KR100211033B1 - Packet traffic service assistant method in cdma system - Google Patents

Abstract

1. Technical field to which the invention described in the claims belongs

A method for supporting packet traffic service in a code division multiple access system.

2. Technical Challenges to be Solved by the Invention

In order to reduce the influence of interference by other users in a structure in which one packet traffic channel is shared by several terminal matching devices.

3. The point of the solution of the invention

A separate traffic channel is temporarily allocated between the base station and the terminal matching apparatus for power control attempt without using the packet traffic channel shared among the terminal matching apparatuses, The random access attempts can be performed through the access channel with only a small amount of information such as the unique number of the terminal matching device and the size of the packet, instead of attempting to directly access the packet traffic channel with the packet data. Random access is attempted with low transmission power, a specific packet traffic slot is allocated from the base station, and packet transmission is performed through the slot.

4. Important Uses of the Invention

Used to provide packet traffic service in CDMA.

Description

How to Support Packet Traffic Service in Code-Division Multiple Access Systems

In order to support a packet traffic service while efficiently using a channel in a code division multiple access (CDMA) wireless local loop (WLL), a plurality of To a method for supporting communication or packet data communication users to communicate.

As a method of communicating over a shared channel, a random access method is used as a conventional technique related to the present invention. If this method is directly applied to a wireless local loop, random access is directly attempted with packet data having a large transmission power In this process, a large interference phenomenon occurs to other users, which degrades the call quality. In the worst case, the call may be disconnected by other users.

In the present invention, in order to minimize an interference phenomenon to other users, which may be caused by random access in the reverse packet transmission in the CDMA wireless local loop packet transmission service, that is, by using an access channel having a small amount of data, And it is an object of the present invention to provide a packet traffic service support method that minimizes interference phenomenon to other users by random access by making a random access attempt with such a small transmission power.

1 is a structure diagram of a forward channel of a CDMA WLL;

2 is a schematic diagram of a reverse access channel of a CDMA WLL;

3 is a schematic diagram of a reverse packet access channel of a CDMA WLL;

4 is a structure diagram of a reverse traffic channel of a CDMA WLL;

5 is a structure diagram of a reverse packet traffic channel of a CDMA WLL;

6 is a flow chart of a method for supporting forward and reverse packet traffic services of a CDMA WLL;

In the present invention, it is possible to support a packet traffic service while efficiently using a channel in a wireless local loop (WLL). The wireless local loop (WLL) is a wireless network that replaces a wired network between an existing telephone office and a subscriber terminal. As a result, there is an increasing number of users using packet traffic services such as PC communication and Internet access in the existing wired network. It is expected that there will be many users who want to use the packet traffic service using them.

In general, the packet traffic service such as PC communication or Internet access is not continuous in use, since once the data is transmitted and received and the user reads or retrieves the data for a predetermined period of time, the transmission and reception lines are not continuously used. Unlike a wired network, a wireless local loop (WLL) uses a limited number of wireless channel resources shared by a plurality of users. Therefore, a method of assigning one wireless channel per user to a service having the same characteristics as the packet traffic service is a waste of resources Is severe.

Accordingly, in the present invention, a wireless channel can be used more efficiently by devising a method in which a plurality of users can use one wireless channel in a packet traffic service in a wireless local loop.

First, the radio access channel of the present invention is configured as follows. A forward channel for communication from the base station to the terminal matching apparatus and a reverse channel for communication from the terminal matching apparatus to the base station.

The forward channels of the CDMA wireless local loop include a pilot channel, a synchronization channel, a paging channel, a forward traffic channel, a forward power control signal channel, and a forward packet traffic channel.

1 shows a structure of a forward channel of a CDMA wireless local loop (WLL) in which a pilot channel bit 110, which is a '0' bit, is multiplied by a pseudo noise (PN) code 111 And is a channel for code synchronization of a forward channel by providing carrier phase information of a forward channel, which is modulated through a spread spectrum modulator 112.

The synchronization channel is obtained by multiplying a channel symbol 122 of the synchronization channel bit 120 by a pseudo noise (PN) code 123 and then modulating the signal through a spread spectrum modulator 124, To the matching device.

The paging channel is the channel symbol 132 of the paging channel bit 130 multiplied by a pseudo noise (PN) code 133 and then modulated through the spread spectrum modulator 134, The base station is a channel for communicating with the terminal matching apparatus.

The forward traffic channel is a channel for transmitting traffic information as a result of multiplying a channel symbol 142 of a forward traffic channel bit 140 by a pseudo noise (PN) code 143 and then modulating it through a spread spectrum modulator 144.

The forward packet traffic channel is obtained by multiplying the channel symbol 172 of the forward packet traffic channel bit 170 by the pseudo noise (PN) code 173 and then modulating it through the spread spectrum modulator 174 to forward the packet traffic information It is the sending channel.

The forward power control signal channel is composed of forward power control channels 160, 162, 163 and 164 and forward signal channels 150, 152, 153 and 154.

The forward power control channel is generated by multiplying the channel symbol 162 of the power control information bit 160 by the pseudo noise (PN) code 163 and then modulating the signal through the spread spectrum modulator 164, Channel and the forward signal channel is used to send a power control command for the channel by modulating the channel symbol 152 of the signal information bit 150 with a pseudo noise (PN) And to transmit the signal information of the forward traffic channel and the forward packet traffic channel and to respond to the packet access channel.

The reverse channel of a CDMA wireless local loop (WLL) may be an access channel and a reverse traffic channel, a packet access channel and a packet traffic channel.

2 illustrates a structure of a reverse access channel of a CDMA wireless local loop (WLL) in which an access channel signal includes a reverse pilot channel bit 210 and a channel symbol 214 of an information bit 212 of an access information channel Walsh. QPSK spread spectrum modulator 216. The reverse pilot channel 210 has a value of '0' to provide the carrier phase information of the reverse access channel and is used for code synchronization and tracking of the reverse access channel. , And the access information channels 212 and 214 are the channels for responding to the forward paging channel and for the terminal matching apparatus to start communication with the base station first in the reverse direction.

3 illustrates a structure of a reverse packet access channel of a CDMA wireless local loop (WLL) in which a packet access channel signal includes a reverse pilot channel bit 240 and a channel symbol 244 of an information bit 242 of a packet access information channel, QPSK spread spectrum modulator 246, the reverse pilot channel 240 has a value of '0' to provide the carrier phase information of the reverse access channel, code synchronization and tracking of the reverse packet access channel And the packet access information channels 242 and 244 are used in the reverse packet traffic channel to request that the terminal matching apparatus allocate a slot to transmit to the base station.

FIG. 4 shows a structure of a reverse traffic channel of a CDMA wireless local loop (WLL). The reverse traffic channel includes an uplink pilot power control signal channel output from a multiplexer (MUX) 230 and a reverse traffic information channel to a Walsh QPSK spread spectrum modulator 236).

The reverse traffic information channel for transmitting the reverse traffic information comprises a channel symbol 234 of the reverse traffic information bits 232.

The reverse pilot power control signal channel which is the output of the multiplexer 230 is further comprised of the reverse pilot subchannel 220 and the reverse power control subchannels 222 and 224 and the reverse signal subchannels 226 and 228.

The reverse pilot subchannel bits 220 are all '0' values and provide carrier phase information of the reverse traffic information channel, the reverse power control subchannel and the reverse signaling subchannel, the acquisition of the spread spectrum code of the reverse traffic channel, It is for tracking.

The reverse power control subchannel consisting of the channel symbols 224 of the power control bits 222 is for power control commands for the forward traffic channel. The reverse signaling subchannel consisting of the channel symbols 228 of the signaling information bits 226 is for transmitting the signaling information of the reverse traffic channel.

5 shows a structure of a reverse packet traffic channel of a CDMA wireless local loop (WLL), a reverse packet traffic channel is a reverse packet traffic channel 250, and reverse packet traffic information channels 252 and 254 are Walsh QPSK spread spectrum modulator 256, . The reverse pilot channel is composed of pilot bits 250 having a value of '0' and is a channel for providing carrier phase information of an uplink packet traffic channel and code synchronization and tracking of an uplink packet traffic channel. The reverse packet traffic information channel consists of a channel symbol 254 of the reverse packet traffic information bit 252.

FIG. 6 is a flowchart of a method of supporting a forward and reverse packet traffic service of a CDMA wireless local loop (WLL). The packet traffic service in a wireless local loop is performed as follows.

There are three steps until the terminal matching device and the base station connect and send the packet. That is, a step 310 of connecting the base station and the terminal matching device, a step of controlling the power between the base station and the terminal matching device 320, and a step 330 of transmitting and receiving a packet between the base station and the terminal matching device.

The step 310 of connecting the base station and the terminal matching device proceeds in the following detailed process. As in the general call setup process, if the terminal matching apparatus first attempts connection with the base station through the access channel (312), the base station allocates the reverse and forward traffic channels and the forward power control signaling channel to the terminal matching apparatus through the paging channel The base station and the terminal matching apparatus are connected. In the present invention, since the power control is performed through the traffic channel, the traffic channel is allocated without directly allocating the packet traffic channel in the call setup process (314).

The present invention is a method in which a plurality of users share a packet traffic channel in order to more efficiently use a wireless channel in a packet traffic service in a wireless local loop, In case of packet traffic service shared by each terminal, when each terminal matching device tries to transmit a packet through a packet traffic channel in a power control state without power control in a packet traffic call setup process, So that the call of many users is likely to be disconnected. In addition, even when power control is performed through a packet traffic channel, it causes a large interference effect to users who already use the packet traffic channel, thereby causing the same problems.

Therefore, in order to prevent such a problem, in the present invention, a separate reverse traffic channel is allocated (314) for power control during packet traffic call setup. That is, in order not to affect the packet traffic channel shared between the base station and the multiple terminal matching devices, in the call setup process of the packet traffic service, one traffic channel is allocated to the terminal matching device, And when the state reaches the power control state, the packet traffic channel is allocated only at that time so that the packet traffic channel, which is a shared resource, is always accessible only to the power controlled users.

The step 320 of controlling power between the base station and the terminal matching device proceeds as follows.

The terminal matching apparatus transmits null traffic data including only '0' symbols to the base station through the reverse traffic channel (322), and receives a power control command for the null traffic data through the power control channel of the forward power control signal channel (324). The base station and the terminal matching device continue to perform this operation for a predetermined amount of time sufficient to reach power control stabilization (328). When the power control is completed, the allocated traffic channel is returned, and the packet traffic channel for packet traffic communication is reallocated (326).

A step 330 of transmitting and receiving a packet between the base station and the terminal matching apparatus differs in the case of transmitting in the forward direction and in the case of transmitting in the reverse direction.

The process 346 of transmitting a packet from the base station to the terminal matching device, i.e., in the forward direction, is as follows. One forward packet traffic channel and one forward power control signal channel are used for forward packet traffic data transmission, and the base station broadcasts a packet to a plurality of terminal matching apparatuses allocated to the forward packet traffic channel (342, 344) . Since a plurality of terminal matching devices share one packet traffic channel, a process for designating a terminal matching device to be received is required. To this end, the base station transmits a unique number of a receiving terminal matching apparatus of a packet to be transmitted after a predetermined time through a signal channel of a forward power control signal channel (344), and a plurality of terminal matching apparatuses allocated to the forward packet traffic channel Only the terminal matching apparatus designated to the receiving terminal matching apparatus through the signal channel of the forward power control signal channel receives packet data in the corresponding packet data slot (342). In the forward packet traffic channel, since packet data is broadcasted to a plurality of terminal matching devices (342), encryption for preventing information leakage should be performed in an application using a packet traffic service.

The process of transmitting a packet from the terminal matching apparatus to the base station, that is, in the reverse direction, is as follows. When transmitting a packet in the reverse direction, all the terminal matching devices assigned to the shared packet traffic channel randomly attempt to connect to the reverse traffic channel, so that the user of the other reverse traffic channel has an effect of instantaneous noise increase, It can cause deterioration in quality. In the present invention, in order to prevent this, a reverse packet is transmitted in a shared packet traffic channel as follows. A terminal matching apparatus that transmits an uplink packet notifies a base station of a unique number of a terminal matching apparatus and a length of a packet to be transmitted through a packet access channel and requests a packet transmission permission (332). The base station receiving the packet transmission permission request allocates a packet data slot to the terminal matching apparatus through the signal channel of the forward power control signal channel (334). The terminal matching apparatus, which has allocated the packet data slot, transmits packet data to the reverse packet traffic channel through the allocated packet data slot (336). If a random access is directly attempted with packet data having a large transmission power, a large interference phenomenon occurs to other users in this process. If an access channel having a small amount of data is used (332) as in the present invention, Since the amount of data to be transmitted through the reverse packet traffic channel is small, it is possible to transmit the transmission power much lower than the power when transmitting through the reverse packet traffic channel. By making the random access attempt with such a small transmission power, The phenomenon can be minimized.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. It is not.

In the present invention, a method for allocating and using a separate reverse traffic channel for power control during packet traffic call setup is developed, and a packet traffic channel shared among a base station and a plurality of terminal matching devices is not affected When the power control is performed by using the traffic channel, the packet traffic channel, which is a shared resource, can be always accessed only by the power control users by allocating the packet traffic channel only when the power control is reached.

In addition, when random access is attempted through a packet access channel having a small amount of data as in the present invention, since the amount of data to be transmitted is small, the transmission power can be transmitted much lower than the power used when transmitting on the reverse packet traffic channel, By making the random access attempt with such a small transmission power, the interference phenomenon to other users due to the random access can be minimized.

Claims (4)

The terminal matching apparatus tries to access the base station through the access channel and the base station allocates the reverse and forward traffic channels and the forward power control signal channel in the terminal matching apparatus through the paging channel to connect the base station and the terminal matching apparatus Stage 1; A power control is performed using reverse and forward traffic channels between a terminal matching apparatus attempting to make a call with a base station without affecting packet traffic channels shared among a plurality of terminal matching apparatuses, And re-allocating a packet traffic channel for packet traffic communication; And And a third step of transmitting a packet in a reverse direction and a forward direction from the base station to the terminal matching apparatus. The method according to claim 1, The second step comprises: A terminal with a '0' symbol or promised data to the base station over the reverse traffic channel for a pre-determined time sufficient to allocate separate reverse and forward traffic channels and to use it to reach power control stabilization, Sending traffic data; Receiving a power control command for the power control channel of the forward power control signal channel to perform power control, and upon completion of power control, returning the allocated traffic channel and re-allocating a packet traffic channel for packet traffic communication Wherein the method comprises the steps of: The method according to claim 1, The reverse packet transmission in the third step includes: Requesting packet transmission permission by reporting a unique number of a terminal matching apparatus and packet access information to be transmitted to a base station through a packet access channel capable of transmitting data with lower energy than a packet traffic channel; Receiving a slot for transmitting packet data from a base station to which a packet transmission permission is requested through a forward signal channel; And transmitting the packet data to the reverse packet traffic channel through the packet data slot allocated by the terminal matching apparatus. The method of claim 3, The forward packet transmission in the third step includes: Designating a terminal matching apparatus to receive a packet by transmitting a unique number of a receiving terminal matching apparatus of a packet to be transmitted after a predetermined time through a forward power control signal channel at a base station; And transmitting a packet to a plurality of terminal matching apparatuses allocated to the forward packet traffic channel through a forward packet traffic channel at a base station.