KR20020014941A - Hybrid automatic repeat request of downlink shared channel transport using forward link access channel - Google Patents

Abstract

PURPOSE: A hybrid ARQ method of a DSCH(Downlink Shared Channel) transmission using an FACH(Forward Access Channel) is provided to easily adjust data synchronization between an MAC(Medium Access Control)_C/SH layer and an MAC_D layer, by transmitting user data of a base station and a TFI(Transmit Format Indicator) for a DSCH to a base station physical layer with the DSCH, and by transmitting side information with the FACH, then by transmitting a TFI for a D channel to the base station physical layer. CONSTITUTION: A radio control link layer of an RNC(Radio Network Control) transmits user data and side information to an MAC(Medium Access Control)-D layer with different DT(Dedicated Traffic) channels. The MAC-D layer of the RNC transmits user data and side information to an MAC-C/SH layer with different DT channels. A MAC-S/CH layer of the RNC transmits user data and TFI(Transmit Format Indicator) to a base station with a DS(Downlink Shared) channel, and transmits side information with an FA(Forward Access) channel. The user data received in the base station is transmitted to physical layers of each terminal with a PDS(Physical Downlink Shared) channel. The side information is transmitted to the physical layers with an S-SCCP(Secondary-Common Control Physical) channel.

Description

HYBRID AUTOMATIC REPEAT REQUEST OF DOWNLINK SHARED CHANNEL TRANSPORT USING FORWARD LINK ACCESS CHANNEL}

The present invention relates to a hybrid automatic retransmission request (HARQ) scheme of an asynchronous mobile communication system, and to a hybrid ARQ method of DSCH transmission using FACH in a wideband CDMA system.

In the 3rd generation asynchronous mobile communication system using the wideband-code division multiple access method (W-CDMA), a medium access control protocol (MAC) between a UE and a mobile communication network (NodeB & RNC) is used to wirelessly transmit at a higher layer. It relates to transmitting data in intervals.

To this end, in order to operate the hybrid automatic retransmission request (HARQ) schemes 2 and 3, a sequence number, redundancy version, and logical channel identification information are transmitted when a user data field is transmitted. It also sends side imfomation such as).

The data flow in which such user data and side information are transmitted from a radio network controller (RNC) to a user equipment (UE) through a base station NodeB-L1 is illustrated in FIGS. 1 and 2.

There are two conventional HARQ methods of data transmitted on downlink shared channel (RNC → NodeB-L1). As shown in FIG. 1, HARQ user data and side information are transmitted on one PDS (Physical Downlink Shared Channel). As shown in FIG. 2, HARQ user data and side information are transmitted along a PDS channel (PDSCH) and a DP channel (DPCH: Dedicated Physical CHannel).

Referring to FIG. 1, a method of transmitting HARQ user data and side information through a single PDS channel may include user data and a different DT channel from a radio link control layer (RNC-RLC) of a radio network controller. Side information is transmitted to the MAC-D layer of the radio network controller.

The MAC-D layer of the wireless network controller is a medium access control-d layer, which is a MAC entity that handles a dedicated logical channel and a dedicated transport channel. The user data and side information received in the MAC-D layer are transmitted to the MAC-C / SH layer of the radio network controller through different DT channels.

Then, the MAC-C / SH layer of the radio network controller shares a paging channel, a forward access channel, a random access channel, a common packet channel, and downlink sharing. A MAC entity that is responsible for a downlink shared CH, and schedules user data and side information to be transmitted to a downlink shared CH, and then transmits user data and side information to different DS channels. Transmit to layer (NodeB-L1).

At this time, the MAC-C / SH layer transmits the transport format identification information (TFI: TFI1, TFT2) to the MAC-D layer. This transport format identification information includes format information of two transport channels for transmitting user data and side information, and contains code mapping information of a PDS channel. The transmission format identification information (TFI1, TFI2) is transmitted to the base station physical layer on the D channel (Dedicated CH).

The base station physical layer transmits user data and side information received on different DS channels to the physical layer (UE-L1) of the terminal through the PDS channel, and transmits a TFCI (Transport Format Combination Indicator) to the DP channel. It transmits to the physical layer (UE-L1) respectively.

That is, in the medium access control protocol (MAC) between the base station NodeB & RNC and the UE, the user data and side information data pass through the MAC-C / SH layer through the MAC-D layer and then go to the base station physical layer. TFI information about the DS channel including user data and side information is transmitted to the MAC-D layer and transmitted to the base station on the D channel which transmits user-specific information in the MAC-D layer. It is delivered to the UE through the TFCI field.

At this time, the TPCI field is a Transport Format Combination Indicator. The TPCI field is mapped one-to-one with a TFC (Transport Format Combination) to inform the current TFC, and information carried on several transport format identification information (TFI: TFI1, TFI2) is transmitted.

Here, the base station and the wireless network controller is connected to the lub interface, the base station physical layer and the terminal physical layer (UE-L1) communicates via the Uu interface. And, between the layers of each radio network controller (RNC) is connected by a lur interface.

Meanwhile, FIG. 2 shows HARQ user data and side information transmitted along a PDS channel and a DP channel, respectively. As shown in FIG. 2, HARQ user data and side transmitted from a radio link control layer of a radio network controller to different DT channels are shown. Information is received at the MAC-D layer of the radio network controller.

In the MAC-D layer, HARQ user data is transmitted to the MAC-C / SH layer and scheduled and then transmitted to the physical layer (NodeB-L1) of the base station through the DS channel, and the side information is transmitted to the MAC-D of the wireless network controller. Wait in the hierarchy

When the MAC-D layer receives the transmission format identification information (TFI2) for the HARQ user data from the MAC-C / SH layer to the DS channel, the MAC-D layer transmits the side information and the transmission format information thereof to different D channels. TFI2) and transmission format identification information (TFI1) for the D-channel, respectively, to the base station physical layer (NodeB-L1).

The base station physical layer NodeB-L1 transmits user data to the PDS channel and side information to the terminal physical layer UE-L1 through the TFCI field of the DP channel. In this case, all information contained in the transmission format identification information (TFI: TFI1, TFI2) is transmitted in one TFCI.

However, in the related art, when there is a lur interface between the MAC-C / SH layer and the MAC-D layer of the wireless network controller, the side information or the TFI information must pass through the lur interface. It is not easy to synchronize the data to be transmitted. That is, when the wireless network controller having the MAC-C / SH layer and the MAC-D layer is different, the transmission format identification information is transmitted from the MAC-C / SH layer to the MAC-D layer, thereby delaying synchronization between transmitted data. Will occur.

The present invention has been made to solve the above-described problems, the user data and side information from the MAC-D layer of the base station is transmitted to the MAC-C / SH layer in the DT channel, respectively, the transmission of the user data and DC channel By transmitting the format identification information to the base station physical layer using the DC channel and side information using the FA channel, the MAC-C / SH layer and the MAC-D layer when the lur interface is used between the layers of the wireless network controller. An object of the present invention is to provide a hybrid ARQ method of DSCH transmission using an FACH to synchronize data between two nodes.

1 is a data flow diagram illustrating a method for transmitting hybrid ARQ user data and side information as a first embodiment of the prior art.

2 is a data flow diagram illustrating a method for transmitting hybrid ARQ user data and side information in a second conventional embodiment.

3 is a data flow diagram illustrating a hybrid ARQ method for DSCH transmission using a FACH in accordance with the present invention.

In order to achieve the above object, the hybrid ARQ method of the DSCH transmission using the FACH according to the present invention,

Transmitting user data and side information to the MAC-D layer in different DT channels in the radio control link layer of the radio network controller, respectively;

Transmitting user data and side information from the MAC-D layer of the radio network controller to the MAC-C / SH layer on different DT channels after the step;

Transmitting user data and transmission format identification information to a DS channel and side information to a FA channel at a MAC-C / SH layer of the radio network controller after the step;

The user data received at the base station is transmitted to the physical layer of the terminal in the PDS channel, side information in the S-SCCP channel, respectively.

Preferably, the base station transmits the transmission identification information transmitted from the MAC-D layer of the radio network controller to the D channel and the transmission format identification information transmitted from the DS channel of the MAC-C / SH layer to the physical layer of the terminal through the DP channel. It is characterized by.

In the present invention, the user data is transmitted through the DS channel, the side information is transmitted to the MAC-C / SH layer through the FA channel, and the TFK information of the FA channel through which the side information is transmitted is transmitted through the FA channel.

The hybrid ARQ method of DSCH transmission using the FACH according to the present invention as described above will be described with reference to FIG. 3.

The radio link control layer of the radio network controller transmits user data and side information to the MAC-D layer through different DT channels, and the MAC-D layer transmits user data and side information to the different DT channels. Send to / SH layer.

The MAC-C / SH layer of the wireless network controller schedules and transmits user data and transmission format identification information (TFI2) thereof to the base station physical layer using a DS channel, and transmits side information to the base station physical layer using a FA channel. Send it to the layer.

At this time, in the MAC-D layer, transmission format identification information (TFI1) for the D channel is transmitted using the D channel.

Then, the base station physical layer transmits the user data to the physical layer of the terminal including the PDS channel, transmits the TFCI field to the DP channel, and transmits side information to the S-CCP channel (Secondary-Common Control Physical), respectively. Do it.

As such, user data transmitted to the terminal physical layer is transmitted as a DS channel, side information is transmitted as a FA channel to the MAC-C / SH layer of the terminal, and transmission format identification information (TFI2) for the DC channel is stored in the DS channel. The transmission format identification information (TFI1) for the D channel is transmitted to the MAC-C / SH layer on the D channel. Then, TFCI information including information of TFI1 and TFI2 is transmitted to the DP channel.

As described above, the hybrid ARQ method of the DSCH transmission using the FACH according to the present invention transmits the user data of the base station and transmission format identification information for the DS channel to the base station physical layer on the DS channel, the side information to the FA channel By transmitting the transmission format identification information for the D channel to the base station physical layer on the DS channel, the side information and the transmission format identification information of the DS channel do not have to go through different lur interfaces between the base station wireless network controllers. Therefore, the synchronization between the data transmitted through the MAC-C / SH layer and the MAC-D layer can be easily adjusted.

Claims (2)

Transmitting user data and side information to the MAC-D layer in different DT channels in the radio control link layer of the radio network controller, respectively; Transmitting user data and side information from the MAC-D layer of the radio network controller to the MAC-C / SH layer on different DT channels after the step; Transmitting user data and transmission format identification information to a DS channel and side information to a FA channel at a MAC-S / CH layer of the radio network controller after the step; The user data received by the base station is a PDS channel, side information is transmitted to the physical layer of the terminal in the S-SCCP channel, respectively, hybrid ARQ method using the FACH. The method of claim 1, The base station physical layer transmits the transmission format identification information of the D channel transmitted from the MAC-D layer of the radio network controller and the transmission format identification information of the DS channel of the MAC-C / SH layer to the physical layer of the terminal through the DP channel. Hybrid ARQ method of the DSCH transmission using the FACH characterized in that.