RU2007148475A - PACKING PLANNING IN A RADIO ACCESS SYSTEM - Google Patents

Abstract

1. A method of scheduling data for transmission through a wireless radio access network interface, said data being transferred via a wireless interface over a shared downlink channel, comprising the steps of! receiving data in the form of upper layer data blocks in a radio network controller; ! segmenting and / or combining said upper layer data blocks into protocol data blocks; ! redirecting said protocol data units from a radio network controller to a radio base station serving one or more user terminals, the radio network controller also determining for a radio base station the boundaries of upper layer data blocks in the protocol data blocks; and! each protocol data unit or its subunits are planned at the radio base station for transmission via a wireless interface, depending on the upper level unit (s) to which the data contained in the protocol data unit or subunit belongs. ! 2. The method of claim 1, wherein said step of determining protocol data units belonging to the upper layer data unit for the base radio station is performed using in-band signaling. ! 3. The method according to claim 2, comprising the step of including in the header of the frame of the user plane for each upper-level data block an indicator of the length of the upper-level data block indicating the beginning and end of the sequence of protocol data blocks belonging to the upper-level data block. ! 4. The method according to claim 1, in which for each top-level data block all protocol data blocks belonging to

Claims (14)

1. A method of scheduling data for transmission through a wireless radio access network interface, said data being transferred via a wireless interface over a shared downlink channel, comprising the steps of: receive data in the form of upper-level data blocks in a radio network controller; segmenting and / or combining said upper layer data blocks into protocol data blocks; redirecting said protocol data units from a radio network controller to a radio base station serving one or more user terminals, the radio network controller also determining for a radio base station the boundaries of upper layer data blocks in the protocol data blocks; and each protocol data unit or its subunits are planned at the radio base station for transmission via a wireless interface, depending on the upper level unit (s) to which the data contained in the protocol data unit or subunit belongs. 2. The method of claim 1, wherein said step of determining protocol data units belonging to the upper layer data unit for the base radio station is performed using in-band signaling. 3. The method according to claim 2, comprising the step of including in the header of the frame of the user plane for each upper-level data block an indicator of the length of the upper-level data block indicating the beginning and end of the sequence of protocol data blocks belonging to the upper-level data block. 4. The method according to claim 1, in which for each top-level data block all protocol data blocks belonging to this top-level data block are included in the same frame of the user plane. 5. The method according to any one of claims 1 to 4, in which said radio access network is a third generation (3G) network or 3G development. 6. The method of claim 5, wherein said downlink shared channel is a high speed downlink shared channel, and the interface between the radio network controller and the radio base station is a lub interface. 7. The method according to claim 6, wherein said step of determining protocol data units belonging to a common top-level data unit for a base station comprises the step of implicitly or explicitly determining this information in frames lub / lur of the user plane or in frame structure. 8. The method according to claim 6 or 7, in which said radio access network is a 3G network, and said step in which protocol data units for transmission via a wireless interface are planned, comprises one of the steps of prioritize MAC-hs queues, including partially sent service data units of the radio control layer (RLC SDU), over queues containing only completely unsent RLC SDUs; prioritize MAC-hs queues, which include, on average, small RLC SDUs, over those MAC-hs, which include, on average, relatively large RLC SDUs; in all circumstances, sufficient resources are planned for each MAC-hs queue to fully transmit at least one RLC SDU from the MAC-hs queue; or selecting one or more transport block sizes for the downlink shared channel, suitable for moving one or more full RLC SDUs for a given MAC-hs queue. 9. The method according to claim 1, in which said step, which is planned, also takes into account the quality of the communication line for a given user. 10. A radio network controller for use in a radio access network, comprising an input device for receiving data in the form of upper-level data blocks in a radio network controller; a processor for segmenting and / or combining said upper layer data blocks into protocol data blocks; and transmission means for redirecting said protocol data units to a radio base station serving one or more user terminals, moreover, said processor is configured to determine for a radio base station the boundaries of upper layer data blocks in protocol data blocks. 11. A radio base station for use in a radio access network, comprising an input device for receiving protocol data units sent by the radio network controller; a processor for determining from the information sent to the base station by the radio network controller, the boundaries of the upper level data blocks in the protocol data blocks, and for scheduling each protocol data block or its subunits for transmission through a wireless interface depending on the upper level data block to which the data belongs, contained in a protocol data unit or subunit. 12. A method for transmitting data via a wireless radio access network interface, said data being transferred via a wireless interface over a shared downlink channel, comprising the steps of: receive data in the form of upper-level data blocks in a radio network controller; loading each top-level data block into a corresponding protocol data block; redirecting said protocol data units from a radio network controller to a radio base station serving one or more user terminals; and received radio protocol data blocks are segmented at the radio base station into data blocks, and each data block is planned for transmission via a wireless interface depending on the upper layer block to which it belongs. 13. The method of claim 12, wherein said protocol data units are of variable length, the length being dynamically selected to accommodate upper level data units. 14. A radio base station for use in a radio access network, comprising an input device for receiving protocol data units sent by the radio network controller, wherein each protocol data unit contains only one top-level data unit; and a processor for segmenting received protocol data units into data units, and for scheduling each data unit for transmission through a wireless interface depending on the top-level unit to which it belongs.