KR100556488B1 - method for controlling the packet transmission, which is based on reverse link common channel - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mobile communication system, and in particular, initial transmission of a frame transmitted on a reverse link common channel (RCCH) in a next generation mobile communication system using a code division multiple access (hereinafter, abbreviated as CDMA) scheme. A frame transmission control method for appropriately controlling timing.

To this end, the present invention provides a packet transmission control method suitable for minimizing inter-packet interference when transmitting packets in a time-divided reverse link common channel (RCCH) to a plurality of users.

Reverse Link Common Channel (RCCH)

Description

Method for controlling the packet transmission, which is based on reverse link common channel

1 shows a reverse link common channel (RCCH) time-divided frame by frame for each user;

2 is a diagram illustrating a multi-user packet transmission scenario in a time-linked reverse link common channel (RCCH) in units of frames.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mobile communication system. In particular, in a next generation mobile communication system using a CDMA scheme, a packet transmission control method for appropriately controlling initial timing of transmission of each user packet transmitted on a reverse link common channel (RCCH) time-divided in units of frames. It is about.

In general, interference occurs between each reverse link channel assigned to multiple users. In particular, the channel allocated for high speed data service uses high transmit power, which is a serious obstacle to the channel allocated for low speed voice service.

In addition, serious noise may occur due to the overlapping of packets of users between reverse link channels allocated for packet data service. This is because each user is assigned a corresponding channel on a frame basis.

Therefore, the next generation mobile communication system based on CDMA technology uses a reverse link common channel (RCCH) shared by multiple users to more efficiently use the power resources used for the reverse link channel.

Since the reverse link common channel (RCCH) is shared by multiple users, the probability of interference between users increases.

For example, when the reverse link common channel (RCCH) is time-divided in units of frames and assigned or reassigned to each user, overlapping of the user packet located at the base station with another user packet located at the far base station may overlap each other. May occur.

More specifically, in the base station having a cell radius of about 16 km, the radio wave generated at the cell boundary reaches the base station is about 100 ms. Therefore, if you assign a reverse link common channel (RCCH) to a user at a cell boundary and then assign the same reverse link common channel (RCCH) to another user near the base station, these users' packets are likely to overlap, which causes the user to Interference will increase considerably between them.

In addition, since the next generation communication system supports not only a low speed voice service but also a high speed data service, interference between a user who is provided with a low speed service and a user who is provided with a high speed service on a common channel increases.

For such a conventional system, proper packet transmission control is required to minimize interference between users.

SUMMARY OF THE INVENTION An object of the present invention is to provide a packet transmission control method suitable for minimizing inter-packet interference when transmitting packets in a time-divided reverse link common channel (RCCH) to a plurality of users. .

In order to achieve the above object, a feature of a packet transmission control method for a reverse link common channel (RCCH) according to the present invention is that each user packet is transmitted through a reverse link common channel (RCCH) time-divided per frame for multiple users. In transmission, a different transmission time offset is specified for each user packet transmitted in the frame unit, and a variable delay time is designated for each user packet in which each transmission time offset is specified.

Preferably, the delay time is variably specified in accordance with the transmission rate of each user packet, and exactly inversely proportional to the transmission rate of each user packet.

In addition, the delay time is grouped by user packets using the same transmission rate, and is variably designated according to the transmission rate of each user packet group.

Another feature of the present invention for achieving the above object is, in transmitting each user packet on a reverse link common channel (RCCH) that is time-division divided by frame for multiple users, each user packet transmitted in the frame unit Different transmission time offsets are specified for, and fixed delay times are specified for user packets for which each transmission time offset is specified.

Hereinafter, a preferred embodiment of a packet transmission control method for a reverse link common channel according to the present invention will be described with reference to the accompanying drawings.

In the present invention, when multiple users are assigned the same reverse link common channel, a slight delay time is specified at the start of the frame of each period so that each user packet does not act as mutual interference in transmission.

To this end, in the present invention, each user packet is transmitted at different transmission time offsets through a time-divided reverse link common channel (RCCH), and a fixed delay time is specified for each transmission time offset. This is represented by equation (1).

In addition, in the present invention, each user packet is transmitted at different transmission time offsets through a time-divided reverse link common channel (RCCH), and a variable delay inversely proportional to the transmission rate of each packet for each transmission time offset. The time d (t) is specified. This is represented by the equation (2).

Here, the reverse link common channel (RCCH) time-divided in units of frames for each user is shown in FIG. 1.

When a fixed delay time is specified regardless of the transmission rate of each user packet as shown in Equation 1, the delay time is based on the cell radius of the base station, that is, the fixed delay time for propagation between the base station and the cell boundary. Use as time.

When the base station transmits the same transmission time offset to the user located near the base station and the user located at the cell boundary, each user receives the packet at different times due to the difference in transmission distance. In the case of transmitting its own packet, since these packets should not overlap each other, the round-trip time of propagation between base station and cell boundary is used as fixed delay time.

However, if the fixed delay time is used regardless of the transmission speed of each user packet, the efficiency of the reverse link common channel may be reduced. As described above, in the present invention, a delay that is inversely proportional to the transmission speed of each user packet is reduced. Specifies the time d (t).

It uses data rate from 64Kbps to 2Mbps in next generation communication system, and if user located at cell boundary uses high speed service of 2Mbps, it interferes with cell-wide communication because it is a significant interference to other users who use low speed service. Because it can give.

If the system provides the same transmission speed for all areas of the cell, the cell size is relative to the cell size of the user using the high speed data service based on the cell size of the user using the low speed voice service. Becomes smaller.

Therefore, the cell size is different according to the transmission rate of each user. In particular, in the present invention, when a packet is transmitted using the reverse link common channel, a variable delay time d (v) according to the transmission rate is eliminated in order to eliminate interference between each user packet. t).

FIG. 2 is a diagram illustrating a scenario of transmitting a multi-user packet in a time-linked reverse link common channel (RCCH) and transmitting each user packet through a time-linked reverse link common channel (RCCH) for multiple users. When a different transmission time offset is specified for each user packet transmitted in units of frames.

Subsequently, variable delay time d (t) is specified for user packets with each transmission time offset. If the transmission speed of the user packet is high in the previous frame, a small delay time is specified from the current frame to the current frame. If the packet transmission speed is high, a large delay time until the next frame is specified.

Separately, in the present invention, when transmitting a user packet through a reverse time slot common channel (RCCH) time-division-divided for multiple users, a different transmission time offset is specified for each user packet transmitted in units of frames, and then each transmission time The offset is grouped by user packets using the same transmission rate for the designated user packets, thereby specifying a delay time d (t) that is variable according to the transmission rate of each user packet group.

According to the packet transmission control method for the reverse link common channel according to the present invention described above, a transmission time offset is designated for each user packet when transmitting a packet in a reverse link common channel (RCCH) time-division-divided to each of a plurality of users. Since a certain delay time is specified, interference between packets can be minimized, and thus transmission efficiency of the reverse link common channel can be improved.

This also improves overall system performance.

Claims (4)

In the case where a plurality of terminals transmit a packet of each terminal through a reverse link common channel time-divided in units of frames, Designating different transmission time offsets for packets of each terminal transmitted in the frame unit; And And assigning a delay time variable according to a transmission rate of a packet of each terminal for packets of the terminal to which each transmission time offset is specified. delete The method of claim 1, wherein the delay time is specified in inverse proportion to a transmission rate of each terminal packet. The method according to claim 1, wherein the delay time is grouped by terminal packets using the same transmission rate and is variably designated in inverse proportion to the transmission rate of each terminal packet group.

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