KR100358435B1 - Data process method using common walsh code in the cdma forward channel - Google Patents

Abstract

The present invention allows all terminals to share and use a wireless channel, and each terminal extracts its own data using a long code and an IP address to call (previous voice call) requiring radio channel allocation. For example, the present invention relates to a data processing method using a common Walsh code in a CDMA forward channel in which a specific radio channel is allocated and the remaining channels are shared by all terminals requiring data service.

According to the present invention, when the setup / release of the traffic channel is determined by the base station, when the setup / release of the traffic channel occurs, the excess traffic channel is calculated and the common channel usage is calculated. When the contents of the code are modified and advertised at intervals of 5 seconds through the paging channel, each terminal extracts its own data using an IP address and allocates a specific radio channel to a call requiring radio channel allocation. The remaining channels are shared by all terminals requiring data service.

Description

Data processing method using common Walsh code on CD forward channel {DATA PROCESS METHOD USING COMMON WALSH CODE IN THE CDMA FORWARD CHANNEL}

The present invention relates to a data processing method using a common Walsh code in a CDDMA (CDMA) forward channel. In particular, all terminals share and use a wireless channel, and each terminal uses a long code and an IP address ( In case of IP-based data communication), it extracts its own data and allocates a specific radio channel to a call (existing voice call) requiring radio channel allocation, and all other terminals requesting data service To share.

Conventional wireless communication has been a voice escalation service, but future wireless communication is expected to be the mainstream of wireless Internet service through IP-based.

Wireless Internet service is expected to put a lot of load on the forward channel (base station → terminal) compared to the reverse channel (terminal → base station), the efficient use of the forward channel is required.

In the case of such IP-based wireless Internet service, since the point-to-point (PPP) is not used for the forward channel, it is possible to efficiently use the resources of the wireless section, so it can be applied to all IP-based wireless data services. .

In the conventional method, as shown in FIG. 1, a plurality of supplemental channels are simultaneously allocated to a terminal 1 or a user who has requested a data service.

The IP network in the radio section between the base station 2 and the terminal 1 is built on the PPP base and thus monopolizes the radio channel.

In order to increase resource efficiency, channels are released when not in use and reallocated when they are used again. However, there are limitations in increasing resource efficiency in this way.

That is, in the related art, it is difficult to find an appropriate time point for releasing a channel as well as a delay occurs when it is set up again.

In addition, even if the release and reset is done properly, a large portion of the radio section is wasted.

The most efficient way to use resources in IP-based data communication is to support Best Effort service.

However, in recent years, since the radio section between the terminal 1 and the base station 2 uses a method for supporting IP on a PPP basis, best effort service is not possible.

In addition, in the conventional handoff, since only a fundamental channel is assigned first and an additional channel is assigned later, a substantial high-speed data service is impossible in a mobile state. .

The present invention solves this problem, and an object of the present invention is to assign a Walsh code of a forward channel to a call requiring a service authorization service such as a voice call, and to include the rest in a common Walsh code group to transmit forward data. The present invention provides a data processing method using a common Walsh code in a CDMA forward channel that enables a sea best effort service to prevent waste of radio resources even in an IP-based service such as an Internet service.

1 is a diagram showing a conventional data service

2 illustrates a data service according to the present invention;

3 is a flowchart of common Walsh code assignment of a base station in accordance with the present invention.

4 illustrates a data service process of the present invention.

<Explanation of symbols for main parts of drawing>

1: terminal 2: base station

The present invention for achieving the above object, apart from the method for allocating a wireless channel to each terminal, to allow all terminals to share the wireless channel, each terminal is a long code (IP) -based (IP-based) In the case of data communication), it extracts its own data to allocate a specific radio channel to a call (existing voice call) requiring radio channel allocation, and to share the remaining channels with all terminals requesting data service. It is characterized by the configuration.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 illustrates a data service method of the present invention. When the base station 2 sends a signal using a common Walsh code from the base station 2 to the terminal 1, the terminal 1 uses a long code to distinguish the respective data. It is made up.

That is, the voice service is configured to enable voice service from the base station 2 through Walsh 1, and a data service capable of distinguishing data using a long code is provided through a common Walsh code (Washy 5-17).

The operation of the present invention configured as described above will be described in detail with reference to the flowchart of FIG. 3 and the data service processing diagram of FIG. 4.

First, as shown in FIG. 1, in the forward link sent from the base station 2 to the terminal 1, a plurality of channels are allocated without assigning a few channels like the existing data service. Used simultaneously by subscribers.

Allocating a forward channel assigns a specific Walsh code to the terminal 1, and the terminal 1 receives data received from the base station 2 through the Walsh code. Since it separates its own data from the mix of various data and noises, to be assigned a Walsh code is the same as assigning a channel.

In the present invention, the base station 2 (or base station BS) needs to separate the voice call from the data service call.

Allocate a forward channel separately for calls that require reliable, real-time services, such as voice calls, and do not allocate forward channels for calls that do not require real-time but high-speed data services, such as Internet data services. By using a common walsh code, the base station 2 should continuously inform the terminal 1 of the information of the common Walsh code (or referred to as a common channel) through a paging channel.

If the volume of voice calls increases too much, a portion of the common Walsh code may be assigned to the voice call.

Also, if the data service call using the common channel is too heavy and many of the Walsh codes prepared for the voice call are not in use, some of them may be included in the common Walsh code.

In the present invention, the base station 2 transmits data to be transmitted to the terminal 1 belonging to its base station by using the Walsh code in the common Walsh code, and the terminal 1 receives the radio wave to multiply the common Walsh code. From the data, multiply the long code and extract only his data.

In other words, referring to FIG. 3, the operation flow of the embodiment is determined by the base station 2 whether the traffic channel is set up or released (step S1).

If the traffic channel is set up / released, the excess traffic channel is calculated and the common channel usage is calculated (steps S2 and S3).

If it is necessary to add or delete the common Walsh code and modify the content of the common Walsh code if necessary, and advertise at intervals of 5 seconds through the paging channel, the terminal 1 uses the access channel to access the common Walsh code. Channel information is requested (steps S4-S6).

In another embodiment of the present invention, the base station 2 does not broadcast a common Walsh code through the paging channel, but instead receives a data service, the terminal 1 refers to all Walsh codes and calculates its own data among them.

In this case, since the base station 2 does not need to inform the terminal 1 of the common Walsh code, it is possible to operate the channel of the forward link more efficiently. Instead, the terminal collects all information about all Walsh codes.

That is, the terminal 1 secures all 0-64 Walsh codes so that all signals from the base station 2 can be received, and the base station 2 uses a method of allocating a specific Walsh code for the voice call. In this case, it is not necessary to inform the terminal 1 of the common Walsh code through the paging channel, but can freely operate the data transmission bandwidth.

Here, since the data of the self must be extracted using the long code, the load of the terminal 1 becomes large. In order to apply such a method, the performance and the memory capacity of the terminal 1 must be large enough.

Further, according to another embodiment of the present invention, a common Walsh code group may be divided into several and operated differently according to service priorities. For example, group A is composed of eight Walsh codes, and another six Walsh codes are used. The problem with the Best Effort service is to assign the Walsh channel corresponding to Group A for the high-priority data service that needs to guarantee Group QoS by configuring Group B and the Walsh code included in Group B. QoS can be solved.

As described above, the present invention deviates from a method of allocating a wireless channel to each terminal, and allows all terminals to share the wireless channel, and each terminal uses its own data using a long code and an IP address. By extracting a specific radio channel for a call (existing voice call) that requires radio channel allocation, the remaining channels can be shared by all terminals requesting data service. Considering that IMT-2000, ALL IP service is the center of Internet service away from the existing voice call service, it can provide high-speed data service when the number of users increases or handoff occurs while moving.

Claims (4)

A first step of determining whether a base station sets up / releases a traffic channel; A second step of calculating a surplus traffic channel and calculating common channel usage when the traffic channel is set up / released in the first step; Determining whether the common Walsh code needs to be added or deleted, and modifying the contents of the Common Walsh code if necessary; A fourth step of requesting common Walsh channel information by using the access channel in the terminal when advertizing at intervals of 5 seconds through the paging channel; The fifth step is to extract specific data from each terminal using an IP address to allocate a specific wireless channel to a call requiring wireless channel allocation and to share the remaining channels among all terminals requesting data service. Data processing method using a common Walsh code in the CD forward channel characterized in that. 2. The common Walsh code in the CD-AM forward channel according to claim 1, wherein a plurality of users requesting data service are jointly used for the time slots for the remaining traffic channels except for the voice call in the TDMA scheme. Data processing method used. The method according to claim 1, wherein the common Walsh code group is divided into several and operated differently according to service priority. 2. The common Walsh code in a CD-AM forward channel as claimed in claim 1, wherein the terminal acquires all Walsh codes to receive all signals from the base station, and the base station assigns a specific Walsh code to the voice call. Data processing method using.