WO2009116212A1 - 通信システム、移動局、基地局、応答決定方法、リソースコンフィグレーション決定方法及びプログラム - Google Patents
通信システム、移動局、基地局、応答決定方法、リソースコンフィグレーション決定方法及びプログラム Download PDFInfo
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- WO2009116212A1 WO2009116212A1 PCT/JP2008/072122 JP2008072122W WO2009116212A1 WO 2009116212 A1 WO2009116212 A1 WO 2009116212A1 JP 2008072122 W JP2008072122 W JP 2008072122W WO 2009116212 A1 WO2009116212 A1 WO 2009116212A1
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- base station
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- 238000000034 method Methods 0.000 title claims abstract description 60
- 230000004044 response Effects 0.000 title claims description 100
- 238000004891 communication Methods 0.000 title claims description 42
- 230000005540 biological transmission Effects 0.000 claims description 64
- 238000012545 processing Methods 0.000 claims description 46
- 230000008569 process Effects 0.000 claims description 26
- 230000010365 information processing Effects 0.000 claims description 8
- 101000741965 Homo sapiens Inactive tyrosine-protein kinase PRAG1 Proteins 0.000 description 29
- 102100038659 Inactive tyrosine-protein kinase PRAG1 Human genes 0.000 description 29
- 238000010586 diagram Methods 0.000 description 17
- 230000008054 signal transmission Effects 0.000 description 5
- 238000010295 mobile communication Methods 0.000 description 4
- 230000000694 effects Effects 0.000 description 3
- 238000012546 transfer Methods 0.000 description 3
- 238000005516 engineering process Methods 0.000 description 2
- 230000008859 change Effects 0.000 description 1
- 238000007429 general method Methods 0.000 description 1
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- 230000000717 retained effect Effects 0.000 description 1
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
- H04W72/20—Control channels or signalling for resource management
- H04W72/21—Control channels or signalling for resource management in the uplink direction of a wireless link, i.e. towards the network
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L5/00—Arrangements affording multiple use of the transmission path
- H04L5/003—Arrangements for allocating sub-channels of the transmission path
- H04L5/0053—Allocation of signaling, i.e. of overhead other than pilot signals
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
- H04W72/04—Wireless resource allocation
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W74/00—Wireless channel access
- H04W74/08—Non-scheduled access, e.g. ALOHA
- H04W74/0833—Random access procedures, e.g. with 4-step access
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04J—MULTIPLEX COMMUNICATION
- H04J13/00—Code division multiplex systems
- H04J13/10—Code generation
- H04J13/102—Combining codes
- H04J13/107—Combining codes by concatenation
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
- H04W72/20—Control channels or signalling for resource management
Definitions
- the present invention relates to an uplink data channel resource allocation method and related technology.
- a mobile station in a CELL_FACH (Forward Access Channel) state in W-CDMA (Wideband Code Division Multiple Access), which is a third generation mobile communication system.
- the base station is selected every time control information or the like is transmitted from the mobile station.
- the operation of RACH Random Access Channel
- 3GPP 3rdrGeneration Partnership Project
- E-RACH Enhanced RACH
- FIGS. 1-10 the operation of the E-RACH will be briefly described with reference to FIGS.
- FIG. 1 is a block diagram showing a configuration of a mobile communication system.
- a plurality of mobile stations 20-1, 20-2, 20-3,... 20-N are located in the cell 40 of the base station 10, and these mobile stations Are in the CELL_FACH state. It is assumed that the base station 10 is connected to the upper network device 30. When an arbitrary mobile station is indicated, it is described as “mobile station 20”.
- FIG. 2 is a schematic channel diagram showing the relationship between the preamble, AICH or AICH and E-AICH (hereinafter referred to as AICH / E-AICH) and E-DCH in E-RACH.
- FIG. FIG. 6 is a sequence diagram of channel setting.
- E-DCH Enhanced Dedicated Channel
- E-AICH Extended AICH
- E-AICH Extended AICH
- the same channelization code is transmitted for each cell.
- Some base stations do not support E-AICH. If the base station does not support E-AICH and cannot be transmitted with the default E-DCH resource configuration, the mobile station transmits the preamble again after a predetermined time.
- the default indicates an E-DCH resource configuration index corresponding to the preamble signature.
- a spreading code called a preamble signature Csig, s and a preamble scrambling code Sr-pre, n which will be described later, is used.
- the preamble signature Csig, s is composed of 4096 chips in which the Hadamard code having a code length of 16 is repeated 256 times, and the preamble scrambling code Sr-pre, n is a cell identification code notified by the base station.
- the preamble signature C sig, s is randomly selected by each mobile station from a predetermined preamble signature (Csig, 1, Csig, 2,... Csig, s).
- n indicates a scrambling code number.
- the k-th value of the preamble code data Cpre, n, s is composed of the k-th preamble signature Csig, s corresponding to the 4096 chips and the preamble scrambling code Sr-pre, n. 1).
- the uplink data channel E-DCH is configured on the basis of specifications defined in 3GPP Release 6 (see Non-Patent Document 6, for example).
- the base station 10 uses the E-DCH resource configuration list including the E-DCH resource configuration used in the E-RACH and the corresponding E-DCH resource configuration index, and the number of preamble signatures usable in the E-RACH. And a preamble scrambling code as described above are periodically broadcast to mobile stations in the cell via BCH (Broadcast Channel).
- BCH Broadcast Channel
- the E-DCH resource configuration is E-RNTI (Enhanced Radio Network Temporary Identity), E-AICH Configuration Flag, Uplink DPCH (Dedicated PhysECH-ACH-ECH-ACH Info, E-RGCH (E-DCH Relative Grant Channel) Info, E-HICH (E-DCH Hybrid ARQ Indicator Channel) Info, Downlink F-DPCH Info, TTIED, etc. .
- E-RNTI Enhanced Radio Network Temporary Identity
- E-AICH Configuration Flag Uplink DPCH (Dedicated PhysECH-ACH-ECH-ACH Info
- E-RGCH E-DCH Relative Grant Channel
- E-HICH E-DCH Hybrid ARQ Indicator Channel
- the mobile station 20 transmits the preamble code data to the base station with the initial transmission power value calculated from the received power amount of the pilot channel of the base station 10.
- Preamble code data is generated using a preamble scrambling code notified by the base station 10 and a preamble signature randomly selected by the mobile station.
- the base station 10 transmits a response notification (ACK / NACK) to the mobile station 20 using the AICH signature state for the received preamble. If the base station 10 that supports E-AICH cannot use the default E-DCH resource configuration because it is used by another mobile station, the base station 10 sends a response notification using the AICH. Information indicating the E-DCH resource configuration is notified to the mobile station using AICH.
- the base station 10 succeeds in receiving the preamble transmitted from the mobile station, and transmits uplink data using the default E-DCH resource configuration assigned for each preamble signature included in the preamble. If it is allowed, ACK is notified as a response notification using AICH.
- NACK is notified as a response notification using AICH.
- a base station that supports E-AICH it is not allowed to transmit uplink data using a default E-DCH resource configuration, but uplink data is transmitted using an E-DCH resource configuration other than the default.
- an offset value indicating an E-DCH resource configuration index that is permitted to be used is notified to the mobile station using E-AICH by a method described later.
- the base station If the uplink data is not allowed to be transmitted using an E-DCH resource configuration other than the default, the base station notifies the mobile station of NACK as a response notification using AICH. Information on whether or not the base station supports E-AICH is reported to mobile stations in the cell using the E-AICH Configuration Flag included in the BCH.
- the mobile station 20 receives the response notification using AICH and the response to the preamble signature used in the preamble transmission is ACK, the mobile station 20 has a default E-DCH resource configuration assigned to the transmitted preamble signature, An E-DCH transmission profile is determined from the initial transmission power value of E-DCH calculated from the transmission power value of the transmitted preamble, and data is transmitted to base station 10.
- the mobile station can determine whether the base station supports E-AICH by the E-AICH Configuration Flag. When the base station supports E-AICH and the response to the preamble signature used for preamble transmission is NACK, the mobile station receives E-AICH. On the other hand, if the base station does not support E-AICH and the response to the preamble signature used in the preamble transmission is NACK, the mobile station transmits the preamble again after a predetermined time.
- the mobile station 20 determines that the base station 10 has not received the previously transmitted preamble, and if the upper limit of the number of retransmissions has not been reached, the transmission power of the preamble Is increased by a predetermined amount and retransmitted.
- the E-AICH is received and the E-AICH response notification is not NACK
- An E-DCH transmission profile is determined from the resource configuration, and data is transmitted to the base station 10. If the response notification is NACK, the preamble is transmitted again after a predetermined time.
- the minimum retransmission interval ⁇ p-p, min of the preamble and the interval ⁇ p-a until the response notification transmission in the preamble and AICH are determined in advance. There is no response from the base station to the mobile station for the preamble signature corresponding to the preamble that was transmitted from the mobile station but could not be recognized by the base station, such as being not received by the base station. If there is no response before ⁇ pa, the mobile station retransmits the preamble.
- the AICH transmits a response notification (ACK / NACK) using the AICH signature state corresponding to the preamble signature Csig, s of the preamble.
- the AICH is configured by combining 32 codes aj derived from the following equation (2), and the signature pattern bs, j of the AICH is defined in Table 1 (see, for example, Non-Patent Document 4).
- s indicates an AICH signature number, and bs and j can take 16 patterns.
- E-AICH uses the same channelization code as AICH and is configured by combining 32 codes aj derived from the following equation (3).
- E-AICH signature patterns cs, j are defined in Table 2 (see, for example, Non-Patent Document 7).
- s ′ indicates the number of the E-AICH signature
- cs, j can take a maximum of 16 patterns.
- EAIs ′ indicates the state of the E-AICH signature, and the offset value is transmitted to the mobile station using only one E-AICH signature state per access slot among one or more E-AICH signature numbers. Notice.
- Table 3 is a table showing an example of the correspondence between the state of the E-AICH signature, the E-AICH signature number, and the offset value indicating the E-DCH resource configuration index.
- X indicates the default E-DCH resource configuration index corresponding to the preamble signature
- Y indicates the total number of E-DCH resource configurations.
- the offset value in Table 3 indicates an offset from the E-DCH resource configuration index assigned to the default in the E-DCH resource configuration list. For example, when the E-AICH signature state is +1 and the E-AICH signature number is 0, the offset from the E-DCH resource configuration index assigned to the default is 1.
- the mobile station configures an E-DCH resource configuration corresponding to the E-DCH resource configuration index obtained by adding 1 to the default E-DCH resource configuration index. Send data using.
- the mobile station decodes the E-AICH using the E-AICH signature pattern.
- the E-AICH decoding may be performed in such a manner that the E-AICH signature is determined in a part of decoding by ordering the E-AICH signatures, for example, starting from 0 of the E-AICH signature. The determination may be made on an E-AICH signature that is estimated to have the highest probability after being performed on the AICH signature.
- An offset value is obtained from the E-AICH signature number obtained by decoding the E-AICH and the E-AICH signature state.
- the E-DCH transmission profile is determined using the E-DCH resource configuration index corresponding to the E-DCH resource configuration index specified by the default E-DCH resource configuration index and the obtained offset.
- Non-Patent Document 7 a method for assigning a default E-DCH resource configuration to a preamble signature is not defined in the E-DCH resource configuration list.
- the RACH system cannot be operated normally.
- a method of broadcasting a default E-DCH resource configuration index assigned to each preamble signature from the base station using the BCH is conceivable.
- an object of the present invention is to provide a default resource configuration allocation method and apparatus that can suppress an increase in the amount of broadcast information.
- the present invention for solving the above problems is a communication system comprising a base station and a mobile station, wherein the base station receives a preamble transmitted from the mobile station, transmits a response to the received preamble to the mobile station, and the mobile station When the response is the first response, using at least a part of the default resource configuration of the mobile station determined by using the total number of resource configurations or a value obtained from the total number It is characterized by transmitting data.
- the base station responds to the preamble transmitted from the mobile station based on the total number of resource configurations or a default resource configuration determined using a value obtained from the total number.
- the notification is determined.
- the present invention for solving the above-mentioned problems is a mobile station that transmits a preamble to a base station, and the mobile station receives a response to the preamble from the base station, and the resource configuration when the response is the first response.
- the data is transmitted by using at least a part of information of the resource configuration determined as the default resource configuration of the mobile station using the total number or the value obtained from the total number.
- the present invention for solving the above-mentioned problem is a response determination method of a base station, which is based on the total number of resource configurations or a default resource configuration determined using a value obtained from the total number. It is characterized by determining a response notification for the transmitted preamble.
- the present invention for solving the above problems is a resource configuration determination method of a mobile station, characterized in that a default resource configuration is determined using a total number of resource configurations or a value obtained from the total number. To determine the resource configuration to use.
- the present invention for solving the above-described problems is a program for causing an information processing apparatus to execute a process, and the program is a default resource configuration using a total number of resource configurations or a value obtained from the total number for the information processing apparatus. Based on the above, a process for determining a response notification to be transmitted from the base station to the preamble transmitted from the mobile station is executed.
- the present invention for solving the above-described problems is a program for causing an information processing apparatus to execute a process, and the program uses the total number of resource configurations in the information processing apparatus or a value obtained from the total number to determine a default in a mobile station.
- the process of determining the resource configuration is executed.
- FIG. 3 is a schematic diagram 1 of default E-DCH resource configuration allocation in the first embodiment of the present invention.
- FIG. 3 is a schematic diagram 2 of default E-DCH resource configuration allocation in the first embodiment of the present invention.
- 6 is a flowchart showing an operation of a base station in the first and second embodiments of the present invention. 6 is a flowchart showing the operation of the mobile station in the first and second embodiments of the present invention.
- FIG. 6 is a schematic diagram 1 of default E-DCH resource configuration allocation in the second exemplary embodiment of the present invention. It is the schematic 2 of default E-DCH resource configuration allocation in the 2nd Embodiment of this invention. It is a flowchart which shows the operation
- the present invention is characterized in that a default resource configuration is determined using at least a total number of resource configurations or a value obtained from the total number.
- FIG. 4 is a block diagram showing an example of the configuration of the base station in the first to third embodiments.
- the base station 10 includes a radio communication unit 101 that performs radio communication with the mobile station 20, an uplink signal reception processing unit 102 for processing an uplink signal received from each mobile station, and transfer data of the uplink signal.
- an uplink signal transmission processing unit 103 that performs processing for transmission to an upper network device such as a base station control device and a communication unit 104 that transmits to the upper network device are provided.
- Data from the higher-level network device is received by the communication unit 104 and then processed by the downlink signal reception processing unit 105.
- Processing for transmitting a downlink signal to the mobile station is performed by the downlink signal transmission processing unit 106 and transmitted from the wireless communication unit 101 to the destination mobile station.
- the base station 10 is provided with a preamble identification unit 108, a resource configuration generation unit 107, and a resource configuration control unit 109 connected to the uplink signal reception processing unit 102.
- the uplink signal reception processing unit 102 transfers to the preamble identification unit 108, and otherwise transfers to the uplink signal transmission processing unit 103.
- the preamble identifying unit 108 identifies a preamble signature from the preamble transferred from the uplink signal reception processing unit 102 and notifies the resource configuration control unit 109 of the identified content.
- the resource configuration generation unit 107 generates an E-DCH resource configuration list that is a list in which an E-DCH resource configuration used for E-RACH and an E-DCH resource configuration index are associated with each other at predetermined time intervals. And output to the resource configuration control unit 109.
- the E-DCH resource configuration list is generated and output every predetermined time. However, such information may be determined in advance.
- the resource configuration control unit 109 receives an E-DCH resource configuration list transferred from the resource configuration generation unit 107 and a preamble signature list including information on preamble signatures that can be used for the preset E-RACH. keeping.
- the resource configuration control unit 109 outputs the E-DCH resource configuration list and the preamble / signature list to the downlink signal transmission processing unit 106, and the downlink signal transmission processing unit 106 receives the E-DCH resource configuration received from the transmission processing unit 106.
- the communication list is notified to the mobile station in the cell through the wireless communication unit 101.
- the resource configuration control unit 109 corresponds to the preamble signature identified by the preamble identification unit 108 in the retained E-DCH resource configuration list.
- a response notification ACK is transmitted to the transmission processing unit 106 using AICH. If the default E-DCH resource configuration is not available and there is an available E-DCH resource configuration other than the default in the E-DCH resource configuration list, the available E from the E-DCH resource configuration list -Select a DCH resource configuration.
- a response notification NACK using AICH and an E-AICH signature obtained from an offset value between the default E-DCH resource configuration and the selected E-DCH resource configuration and E-AICH notified using E-AICH The signature state is transmitted to the transmission processing unit 106.
- the transmission processing unit 106 includes a response notification to the preamble transferred from the resource configuration control unit 109 using the AICH, and also includes an E-AICH signature state in the E-AICH and an E-AICH corresponding to the E-AICH signature.
- Information on the E-DCH resource configuration is transmitted to the mobile station through the wireless communication unit 101 using the AICH signature pattern.
- the E-DCH resource configuration list has been described as being held by the resource configuration control unit 109.
- the E-DCH resource configuration list may be held by the resource configuration generation unit 107, or may be stored separately by having a storage unit. May be.
- an operation for notifying the resource configuration control unit 109 of the E-DCH resource configuration list from the E-DCH resource configuration generation unit 107, or the resource configuration control unit 109 is the resource configuration generation unit 107 or the storage unit. The operation to read from is required.
- the preamble identification unit 108, the resource configuration generation unit 107, and the resource configuration control unit 109 can also realize equivalent functions by executing programs having corresponding functions on a program control processor such as a CPU. . Also, here, the parts related to the channel allocation method according to the present invention are shown, and the other components are omitted.
- FIG. 5 is a block diagram showing an example of the configuration of the mobile station in the first to third embodiments.
- the mobile station 20 includes a wireless communication unit 201, a reception processing unit 202, a response notification processing unit 203, a transmission data control unit 204, a resource configuration holding unit 205, a transmission processing unit 206, and a buffer for performing wireless communication with the base station. 207 is included.
- the parts related to the channel allocation method according to the present invention are also shown, and the other components are omitted.
- the reception processing unit 202 receives data from the base station through the wireless communication unit 201.
- the data is transferred to the response notification processing unit 203, and the data is an E-DCH resource configuration list.
- the data is transferred to the resource configuration holding unit 205.
- the resource configuration holding unit 205 holds the transferred E-DCH resource configuration list.
- the response notification processing unit 203 receives the AICH response notification for the preamble input from the reception processing unit 202, and the E-AICH signature decoded using the E-AICH signature pattern when the response notification using the AICH is NACK. An offset value obtained from the E-AICH signature state included in the E-AICH is extracted.
- the response notifications of AICH and E-AICH are transferred to the transmission data control unit 204.
- the transmission data control unit 204 calls the E-DCH resource configuration list held in the resource configuration holding unit 205, sends the AICH and E-AICH response notification input from the response notification processing unit 203, and the called E-DCH.
- the E-DCH resource configuration used for E-RACH is determined from the resource configuration list and output to the transmission processing unit 206.
- the transmission processing unit 206 sets an E-DCH transmission profile based on the E-DCH resource configuration input from the transmission data control unit 204, and transmits data to the base station through the wireless communication unit 201.
- the held E-DCH resource configuration list has been described as being held in the resource configuration holding unit 205, but to the transmission data control unit 204 directly from the reception processing unit 202 or via the resource configuration holding unit 205. It may be transmitted and held in the transmission data control unit 204. In this case, the transmission data control unit 204 does not need to read the E-DCH resource configuration list from the resource configuration holding unit 205.
- the buffer 207 holds the data when data to be transmitted is generated. Further, the data held when the transmission process is performed is passed to the transmission data control unit.
- response notification processing unit 203 and the transmission data control unit 204 can also realize an equivalent function by executing a program having a corresponding function on a program control processor such as a CPU.
- the present embodiment is characterized in that a default resource configuration is determined from a preamble signature number and the total number of resource configurations or a value obtained from the total number.
- the resource configuration is an E-DCH resource configuration, and using the total number of E-DCH resource configurations, the broadcast preamble signature list, E-DCH resource configuration list, and preamble signature number are used.
- FIG. 6 to FIG. 10 are used as an example of a wireless communication system that calculates an E-DCH resource configuration index to be assigned to a default from the remainder when E is divided by the total number of E-DCH resource configurations, and transmits and receives data. explain.
- FIG. 6 is a sequence diagram showing a data transmission procedure in the present embodiment.
- the base station broadcasts the E-DCH resource configuration list and preamble / signature list to the mobile station in the cell at a predetermined time using the BCH (step S101).
- the resource configuration holding unit 205 of the mobile station holds the received broadcast information, and updates the information when new broadcast information is received.
- the mobile station and the base station respectively assign E-DCH from the remainder when the preamble signature number is divided by the total number of E-DCH resource configurations from the broadcast information based on the following formula (4).
- a resource configuration index is calculated (step S102).
- Dind indicates an E-DCH resource configuration index assigned to the default
- Preind indicates a preamble signature number
- Y indicates the total number of E-DCH resource configurations.
- the mobile station When transmission data is generated in the buffer 207 of the mobile station (step S103), the mobile station, in particular, the transmission data control unit 204 transmits the preamble to the base station as described above (step S104).
- the base station After receiving the preamble, the base station performs an AICH / E-AICH response condition determining step for determining whether or not the default E-DCH resource configuration corresponding to the received preamble signature is usable (step S105).
- the AICH / E-AICH response condition determination step a default E-DCH resource configuration corresponding to the received preamble signature is calculated using the above-described equation (4).
- any one of Alt2-1, 2-2, and 2-3 is performed according to the determination in the AICH / E-AICH response condition determination step.
- the base station does not particularly notify the mobile station, and Alt1 operates from the mobile station. wait.
- the mobile station retransmits the preamble after a predetermined time has elapsed since the preamble transmission in step S104 (step S106), and the base station performs the AICH / E-AICH response condition determination step again.
- Alt2-1 a response notification ACK is transmitted to the mobile station using AICH (step S 107), and the mobile station transmits an E-DCH from the default E-DCH resource configuration calculated using the above equation (4).
- a profile is determined (step S108), and uplink data is transmitted (step S109).
- Alt2- Process 2 if the default E-DCH resource configuration is not usable and there is an available E-DCH configuration other than the default in the E-DCH resource configuration list, Alt2- Process 2 is performed.
- Alt2-2 a state including a response notification NACK and an E-AICH signature state is transmitted to the mobile station using AICH, using E-AICH.
- an E-AICH signature pattern corresponding to the E-AICH signature obtained from the offset value between the default E-DCH resource configuration and the selected E-DCH resource configuration is used (step S110). ).
- the mobile station decodes the E-AICH using the E-AICH signature pattern.
- An offset value is extracted together with the E-AICH signature and the E-AICH signature state obtained as a result of the decoding.
- the E-DCH resource configuration used for transmission is determined from the extracted offset value and the default E-DCH resource configuration.
- An E-DCH transmission profile is determined from the determined E-DCH resource configuration (step S111), and uplink data is transmitted (step S112).
- Alt2- Process 3 if all of the E-DCH resource configuration cannot be used, or if the default E-DCH resource configuration cannot be used in a base station that does not support E-AICH, Alt2- Process 3 is performed. In Alt2-3, a base station that does not support E-AICH uses AICH to send a response notification NACK to a mobile station, and a base station that supports E-AICH uses AICH and E-AICH to send a response notification NACK is transmitted (step S113). Thereafter, the mobile station checks the retransmission counter (step S114).
- step S115 If the remaining number of the retransmission counter is not 0, the preamble is retransmitted after a predetermined waiting time which is the processing of Alt2-3-1 (step S115). If the remaining number of the retransmission counter is 0, data transmission is performed. The process of Alt2-3-2 to be canceled is performed (step S116).
- step 102 for calculating the default E-DCH resource configuration index will be described with reference to FIGS.
- FIG. 7 is an example showing a correspondence relationship between the number of preamble signatures and the index of E-DCH resource configuration when the number of E-DCH resource configurations is larger than the number of preamble signatures.
- the E-DCH resource configuration index assigned to the default matches the number of the preamble signature. Even when the number of preamble signatures and the number of E-DCH resource configurations are the same, the index of E-DCH resource configuration matches the number of preamble signatures as in this figure.
- FIG. 8 is an example showing a correspondence relationship between the number of preamble signatures and the index of E-DCH resource configuration when the number of E-DCH resource configurations is smaller than the number of preamble signatures.
- the number 0 to 5 of the preamble signature that is equal to or less than the number of E-DCH resource configurations is the same as the example shown in FIG. , The preamble signature numbers match.
- the allocated E-DCH resource configuration is insufficient. Therefore, according to equation (4), the number of the preamble signature is divided by the total number of E-DCH resource configurations, and an E-DCH resource configuration index corresponding to the remainder is assigned as a default.
- a default E-DCH resource configuration can be assigned regardless of the number of E-DCH resource configurations.
- FIG. 9 is a flowchart showing the operation of the base station, particularly the E-DCH resource configuration control unit 109, in the AICH / E-AICH response condition determining step for determining the AICH / E-AICH response.
- the base station confirms whether or not the preamble transmitted by the mobile station has been received (step S201), and if the preamble has not been received, returns to the preamble reception waiting state. If the preamble has been received in step S201, it is determined whether or not the default E-DCH resource configuration corresponding to the received preamble signature can be used (step S202). When the default E-DCH resource configuration is usable, the base station notifies the response notification ACK using AICH (step S203), receives the uplink data transmitted by the mobile station (step S204), and The process returns to the preamble reception waiting state in step S201.
- step S202 if the default E-DCH resource configuration is not usable, the base station determines whether it is compatible with E-AICH (step S205). If the E-AICH is not supported, a response notification NACK is sent using the AICH (step S206), and the process returns to the preamble reception wait state in step S201.
- step S207 If it is compatible with E-AICH in step S205, it is determined whether or not a different E-DCH resource configuration can be used (step S207). In step S207, if there is an available E-DCH configuration other than the default in the E-DCH resource configuration list, one of them is selected. Further, an E-AICH signature and an E-AICH signature state are obtained from a response notification NACK using AICH and an offset value between the default E-DCH resource configuration and the selected E-DCH resource configuration, and E-AICH is obtained. (Step S208). The base station receives the uplink data transmitted by the mobile station (step S209), and returns to the preamble reception waiting state in step S201.
- step S207 If all the E-DCH resource configurations cannot be used in step S207, a response notification NACK using AICH and a response notification NACK using E-AICH are notified (step S210), and the preamble reception wait state in step S201 Return to.
- the E-DCH resource configuration control unit 109 holds information indicating whether or not the E-DCH resource configuration can be used.
- 'Busy' indicates that it is in use
- 'Available' indicates that it can be used.
- the information indicating the state of the E-DCH resource configuration need not be limited to two values. In both the examples of Table 4 and Table 5, it is assumed that the default E-DCH resource configuration is number 0 of the E-DCH resource configuration index.
- Table 4 shows an example when there is an available E-DCH resource configuration in the E-DCH resource configuration list. Since the default E-DCH resource configuration is in use, the base station selects number 4 of the available E-DCH resource configuration index. Since the offset between the default E-DCH resource configuration and the selected E-DCH resource configuration is 4, the base station determines that the E-AICH signature is 2 and the E-AICH state is +1 based on Table 3. Ask for something. Further, information including E-AICH state + 1 is notified to the mobile station by using E-AICH together with an E-AICH signature pattern corresponding to No. 2 of the E-AICH signature.
- Table 5 shows an example when there is no usable E-DCH resource configuration in the E-DCH resource configuration list.
- NACK corresponds to E-AICH signature number 0 and E-AICH state +1. Therefore, information including the E-AICH state + 1 is notified to the mobile station using the E-AICH together with the E-AICH signature pattern corresponding to the 0th of the E-AICH signature.
- FIG. 10 is a flowchart showing the operation of the mobile station, particularly the transmission data control unit 204 in the present embodiment.
- the mobile station starts the control operation of FIG.
- the mobile station determines whether broadcast information is received from the base station (step S301). If broadcast information is received, the default E-DCH resource configuration to be assigned for each preamble signature number is calculated from the broadcast information by the above-described method (step S302), and the retransmission counter M is set to the initial value Minit. (Step S303). If the notification information has not been received, the reception of the notification information is awaited, and the process returns to step S301.
- step S303 a preamble transmission step of transmitting a preamble to the base station is performed (step S304). After that, the AICH / E-AICH response notification reception waiting state from the base station is entered, and the AICH response notification is confirmed (step S305).
- the mobile station determines an E-DCH transmission profile using the default E-DCH resource configuration calculated in step S302, and transmits uplink data Is transmitted to the base station (step S306), and the process ends.
- step S305 when the response notification using AICH from the base station is NACK, the E-AICH signature pattern is decoded using the E-AICH signature pattern.
- the E-AICH response notification is confirmed by combining the E-AICH signature obtained as a result of the decoding and the E-AICH signature state (step S307).
- step S307 when the response notification using E-AICH includes an offset value indicating the E-DCH resource configuration, the E-DCH transmission profile is determined using the E-DCH resource configuration after the offset. Then, uplink data is transmitted to the base station (step S308), and the process is terminated.
- step S307 if the E-AICH response notification is NACK, or if it is notified from the base station that the E-AICH is not supported, it is confirmed whether the retransmission counter M is 0 (step S309). If the retransmission counter M is 0, the data transmission is stopped and the process is terminated. If the result of step S309 is not 0, the retransmission counter M is decremented by 1 (step S310), waits for a predetermined time (step S311), and returns to the preamble transmission step (step S304).
- step S305 if there is no AICH response notification from the base station for a predetermined time, the remaining number of retransmission counters M is confirmed (step S312). If the remaining number of retransmission counters is 0, data transmission is stopped and the process is terminated. If the result of step S309 is not 0, the retransmission counter M is decremented by 1 (step S313), waits for a predetermined time (step S314), and returns to the preamble transmission step (step S304).
- the default E-DCH resource configuration to be assigned for each preamble signature is calculated from the existing broadcast information, it is not necessary to add a broadcast information amount and prevent a decrease in downlink radio capacity. it can.
- a ⁇ preamble signature number
- B A, B is 0 or a positive or negative integer
- the value used for calculating the remainder is not limited to the preamble signature number, but may be a value identifying timing such as a slot number transmitted by the mobile station or a number identifying each mobile station.
- the total number does not need to be used, and the E-DCH resource configuration is used. It is good also as a form using the number less than the total of these. By adopting such a form, it is possible to set an E-DCH resource configuration that is not set as a default for any mobile station, and to obtain an effect that a flexible E-DCH resource configuration can be selected. It is done.
- the present embodiment is not limited to the form of taking a remainder as in the present embodiment.
- a hash function or the like may be used as long as it can be handled within the range of the total number.
- the resource configuration is described as the E-DCH resource configuration.
- the resource configuration corresponding to the default resource configuration is used. It is obvious that the system for transmitting data is not limited to the E-DCH resource configuration.
- the base station prepares a plurality of default resource configurations for each preamble signature, prepares a plurality of parameter values for calculating the default resource configuration, and selects the parameter values. It is characterized by notifying.
- the E-DCH resource configuration is assumed to be an E-DCH resource configuration, an E-DCH resource configuration index to be assigned to a default by giving a plurality of offsets in advance is calculated, and the base station determines the usage status of the default uplink channel resource configuration group.
- An example of a wireless communication system that changes the group to be used will be described with reference to FIGS. 9 to 13.
- only one default E-DCH resource configuration is assigned to each preamble signature. Therefore, when the mobile station transmits a preamble, the default E-DCH resource configuration is in use, and the probability of assigning an E-DCH resource configuration different from the default using E-AICH increases. As a result, the mobile station cannot know the allocated E-DCH resource configuration without decoding the E-AICH, and the decoding processing amount of the mobile station increases.
- an E-DCH resource configuration collision probability increases because an E-DCH resource configuration different from the default cannot be assigned using E-AICH.
- a plurality of default E-DCH resource configuration groups are set for the preamble signature, and the group used by the base station according to the usage status of the default E-DCH resource configuration group It is characterized by changing.
- FIG. 6 is a data transmission sequence diagram according to the present embodiment.
- the first embodiment differs from the first embodiment only in the operation of broadcasting the E-DCH resource configuration list (step S101) and the operation of calculating the E-DCH resource configuration index assigned to default from the broadcast information (step S102). Other explanations are omitted.
- step S101 the base station makes an E-DCH resource configuration list, a preamble signature list usable in E-RACH, a position offset B, which will be described later,
- the interval offset C is broadcast on the BCH.
- the base station uses the resource configuration control unit 109 to manage the usage status of a plurality of default E-DCH resource configuration groups, which will be described later, and changes the broadcast information according to the usage rate of the default E-DCH resource configuration group.
- step 102 the mobile station and the base station calculate a default E-DCH resource configuration index from the E-DCH resource configuration list based on the following equation (5) from the broadcast information.
- Dind indicates the E-DCH resource configuration index assigned to the default
- Preind indicates the number of the preamble signature
- Y indicates the total number of E-DCH resource configurations.
- B indicates a parameter for offsetting the default position (hereinafter referred to as position offset)
- C indicates the interval of the default E-DCH resource configuration index corresponding to consecutively numbered preamble signatures.
- the indicated parameter hereinafter, interval offset
- the values of the position offset B and the interval offset C are periodically reported from the base station.
- FIG. 12 is an example showing the default E-DCH resource configuration allocation in this example.
- FIG. 13 is a flowchart showing an operation of changing broadcast information in the base station.
- the control operation is started in response to determining information to be notified every predetermined time. Based on the following formula (7), the usage rate R (x) of the Default Group is calculated.
- Rbusy (x) indicates the number of E-DCH resource configurations in use in the Default Group # x
- Rall (x) indicates the total number of E-DCH resource configurations in the Default Group # x.
- the calculated usage rate R (x) is compared with a predetermined threshold value Rth (step S701).
- x corresponds to the number of the Default Group.
- Default Group 1 is initialized, so R (1) is calculated and compared with the threshold value Rth.
- step S701 If the threshold value Rth is not exceeded in step S701, the process returns to step S701 without changing the position offset B.
- the base station calculates the usage rate when a default group different from the currently used default group is used, and compares it with the usage rate R (x). (Step S702).
- R (2) is calculated for a default group 2 different from the currently used default group 1, and compared with R (1). If the usage rate R (x) regarding the default group currently used in step S702 is lower than the usage rate when the default group different from the default group currently used is used, the position offset B is not changed. The process returns to step S701.
- the base station has a usage rate. A low default group is selected, and a position offset B corresponding to the default group is reported to the mobile station in the cell (step S703).
- R (1) is higher than R (2)
- the base station selects a position offset B2 corresponding to the Default Group having a low usage rate, and notifies the mobile station in the cell.
- FIG. 9 is a flowchart showing the operation of the base station in this embodiment, but it is omitted because it is the same as that in the first embodiment.
- FIG. 10 is a flowchart showing the operation of the mobile station in the present embodiment, but it is the same as in the first embodiment, and is omitted.
- two default E-DCH resource configuration groups are set and determined based on the usage rate R (x), but the number of groups is not limited to two. Even if three or more groups are set and the position offset value corresponding to the group having the lowest usage rate R (x) is selected in step S702, the same effect can be obtained.
- the base station has been described as changing the group to be used according to the usage status of the default E-DCH resource configuration group.
- the base station periodically changes according to a predetermined time. It may be a form.
- a plurality of default E-DCH resource configuration groups are set for the preamble signature, and the base station changes the group used according to the usage status of the default E-DCH resource configuration group. Therefore, by improving the probability that the default E-DCH resource configuration can be used, the frequency of assigning the E-DCH resource configuration using E-AICH can be reduced, so that the processing of the mobile station can be reduced. it can.
- a plurality of default E-DCH resource configuration groups are set for the preamble signature, and the group used by the base station according to the usage status of the default E-DCH resource configuration group Since the probability that the default E-DCH resource configuration can be used can be improved, the collision probability of the E-DCH resource configuration can be reduced in a base station that cannot use E-AICH. .
- the base station prepares a plurality of default resource configurations for each preamble signature, and prepares and broadcasts a plurality of parameter values for calculating the default resource configuration. Yes.
- the E-DCH resource configuration is assumed to be an E-DCH resource configuration, an E-DCH resource configuration index to be assigned to a default by giving a plurality of offsets in advance is calculated, and the base station A radio communication system that uses different default E-DCH resource configuration groups will be described as an example with reference to FIG. 10, FIG. 12, FIG. 14, and FIG.
- only one default E-DCH resource configuration is assigned to each preamble signature. Therefore, when the mobile station transmits a preamble, the default E-DCH resource configuration is in use, and the probability of assigning a different E-DCH resource configuration using E-AICH increases. As a result, the mobile station cannot know the allocated E-DCH resource configuration without decoding the E-AICH, and the decoding processing amount of the mobile station increases.
- an E-DCH resource configuration collision probability increases because an E-DCH resource configuration different from the default cannot be assigned using E-AICH.
- a plurality of default E-DCH resource configuration groups are set for each preamble signature, and the base station sets the default E-DCH resource configuration according to the timing of transmitting the preamble. It is characterized by using different groups.
- FIG. 14 is a data transmission sequence diagram according to the present embodiment.
- the first embodiment includes an operation related to determination of an E-DCH resource configuration group (steps S801 to S807) and an operation of determining an E-DCH resource configuration used by the mobile station for transmitting uplink data (step Since S808 or step S811) is different, other description is omitted.
- step S801 the base station sends an E-DCH resource configuration list, a preamble signature list usable in the E-RACH, and a mobile station in the cell at predetermined intervals in the second embodiment. Two set values using the defined position offset B and interval offset C are broadcast on the BCH.
- step S802 the mobile station and the base station calculate a default E-DCH resource configuration index from the broadcast information based on Expression (5) and Expression (6) as in the second embodiment, Determine two Default Groups.
- the transmission data control unit 204 transmits a preamble to the base station (step S804). After receiving the preamble, the base station determines whether or not the default E-DCH resource configuration can be used (step S805).
- step S805 if the default E-DCH resource configuration corresponding to the received preamble signature is not usable and the preamble retransmission counter C does not exceed the threshold value Cth, the base station increments the retransmission counter by one. Further, the base station does not particularly notify the mobile station, and waits for an operation from the mobile station in Alt1 processing. In Alt1, the mobile station retransmits the preamble by the method described above after a predetermined time has elapsed since the preamble transmission in step S804 (step S806), and the base station performs the process of step S805 again.
- the processing of Alt1 is also performed when the base station cannot recognize the preamble, for example, although the preamble is transmitted from the mobile station but cannot be received by the base station.
- the retransmission of the preamble in step S306 is performed after a predetermined time has elapsed, but it may be a form in which a predetermined access slot has elapsed.
- step S805 if the default E-DCH resource configuration corresponding to the received preamble signature is available, or if the preamble retransmission counter C exceeds the threshold Cth, Alt2-1 to Alt2-3 Do one of the processes. If the default E-DCH resource configuration corresponding to the received preamble signature is available, the process proceeds to Alt2-1. When the default E-DCH resource configuration corresponding to the received preamble signature is not usable and the preamble retransmission counter C exceeds the threshold Cth, the process proceeds to Alt2-2. Details of the operation of the base station will be described with reference to FIG.
- the access slot number that transmitted the preamble is an even number Determines the default E-DCH resource configuration from Default Group 1, and determines the default E-DCH resource configuration from Default Group 2 when the access slot number that transmitted the preamble is an odd number.
- step S805 if the default E-DCH resource configuration corresponding to the received preamble signature is not usable and the preamble retransmission counter C does not exceed the threshold Cth, the base station notifies the mobile station.
- a base station that does not support E-AICH such as Alt2-3, sends a response notification NACK using AICH, and a base station that supports E-AICH uses AICH and E -A response notification NACK using AICH may be transmitted.
- FIG. 15 is a flowchart showing the operation of the base station, in particular, the resource configuration control unit 109 in step S805 for determining the AICH / E-AICH response according to the present embodiment.
- the base station confirms whether or not the preamble transmitted by the mobile station has been received (step S901), and returns to the preamble reception waiting state if no preamble has been received. If the preamble has been received in step S901, it is determined whether the default E-DCH resource configuration assigned to the received preamble can be used in consideration of the access slot number in which the mobile station has transmitted the preamble. (Step S902).
- the base station If the default E-DCH resource configuration assigned at the received timing is usable, the base station notifies the response notification ACK using the AICH (step S903), and receives the uplink data transmitted by the mobile station. (Step S904), the process returns to the preamble reception waiting state of step S901.
- step S902 when the default E-DCH resource configuration assigned to the received preamble is not usable, the base station determines whether or not the preamble waiting counter C exceeds the threshold Cth (step S905). ). In step S905, if the preamble wait counter C exceeds the threshold Cth, the base station determines whether or not an E-DCH configuration other than the default can be used in the E-DCH resource configuration list (step S905). S906).
- step S906 if an E-DCH resource configuration other than the default is available in the E-DCH resource configuration list, one of them is selected, a response notification NACK using AICH, and a default E E-AICH signature and E-AICH signature state are obtained from the offset value between the DCH resource configuration and the selected E-DCH resource configuration, and E-AICH signature pattern corresponding to the E-AICH signature is used.
- -E-AICH including the AICH signature state is transmitted (step S907).
- the base station receives the uplink data transmitted by the mobile station (step S908), and returns to the preamble reception waiting state in step S901.
- step S906 when an E-DCH resource configuration other than the default is not available in the E-DCH resource configuration list, a response notification NACK using AICH and a response notification NACK using E-AICH are notified. (Step S909), the process returns to the preamble reception waiting state in Step S901.
- step 905 if the timing waiting counter C does not exceed the threshold Cth, the base station adds 1 to the timing waiting counter C (step S910), and returns to the preamble reception waiting state in step S901.
- FIG. 8 is a flowchart showing the operation of the mobile station in this embodiment, but it is the same as in the first embodiment, and is omitted.
- two default E-DCH resource configuration groups are set, and the groups used in the even and odd access slots for transmitting the preamble are determined.
- three or more groups are set and the access slots are set. The same effect can be obtained even if the groups to be used are determined in the same number.
- the preamble retransmission interval is an odd access slot
- the preamble is transmitted by repeating the even access slot and the odd access slot.
- the base station can alternately use the default E-DCH resource configuration group.
- the default E-DCH resource configuration group can be used properly by setting three or more groups.
- the mobile station has been described as changing the group to be used according to the timing at which the preamble is transmitted.
- the mobile station may be periodically changed according to a predetermined time.
- a plurality of default E-DCH resource configuration groups are set for one preamble signature, and the mobile station transmits the preamble. According to the timing, the base station uses the default E-DCH resource configuration group properly.
- a plurality of default E-DCH resource configuration groups are set for the preamble signature, and the base station sets the default E-DCH resource configuration group according to the timing at which the mobile station transmits the preamble.
- the processing of the mobile station can be reduced. This improves the probability that the default E-DCH resource configuration can be used by properly using the default E-DCH resource configuration group, and assigns an E-DCH resource configuration other than the default using E-AICH. This is because the frequency can be reduced.
- a plurality of default E-DCH resource configuration groups are set for the preamble signature, and the base station uses the default E-DCH resource configuration group depending on the timing at which the mobile station transmits the preamble. Since the probability that the default E-DCH resource configuration can be used can be improved, it can be expected to reduce the collision probability of the E-DCH resource configuration.
- the present invention can be applied to a wireless communication system in which a plurality of wireless communication devices access a base station using an uplink channel.
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Abstract
Description
20 移動局
101 無線通信部
102 受信処理部
103 送信処理部
104 通信部
105 受信処理部
106 送信処理部
107 リソースコンフィグレーション生成部
108 プリアンブル識別部
109 リソースコンフィグレーション制御部
201 無線通信部
202 受信処理部
203 応答通知処理部
204 送信データ制御部
205 リソースコンフィグレーション保持部
206 送信処理部
207 バッファ
本実施の形態では、プリアンブル・シグネチャ番号とリソースコンフィグレーションの総数または、該総数から求められた値とからデフォルトのリソースコンフィグレーションを決定することを特徴としている。
本実施の形態では、基地局は、プリアンブル・シグネチャごとにデフォルトのリソースコンフィグレーションを複数用意し、デフォルトのリソースコンフィグレーションを算出するためのパラメータの値を複数用意し、前記パラメータの値を選択し、報知することを特徴としている。
本実施の形態では、基地局は、プリアンブル・シグネチャごとに前記デフォルトのリソースコンフィグレーションを複数用意し、デフォルトのリソースコンフィグレーションを算出するためのパラメータの値を複数用意して報知することを特徴としている。
Claims (35)
- 基地局と移動局からなる通信システムであって、
前記基地局は、前記移動局から送信されたプリアンブルを受信し、受信したプリアンブルに対する応答を前記移動局へ送信し、
前記移動局は、前記応答が第一の応答である場合に、リソースコンフィグレーションの総数または、該総数から求められた値を用いて決定した自移動局のデフォルトのリソースコンフィグレーションの少なくとも一部の情報を用いてデータを送信することを特徴とする通信システム。 - 前記移動局は、更に前記プリアンブルに用いるプリアンブル・シグネチャを特定するためのプリアンブル・シグネチャ番号から求められた値を用いて、前記送信に用いる前記デフォルトのリソースコンフィグレーションを決定することを特徴とする請求項1記載の通信システム。
- 前記移動局は、前記プリアンブル・シグネチャ番号をPreIndとし、リソースコンフィグレーションの総数または、該総数からから求められた値をYとして、前記送信に用いる前記デフォルトのリソースコンフィグレーションDindを
Dind = PreInd mod Y
として算出することを特徴とする請求項2記載の通信システム。 - 前記基地局は、前記プリアンブル・シグネチャごとに前記デフォルトのリソースコンフィグレーションを複数用意することを特徴とする請求項1から3いずれか1項記載の通信システム。
- 前記基地局は、前記デフォルトのリソースコンフィグレーションを算出するためのパラメータの値を複数用意し、前記パラメータの値を選択し、報知することを特徴とする請求項4記載の通信システム。
- 前記パラメータは位置オフセットと間隔オフセットからなり、位置オフセットをBi(i=1,・・・、N:Nは自然数)とし、間隔オフセットをCj(j=1、・・・、L:Lは自然数)として、前記基地局は各グループのデフォルトのリソースコンフィグレーションDindを、
Dind = (Cj×PreInd+Bi)mod Y
として算出することを特徴とする請求項5記載の通信システム。 - 前記基地局は、所定の条件を満足した場合に、前記パラメータを他の値に切り替えることを特徴とする請求項5または6記載の通信システム。
- 前記所定の条件は、前記パラメータの値から決定され得るデフォルトのリソースコンフィグレーション数とそのうちの使用中の数とから求められる使用率に基づくことを特徴とする請求項7記載の通信システム。
- 前記基地局は、前記デフォルトのリソースコンフィグレーションを算出するためのパラメータの値を複数用意して報知することを特徴とする請求項4記載の通信システム。
- 前記移動局は、前記報知されたパラメータを保持し、所定の条件に基づいて前記パラメータの値の中から1つを選択することを特徴とする請求項9記載の通信システム。
- 前記所定の条件は、前記プリアンブルを送信するタイミングであることを特徴とする請求項10記載の通信システム。
- 前記プリアンブルに対する応答はAcquisition Indicator Channel(AICH)を用いて送信されることを特徴とする請求項1から11いずれか1項記載の通信システム。
- 前記リソースコンフィグレーションがEnhanced Dedicated Channel(E-DCH)リソースコンフィグレーションであることを特徴とする請求項1から12いずれか1項記載の通信システム。
- リソースコンフィグレーションの総数または該総数から求められた値を用いて決定されたデフォルトのリソースコンフィグレーションを基に、移動局から送信されたプリアンブルに対する応答通知を決定することを特徴とする基地局。
- 前記基地局は、更に前記プリアンブルに用いるプリアンブル・シグネチャを特定するためのプリアンブル・シグネチャ番号から求められた値を用いて、前記応答通知の決定に用いる前記デフォルトのリソースコンフィグレーションを決定することを特徴とする請求項14記載の基地局。
- 前記基地局は、前記プリアンブル・シグネチャ番号をPreIndとし、リソースコンフィグレーションの総数または、該総数からから求められた値をYとして、前記応答の決定に用いる前記デフォルトのリソースコンフィグレーションDindを
Dind = PreInd mod Y
として算出することを特徴とする請求項15記載の基地局。 - 前記基地局は、前記プリアンブル・シグネチャごとに前記デフォルトのリソースコンフィグレーションを複数用意することを特徴とする請求項14から請求項16いずれか1項記載の基地局。
- 前記基地局は、前記デフォルトのリソースコンフィグレーションを算出するためのパラメータの値を複数用意し、前記パラメータの値を選択し、報知することを特徴とする請求項17記載の基地局。
- 前記基地局は、前記デフォルトのリソースコンフィグレーションを算出するためのパラメータの値を複数用意して報知することを特徴とする請求項17記載の基地局。
- 基地局へプリアンブルを送信する移動局であって、
前記移動局は、前記基地局から前記プリアンブルに対する応答を受信し、
前記応答が第一の応答である場合に、リソースコンフィグレーションの総数または該総数から求められた値を用いて、自移動局のデフォルトのリソースコンフィグレーションとして決定したリソースコンフィグレーションの少なくとも一部の情報を用いてデータを送信する
ことを特徴とする移動局。 - 前記移動局は、更に前記プリアンブルに用いるプリアンブル・シグネチャを特定するためのプリアンブル・シグネチャ番号から求められた値を用いて、前記送信に用いる前記デフォルトのリソースコンフィグレーションを決定することを特徴とする請求項20記載の移動局。
- 前記移動局は、前記プリアンブル・シグネチャ番号をPreIndとし、リソースコンフィグレーションの総数または、該総数からから求められた値Yとして、前記送信に用いる前記デフォルトのリソースコンフィグレーションDindを
Dind = PreInd mod Y
として算出することを特徴とする請求項21記載の移動局。 - 前記移動局は、前記基地局から報知されたパラメータに基づいて、前記デフォルトのリソースコンフィグレーションを算出することを特徴とする請求項20から請求項22いずれか1項記載の移動局。
- 基地局の応答決定方法であって、
リソースコンフィグレーションの総数または該総数から求められた値を用いて決定されたデフォルトのリソースコンフィグレーションを基に、移動局から送信されたプリアンブルに対する応答通知を決定することを特徴とする応答決定方法。 - 更に前記プリアンブルに用いるプリアンブル・シグネチャを特定するためのプリアンブル・シグネチャ番号から求められた値を用いて、前記応答通知の決定に用いる前記デフォルトのリソースコンフィグレーションを決定することを特徴とする請求項24記載の応答決定方法。
- 前記プリアンブル・シグネチャ番号をPreIndとし、リソースコンフィグレーションの総数または、該総数からから求められた値をYとして、前記応答の決定に用いる前記デフォルトのリソースコンフィグレーションDindを
Dind = PreInd mod Y
として算出することを特徴とする請求項25記載の応答決定方法。 - 前記基地局は、前記プリアンブル・シグネチャごとに前記デフォルトのリソースコンフィグレーションを複数用意することを特徴とする請求項24から請求項26いずれか1項記載の応答決定方法。
- 前記基地局は、前記デフォルトのリソースコンフィグレーションを算出するためのパラメータの値を複数用意するステップと、前記パラメータの値を選択するステップと、報知するステップとを有する請求項27記載の応答決定方法。
- 前記基地局は、前記デフォルトのリソースコンフィグレーションを算出するためのパラメータの値を複数用意するステップと、報知するステップとを有する請求項27記載の応答決定方法。
- 移動局のリソースコンフィグレーション決定方法であって、
リソースコンフィグレーションの総数または該総数から求められた値を用いて、デフォルトのリソースコンフィグレーションを決定することを特徴とするリソースコンフィグレーション決定方法。 - 更に前記プリアンブルに用いるプリアンブル・シグネチャを特定するためのプリアンブル・シグネチャ番号から求められた値を用いて、前記デフォルトのリソースコンフィグレーションを決定することを特徴とする請求項30記載のリソースコンフィグレーション決定方法。
- 前記プリアンブル・シグネチャ番号をPreIndとし、リソースコンフィグレーションの総数または、該総数からから求められた値をYとして、前記応答の決定に用いる前記デフォルトのリソースコンフィグレーションDindを
Dind = PreInd mod Y
として算出することを特徴とする請求項31記載のリソースコンフィグレーション決定方法。 - 前記移動局は、前記基地局から報知されたパラメータに基づいて、前記デフォルトのリソースコンフィグレーションを算出することを特徴とする請求項30から請求項32いずれか1項記載のリソースコンフィグレーション決定方法。
- 情報処理装置に処理を実行させるプログラムであって、
前記プログラムは、前記情報処理装置にリソースコンフィグレーションの総数または該総数から求められた値を用いたデフォルトのリソースコンフィグレーションを基に、移動局から送信されたプリアンブルに対して基地局から送信する応答通知を決定する処理を実行させることを特徴とするプログラム。 - 情報処理装置に処理を実行させるプログラムであって、
前記プログラムは、前記情報処理装置にリソースコンフィグレーションの総数または該総数から求められた値を用いて、移動局におけるデフォルトのリソースコンフィグレーションを決定する処理を実行させることを特徴とするプログラム。
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US14/037,007 Continuation US8942132B2 (en) | 2008-03-19 | 2013-09-25 | Communication system, mobile station, base station, response decision method, resource configuration decision method, and program |
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