- the mobile station apparatus of the present invention is a mobile station apparatus that communicates with a base station apparatus using a plurality of component carriers, and receives control information instructing the start of the random access processing.
- a random access processing unit that starts a random access process with a random access resource corresponding to a specific downlink component carrier pre-assigned to the base station apparatus is provided.
- the mobile station apparatus of the present invention is a mobile station apparatus that communicates with a base station apparatus using a plurality of component carriers, and starts the random access processing on any downlink component carrier.
- the random access process part which starts a random access process with the random access resource corresponding to the downlink component carrier which received the said control information is characterized by the above-mentioned.
- the radio communication method of the present invention is a radio communication method used in a base station apparatus that performs communication with a mobile station apparatus using a plurality of component carriers, and the mobile station apparatus performs random access communication. Random access resources corresponding to a specific downlink component carrier capable of starting the transmission are allocated in advance, and control information for instructing the start of random access processing is transmitted.
- the radio communication method of the present invention is a radio communication method used in a base station apparatus that communicates with a mobile station apparatus using a plurality of component carriers, and the downlink set in the mobile station apparatus Select a random access resource that causes the mobile station apparatus to start random access communication from random access resources corresponding to each component carrier, and start random access processing on a downlink component carrier corresponding to the selected random access resource Control information for instructing is transmitted.
- the radio communication method of the present invention is a radio communication method used for a mobile station apparatus that communicates with a base station apparatus using a plurality of component carriers, and instructs the start of the random access processing.
- a random access process is started with a random access resource corresponding to a specific downlink component carrier previously assigned to the base station apparatus.
- the radio communication method of the present invention is a radio communication method used for a mobile station apparatus that performs communication using a plurality of component carriers with a base station apparatus, and the radio communication method uses any downlink component carrier.
- the random access processing is started with a random access resource corresponding to a downlink component carrier that has received the control information.
- a mobile station apparatus is allocated a plurality of uplink carrier elements and downlink carrier elements from a base station apparatus, and any one of the allocated downlink carrier elements is a downlink carrier element. Whether the downlink control channel instructing the start of the received random access process instructs the start of the random access process in the radio resource (random access resource) of the random access channel corresponding to which downlink carrier element Can be determined.
- FIG. 1 is a conceptual diagram of a wireless communication system according to a first embodiment of the present invention. It is a figure which shows an example of the frequency band aggregation process which concerns on this embodiment. It is the schematic which shows an example of a structure of the downlink radio frame which concerns on this embodiment. It is the schematic which shows an example of a structure of the uplink radio frame which concerns on this embodiment. It is the schematic which shows an example of a structure of the signature which concerns on this embodiment. It is a schematic block diagram which shows the structure of the base station apparatus 3 which concerns on this embodiment. It is a schematic block diagram which shows the structure of the mobile station apparatus 1 which concerns on this embodiment. It is a conceptual diagram which shows the relationship between the downlink control channel and random access channel which concern on this embodiment.
- FIG. 1 is a conceptual diagram of a wireless communication system according to the first embodiment of the present invention.
- the radio communication system includes mobile station apparatuses 1 A to 1 C and a base station apparatus 3.
- the mobile station apparatuses 1A to 1C and the base station apparatus 3 perform communication using frequency band aggregation described later.
- FIG. 1 shows that in radio communication (downlink) from the base station apparatus 3 to the mobile station apparatuses 1A to 1C, a synchronization channel (Synchronization Channel; SCH), a downlink pilot channel (or “Downlink Reference Signal (Downlink Reference Signal) ; Broadcast channel (Physical road Broadcast Channel; PBCH), downlink control channel (Physical Downlink Control Channel; PDCCH), downlink shared channel (Physical Downlink Shared Channel; PDSCH), multicast channel (Physical This indicates that a Multicast Channel; PMCH), a control format indicator channel (Physical Control Format Indicator Channel; PCFICH), and an HARQ indicator channel (Physical Hybrid ARQ Indicator Channel; PHICH) are allocated.
- a synchronization channel Synchrom Channel
- SCH downlink pilot channel
- Downlink Reference Signal Downlink Reference Signal
- Broadcast channel Physical road Broadcast Channel
- PDCCH Physical Downlink Control Channel
- PDCCH Physical Downlink Control Channel
- Uplink pilot channel or “Uplink Reference Signal (UL RS)” in wireless communication (uplink) from the mobile station apparatuses 1A to 1C to the base station apparatus 3.
- Uplink control channel Physical Uplink Control Channel; PUCCH
- uplink shared channel Physical Uplink Shared Channel
- PRACH Physical Random Access Channel
- FIG. 2 is a diagram illustrating an example of the frequency band aggregation processing according to the present embodiment.
- the horizontal axis represents the frequency domain
- the vertical axis represents the time domain.
- the downlink subframe D1 is composed of subframes of three carrier elements (DCC-1; -1Downlink Component ⁇ Carrier-1, DCC-2, DCC-3) having a bandwidth of 20 MHz.
- DCC-1 Downlink Control channel indicated by an area hatched by a grid line
- an area where a downlink shared channel indicated by an area not hatched is arranged are time. Is multiplexed.
- the uplink subframe U1 is composed of three carrier elements (UCC-1; Uplink Component Carrier-1, UCC-2, UCC-3) having a bandwidth of 20 MHz.
- UCC-1 Uplink Component Carrier-1
- UCC-2 Uplink Component Carrier-2
- UCC-3 Uplink Component Carrier-3
- an area in which an uplink control channel indicated by an area hatched by an oblique grid line is arranged, and an uplink shared channel indicated by an area hatched by a left oblique line are arranged.
- the area where the random access channel indicated by the black area is arranged is frequency-multiplexed.
- the base station apparatus 3 arranges a signal in the downlink shared channel of one or a plurality of downlink carrier elements among three downlink carrier elements in a certain downlink subframe, and sends the signal to the mobile station apparatus 1.
- the mobile station apparatus 1 arranges a signal in an uplink shared channel of one or a plurality of uplink carrier elements among three uplink carrier elements in a certain uplink subframe, and transmits the signal to the base station apparatus 3.
- the mobile station apparatus 1 arranges a preamble in a random access channel (random access resource) of one uplink carrier element among three uplink carrier elements in a certain uplink subframe, and 3 to send.
- the mobile station apparatus 1 and the base station apparatus 3 are paired with an uplink carrier element and a downlink carrier element that transmit and receive part or all of a random access message, and the base station apparatus 3 is configured with each downlink carrier element. Broadcast information on random access transmission such as information indicating the uplink carrier element paired with the downlink carrier element and information indicating the configuration of the random access channel corresponding to the downlink carrier element and the transmission status of the random access. Then, the mobile station apparatus 1 is notified.
- the base station apparatus 3 transmits a downlink carrier.
- Information indicating the uplink carrier element (UCC-1, UCC-2, UCC-3) paired with the downlink carrier element in each element (DCC-1, DCC-2, DCC-3), and the downlink carrier Information on random access transmission in the random access channel to which the element corresponds is broadcast.
- the base station apparatus 3 and the mobile station apparatus 1 perform transmission and reception of the message 2 (random access response) through the DCC-1.
- FIG. 3 is a schematic diagram illustrating an example of a configuration of a downlink radio frame according to the present embodiment.
- FIG. 3 shows a configuration of a radio frame in a certain downlink carrier element.
- the horizontal axis is the time domain
- the vertical axis is the frequency domain.
- the radio frame of the downlink carrier element is composed of a plurality of downlink physical resource block (PhysicalPhysResource Block; PRB) pairs (for example, a region surrounded by a broken line in FIG. 3).
- PRB downlink physical resource block
- One downlink physical resource block pair is composed of two downlink physical resource blocks (PRB bandwidth ⁇ slot) that are continuous in the time domain.
- One downlink physical resource block (unit surrounded by a thick line in FIG. 3) is composed of 12 subcarriers (15 kHz) in the frequency domain, and 7 OFDM symbols (71 ⁇ s) in the time domain. Consists of
- a slot (0.5 ms) composed of 7 OFDM symbols (71 ⁇ s), a subframe (1 ms) composed of 2 slots, and a radio frame (10 ms composed of 10 subframes)
- a plurality of downlink physical resource blocks are arranged according to the bandwidth of the downlink carrier element.
- a unit composed of one subcarrier (15 kHz) and one OFDM symbol (71 ⁇ s) is referred to as a downlink resource element (Resource (Element;) RE).
- each downlink subframe for example, a downlink control channel, a downlink shared channel, and a downlink reference signal are allocated.
- the downlink control channel is arranged from the first OFDM symbol of the subframe, and the downlink shared channel is arranged in the remaining OFDM symbols of the subframe.
- the downlink pilot channel is not shown in FIG. 3 for the sake of simplicity of explanation, but the downlink pilot channel is distributed in the frequency domain and the time domain.
- the downlink control channel includes downlink control information (Downlinkgrant), which is information used for communication control, such as downlink grant (also referred to as “Downlink grant” or “Downlink assignment”) and uplink grant (Uplink grant).
- Downlink control information Downlinklinkgrant
- DCI Downlink grant
- the downlink control information has a plurality of formats.
- the downlink grant is composed of information indicating a modulation scheme for a downlink shared channel, information indicating a coding scheme, information indicating radio resource allocation, information on HARQ (Hybrid Automatic Repeat Request), and the like.
- the uplink grant includes information indicating a modulation scheme for the uplink shared channel, information indicating a coding scheme, information indicating radio resource allocation, HARQ information, and the like.
- HARQ refers to, for example, whether the mobile station device 1 (base station device 3) has successfully decoded data information (ACK (ACKnowledgement; negative acknowledgment) / NACK (Negative-ACKnowledgement; negative response)).
- Mobile station apparatus 1) and when the mobile station apparatus 1 (base station apparatus 3) cannot decode the data information due to an error (NACK), the base station apparatus 3 (mobile station apparatus 1) retransmits the signal, and the mobile station
- NACK acknowledgement
- NACK Negative-ACKnowledgement; negative response
- a sequence obtained by performing an exclusive OR with a cyclic redundancy check (Cyclic Redundancy Check; CRC) code (error detection code) generated from the bit sequence of the downlink control information and the identifier is added. Furthermore, the mobile station apparatus 1 can obtain a cyclic redundancy check code by performing an exclusive OR with the same identifier on this sequence. That is, the mobile station apparatus 1 can determine whether the downlink control channel is transmitted to the own apparatus from the identifier included in the downlink control channel.
- CRC Cyclic Redundancy Check
- the mobile station apparatus 1 when the C-RNTI (Cell-Radio Network Temporary Identifier) assigned by the base station apparatus 3 to the mobile station apparatus 1 is included in the downlink control channel, the mobile station apparatus 1 has the downlink control channel addressed to itself. It is determined that the radio resource allocation of the downlink shared channel is indicated.
- C-RNTI Cell-Radio Network Temporary Identifier
- the base station apparatus 3 determines that a specific area has a predetermined code point (for example, a flag indicating the format type is “1”, In addition, downlink control information in a specific format in which a flag indicating a radio resource allocation method is “0” and all information indicating radio resource allocation is “1”), and a mobile station instructing the start of random access processing
- a downlink control channel including the C-RNTI assigned to the apparatus 1 is transmitted.
- the area other than the specific area of the downlink control channel instructing the start of the random access processing includes information indicating the signature number and the radio resource of the random access channel to which the downlink carrier element corresponds.
- Information indicating radio resources of a random access channel in which the preamble may be arranged is included.
- the base station apparatus 3 sets a random access channel corresponding to a specific downlink carrier element capable of starting random access processing in each mobile station apparatus 1, and transmits the set information to a radio resource control signal (Radio Resource Control signal) or the like.
- the base station apparatus 3 may make the information common to all the mobile station apparatuses and broadcast the information.
- the signals placed on the downlink shared channel will be described.
- a signal of data information (transport block; Transport Block) is arranged.
- transport block transport Block
- the downlink shared channels for which radio resources are allocated by the downlink grant and the downlink grant are arranged in the same subframe.
- FIG. 4 is a schematic diagram illustrating an example of a configuration of an uplink radio frame according to the present embodiment.
- FIG. 4 shows a configuration of a radio frame in an uplink carrier element.
- the horizontal axis is the time domain
- the vertical axis is the frequency domain.
- the radio frame of the uplink carrier element is composed of a plurality of uplink physical resource block pairs (for example, an area surrounded by a broken line in FIG. 4).
- PRB bandwidth 180 kHz
- One uplink physical resource block pair is composed of two uplink physical resource blocks (PRB bandwidth ⁇ slot) that are continuous in the time domain.
- One uplink physical resource block (unit surrounded by a thick line in FIG. 4) is composed of 12 subcarriers (15 kHz) in the frequency domain, and 7 SC-FDMA symbols ( 71 ⁇ s).
- a slot (0.5 ms) composed of 7 SC-FDMA symbols (71 ⁇ s), a subframe (1 ms) composed of 2 slots, and a radio frame composed of 10 subframes (10ms).
- a plurality of uplink physical resource blocks are arranged according to the bandwidth of the uplink carrier element.
- a unit composed of one subcarrier (15 kHz) and one SC-FDMA symbol (71 ⁇ s) is referred to as an uplink resource element.
- a random access channel (not shown) is composed of a bandwidth of 72 uplink resource elements (corresponding to six physical resource blocks) in the frequency domain, and one of three subframes in the time domain. To be placed on the radio resource.
- the subcarrier interval of the random access channel is 1.25 kHz or 7.5 kHz, which is different from the subcarrier interval (15 kHz) of the uplink control channel or uplink shared channel.
- a plurality of radio resources of the random access channel are allocated within a radio frame (10 ms).
- a specific configuration of the radio resource of the random access channel is notified to the mobile station apparatus 1 as broadcast information.
- a preamble is arranged so that the mobile station apparatus 1 and the base station apparatus 3 are synchronized.
- the preamble includes a signature which is a signal pattern representing information, and several tens of types of signatures are prepared to represent several bits of information.
- FIG. 5 is a schematic diagram showing an example of the configuration of the signature according to the present embodiment.
- the vertical axis represents the signature number
- the signatures from signature 1 to signature 48 are used for Contention based Random Access
- signatures from signature 49 to signature 64 are assigned to Non-contention based Random Access. Used.
- Each mobile station device 1 that performs Contention based Random Access as a random access method selects a signature randomly from signatures 1 to 24 when the message 3 transmission size is small, and the message 3 transmission size is large Signatures are randomly selected from signatures 25 to 48.
- the signature when the message size is small is usually selected when the characteristics of the propagation path are poor (or the distance between the mobile station apparatus 1 and the base station apparatus 3 is long), and the signature when the message size is large is propagated. This is selected when the characteristics of the road are good (or the distance between the mobile station apparatus 1 and the base station apparatus 3 is short).
- the mobile station apparatus 1 that performs Non-contention based Random Access as a random access method, the base station apparatus 3 selects any one of the signatures from signature 49 to signature 64 as a downlink control channel. Etc. are notified. If the information indicating the signature number of the downlink control channel instructing the start of the random access process is a specific code point (for example, all “0”), the mobile station apparatus 1 performs Contention based Random Access. The base station device 3 transmits a downlink control channel that instructs the mobile station device 1 to start random access processing, but there is no non-contention based random access signature that can be assigned to the mobile station device 1. In addition, the mobile station apparatus 1 is notified to start the Contention based Random Access on the downlink control channel instructing the start of the random access process.
- the uplink control channel is allocated to uplink physical resource block pairs (regions hatched with left oblique lines) at both ends of the bandwidth of the uplink carrier element.
- the uplink control channel includes communication quality information such as channel quality information indicating downlink channel quality, scheduling request (Scheduling Request; SR) indicating a request for allocation of uplink radio resources, and ACK / NACK for the downlink shared channel.
- a signal of uplink control information (Uplink Control Information; UCI), which is information used for control, is arranged.
- the uplink shared channel is allocated to an uplink physical resource block pair (an area that is not hatched) other than the uplink control channel and the random access channel.
- a signal of data information transport block; Transport Block
- the uplink shared channel whose radio resource allocation is indicated by the uplink grant is arranged in an uplink carrier element in a subframe after a predetermined period after receiving the uplink grant. .
- a demodulation reference signal (not shown) is arranged so as to be time-multiplexed with radio resources of the uplink shared channel and the uplink control channel.
- a sounding reference signal (not shown) is arranged in the last SC-FDMA symbol in a subframe having a period set by the base station apparatus 3 for each mobile station apparatus 1 in the time domain, and in the frequency domain, the base station apparatus 3 Are arranged in the frequency region set for each mobile station apparatus 1.
- FIG. 6 is a schematic block diagram showing the configuration of the base station apparatus 3 according to this embodiment.
- the base station apparatus 3 includes an upper layer processing unit 101, a preamble detection unit 103, a synchronization timing measurement unit 105, a control unit 107, a reception processing unit 109, a plurality of reception antennas, a transmission processing unit 111, and a plurality of Transmission antennas.
- the upper layer processing unit 101 includes a radio resource control unit 1011 and a random access control unit 1012.
- the receiving antenna and the transmitting antenna are configured differently, but the antenna may be shared by using a thyristor or the like that switches the input and output of signals.
- the upper layer processing unit 101 outputs data information for each downlink carrier element to the transmission processing unit 111.
- the upper layer processing unit 101 performs processing of a packet data integration protocol (Packet Data Convergence Protocol; PDCP) layer, a radio link control (Radio Link Control; RLC) layer, and a radio resource control (Radio Resource Control; RRC) layer.
- PDCP Packet Data Convergence Protocol
- RLC Radio Link Control
- RRC Radio Resource Control
- the radio resource control unit 1011 of the upper layer processing unit 101 manages various setting information, communication status, buffer status, and the like of each mobile station apparatus 1.
- the random access control unit 1012 of the upper layer processing unit 101 performs control related to random access of each mobile station apparatus 1.
- the radio resource control unit 1011 included in the upper layer processing unit 101 is configured so that the number of downlink carrier elements and uplink carrier elements that can be used by the base station apparatus 3 for radio communication, and the mobile station apparatus 1 simultaneously.
- a plurality of uplink carrier elements and downlink carrier elements are allocated to the mobile station apparatus 1 in accordance with the number of downlink carrier elements and uplink carrier elements that can be transmitted or received.
- the radio resource control unit 1011 generates information acquired in each channel of each downlink carrier element or acquires it from a higher-order node, and outputs the information to the transmission processing unit 111 for each downlink carrier element. For example, the radio resource control unit 1011 generates a random access response that is a kind of downlink control information and data information, and outputs the random access response to the transmission processing unit 111.
- the radio resource control unit 1011 allocates, to the mobile station apparatus 1, radio resources in which the mobile station apparatus 1 arranges the uplink shared channel (data information) among the radio resources of the uplink carrier elements allocated to the mobile station apparatus 1. . Also, the radio resource control unit 1011 allocates radio resources for arranging the downlink shared channel (data information) for the mobile station apparatus 1 from among the radio resources of the downlink carrier elements allocated to the mobile station apparatus 1. The radio resource control unit 1011 generates a downlink grant and an uplink grant indicating the radio resource allocation, and transmits the downlink grant and the uplink grant to the mobile station apparatus 1 via the transmission processing unit 111. Also, the radio resource control unit 1011 includes the C-RNTI assigned to the mobile station apparatus 1 corresponding to the downlink grant or the uplink grant in the downlink grant and the uplink grant.
- the radio resource control unit 1011 generates a downlink control channel that instructs the start of random access processing based on the control information from the random access control unit 1012.
- the radio resource control unit 1011 selects any one downlink carrier element based on the channel quality of the downlink carrier element assigned to the mobile station apparatus 1 instructing the start of random access processing, the overhead of the downlink control channel, or the like. Then, the downlink control channel instructing the start of the random access process with the selected downlink carrier element is transmitted to the mobile station apparatus 1 via the transmission processing unit 111.
- the radio resource control unit 1011 uses the radio of the random access channel corresponding to the downlink carrier element assigned to the mobile station apparatus 1 corresponding to the downlink control channel corresponding to the downlink control channel instructing the start of the random access process.
- Information indicating a resource, information indicating a signature number, and C-RNTI are included.
- the radio resource control unit 1011 selects one downlink carrier element based on the control information from the random access control unit 1012 and arranges a random access response from the radio resources in the selected downlink carrier element. Allocate resources. Also, the radio resource control unit 1011 includes the RA-RNTI input from the random access control unit 1012 in the downlink grant indicating the radio resource allocation.
- the radio resource control unit 1011 selects one uplink carrier element based on the control information from the random access control unit 1012 and arranges the message 3 from the radio resources in the selected uplink carrier element. Assign. Also, the radio resource control unit 1011 generates an uplink grant indicating the radio resource allocation, includes it in a random access response, and transmits it to the mobile station apparatus 1 via the transmission processing unit 111.
- the uplink grant included in the random access response does not include the cyclic redundancy check code and the mobile station apparatus identifier.
- the random access response includes a synchronization timing shift amount for each of a plurality of signatures input from the random access control unit 1012, a Temporary C-RNTI, and an uplink grant generated by the radio resource control unit 1011.
- the radio resource control unit 1011 receives uplink control information (ACK / NACK, channel quality information, scheduling request) notified from the mobile station apparatus 1 through the uplink control channel, the buffer status of the mobile station apparatus 1, and radio resource control. Based on various setting information of each mobile station apparatus 1 set by the unit 1011, control information is generated to control the reception processing unit 109 and the transmission processing unit 111, and is output to the control unit 107.
- uplink control information ACK / NACK, channel quality information, scheduling request
- the random access control unit 1012 included in the upper layer processing unit 101 includes a pair of uplink carrier elements and downlink carrier elements that transmit and receive part or all of the message, and a random access channel in the uplink carrier elements. Broadcast information, random access response, contention resolution, etc., including information on random access, such as information on the configuration (random access channel radio resource allocation, etc.) and information indicating random access transmission status (random access load) Then, control information is output to the radio resource control unit 1011 so as to transmit to the mobile station apparatus 1 via the transmission processing unit 111.
- the random access control unit 1012 performs random access corresponding to a specific downlink carrier element that can start random access processing for each mobile station apparatus 1 based on the transmission status of random access, the channel quality of the uplink carrier element, and the like. Radio resources are set such that a channel is set, information indicating the set specific downlink carrier element is generated, the information is included in a radio resource control signal and transmitted to each mobile station apparatus 1 via the transmission processing unit 111. Control information is output to the control unit 1011.
- the random access control unit 1012 starts the random access process in the mobile station apparatus 1 when there is data information to be transmitted to the mobile station apparatus 1 but the synchronization between the base station apparatus 3 and the mobile station apparatus 1 is lost. Decide to direct.
- the random access control unit 1012 allocates a radio resource and signature of a random access channel corresponding to a specific downlink carrier element set in the mobile station apparatus 1.
- the random access control unit 1012 generates a downlink control channel that instructs the mobile station apparatus 1 to start random access processing, and outputs control information to the radio resource control unit 1011 so as to output to the transmission processing unit 111.
- the random access control unit 1012 sends the signature number and the synchronization timing shift amount to the radio resource control unit 1011 based on the random access channel information, the signature number, and the synchronization timing shift amount input from the preamble detection unit 103.
- the control information is output to the radio resource control unit 1011 so that the radio resource control unit 1011 generates a random access response.
- the random access control unit 1012 calculates RA-RNTI from information on the random access channel that has detected the signature input from the preamble detection unit 103, and outputs the RA-RNTI to the radio resource control unit 1011.
- the random access control unit 1012 selects the downlink carrier element paired with the uplink carrier element in which the preamble is detected based on the information on the random access channel that has detected the signature input from the preamble detection unit 103, and selects the selected downlink carrier element. Control information is output to the radio resource control unit 1011 so that a random access response is transmitted by the link carrier element. Further, the random access control unit 1012 selects an uplink carrier element in which the preamble is detected, and assigns a radio resource for transmitting the message 3 from the radio resources of the selected uplink carrier element, so that the radio resource control unit 1011 Output control information.
- the random access control unit 1012 instructs the radio resource control unit 1011 to transmit the contention resolution using the downlink carrier element to the mobile station apparatus 1 that has transmitted the message 3 to which the radio resource is allocated by the random access response. Output control information.
- the control unit 107 generates a control signal for controlling the reception processing unit 109 and the transmission processing unit 111 based on the control information from the higher layer processing unit 101.
- the control unit 107 outputs the generated control signal to the reception processing unit 109 and the transmission processing unit 111 to control the reception processing unit 109 and the transmission processing unit 111.
- the reception processing unit 109 separates, demodulates, and decodes the reception signal received from the mobile station apparatus 1 via the reception antenna in accordance with the control signal input from the control unit 107, and outputs the decoded information to the upper layer processing unit 101. To do. Also, the reception processing unit 109 outputs the separated uplink reference signal to the synchronization timing measurement unit 105 and outputs the separated random access channel to the preamble detection unit 103.
- the reception processing unit 109 converts the signal of each uplink carrier element received via each reception antenna to an intermediate frequency (down-conversion), removes unnecessary frequency components, and appropriately sets the signal level.
- the amplification level is controlled so as to be maintained at, and quadrature demodulation is performed based on the in-phase component and the quadrature component of the received signal, and the quadrature demodulated analog signal is converted into a digital signal.
- the reception processing unit 109 removes a part corresponding to a guard interval (Guard Interval; GI) from the converted digital signal.
- the reception processing unit 109 performs a fast Fourier transform (FFT) on the signal from which the guard interval is removed, and extracts a frequency domain signal.
- FFT fast Fourier transform
- the reception processing unit 109 separates the extracted signal into signals arranged in a random access channel, an uplink control channel, an uplink shared channel, a demodulation reference signal, and a sounding reference signal for each uplink carrier element. This separation is performed based on radio resource allocation information that is determined in advance by the base station device 3 and notified to each mobile station device 1. Also, the reception processing unit 109 obtains an estimated value of the propagation path from the separated uplink reference signal, and compensates the propagation path of the uplink control channel and the uplink shared channel.
- the reception processing unit 109 outputs the separated random access channel to the preamble detection unit 103, and outputs the separated uplink reference signal to the synchronization timing measurement unit 105.
- the reception processing unit 109 performs inverse discrete Fourier transform (Inverse Discrete Fourier Transform; IDFT) on the uplink shared channel, acquires modulation symbols, and performs two phases for each of the modulation symbols of the uplink control channel and the uplink shared channel.
- IDFT inverse discrete Fourier transform
- BPSK quadrature phase shift keying (Quadrature Phase Shift Keying; QPSK), 16-value quadrature amplitude modulation (16Quadrature Amplitude Modulation; 16QAM), 64-value quadrature amplitude modulation (64Quadrature Amplitude Modulation; 64QAM) or the like, or the base station apparatus 3 demodulates the received signal using a modulation scheme notified in advance to each mobile station apparatus 1 using an uplink grant.
- QPSK Quadrature Phase Shift Keying
- 16QAM 16-value quadrature amplitude modulation
- 64QAM 64-value quadrature amplitude modulation
- the reception processing unit 109 sets the demodulated encoded bits of the uplink control channel and the uplink shared channel to the mobile station apparatus 1 in the predetermined encoding method or the base station apparatus 3 uplinks to the mobile station apparatus 1. Decoding is performed at a coding rate notified in advance by the grant, and data information and uplink control information are output to the upper layer processing unit 101.
- the reception processing unit 109 measures the uplink reference signal received from the mobile station apparatus 1, the power of the received signal of the uplink shared channel, etc., measures the reception quality of the channel of the uplink carrier element, and the higher layer processing unit 101 Output to.
- the preamble detection unit 103 detects a plurality of preambles from the radio resources of the random access channel input from the reception processing unit 109, calculates a synchronization timing shift amount from each preamble, and detects information on the random access channel and the signature And the shift amount of the synchronization timing are output to the upper layer processing unit 101. Further, the upper layer processing unit 101 is also notified of the random access transmission status of the mobile station apparatus 1 from the number of received preambles periodically.
- the synchronization timing measurement unit 105 measures the uplink reference signal input from the reception processing unit 109 to maintain synchronization, measures the synchronization timing shift, and reports the measurement result to the higher layer processing unit 101.
- the transmission processing unit 111 generates a downlink reference signal according to the control signal input from the control unit 107, encodes and modulates data information and downlink control information input from the higher layer processing unit 101, and It arrange
- the transmission processing unit 111 performs turbo coding on the downlink control information and data information of each downlink carrier element input from the higher layer processing unit 101 according to the control signal input from the control unit 107. Then, encoding such as convolutional encoding and block encoding is performed, and the encoded bits are modulated by a modulation scheme such as QPSK, 16QAM, or 64QAM.
- the mobile station apparatus 1 generates a known sequence as a downlink reference signal, which is obtained by a predetermined rule based on a cell identifier (Cell ID) for identifying the base station apparatus 3, and the downlink control channel And the downlink shared channel and the downlink reference signal are multiplexed.
- Cell ID cell identifier
- the transmission processing unit 111 performs inverse fast Fourier transform (Inverse Fast Fourier Transform; IFFT) on the multiplexed modulation symbols, modulates the OFDM scheme, adds a guard interval to the OFDM symbol that is OFDM-modulated, and performs baseband digital Generate a signal, convert the baseband digital signal to an analog signal, generate in-phase and quadrature components of the intermediate frequency from the analog signal, remove excess frequency components for the intermediate frequency band, and increase the signal of the intermediate frequency The signal is converted (up-converted) into a frequency signal, an extra frequency component is removed, the power is amplified, and the signal is output to the transmitting antenna and transmitted.
- IFFT inverse Fast Fourier Transform
- FIG. 7 is a schematic block diagram showing the configuration of the mobile station apparatus 1 according to this embodiment.
- the mobile station apparatus 1 includes an upper layer processing unit 201, a control unit 203, a reception processing unit 205, a plurality of reception antennas, a preamble generation unit 207, a transmission processing unit 209, and a plurality of transmission antennas. Consists of.
- the upper layer processing unit 201 includes a radio resource control unit 2011 and a random access processing unit 2012.
- the receiving antenna and the transmitting antenna are configured differently. However, the antenna may be shared by using a thyristor or the like that switches the input / output of a signal.
- the upper layer processing unit 201 outputs data information for each uplink carrier element generated by a user operation or the like to the transmission processing unit 209. Further, the upper layer processing unit 201 performs processing of the packet data integration protocol layer, the radio link control layer, and the radio resource control layer.
- the radio resource control unit 2011 included in the upper layer processing unit 201 manages various setting information, communication status, buffer status, and the like of the own device.
- the random access processing unit 2012 of the upper layer processing unit 201 performs control related to the random access of the own device.
- the radio resource control unit 2011 included in the higher layer processing unit 201 manages various setting information such as a downlink carrier element, an uplink carrier element, and C-RNTI to which the device itself is assigned. Also, the radio resource control unit 2011 generates information to be arranged in each channel of each uplink carrier element and outputs the information to the transmission processing unit 209 for each uplink carrier element. For example, when the radio resource of the message 3 is assigned by the random access response, the radio resource control unit 2011 generates information to be transmitted by the message 3 and outputs the information to the transmission processing unit 209.
- the radio resource control unit 2011 includes downlink control information (for example, downlink grant and uplink grant) notified from the base station device 3 through the downlink control channel, and an uplink grant for the message 3 notified by random access, Based on various setting information of the own device managed by the radio resource control unit 2011, control information is generated to control the reception processing unit 205 and the transmission processing unit 209, and is output to the control unit 203.
- downlink control information for example, downlink grant and uplink grant
- the random access processing unit 2012 included in the higher layer processing unit 201 includes an uplink carrier element and a downlink carrier element that transmit and receive part or all of a random access message broadcasted by the base station apparatus 3.
- Information regarding random access such as information indicating the configuration of the random access channel corresponding to the pair and downlink carrier element and the transmission status of the random access, and the identification notified from the base station apparatus 3 that can start the random access processing Information indicating a random access channel corresponding to a downlink carrier element of the same is managed.
- the random access processing unit 2012 has data information transmitted from the base station apparatus 3 when it receives a downlink control channel instructing the start of random access processing from the base station apparatus 3 and when it receives uplink data. If no link radio resource is allocated, random access is started.
- the random access processing unit 2012 When the random access processing unit 2012 is instructed to start random access by the downlink control channel from the base station apparatus 3, and is designated the signature number and the radio resource of the random access channel corresponding to the downlink carrier element
- the random access channel and signature designated by the downlink control channel instructing the start of the random access processing are selected from the radio resources of the random access channel corresponding to the specific downlink carrier element set in the base station apparatus 3. select.
- the random access processing unit 2012 is configured when the signature number and the radio resource of the random access channel are not specified in the downlink control channel instructing the start of the random access processing, or when the random access processing unit 2012 performs the random access processing.
- a radio resource is randomly selected from radio resources of a random access channel corresponding to a specific downlink carrier element that can start the random access process set in the base station apparatus 3, and the downlink A range of signatures for the contention based random access to be selected is determined from information on the channel quality of the link, and the signatures are randomly selected from the range of the selected signatures.
- the mobile station apparatus 1 uses the appropriate random access resource corresponding to the specific downlink carrier element allocated in advance by the base station apparatus 3 based on the channel quality of the uplink carrier element and the transmission status of the random access channel. Contention based Random Access can be performed.
- the random access processing unit 2012 outputs control information to the control unit 203 so that the preamble generation unit 207 generates a preamble including the selected signature, and the transmission processing unit 209 uses the radio resource of the selected random access channel.
- the control information is output to the control unit 203 so as to transmit.
- the random access processing unit 2012 calculates the RA-RNTI corresponding to the radio resource that transmitted the preamble.
- the random access processing unit 2012 also calculates the RA-RNTI calculated by the random access response reception period which is a predetermined period after transmitting the preamble, the uplink carrier element transmitting the preamble and the downlink carrier element paired with the preamble.
- the control information is output to the control unit 203 so that the reception processing unit 205 monitors the downlink grant including.
- the random access processing unit 2012 designates the downlink grant including the calculated RA-RNTI from the base station apparatus 3 in the random access response indicating the radio resource allocation. If the signature number is included, it is determined that the random access has been successful, and the process related to the random access process is terminated.
- the random access processing unit 2013 transmits the preamble transmitted by the own apparatus from the random access response in which the downlink grant including the calculated RA-RNTI indicates the radio resource allocation. , And an uplink grant indicating the amount of synchronization timing shift, Temporary C-RNTI, and message 3 radio resource allocation corresponding to the detected signature number is acquired. Further, the random access processing unit 2012 outputs control information to the control unit 203 so as to adjust the transmission timing of the uplink signal of the transmission processing unit 209 based on the amount of synchronization timing shift.
- the random access processing unit 2012 outputs the uplink grant addressed to the own device included in the random access response to the radio resource control unit 2011. Also, the random access processing unit 2012 outputs control information to the radio resource control unit 2011 so as to generate a message 3 including information such as C-RNTI assigned to the base station apparatus 3 or a connection request.
- the random access processing unit 2012 monitors the contention resolution using the downlink carrier element assigned to the base station apparatus 3 during the contention resolution reception period, which is a predetermined period after the message 3 is transmitted. When contention resolution is detected in the downlink carrier element, it is determined that the random access is successful, and the process related to random access is terminated.
- the control unit 203 generates a control signal for controlling the reception processing unit 205, the preamble generation unit 207, and the transmission processing unit 209 based on the control information from the higher layer processing unit 201.
- the control unit 203 outputs the generated control signal to the reception processing unit 205, preamble generation unit 207, and transmission processing unit 209, and controls the reception processing unit 205, preamble generation unit 207, and transmission processing unit 209.
- the reception processing unit 205 demodulates and decodes the reception signal received from the base station apparatus 3 via the reception antenna according to the control signal input from the control unit 203, and outputs the decoded information to the higher layer processing unit 201. . Also, the reception processing unit 205 generates channel quality information based on the detected reception quality of the downlink reference signal and outputs the channel quality information to the higher layer processing unit 201 and the transmission processing unit 209.
- the reception processing unit 205 converts the signal of each uplink carrier element received via each reception antenna into an intermediate frequency (down-conversion), removes unnecessary frequency components, and appropriately sets the signal level.
- the amplification level is controlled so as to be maintained at, and quadrature demodulation is performed based on the in-phase component and the quadrature component of the received signal, and the quadrature demodulated analog signal is converted into a digital signal.
- the reception processing unit 205 removes a portion corresponding to the guard interval from the converted digital signal.
- the reception processing unit 205 performs fast Fourier transform on the signal from which the guard interval is removed, and extracts a frequency domain signal.
- the reception processing unit 205 separates the extracted signal into signals arranged in the downlink control channel, the downlink shared channel, and the downlink reference signal for each downlink carrier element. This separation is performed based on radio resource allocation information notified by the downlink grant. Further, the reception processing unit 205 obtains an estimated value of the propagation path from the separated downlink reference signal, and compensates the propagation path of the downlink control channel and the downlink shared channel. Also, the reception processing unit 205 generates channel quality information based on the reception quality of the separated downlink reference signal and outputs the channel quality information to the higher layer processing unit 201 and the transmission processing unit 209.
- the reception processing unit 205 demodulates the QPSK modulation scheme for the downlink control channel, and the own device includes the downlink grant and the uplink grant including the C-RNTI assigned to the base station device 3, and the own device.
- the downlink grant including RA-RNTI corresponding to the radio resource of the random access channel that transmitted the preamble is monitored, and decoding is attempted.
- the reception processing unit 205 outputs the decoded downlink control information to the higher layer processing unit 201.
- the reception processing unit 205 performs demodulation of the modulation scheme notified by the downlink grant such as QPSK, 16QAM, and 64QAM on the downlink shared channel, and decodes the coding rate notified by the downlink grant.
- the decrypted data information is output to the upper layer processing unit 201.
- the preamble generation unit 207 generates a preamble including the signature selected by the random access processing unit 2012 according to the control signal input from the control unit 203, and outputs the preamble to the transmission processing unit 209.
- the transmission processing unit 209 generates an uplink reference signal according to the control signal input from the control unit 203, the data information input from the higher layer processing unit 201, the channel quality information input from the reception processing unit 205, Is encoded and modulated, arranged in the uplink shared channel and the uplink control channel, multiplexed with the generated uplink reference signal, and transmitted to the base station apparatus 3 via the transmission antenna. Also, the transmission processing unit 209 places the preamble input from the preamble generation unit 207 in a random access channel according to the control signal input from the control unit 203, and transmits the preamble to the base station apparatus 3 via the transmission antenna.
- the transmission processing unit 209 receives the uplink control information and data information of each uplink carrier element input from the higher layer processing unit 201 and the reception processing unit 205 as control signals input from the control unit 203. Accordingly, encoding such as turbo encoding, convolutional encoding, and block encoding is performed, and the encoded bits are modulated by a modulation scheme such as BPSK, QPSK, 16QAM, or 64QAM.
- a modulation scheme such as BPSK, QPSK, 16QAM, or 64QAM.
- the transmission processing unit 209 generates, as an uplink reference signal, a sequence known by the base station device 3 that is obtained by a predetermined rule based on a cell identifier for identifying the base station device 3 or the like.
- the transmission processing unit 209 spreads the modulation symbol of the uplink control channel with a code, rearranges the modulation symbol of the uplink shared channel in parallel, and then performs a discrete Fourier transform (Discrete Fourier Transform; DFT) to generate the generated uplink reference Multiplex with signal. Further, the transmission processing unit 209 arranges the preamble input from the preamble generation unit 207 in the random access channel.
- DFT discrete Fourier Transform
- the transmission processing unit 209 performs inverse fast Fourier transform on the multiplexed signal, performs SC-FDMA modulation, adds a guard interval to the SC-FDMA modulated SC-FDMA symbol, and generates a baseband digital signal Convert the baseband digital signal to an analog signal, generate in-phase and quadrature components of the intermediate frequency from the analog signal, remove excess frequency components for the intermediate frequency band, and convert the intermediate-frequency signal to a high-frequency signal Is converted (up-converted) to remove excess frequency components, power-amplified, and output to a transmission antenna for transmission.
- FIG. 8 is a conceptual diagram showing the relationship between the downlink control channel and the random access channel according to the present embodiment.
- the base station apparatus 3 has three downlink carrier elements (DCC-1, DCC-2, DCC-3) and three uplink carrier elements (UCC-1, UCC-2, UCC). -3) is assigned and UCC-2 is assigned as an uplink carrier element corresponding to the downlink control channel instructing the start of the random access channel.
- the base station apparatus 3 notifies the mobile station apparatus 1 of the UCC-2 random access channel corresponding to DCC-2 as a random access channel capable of starting the random access processing. Also, the base station apparatus 3 assigns radio resources and signature numbers of UCC-2 random access channels to the mobile station apparatus 1 and instructs the start of random access processing including information indicating the allocated random access channels and signature numbers.
- the downlink control channel to be transmitted is transmitted by any one of the downlink carrier elements (DCC-1, DCC-2, DCC-3) allocated to the mobile station apparatus 1.
- the mobile station device 1 instructs the start of random access processing with any one of the downlink carrier elements (DCC-1, DCC-2, DCC-3) assigned to the base station device 3.
- the preamble (message 1) is transmitted using the radio resource and signature of the random access channel indicated by the downlink control channel from the UCC-2 random access channel notified from the base station apparatus 3. ).
- FIG. 9 is a flowchart showing an example of the operation of the base station apparatus 3 according to the present embodiment.
- the base station apparatus 3 assigns to the mobile station apparatus 1 a downlink carrier element that may transmit a downlink shared channel and an uplink carrier element that may allocate radio resources of the uplink shared channel (step S10). .
- the base station apparatus 3 allocates a random access channel corresponding to a specific downlink carrier element capable of starting random access processing to the mobile station apparatus 1, and notifies the mobile station apparatus 1 of information indicating the allocation (step) S11).
- the base station apparatus 3 transmits a downlink control channel that instructs the mobile station apparatus 1 to start random access processing using any one downlink carrier element (step S12). After step S12, the base station apparatus 3 ends the process related to the transmission of the downlink control channel instructing the start of the random access process.
- FIG. 10 is a flowchart showing an example of the operation of the mobile station apparatus 1 according to the present embodiment.
- the mobile station apparatus 1 is assigned a downlink carrier element that may be transmitted from the base station apparatus 3 through a downlink shared channel and an uplink carrier element that may be assigned a radio resource of the uplink shared channel (Ste S20).
- the mobile station apparatus 1 is notified of information indicating a random access channel corresponding to a specific downlink carrier element that can start the random access process assigned by the base station apparatus 3 (step S21).
- the mobile station apparatus 1 receives the downlink control channel instructing the start of the random access process using any one of the downlink carrier elements allocated in step S20 (step S22).
- the mobile station apparatus 1 starts a random access process with the random access channel corresponding to the specific downlink carrier element which can start the random access process allocated at step S21 (step S23).
- the mobile station apparatus 1 ends the process related to the reception of the downlink control channel instructing the start of the random access process.
- the downlink carrier element and the uplink carrier element in which the base station apparatus 3 and the mobile station apparatus 1 transmit and receive part or all of the random access message are paired. Therefore, the base station device 3 assigns a random access channel corresponding to a specific downlink carrier element that can start the random access processing to the mobile station device 1, in other words, the base station device 3 assigns the mobile station device 1
- a downlink carrier element and an uplink carrier element that can perform random access processing communication are allocated, and a downlink in which the base station device 3 can perform random access processing communication to the mobile station device 1 Assigning a link carrier element or an uplink carrier element.
- the radio communication system uses a plurality of carrier elements defined by the base station apparatus 3 and at least one mobile station apparatus 1 in mutually different frequency bands.
- the base station apparatus 3 starts communication for random access from among the random access resources corresponding to each downlink carrier element set in the mobile station apparatus 1. Random access resources corresponding to possible specific downlink carrier elements are allocated in advance, and the start of random access processing is instructed from any one of the plurality of downlink carrier elements set in the mobile station apparatus 1 A downlink control channel (control information) is transmitted, and the mobile station apparatus 1 requires any downlink carrier.
- a downlink control channel (control information) instructing the start of random access processing is received, the random access processing is started with a random access resource corresponding to a specific downlink carrier element pre-assigned to the base station apparatus 3. .
- the mobile station device 1 can select any of the plurality of downlink carrier elements allocated from the base station device 3 without changing the configuration of the downlink control channel instructing the start of random access processing in the prior art.
- a downlink control channel instructing start of random access processing received by one downlink carrier element instructs start of random access processing to a random access resource corresponding to a specific downlink carrier element allocated in advance. Can be determined.
- the base station apparatus 3 arranges a downlink control channel that instructs the start of random access processing based on channel quality of a plurality of downlink carrier elements assigned to the mobile station apparatus 1 and overhead of the downlink control channel.
- the downlink carrier element to be selected can be flexibly selected.
- the base station apparatus starts random access channel processing from the radio resource of the random access channel corresponding to the plurality of downlink carrier elements allocated to the mobile station apparatus to the mobile station apparatus.
- a downlink carrier that transmits a downlink control channel that instructs the start of random access processing, and selects any one of the random access channels that indicates the downlink, and which downlink carrier element the selected random access channel corresponds to The case where it shows to a mobile station apparatus with an element is demonstrated.
- the upper layer processing unit of the mobile station device and the upper layer processing unit of the base station device are different.
- the configuration and functions of other components are the same as those in the first embodiment, description of the same functions as those in the first embodiment is omitted.
- the mobile station apparatus according to the present embodiment is referred to as a mobile station apparatus 5, and the base station apparatus is referred to as a base station apparatus 7.
- FIG. 11 is a schematic block diagram showing the configuration of the base station apparatus 7 according to the second embodiment of the present invention.
- the radio resource control unit 3011 and the random access control unit 3012 are different.
- Upper layer processing section 3011 outputs data information for each downlink carrier element to transmission processing section 111.
- the upper layer processing unit 301 performs processing of a packet data integration protocol layer, a radio link control layer, and a radio resource control layer.
- the radio resource control unit 3011 of the higher layer processing unit 301 manages various setting information, communication status, buffer status, and the like of each mobile station device 5.
- the random access control unit 3012 of the upper layer processing unit 301 performs control related to the random access of each mobile station device 5.
- the radio resource control unit 3011 When the radio resource control unit 3011 according to the present embodiment is compared with the radio resource control unit 1011 according to the first embodiment, the radio resource control unit 3011 has one downlink based on the control information from the random access control unit 3012. The difference is that a link carrier element is selected, and a downlink control channel that instructs the start of random access processing with the selected downlink carrier element is transmitted to the mobile station apparatus 5 via the transmission processing unit 111.
- Other functions of the radio resource control unit 3011 according to the present embodiment are the same as those of the radio resource control unit 1011 according to the first embodiment, and thus the description of the same functions as those of the first embodiment is omitted.
- the random access control unit 3012 includes a pair of uplink and downlink carrier elements that transmit and receive part or all of a random access message, a configuration of a random access channel (such as allocation of radio resources of a random access channel), random Corresponds to the downlink carrier element that transmits the downlink control channel that instructs the start of the random access processing and the downlink carrier element that is instructed to start the random access processing in addition to the information indicating the access transmission status (random access load) Broadcast information including information related to random access such as a pair of random access channels to be generated is generated, and the control information is output to the radio resource control unit 3011 so as to be transmitted to the mobile station device 5 via the transmission processing unit 111.
- a configuration of a random access channel such as allocation of radio resources of a random access channel
- the random access control unit 3012 starts the random access process in the mobile station device 5 when there is data information to be transmitted to the mobile station device 5 but the synchronization between the base station device 7 and the mobile station device 5 is out of synchronization. Decide to direct. Also, the random access control unit 3012 selects and selects the uplink carrier element that instructs the mobile station apparatus 5 to start the random access processing based on the transmission status of random access, the channel quality of the uplink carrier element, and the like. A radio resource and a signature of a random access channel in an uplink carrier element are allocated.
- the random access control unit 3012 generates a downlink control channel that instructs the mobile station apparatus 5 to start random access processing, and a downlink carrier corresponding to the random access channel of the uplink carrier element that instructs the start of random access processing.
- the control information is output to the radio resource control unit 3011 so that the downlink control channel is transmitted to the mobile station device 5 via the transmission processing unit 111 as an element.
- the random access control unit 3012 according to the present embodiment is based on the random access transmission status, the channel quality of uplink carrier elements, and the like possessed by the random access control unit 1012 according to the first embodiment.
- a random access channel corresponding to a specific downlink carrier element capable of starting random access processing is set for each, information indicating the set specific downlink carrier element is generated, and the information is used as a radio resource control signal, etc.
- the radio resource control unit 1011 does not have a function of outputting control information so as to transmit to each mobile station apparatus 1 via the transmission processing unit 111.
- Other functions of the radio resource control unit 3011 according to the present embodiment are the same as those of the radio resource control unit 1011 according to the first embodiment, and thus the description of the same functions as those of the first embodiment is omitted.
- FIG. 12 is a schematic block diagram showing the configuration of the mobile station apparatus 5 according to the second embodiment of the present invention.
- the random access control unit 4012 is different.
- the upper layer processing unit 401 outputs data information for each uplink carrier element generated by a user operation or the like to the transmission processing unit 209.
- the upper layer processing unit 401 performs processing of the packet data integration protocol layer, the radio link control layer, and the radio resource control layer.
- the random access processing unit 4012 of the upper layer processing unit 401 performs control related to the random access of the own device.
- the random access processing unit 4012 included in the upper layer processing unit 401 transmits when the own device receives a downlink control channel instructing the start of the random access processing from the base station device 3, and in uplink.
- the random access processing unit 4012 included in the upper layer processing unit 401 transmits when the own device receives a downlink control channel instructing the start of the random access processing from the base station device 3, and in uplink.
- the random access processing unit 4012 When the random access processing unit 4012 receives a downlink control channel instructing the start of random access processing with any one downlink carrier element, the random access corresponding to the downlink carrier element that has received the downlink control channel. It is determined that the start of random access processing is instructed by the channel radio resource. In addition, the random access processing unit 4012 selects a signature number designated by the downlink control channel and a radio resource of the random access channel.
- the random access processing unit 4012 performs the random access processing when the signature number and the radio resource of the random access channel are not specified in the downlink control channel instructing the start of the random access processing.
- the random access processing unit 4012 determines the range of the contention based random access signature to be selected from the channel quality information of the downlink carrier element, etc., and randomly selects the signature from the selected signature range. .
- the mobile station apparatus 5 selects a random access resource for performing contention based random access from among the random access resources corresponding to all downlink carrier elements allocated to the base station apparatus 7, so that a plurality of movements are performed.
- the random access resources selected by the station device 5 are distributed, and the probability that a plurality of mobile station devices 5 select the same random access resource and signature number can be reduced.
- the random access processing unit 4012 according to the present embodiment has a random access channel corresponding to a specific downlink carrier element that the random access processing unit 2012 according to the first embodiment can start the random access processing. It does not have a function to manage information indicating Other functions of the random access processing unit 4012 according to the present embodiment are the same as those of the random access processing unit 2012 according to the first embodiment, and thus the description of the same functions as those of the first embodiment is omitted.
- FIG. 13 is a conceptual diagram showing the relationship between the downlink control channel and the random access channel according to the present embodiment.
- the base station device 7 has three mobile carrier devices 5 with three downlink carrier elements (DCC-1, DCC-2, DCC-3) and three uplink carrier elements (UCC-1, UCC-2, UCC). -3) as a pair of an uplink carrier element including a downlink carrier element for transmitting a downlink control channel for instructing the start of a random access process and an uplink carrier element including a random access channel for instructing to start a random access process.
- DCC-1, DCC-2 and UCC-2, and DCC-3 and UCC3 are paired is shown.
- the base station apparatus 7 assigns the radio resource and signature number of the random access channel of UCC1, UCC-2, or UCC-3 to the mobile station apparatus 5, and instructs the downlink control channel to start the random access process. Is transmitted using downlink carrier elements (DCC-1, DCC-2, DCC-3) to which the radio resources of the random access channel assigned to the mobile station apparatus 5 correspond.
- DCC-1, DCC-2, DCC-3 downlink carrier elements
- the mobile station apparatus 5 instructs the start of random access processing with any one of the downlink carrier elements (DCC-1, DCC-2, DCC-3) allocated to the base station apparatus 7.
- a downlink control channel is received, a random access channel corresponding to the downlink carrier element (DCC-1, DCC-2, DCC-3) that has received the downlink control channel is selected, and the selected uplink carrier element
- the preamble (message 1) is transmitted using the radio resource and signature of the random access channel indicated by the downlink control channel.
- FIG. 14 is a flowchart showing an example of the operation of the base station apparatus 7 according to the present embodiment.
- the base station apparatus 7 allocates to the mobile station apparatus 5 a downlink carrier element that may transmit a downlink shared channel and an uplink carrier element that may allocate radio resources of the uplink shared channel (step S30). .
- the base station apparatus 7 transmits a downlink control channel that instructs the mobile station apparatus 5 to start random access processing, and a random access channel corresponding to the downlink carrier element that is instructed to start random access processing. Information indicating the pair is notified (step S31).
- the base station device 7 selects a random access channel that causes the mobile station device 5 to start random access processing (step S32).
- the base station apparatus 7 transmits to the mobile station apparatus 5 a downlink control channel that instructs the start of random access processing using a downlink carrier element corresponding to the random access channel selected in step S32 (step S33).
- step S33 the base station apparatus 7 ends the process related to the transmission of the downlink control channel instructing the start of the random access process.
- FIG. 15 is a flowchart showing an example of the operation of the mobile station apparatus 5 according to this embodiment.
- the mobile station apparatus 5 is assigned a downlink carrier element that may be transmitted from the base station apparatus 7 through a downlink shared channel and an uplink carrier element that may be assigned a radio resource of the uplink shared channel (Ste S40).
- the mobile station apparatus 5 indicates information indicating a pair of a downlink carrier element that transmits a downlink control channel instructing start of random access processing and a random access channel corresponding to a downlink carrier element instructed to start random access processing. Is acquired from the base station apparatus 7 (step S41).
- the mobile station apparatus 5 receives the downlink control channel instructing the start of the random access process using any one of the downlink carrier elements allocated in step S40 (step S42).
- the mobile station apparatus 5 follows the information acquired in step S41, and the random access channel corresponding to the downlink carrier element that has received the downlink control channel It is determined that the start of random access processing is instructed, and random access processing is started on the random access channel (step S43).
- the mobile station apparatus 5 ends the process related to the reception of the downlink control channel instructing the start of the random access process.
- the base station apparatus 7 indicates information indicating a pair of an uplink carrier element and a downlink carrier element for transmitting / receiving part or all of the message, and instructs to start a random access process.
- a downlink carrier element that transmits a downlink control channel that instructs the start of random access processing and a downlink carrier element that is instructed to start random access processing Random access channel pair It may be.
- the mobile station apparatus 5 when the mobile station apparatus 5 receives the downlink control channel instructing the start of the random access process with any downlink carrier element, the mobile station apparatus 5 starts the random access process with the random access channel corresponding to the downlink carrier element.
- the amount of information broadcast by the base station apparatus 7 can be reduced.
- the radio communication system uses a plurality of carrier elements in which the base station device 7 and at least one mobile station device 5 are defined in mutually different frequency bands.
- the base station apparatus 7 starts communication for random access to the mobile station apparatus 5 from the random access resources corresponding to each downlink carrier element set in the mobile station apparatus 5.
- the mobile station apparatus 5 selects a random access resource to be transmitted, transmits a downlink control channel (control information) instructing the start of random access processing using a downlink carrier element corresponding to the selected random access resource, and the mobile station apparatus 5 A downlink control channel (control information) instructing the start of random access processing by a downlink carrier element Is received, it starts the random access process at the random access resources corresponding to the downlink carrier component which has received the downlink control channel (control information).
- control information instructing the start of random access processing using a downlink carrier element corresponding to the selected random access resource
- control information instructing the start of random access processing by a downlink carrier element Is received
- the mobile station apparatus 5 can select any of the plurality of downlink carrier elements allocated from the base station apparatus 7 without changing the configuration of the downlink control channel instructing the start of random access processing in the prior art.
- the base station apparatus 7 instructs the start of random access processing based on the channel quality of a plurality of uplink carrier elements allocated to the mobile station apparatus 5 and the transmission status (random access load) of the random access channel.
- Link carrier elements can be flexibly selected.
- each downlink carrier element corresponds to a random access channel in a different uplink carrier element, but a plurality of downlink carrier elements have the same uplink.
- Different random access channels in the link carrier element may correspond to each other, and a plurality of downlink carrier elements may correspond to the same random access channel in the same uplink carrier element.
- information indicating the uplink carrier element paired with the downlink carrier element included in the information on the random access transmission of a plurality of downlink carrier elements, or the configuration of the random access channel corresponding to the downlink carrier element Are the same.
- the radio communication system of the present invention is a radio communication system in which a base station apparatus and at least one mobile station apparatus perform communication using a plurality of carrier elements defined in mutually different frequency bands,
- the base station apparatus selects a random access resource corresponding to a specific downlink carrier element that allows the mobile station apparatus to start random access communication among random access resources corresponding to each downlink carrier element set in the mobile station apparatus.
- a transmission processing unit for transmitting control information instructing the start of random access processing with any one downlink carrier element among a plurality of downlink carrier elements set in the mobile station device
- the mobile station apparatus is any downlink carrier element.
- a random access processing unit for starting random access processing with a random access resource corresponding to a specific downlink carrier element pre-assigned to the base station apparatus when receiving control information instructing start of random access processing It is characterized by that.
- the base station apparatus determines in advance whether the downlink control channel indicating the start of the random access process instructs the random access resource corresponding to which downlink carrier element to start the random access process. Since the notification is made to the apparatus, the mobile station apparatus instructs the start of random access processing received by any one downlink carrier element among a plurality of downlink carrier elements allocated from the base station apparatus. It can be determined that the channel instructs the random access resource corresponding to the specific downlink carrier element assigned in advance to start the random access process. Further, the base station apparatus arranges a downlink control channel for instructing start of random access processing based on channel quality of a plurality of downlink carrier elements allocated to the mobile station apparatus, overhead of a downlink control channel, and the like. Link carrier elements can be flexibly selected.
- the wireless communication of the present invention is a wireless communication system in which a base station apparatus and at least one mobile station apparatus perform communication using a plurality of carrier elements defined in mutually different frequency bands.
- the base station apparatus selects a random access resource that causes the mobile station apparatus to start communication for random access from random access resources corresponding to each downlink carrier element set in the mobile station apparatus.
- control information instructing the start of random access processing in a downlink carrier element corresponding to the selected random access resource
- the mobile station apparatus uses the downlink carrier element to transmit the control information
- the control information It is characterized in that it comprises a random access processing unit to initiate the random access process at the random access resources corresponding to the downlink carrier component that received the.
- the base station apparatus moves the downlink control channel indicating the start of the random access process using the downlink carrier element corresponding to the random access resource to which the downlink control channel instructs the start of the random access process. Since the notification is made to the station device, the mobile station device receives the downlink control channel instructing the start of the random access processing in any downlink carrier element among the plurality of downlink carrier elements allocated from the base station device. It is possible to determine whether the downlink control channel instructs the random access resource corresponding to which downlink carrier element to start the random access process depending on whether or not it has been performed.
- the base station apparatus instructs the uplink carrier to start random access processing based on channel quality of a plurality of uplink carrier elements allocated to the mobile station apparatus, transmission status (random access load) of the random access channel, and the like. Elements can be selected flexibly.
- the base station apparatus and the mobile station apparatus correspond to an uplink carrier element including a random access resource selected by the base station apparatus and the uplink carrier element. It is characterized in that a random access message is communicated by a downlink carrier element.
- This configuration can reduce the amount of information that the base station device broadcasts to the mobile station device.
- the base station apparatus transmits information indicating a specific random access resource allocated to the mobile station apparatus in a radio resource control signal.
- the base station apparatus since the base station apparatus notifies the random access resource corresponding to the specific downlink carrier element corresponding to the downlink control channel instructing the start of the random access processing previously assigned to the mobile station apparatus, the mobile station apparatus The downlink control channel for instructing the start of random access processing received by any one of the plurality of downlink carrier elements allocated from the base station apparatus It can be determined that the random access resource corresponding to the downlink carrier element is instructed to start random access processing.
- the downlink control channel instructing the start of the random access processing is selected from random access resources corresponding to the downlink carrier element by the mobile station device. It is characterized in that information indicating a random access resource capable of starting access processing and information indicating a signature are included.
- the base station apparatus instructs the start of the random access process to the random access resource and the signature number assigned from the random access resources corresponding to the downlink carrier element according to the transmission status of the random access.
- the mobile station apparatus can be notified using the downlink control channel.
- the random access control unit instructs the mobile station apparatus to use Contention based Random Access as a random access method
- the information indicating the signature is used as a specific code point.
- the random access processing unit selects Content based Random Access as a random access method when the information indicating the signature is a specific code point.
- the base station apparatus uses the downlink control channel that instructs the start of random access processing when there is no signature for Non-contention based Random Access to be allocated to the mobile station apparatus. It can be instructed to select Contention based Random Access as an access method.
- the random access processing unit when the random access processing unit selects Contention based Random Access as a random access method, the random access processing unit sends a random access resource for starting a random access process to the base station device. It is characterized by selecting from random access resources corresponding to specific downlink carrier elements allocated in advance.
- the mobile station apparatus can use Contention with appropriate random access resources corresponding to a specific downlink carrier element allocated in advance by the base station apparatus based on the channel quality of the uplink carrier element and the transmission status of the random access channel. Based Random Access can be performed.
- the random access processing unit selects Contention based Random Access as a random access method
- the random access resource starts random access resources for starting the random access process to the base station apparatus. It is characterized by selecting from all random access resources corresponding to each set downlink carrier element.
- the mobile station apparatus selects a random access resource for performing contention based random access from among random access resources corresponding to all downlink carrier elements allocated to the base station apparatus.
- the random access resources selected by the device are distributed, and the probability that a plurality of mobile station devices select the same random access resource and signature number can be reduced.
- the base station apparatus of the present invention is applied to a radio communication system in which a base station apparatus and at least one mobile station apparatus communicate using a plurality of carrier elements defined in mutually different frequency bands.
- the base station device is a specific base station device that can start communication for random access from random access resources corresponding to each downlink carrier element set in the mobile station device.
- a random access control unit that assigns random access resources in advance, and control information for instructing the start of random access processing by any one downlink carrier element from among a plurality of downlink carrier elements set in the mobile station device are transmitted A transmission processing unit is provided.
- the base station apparatus determines in advance whether the downlink control channel indicating the start of the random access process instructs the random access resource corresponding to which downlink carrier element to start the random access process. Since the notification is made to the apparatus, the mobile station apparatus instructs the start of random access processing to be received by any one downlink carrier element among the plurality of downlink carrier elements allocated from the base station apparatus. It can be determined that the channel instructs the random access resource corresponding to the specific downlink carrier element assigned in advance to start the random access process. Further, the base station apparatus arranges a downlink control channel for instructing start of random access processing based on channel quality of a plurality of downlink carrier elements allocated to the mobile station apparatus, overhead of a downlink control channel, and the like. Link carrier elements can be flexibly selected.
- the base station apparatus of the present invention is applied to a radio communication system in which a base station apparatus and at least one mobile station apparatus perform communication using a plurality of carrier elements defined in mutually different frequency bands.
- Random access for causing the mobile station apparatus to start communication for random access from random access resources corresponding to each downlink carrier element set in the mobile station apparatus.
- a random access control unit that selects a resource, and a transmission processing unit that transmits control information instructing the start of random access processing using a downlink carrier element corresponding to the selected random access resource are provided.
- the base station apparatus moves the downlink control channel indicating the start of the random access process using the downlink carrier element corresponding to the random access resource to which the downlink control channel instructs the start of the random access process. Since the notification is made to the station device, the mobile station device receives the downlink control channel instructing the start of the random access processing in any downlink carrier element among the plurality of downlink carrier elements allocated from the base station device. It is possible to determine whether the downlink control channel instructs the random access resource corresponding to which downlink carrier element to start the random access process depending on whether or not it has been performed.
- the base station apparatus instructs the uplink carrier to start random access processing based on channel quality of a plurality of uplink carrier elements allocated to the mobile station apparatus, transmission status (random access load) of the random access channel, and the like. Elements can be selected flexibly.
- the mobile station apparatus of the present invention is applied to a radio communication system in which a base station apparatus and at least one mobile station apparatus perform communication using a plurality of carrier elements defined in mutually different frequency bands.
- the mobile station apparatus when the mobile station apparatus receives control information instructing the start of the random access process in any downlink carrier element, the specific information assigned in advance to the base station apparatus A random access processing unit that starts a random access process with a random access resource corresponding to a downlink carrier element is provided.
- the mobile station apparatus has a downlink control channel that instructs the start of random access processing received by any one of the plurality of downlink carrier elements allocated from the base station apparatus. Since the base station apparatus determines that the random access resource corresponding to the specific downlink carrier element allocated in advance is instructed to start random access processing, the base station apparatus transmits a plurality of downlink resources allocated to the mobile station apparatus. Based on the channel quality of the link carrier element, the overhead of the downlink control channel, and the like, it is possible to flexibly select the downlink carrier element in which the downlink control channel instructing the start of the random access process is arranged.
- the mobile station apparatus of the present invention is applied to a radio communication system in which a base station apparatus and at least one mobile station apparatus perform communication using a plurality of carrier elements defined in mutually different frequency bands.
- the mobile station device receives control information instructing the start of the random access process in any downlink carrier element, the mobile station device transmits the control information to the downlink carrier element that has received the control information.
- a random access processing unit that starts a random access process with a corresponding random access resource is provided.
- the mobile station apparatus determines which of the plurality of downlink carrier elements allocated from the base station apparatus has received the downlink control channel that instructs the start of random access processing.
- the base station apparatus assigns it to the mobile station apparatus. Based on channel quality of a plurality of uplink carrier elements, transmission status of random access channels (random access load), and the like, it is possible to flexibly select an uplink carrier element that instructs the start of random access processing.
- the radio communication system of the present invention is a radio communication method in which a base station apparatus and at least one mobile station apparatus perform a random access procedure using a plurality of carrier elements defined in mutually different frequency bands.
- a specific random access resource by which the mobile station apparatus can start random access communication is pre-assigned from random access resources corresponding to each downlink carrier element set in the mobile station apparatus, and the mobile station apparatus
- the control information instructing the start of the random access process is transmitted by any one downlink carrier element from among a plurality of downlink carrier elements set in (1).
- the base station apparatus determines in advance whether the downlink control channel indicating the start of the random access process instructs the random access resource corresponding to which downlink carrier element to start the random access process. Since the notification is made to the apparatus, the mobile station apparatus instructs the start of random access processing to be received by any one downlink carrier element among the plurality of downlink carrier elements allocated from the base station apparatus. It can be determined that the channel instructs the random access resource corresponding to the specific downlink carrier element assigned in advance to start the random access process. Further, the base station apparatus arranges a downlink control channel for instructing start of random access processing based on channel quality of a plurality of downlink carrier elements allocated to the mobile station apparatus, overhead of a downlink control channel, and the like. Link carrier elements can be flexibly selected.
- the wireless communication system of the present invention is a wireless communication method in which a base station apparatus and at least one mobile station apparatus perform a random access procedure using a plurality of carrier elements defined in mutually different frequency bands.
- a random access resource that causes the mobile station apparatus to start random access communication is selected from random access resources corresponding to each downlink carrier element set in the mobile station apparatus, and the selected random access resource Control information for instructing the start of random access processing is transmitted by a downlink carrier element corresponding to.
- the base station apparatus moves the downlink control channel indicating the start of the random access process using the downlink carrier element corresponding to the random access resource to which the downlink control channel instructs the start of the random access process. Since the notification is made to the station device, the mobile station device receives the downlink control channel instructing the start of the random access processing in any downlink carrier element among the plurality of downlink carrier elements allocated from the base station device. It is possible to determine whether the downlink control channel instructs the random access resource corresponding to which downlink carrier element to start the random access process depending on whether or not it has been performed.
- the base station apparatus instructs the uplink carrier to start random access processing based on channel quality of a plurality of uplink carrier elements allocated to the mobile station apparatus, transmission status (random access load) of the random access channel, and the like. Elements can be selected flexibly.
- the radio communication system of the present invention is a radio communication method in which a base station apparatus and at least one mobile station apparatus perform a random access procedure using a plurality of carrier elements defined in mutually different frequency bands.
- a base station apparatus and at least one mobile station apparatus perform a random access procedure using a plurality of carrier elements defined in mutually different frequency bands.
- the mobile station apparatus has a downlink control channel that instructs the start of random access processing received by any one of the plurality of downlink carrier elements allocated from the base station apparatus. Since the base station apparatus determines that the random access resource corresponding to the specific downlink carrier element allocated in advance is instructed to start random access processing, the base station apparatus transmits a plurality of downlink resources allocated to the mobile station apparatus. Based on the channel quality of the link carrier element, the overhead of the downlink control channel, and the like, it is possible to flexibly select the downlink carrier element in which the downlink control channel instructing the start of the random access process is arranged.
- the wireless communication system of the present invention is a wireless communication method in which a base station apparatus and at least one mobile station apparatus perform a random access procedure using a plurality of carrier elements defined in mutually different frequency bands.
- control information instructing start of the random access process is received by any downlink carrier element
- the random access process is started by a random access resource corresponding to the downlink carrier element that has received the control information. It is characterized by doing.
- the mobile station apparatus determines which of the plurality of downlink carrier elements allocated from the base station apparatus has received the downlink control channel that instructs the start of random access processing.
- the base station apparatus assigns it to the mobile station apparatus. Based on channel quality of a plurality of uplink carrier elements, transmission status of random access channels (random access load), and the like, it is possible to flexibly select an uplink carrier element that instructs the start of random access processing.
- a program that operates in the base station devices 3 and 7 and the mobile station devices 1 and 5 according to the present invention is a program that controls a CPU (Central Processing Unit) and the like so as to realize the functions of the above embodiments according to the present invention (A program that causes a computer to function).
- Information handled by these devices is temporarily stored in RAM (Random Access Memory) during processing, and then stored in various ROMs such as Flash ROM (Read Only Memory) and HDD (Hard Disk Drive). Reading, correction, and writing are performed by the CPU as necessary.
- the program for realizing the control function may be recorded on a computer-readable recording medium, and the program recorded on the recording medium may be read by a computer system and executed.
- the “computer system” is a computer system built in the mobile station apparatuses 1 and 5 or the base station apparatuses 3 and 7 and includes hardware such as an OS and 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” is a medium that dynamically holds a program for a short time, such as a communication line when transmitting a program via a network such as the Internet or a communication line such as a telephone line, In such a case, a volatile memory inside a computer system serving as a server or a client may be included and a program that holds a program for a certain period of time.
- the program may be a program for realizing a part of the functions described above, and may be a program capable of realizing the functions described above in combination with a program already recorded in a computer system.
- part or all of the mobile station apparatuses 1 and 5 and the base station apparatuses 3 and 7 in the above-described embodiment may be realized as an LSI that is typically an integrated circuit.
- Each functional block of the mobile station apparatuses 1 and 5 and the base station apparatuses 3 and 7 may be individually chipped, or a part or all of them may be integrated into a chip.
- the method of circuit integration is not limited to LSI, and may be realized by a dedicated circuit or a general-purpose processor.
- an integrated circuit based on the technology can also be used.
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Abstract
Description
以下、本発明の第1の実施形態について図面を参照して説明する。
)が割り当てられることを示す。
以下、本発明の第2の実施形態について図面を参照して説明する。
3、7 基地局装置
101、301 上位層処理部
103 プリアンブル検出部
105 同期タイミング測定部
107 制御部
109 受信処理部
111 送信処理部
201、401 上位層処理部
203 制御部
205 受信処理部
207 プリアンブル生成部
209 送信処理部
1011、3011 無線リソース制御部
1012、3012 ランダムアクセス制御部
2011 無線リソース制御部
2012、4012 ランダムアクセス処理部
Claims (17)
- 基地局装置と移動局装置とが、複数のコンポーネントキャリアを使用して通信を行なう無線通信システムであって、
前記基地局装置は、
前記移動局装置がランダムアクセスの通信を開始できる特定の下りリンクコンポーネントキャリアに対応するランダムアクセスリソースを予め割り当てるランダムアクセス制御部と、
ランダムアクセス処理の開始を指示する制御情報を送信する送信処理部と、を備え、
前記移動局装置は、
前記ランダムアクセス処理の開始を指示する制御情報を受信した場合、前記基地局装置に予め割り当てられた特定の下りリンクコンポーネントキャリアに対応するランダムアクセスリソースでランダムアクセス処理を開始するランダムアクセス処理部を備えることを特徴とする無線通信システム。 - 前記送信処理部は、
前記ランダムアクセス処理の開始を指示する制御情報を、前記移動局装置に設定した複数の下りリンクコンポーネントキャリアの中から任意の1つの下りリンクコンポーネントキャリアで送信することを特徴とする請求項1記載の無線通信システム。 - 基地局装置と移動局装置とが、複数のコンポーネントキャリアを使用して通信を行なう無線通信システムであって、
前記基地局装置は、
前記移動局装置に設定した下りリンクコンポーネントキャリア各々に対応するランダムアクセスリソースの中から前記移動局装置にランダムアクセスの通信を開始させるランダムアクセスリソースを選択するランダムアクセス制御部と、
前記選択したランダムアクセスリソースに対応する下りリンクコンポーネントキャリアでランダムアクセス処理の開始を指示する制御情報を送信する送信処理部と、を備え、
前記移動局装置は、
いずれかの下りリンクコンポーネントキャリアで前記ランダムアクセス処理の開始を指示する制御情報を受信した場合、前記制御情報を受信した下りリンクコンポーネントキャリアに対応するランダムアクセスリソースでランダムアクセス処理を開始するランダムアクセス処理部を備えることを特徴とする無線通信システム。 - 前記基地局装置および前記移動局装置は、前記移動局装置がランダムアクセス処理を開始したランダムアクセスリソースを含む上りリンクコンポーネントキャリアと、前記上りリンクコンポーネントキャリアに対応する下りリンクコンポーネントキャリアで、ランダムアクセスのメッセージの通信を行なうことを特徴とする請求項1または請求項3記載の無線通信システム。
- 前記送信処理部は、
前記移動局装置に割り当てた特定の下りリンクコンポーネントキャリアに対応するランダムアクセスリソースを示す情報を無線リソース制御信号に含めて送信することを特徴とする請求項1記載の無線通信システム。 - 前記ランダムアクセス処理の開始を指示する制御情報は、前記下りリンクコンポーネントキャリアに対応するランダムアクセスリソースの中から、更に前記移動局装置がランダムアクセス処理を開始することのできるランダムアクセスリソースを示す情報とシグネチャを示す情報が含まれることを特徴とする請求項1または請求項3記載の無線通信システム。
- 前記ランダムアクセス制御部は、
前記移動局装置にランダムアクセスの方法としてContention based Random Accessを指示する場合、前記シグネチャを示す情報を特定のコードポイントにし、
前記ランダムアクセス処理部は、前記シグネチャを示す情報が特定のコードポイントの際に、ランダムアクセスの方法としてContention based Random Accessを選択することを特徴とする請求項6記載の無線通信システム。 - 前記ランダムアクセス処理部は、
ランダムアクセスの方法としてContention based Random Accessを選択した場合、ランダムアクセス処理を開始するランダムアクセスリソースを、前記基地局装置に予め割り当てられた特定の下りリンクコンポーネントキャリアに対応するランダムアクセスリソースの中から選択することを特徴とする請求項1記載の無線通信システム。 - 前記ランダムアクセス処理部は、
ランダムアクセスの方法としてContention based Random Accessを選択した場合、ランダムアクセス処理を開始するランダムアクセスリソースを、前記基地局装置に設定された下りリンクコンポーネントキャリア各々に対応するすべてのランダムアクセスリソースの中から選択することを特徴とする請求項3記載の無線通信システム。 - 移動局装置と複数のコンポーネントキャリアを使用して通信を行なう基地局装置であって、
前記移動局装置がランダムアクセスの通信を開始できる特定の下りリンクコンポーネントキャリアに対応するランダムアクセスリソースを予め割り当てるランダムアクセス制御部と、
ランダムアクセス処理の開始を指示する制御情報を送信する送信処理部と、を備えることを特徴とする基地局装置。 - 移動局装置と複数のコンポーネントキャリアを使用して通信を行なう基地局装置であって、
前記移動局装置に設定した下りリンクコンポーネントキャリア各々に対応するランダムアクセスリソースの中から前記移動局装置にランダムアクセスの通信を開始させるランダムアクセスリソースを選択するランダムアクセス制御部と、
前記選択したランダムアクセスリソースに対応する下りリンクコンポーネントキャリアでランダムアクセス処理の開始を指示する制御情報を送信する送信処理部と、を備えることを特徴とする基地局装置。 - 基地局装置と複数のコンポーネントキャリアを使用して通信を行なう移動局装置であって、
前記ランダムアクセス処理の開始を指示する制御情報を受信した場合、前記基地局装置に予め割り当てられた特定の下りリンクコンポーネントキャリアに対応するランダムアクセスリソースでランダムアクセス処理を開始するランダムアクセス処理部を備えることを特徴とする移動局装置。 - 基地局装置と複数のコンポーネントキャリアを使用して通信を行なう移動局装置であって、
いずれかの下りリンクコンポーネントキャリアで前記ランダムアクセス処理の開始を指示する制御情報を受信した場合、前記制御情報を受信した下りリンクコンポーネントキャリアに対応するランダムアクセスリソースでランダムアクセス処理を開始するランダムアクセス処理部を備えることを特徴とする移動局装置。 - 移動局装置と複数のコンポーネントキャリアを使用して通信を行なう基地局装置に用いられる無線通信方法であって、
前記移動局装置がランダムアクセスの通信を開始できる特定の下りリンクコンポーネントキャリアに対応するランダムアクセスリソースを予め割り当て、ランダムアクセス処理の開始を指示する制御情報を送信することを特徴とする無線通信方法。 - 移動局装置と複数のコンポーネントキャリアを使用して通信を行なう基地局装置に用いられる無線通信方法であって、
前記移動局装置に設定した下りリンクコンポーネントキャリア各々に対応するランダムアクセスリソースの中から前記移動局装置にランダムアクセスの通信を開始させるランダムアクセスリソースを選択し、前記選択したランダムアクセスリソースに対応する下りリンクコンポーネントキャリアでランダムアクセス処理の開始を指示する制御情報を送信することを特徴とする無線通信方法。 - 基地局装置と複数のコンポーネントキャリアを使用して通信を行なう移動局装置に用いられる無線通信方法であって、
前記ランダムアクセス処理の開始を指示する制御情報を受信した場合、前記基地局装置に予め割り当てられた特定の下りリンクコンポーネントキャリアに対応するランダムアクセスリソースでランダムアクセス処理を開始することを特徴とする無線通信方法。 - 基地局装置と複数のコンポーネントキャリアを使用して通信を行なう移動局装置に用いられる無線通信方法であって、
いずれかの下りリンクコンポーネントキャリアで前記ランダムアクセス処理の開始を指示する制御情報を受信した場合、前記制御情報を受信した下りリンクコンポーネントキャリアに対応するランダムアクセスリソースでランダムアクセス処理を開始することを特徴とする無線通信方法。
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2009
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Cited By (3)
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CN102869113A (zh) * | 2011-07-06 | 2013-01-09 | 上海贝尔股份有限公司 | 一种通信网络中的物理随机接入的方法和装置 |
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CN102869113B (zh) * | 2011-07-06 | 2016-01-27 | 上海贝尔股份有限公司 | 一种通信网络中的物理随机接入的方法和装置 |
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US8976736B2 (en) | 2015-03-10 |
US20160100428A1 (en) | 2016-04-07 |
US8644222B2 (en) | 2014-02-04 |
CN102474879A (zh) | 2012-05-23 |
CA2769728C (en) | 2013-12-24 |
KR101291861B1 (ko) | 2013-07-31 |
EP2464189A1 (en) | 2012-06-13 |
US20140105167A1 (en) | 2014-04-17 |
KR20120054031A (ko) | 2012-05-29 |
AU2010280078B2 (en) | 2014-04-03 |
EP2464189B1 (en) | 2020-03-25 |
CN102474879B (zh) | 2015-04-01 |
EP2464189A4 (en) | 2015-05-20 |
US9655142B2 (en) | 2017-05-16 |
JP4999893B2 (ja) | 2012-08-15 |
US20150131588A1 (en) | 2015-05-14 |
US10080237B2 (en) | 2018-09-18 |
AU2010280078A1 (en) | 2012-03-15 |
JP2011035859A (ja) | 2011-02-17 |
ZA201201394B (en) | 2013-05-29 |
CA2769728A1 (en) | 2011-02-10 |
US20170202013A1 (en) | 2017-07-13 |
US20120188958A1 (en) | 2012-07-26 |
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