JP5007347B2 - Uplink scheduling access control method - Google Patents

Description

  The present invention relates to the field of wireless communication, and more particularly to an uplink scheduling access control method, and is used for a time division duplex (TDD) system including a time division synchronous code division multiple access system.

  In the uplink enhancement type technology of TD-SCDMA (Time Division-Synchronous Multiple Access) wireless communication system, which is one of the third generation mobile communication system standards, the uplink enhanced service resource is: Allocated in a scheduling manner by Node B. When a user equipment UE (User Equipment) needs to transmit uplink data in an uplink-enhanced manner, the UE first applies for uplink scheduling, and then the Node B authenticates the uplink-enhanced service resource. It is necessary to wait before being sent. Uplink scheduling access is the process by which the UE sends an uplink scheduling application to the Node B in the case of unauthenticated uplink enhanced service resources. In the TD-SCDMA system, the application process is generally realized in a random access manner.

  In the TD-SCDMA system, the random access process is controlled and completed together with a MAC (Media Access Control) layer and a physical layer. After introducing uplink enhanced technology, the MAC layer is controlled by two different entities for different random access requests, where the MAC-c / sh entity (common / shared MAC layer control entity) The random access request triggered on the channel RACH (Random Access Channel) is controlled, and the MAC-e entity (uplink enhanced MAC layer control entity) controls the random access request for uplink scheduling access.

  In a TD-SCDMA system, the random access process further includes two preceding and following processes: an uplink synchronization process and a data transmission process. In the uplink synchronization process, the uplink synchronization code (uplink synchronization code is also referred to as signature) selection, transmission and reception processes include uplink common channel resource / physical random access channel (PRACH) in the random access process. ) The shared sharing allocation mode was intensively expressed. Therefore, different uplink synchronization codes are arranged for the two different random access requests, but it is possible to share the same PRACH physical channel resource and its arrangement. When the MAC issues a random access request, it is necessary to transmit the random access type to the physical layer.

  In the random access process, it provides different priorities for different services and types of random access requests. In the TD-SCDMA system, the random access priority is expressed as an access service level, that is, an ASC (Access Service Class). In the TD-SCDMA system, a plurality of PRACH physical channel resources having different attributes can be simultaneously arranged, and a transmission time interval is included therein. In the random access process of the TD-SCDMA system, the ASC and the transmission format are generally selectively controlled by the MAC layer entity. When the MAC entity issues a random access request to the physical layer to trigger the physical layer random access process, it transmits the selected ASC and transmission format to the physical layer. Thereafter, the physical layer selects a corresponding PRACH physical channel resource and transmits random access information based on the ASC, the transmission format, and the random access resource arrangement.

  In the uplink enhanced technology of TD-SCDMA system, the physical channel defined for the random access process of uplink scheduling access is an uplink enhanced random access uplink control channel (E-DCH Random Access Uplink Control Channel, E-RUCCH), which shares the same physical channel resource and its arrangement with the PRACH physical channel previously defined for RACH random access, where the arrangement is a wireless network Information transmitted to the UE by the cell system information broadcast and NBAP arranged by the controller RNC (Radio Network Controller) Including information transmitted to the Node B. However, random access for uplink scheduling access is often different from RACH random access. Accordingly, it is possible to provide a control method for uplink scheduling access in order to realize control for a random access process of uplink scheduling access and share the same PRACH physical channel resource and its arrangement together with the RACH random access process. is necessary.

  A technical problem to be solved by the present invention is to provide an uplink scheduling access control method, which is used in a time division duplex system including a time division synchronous code division multiple access system, and random access of uplink scheduling access. Achieve control over the process.

  In order to solve the above technical problem, the present invention is an uplink scheduling access control method, wherein (1) an uplink enhanced media access control MAC layer control entity on a user equipment UE side The transmission format of the enhanced access, the access service level ASC, and the uplink scheduling information are arranged, the random access type is arranged to be the uplink enhanced random access, and (2) the uplink enhanced MAC layer control on the UE side The entity issues a random access request to the physical layer, and carries the transmission format, ASC, random access type, and uplink scheduling information in the request, and (3) the physical layer on the UE side receives the received random access On request An uplink comprising selecting a corresponding uplink synchronization code and a physical random access channel resource based on the associated transmission format, ASC and random access type, issuing a random access process, and transmitting uplink scheduling information A scheduling access control method is provided.

  Further, the transmission format is arranged in one of the transmission format and / or transmission time interval for uplink-enhanced random access in the system information transmitted to the UE by the cell system information broadcast by the radio network controller RNC. In step (1), the uplink enhanced MAC layer control entity on the UE side sets the transmission format to the transmission format indicated in the system information or the transmission time interval indicated in the system information. The transmission format is arranged to have

  Further, in the step (1), the transmission format is arranged in such a manner that the UE-side uplink enhanced MAC layer control entity determines the number of transmission formats of the random access channel in the UE identifier and system information. Based on the modulo operation (mode), one kind of transmission format to be arranged is selected, or the UE-side uplink enhanced MAC layer control entity transmits the random access channel in the UE identification and system information. Based on the number of time intervals, modulo operation is performed, one type of transmission time interval is selected, and one type of transmission format having the transmission time interval is selected and arranged.

  Further, the UE identification is one or a combination of international mobile user identification, universal mobile communication system radio network temporary identification, and cell radio network temporary identification.

  Further, in the step (1), the UE-side uplink enhanced MAC layer control entity automatically selects one transmission format from a plurality of types of transmission formats having different transmission time intervals in the system information. select.

  Further, the UE-side uplink enhanced MAC layer control entity selection mode for the transmission format includes random selection, selection based on service priority and / or transmission format priority, and transmission time interval in the transmission format. Selection based on length, or a combination of the above aspects.

  Further, in the step (1), the arrangement of the ASC is such that the uplink enhanced MAC layer control entity on the UE side includes the ASC arranged in the cell and the current uplink enhanced access request. Based on the MAC logic channel priority MLP of all the service logic channels involved at times, the ASC of the current uplink enhanced access request is determined.

  Further, the lowest priority ASC among all available ASCs of the cell is compared with the highest priority MLP among the MLPs of all logic channels, and the uplink enhanced MAC on the UE side is compared. The layer control entity selects one of these two higher priorities as the ASC for the uplink enhanced access request.

  Furthermore, the arrangement state of the ASC is that the radio resource control layer arranges the ASC of the current uplink enhanced access request with system information or radio resource control layer information, and the uplink on the UE side in step (1) The augmented MAC layer control entity directly uses the ASC.

  Furthermore, the system using the uplink scheduling access control method is a time division duplex system including a time division synchronous code division multiple access system.

  The method clarifies the parameters that need to be arranged in the random access process of the uplink scheduling access control and the arrangement method thereof, and provides a method in which the physical layer performs the random access process control based on these parameters. Accordingly, the uplink scheduling access control problem in the uplink enhancement technology can be solved.

FIG. 1 is a flowchart of an embodiment of the present invention.

  Hereinafter, the present invention will be described in detail mainly for a TD-SCDMA system, with reference to the drawings and specific examples.

  As shown in FIG. 1, the present embodiment includes the following steps. Although this is for convenience of explanation, there is a possibility that the procedure in which Step 1, Step 2 and Step 3 are performed may be reversed. Absent.

  Step 1: The uplink enhanced MAC layer control entity on the UE side arranges the transmission format of the current uplink enhanced access, and mainly arranges the transmission time interval therein.

  In the uplink enhanced technology of TD-SCDMA system, the random access process of uplink scheduling access shares the same PRACH physical channel resource and its arrangement with the RACH random access process, where the cell located in the RNC In the information transmitted to the UE by the system information broadcast, the arrangement of the PRACH physical channel resources is arranged based on the transmission format of the RACH transmission channel, and the RACH of a plurality of types of transmission formats and the corresponding PRACH physical channel resources are arranged. Can be placed at the same time. Therefore, in the RACH random access process, the UE-side uplink enhanced MAC layer control entity determines the transmission time interval (TTI), transmission block size, transmission based on the location information and the service data to be transmitted by the RACH. It is necessary to select an appropriate transmission format including the number of blocks. However, in the random access of the uplink scheduling access, that is, in the E-RUCCH random access process, it is not necessary to transmit service data, and information that needs to be transmitted is scheduling information, and its format is fixed. Therefore, the content may be different, and therefore a corresponding transmission format is not arranged for E-RUCCH random access. However, in order to share the same PRACH physical channel resource and its arrangement and data transmission process together with the RACH random access process in the physical layer, the UE side uplink enhanced MAC layer control entity makes an E-RUCCH random access request to the physical layer. When transmitting a message, the transmission format must be indicated. In the physical layer random access process, what is concerned with control is mainly the transmission time interval in the transmission format, so that the UE side uplink enhanced MAC layer control entity really needs for E-RUCCH random access. Select the transmission time interval and confirm, then select one transmission format based on the transmission time interval and system information arrangement, or when selecting the transmission format, select the transmission time interval in the main selection contents And In the E-RUCCH random access request information transmitted to the physical layer, the transmission block size and the number of transmission blocks in the transmission format have no practical meaning, and the physical layer may be ignored.

  However, since there is no service data transmission block in E-RUCCH random access, the transmission format and its transmission time interval cannot be selected based on the size and number of transmission blocks. In the case of a transmission format in which a plurality of types of transmission time intervals are arranged, the UE-side uplink enhanced MAC layer control entity follows one of the following methods, and the transmission format and the transmission time at the time of E-RUCCH random access: An interval can be selected.

  Method 1: In the system information transmitted to the UE by the cell system information broadcast arranged in the RNC, one type of transmission format and its transmission time interval are set as E among a plurality of types of transmission formats having different transmission time intervals. -Place and indicate for RUCCH random access. Thereafter, the UE-side uplink enhanced MAC layer control entity can perform E-RUCCH random access by selecting the transmission format and the corresponding transmission time interval based on the system information. In the system information, only the transmission format or transmission time interval is arranged and indicated, and the UE-side uplink enhanced MAC layer control entity directly selects the transmission format in the system information or sets the transmission time interval in the system information. Based on this, a kind of transmission format having the transmission time interval may be selected.

  Method 2: The UE-side uplink enhanced MAC layer control entity selects one transmission format based on the number of RACH transmission formats or transmission time intervals in the UE identification and system information, or one transmission time interval. And one type of transmission format having the transmission time interval is selected. Here, the UE identification includes IMSI (International Mobile Subscriber Identifier), U-RNTI (All-Station Mobile Communication System Radio Network Temporary Identification), C-RNTI (Cell Radio Network Temporary Identification), etc. Is possible. Specifically, for example, for N transmission formats whose transmission format numbers are 0, 1,..., N−1, the number of the result of the IMSI mod N of the UE (the remainder obtained by dividing IMSI by N) is numbered. Select the transmission format as

  Method 3: The UE-side uplink enhanced MAC layer control entity selects one transmission format from a plurality of types of transmission formats having different transmission time intervals in the system information. The method further includes random selection, selection based on service priority and / or transmission format priority, selection based on the length of the transmission time interval in the transmission format, or a combination of these methods. be able to. For example, the transmission format with the highest priority is selected, or the transmission format with the shortest transmission time interval is selected.

  Step 2: The UE-side uplink enhanced MAC layer control entity arranges the ASC for this uplink enhanced access request. The ASC is determined by the UE-side uplink enhanced MAC layer control entity based on the lowest priority ASC placed in this cell and the service logic channel priority at the time of this uplink enhanced access request. It may be determined by system information or RRC message by the RRC (Radio Resource Control) layer and used directly by the UE side uplink enhanced MAC layer control entity.

  In the TD-SCDMA system, all available ASCs are arranged in the system information for each cell. Here, the smaller the ASC value, the higher the priority. On the other hand, one MAC logic channel priority (MLP) is arranged for each service logic channel in processes such as radio bearer establishment / relocation of RRC (Radio Resource Control) messages. Since uplink scheduling access is related to a certain service and can include multiple logic channels, the UE-side uplink enhanced MAC layer control entity is based on these two types of location information, and the uplink enhanced type The ASC of the access request can be selected and confirmed. For example, two types of priority allocation information can be compared (comparability is the same as the definition of two types of priority information, the numerical values are the same, and the method of use is the same. A different concept and a different concept is defined), the lowest priority ASC of all available ASCs, and the highest priority MLP of all logic channel MLPs. From the two priorities, a higher priority is selected as the ASC of the uplink enhanced access request. The RRC layer allocates the ASC used for the uplink enhanced access request for the UE by the system information or the RRC message, and the UE side uplink enhanced MAC layer control entity directly uses the ASC. May be.

  Step 3: The uplink enhanced MAC layer control entity on the UE side arranges the random access type to be uplink enhanced random access and arranges uplink scheduling information.

  In the TD-SCDMA system, different uplink synchronization codes are arranged for the two different random access requests, but share the same PRACH physical channel resource and its arrangement. Therefore, when the MAC issues a random access request, it is necessary to transmit the random access type to the physical layer.

  Uplink scheduling information (SI) to be transmitted to the E-RUCCH random access process except that it is necessary to include the transmission format, ASC, and random access type in the random access request message transmitted to the physical layer. Needless to say, it is also necessary to include. The uplink scheduling information is arranged by an uplink enhanced MAC layer control entity on the UE side.

  Step 4: The uplink enhanced MAC layer control entity on the UE side issues a random access request to the physical layer. The request message includes the contents confirmed and arranged in steps 1, 2 and 3.

  Step 5: The UE physical layer selects an appropriate uplink synchronization code and PRACH physical resource based on the transmission format, ASC, and random access type, issues a random access process, and transmits uplink scheduling information. .

  After receiving the random access request, the physical layer on the UE side selects an appropriate uplink synchronization code and PRACH physical resource based on the transmission format in the request message, the ASC, the random access type, and the arrangement information in the system information. Issue a random access process. The random access process is similar to the random access process prior to the introduction of uplink enhanced technology in the TD-SCDMA system in the 3GPP (3rd Generation Mobile Communications Partner Project) standard.

  All the arrangement information in the system information used for the MAC layer and the physical layer on the UE side is arranged in the MAC layer and the physical layer after the system information is received by the RRC layer on the UE side.

  Given the similarity of uplink enhanced technology, the method of the present invention can be applied to other systems' uplink enhanced technology in the conventional 3GPP specification, eg 3.84 Mcps TDD (Time Division Duplex), 7 It can also be applied to a .68 Mcps TDD system.

  The method clarifies the parameters that need to be arranged in the random access process of the uplink scheduling access control and the arrangement method thereof, and provides a method in which the physical layer performs the random access process control based on these parameters. Accordingly, the uplink scheduling access control problem in the uplink enhancement technology can be solved.

Claims (10)

An uplink scheduling access control method comprising:
(1) Uplink enhanced media access control MAC layer control entity on the user equipment UE side arranges the transmission format, access service level ASC, and uplink scheduling information of this uplink enhanced access, and the random access type Are arranged for uplink-enhanced random access,
(2) The uplink enhanced MAC layer control entity on the UE side issues a random access request to the physical layer, and carries the transmission format, ASC, random access type, and uplink scheduling information in the request,
(3) The UE physical layer selects a corresponding uplink synchronization code and physical random access channel resource based on the transmission format carried in the received random access request, the ASC, and the random access type, and performs random access. An uplink scheduling access control method including issuing a process and transmitting uplink scheduling information. The arrangement of the transmission format is as follows:
In the system information transmitted by the radio network controller RNC to the UE by cell system broadcast, one type of transmission format and / or transmission time interval for uplink-enhanced random access is arranged and indicated,
In step (1), the uplink enhanced MAC layer control entity on the UE side changes the transmission format to the transmission format indicated in the system information or the transmission format having the transmission time interval indicated in the system information. The method according to claim 1, wherein the method is arranged. In the step (1), the arrangement of the transmission format is as follows:
The UE-side uplink enhanced MAC layer control entity performs a modulo operation based on the UE identification and the number of transmission formats of the random access channel in the system information, and selects one transmission format to be arranged,
Alternatively, the UE-side uplink enhanced MAC layer control entity performs a modulo operation based on the UE identification and the number of transmission time intervals of the random access channel in the system information, and selects one type of transmission time interval, The method according to claim 1, wherein one transmission format having the transmission time interval is selected and arranged.   The method according to claim 3, wherein the UE identification is one or a combination of international mobile user identification, all-station mobile communication system radio network temporary identification, and cell radio network temporary identification.   In the step (1), the UE-side uplink enhanced MAC layer control entity selects one transmission format from a plurality of transmission formats having different transmission time intervals in the system information. The method of claim 1, wherein:   The UE-side uplink enhanced MAC layer control entity selection mode for the transmission format includes random selection, selection based on service priority and / or transmission format priority, and the length of the transmission time interval in the transmission format. 6. The method according to claim 5, wherein the selection is based on the above or a combination of the above aspects. In the step (1), the arrangement of the ASC is as follows.
The uplink enhanced MAC layer control entity on the UE side is based on the ASC arranged in this cell and the MAC logic channel priority MLP of all service logic channels related to this uplink enhanced access request, The method of claim 1, comprising determining an ASC for a current uplink enhanced access request.   Compare the lowest priority ASC among all available ASCs in this cell with the highest priority MLP of all logic channel MLPs, and the uplink enhanced MAC layer control entity on the UE side 8. The method of claim 7, wherein the method selects one higher priority from these two as the ASC of the uplink enhanced access request. The arrangement of the ASC is as follows:
The radio resource control layer arranges the ASC of the current uplink enhanced access request with system information or radio resource control layer information, and the uplink enhanced MAC layer control entity on the UE side in step (1) The method according to claim 1, wherein ASC is used directly.   The method according to any one of claims 1 to 9, wherein the system in which the uplink scheduling access control method is used is a time division duplex system including a time division synchronous code division multiple access system.

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