KR20020093542A - Method for allocating channelization code in wireless communication system - Google Patents

Abstract

PURPOSE: A method for assigning a channelization code in a wireless communication system is provided to assign codes for efficiently using wireless resources according to inter-different transmission rate, an inter-different service use frequency, an inter-different use frequency changed in a real time through an IMT(International Mobile Telecommunication)-2000 asynchronous network. CONSTITUTION: If a suitable code number is searched by a retrieval algorithm about a corresponding SF(Spreading Factor), and an assignment procedure processing function is called by using the SF and the code number as factors(301), a channelization code table is used as an index for displaying that the channelization code is assigned(302). The SF and the code number are divided by 2¬N, the SF and the code number corresponding to a quotient are used as the index for displaying the channelization code is assigned in the channelization code table, and the N is repeatedly increased by 1 until the quotient is larger than or same to 0(303). The SF and the code number corresponding to a value in which the SF and the code number are multiplied by 2¬N are used as the index from (SF, code number+1) to (SF, code number+N-1) for displaying that the channelization code is assigned in the channelization code table, and the N value is repeatedly increased by 1 until the multiplied value is lower than or same to 512(304). A processed result about the assignment procedure is returned to an asynchronous network(305).

Description

Method for allocating channelization code in wireless communication system {Method for allocating channelization code in wireless communication system}

The present invention, in particular the next generation mobile communication system (IMT-2000) asynchronously according to a computer-readable recording medium recording a program for realizing the above method and the channelization code allocation method in a wireless communication system (3GPP: 3 ^rd Channelization code for allocating codes to efficiently use radio resources according to different transmission rates such as voice, packet, and video services, different service usage rates, and changing usage frequencies in real time through the network. A computer-readable recording medium having recorded thereon an allocation method and a program for realizing the method.

Conventional Digital Cellular System (DCS) and Personal Communication System (PCS) use Walsh Code, which uses only one data rate, so that orthogonality is guaranteed between Walsh codes. Bandwidth was available.

However, in IMT-2000 synchronization (3GPP2), by using a channelization code (Orthogonal Variable Spreading Factor (OVSF) code), as shown in Fig. 1 while avoiding orthogonality in the code-tree (Code-tree) a variety of large and small Since the service requirements are similar by facilitating the provision of a service having a data rate and increasing the utilization of bandwidth, a method for allocating an OVSF code for efficiently using radio resources is required. have.

The present invention has been proposed to meet the demand as described above, IMT-2000 asynchronous ^{(3GPP: 3 rd Generation Partnership Projects} )) voice over a network, the packet, the different transfer rates, and different services, such as video service It provides a channelized code allocation method for allocating codes to efficiently use radio resources according to the frequency of use and the frequency of use in real time, and a computer-readable recording medium recording a program for realizing the method. There is a purpose.

1 is a diagram illustrating an embodiment of a process of generating an OVSF code in a code-tree according to the present invention.

FIG. 2 is a diagram illustrating an embodiment of a channelization code table with or without an implementation of a code-tree according to the present invention. FIG.

3 is a flowchart illustrating an embodiment of a channelization code allocation method in a next generation mobile communication system according to the present invention;

4 is a flowchart illustrating an unassignment procedure of a channelization code allocation method in a next generation mobile communication system according to the present invention.

5 is a flowchart of an embodiment of a search procedure for searching for a channelization code in the channelization code assignment method according to the present invention;

6 is a flowchart of another embodiment of a search procedure for searching for a channelization code in the channelization code assignment method according to the present invention;

In order to achieve the above object, the present invention relates to a channelization code allocation method applied to a wireless communication system, wherein an appropriate code number is determined by a search algorithm for a corresponding spreading factor (SF) in a search procedure when a call setup request is made. Find the first step of calling the assignment procedure function; And a second step of allocating a channelization code through a channelization code table according to the called function value, using the SF and the code number corresponding to the channelization code table as an index. In addition, the present invention includes a third step of calling an allocation dismantling processing function with a corresponding Spreading Factor (SF) and a Code Number as arguments when releasing the set call; And a fourth step of releasing the channelization code through the channelization code table by using the SF and the code number corresponding to the channelization code table as an index according to the called function value. .

In addition, the present invention provides a wireless communication system including a processor for calling an allocation procedure function by finding an appropriate code number by a search algorithm for a corresponding spreading factor in a call setup request search procedure. 1 function; And a program for realizing a second function of allocating a channelization code through a channelization code table, with the SF and the code number corresponding to the channelization code table as an index according to the called function value. Provide a readable recording medium. In addition, the present invention includes a third function of calling an allocation dismantling processing function with a corresponding Spreading Factor (SF) and a Code Number as arguments when releasing the set call; And a program for further realizing a fourth function of releasing a channelization code through a channelization code table, by indexing the SF and code number corresponding to the channelization code table according to the called function value. It provides a recording medium that can be read by.

The above objects, features and advantages will become more apparent from the following detailed description taken in conjunction with the accompanying drawings. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

In IMT-2000 asynchronous (3GPP2), the method of operating the channelization code (OVSF code) for the downlink is the C _{CH, 256,0} for the primary CPICH (Common Pilot Channel). And C _{ch, 256,1} for Primary CCPCH (Common Control Physical Channel). In addition, it is assumed that about 60% of voice services, about 30% of packet services, and 10% of services that connect only signaling channels are generated. In addition, it is assumed that a video service and a packet service of 384 kbps or more rarely occur. Theoretically, up to 120 calls (full capacity) of voice standards are allowed, but up to 70% of capacity (84 calls-call standards of voice capacity) can be used, and 50% of capacity for stable operation. Assume that you use about 60 calls.

In addition, the spreading factor (SF) used is 256 (3.4kbps) for a signal, 128 (12.2kbps) for a voice, 128 (8kbps), 64 (32kbps), 32 (64kbps), and 16 (128kbps) for a packet. It is assumed that 16 (144 kbps), 8 (384 kbps), 8 * 3 (2 Mbps), and 8 (384 kbps) are used for an image. Based on the above assumptions, the channelization code (OVSF Code) allocation scheme consists of the channelization code (OVSF Code) retrieval procedure, the allocation procedure, and the deassignment procedure. It is determined whether is easy to enter, whether the utilization of the bandwidth is high or low.

First, the technical principle of the proposed invention is that if the spreading factor (SF) of the service required for call setup request is determined, the corresponding C _{ch, SF, O} (0th channelization code with spreading factor SF) to C _{ch, SF, SF} OVSF Code assigned to C _{ch, SF, SF-1} by allocating the first found channelization code that is not used by sequentially searching with _-1 (SF-1th channelization code with spreading factor SF) To allow a large number of services having a variety of small data rates to facilitate the entry.

Secondly, on the assumption of the above-described service characteristics, a start position (which may be different for each P value-SF) is designated for each service, and when the SF of the requested service is determined, the corresponding C _{ch, SF, P} (Pth channelization code with Sequential search from spreading factor SF) to C _{ch, SF, SF-1} to allocate the first unused channelization code to avoid possible segmentation, making it easy to enter services with large and small data rates Do it.

Accordingly, in IMT-2000 asynchronous (3GPP) FIG. 1 having SFs ranging from 4 to 512 for services that require different data rates such as voice, packet, and video services, and that use different services and vary in real time. To avoid orthogonality in the code-tree, such as to provide a method for allocating a channelization code (OVSF Code) to facilitate the entry of services having a large and small various data rates, and high bandwidth usefulness .

3 is a flowchart illustrating an embodiment of a channelization code allocation method in a next generation mobile communication system according to the present invention.

As shown in Fig. 3, in a call setup request search procedure, an appropriate code number is found by a search algorithm for a corresponding spreading factor (SF), and an assignment procedure is processed using (SF, Code Number) as an argument. When the function is called (301), the channelization code table (SF and Code Number) having an assignment having implemented the code-tree (see FIG. 1) as an index (Index) is marked as assigned (302). In order to mark (SF, Code Number) that is not guaranteed to be orthogonal, the (SF, Code Number) is divided by 2 ^N (N = 1,2,…), which corresponds to the quotient (SF, Code Number). In the channelization code table, the channelization code is allocated as an index. The N value is incremented by 1 and repeated until the quotient is greater than or equal to 0 (303).

Then, from (SF, Code Number) and (SF, Code Number + 1) to (SF, Code Number + N-) corresponding to a value obtained by multiplying (SF, Code Number) by 2 ^N (N = 1,2, ...) With 1) as an index, the channelization code table is marked as assigned with a channelization code, and repeated until the multiplied value is less than or equal to 512 while increasing the N value by 1 (304). This is to prevent the SF and Code Number assigned in the next search procedure and to ensure orthogonality.

Thereafter, the processing result of the allocation procedure with (SF, Code Number) as an argument is returned to the asynchronous network (305).

4 is a flowchart illustrating an unassignment procedure of a channelization code allocation method in a next generation mobile communication system according to the present invention.

As shown in Fig. 4, when the call is released and the deassignment procedure processing function is called by taking (SF, Code Number) (401), a channelization code having an assignment having implemented the code-tree (Fig. 1) is present. Mark the channelization code as unassigned (402), with the corresponding (SF, Code Number) as the index for the table (Second 512x512 Array of SF and Code Number-FIG. 2), and also not orthogonality guaranteed. To mark (SF, Code Number) also unassigned, channelize (SF, Code Number) by 2 ^N (N = 1,2,…) as an index by indexing (SF, Code Number) In the code table, the channelization code is marked as unassigned, and the value N is incremented by 1 and repeated until the quotient is greater than or equal to 0 (403).

Then, from (SF, Code Number) and (SF, Code Number + 1) to (SF, Code Number + N-) corresponding to a value obtained by multiplying (SF, Code Number) by 2 ^N (N = 1,2, ...) With 1) as an index, the channelization code table is marked as unallocated by the channelization code, and repeated until the multiplied value is less than or equal to 512 while increasing the N value by 1 (404). This is to ensure that orthogonality is searched for SF and Code Numbers allocated in the next search procedure.

Thereafter, the processing result of the deassignment procedure using (SF, Code Number) as an argument is returned to the asynchronous network (305).

5 is a flowchart illustrating an embodiment of a search procedure for searching for a channelization code in the channelization code allocation method according to the present invention.

As shown in Fig. 5, when a call procedure processing function that takes SF as an argument is called (501), the channelization code having an assignment having a code-tree (see Fig. 1) is implemented. In the table (secondary 512x512 array of SF and Code Number (Araay)-Figure 2), the corresponding SF is the row, and the Code Number is the column to retrieve the columns from 0 to SF-1 in that row and are not assigned. It finds and returns the first (F, Code Number) marked as not (502).

Thereafter, the processing result of the search procedure using SF as an argument is returned to the asynchronous network (503).

6 is a flowchart of another embodiment of a search procedure for searching for a channelization code in the channelization code assignment method according to the present invention.

As shown in Fig. 6, when a search procedure processing function is called with the SF of the service requested in the call setup request as an argument (601), a channelization code having an assignment presence or not implementing a code-tree (see Fig. 1). In the table (secondary 512x512 array of SF and Code Number (Araay)-Fig. 2), the corresponding SF is the row, the Code Number is the column, and the starting value (P) assigned the column to the service in that row. To SF-1 to find and return the first (SF, Code Number) marked as unallocated. If it is not found, it finds and returns the first (SF, Code Number) marked as not allocated from P-1 to 0 in the corresponding row (602).

Thereafter, the processing result of the search procedure based on the SF is returned to the asynchronous network (603).

The method of the present invention as described above may be implemented as a program and stored in a computer-readable recording medium (CD-ROM, RAM, ROM, floppy disk, hard disk, magneto-optical disk, etc.).

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and various substitutions, modifications, and changes are possible in the art without departing from the technical spirit of the present invention. It will be apparent to those of ordinary knowledge.

As described above, the present invention efficiently utilizes radio resources according to different transmission rates such as voice, packet, and video services, different service usage frequencies, and changing usage frequencies in real time through an IMT-2000 asynchronous (3GPP) network. By allocating code for use, it facilitates the entry of services with varying bit rates, large and small, while avoiding orthogonality in the code-tree, and allows for high bandwidth utilization. Code) can be allocated to the base station to accommodate as many calls as possible, thereby reducing the cost of installing additional base stations.

Claims (8)

In the channelization code assignment method applied to a wireless communication system, A first step of calling an allocation procedure function by finding an appropriate code number by a search algorithm for a corresponding Spreading Factor (SF) in a call setup request search procedure; And A second step of allocating a channelization code through a channelization code table according to the called function value, using the SF and the code number corresponding to the channelization code table as an index; Channelization code assignment method in a wireless communication system comprising a. The method of claim 1, A third step of invoking an allocation dismantling processing function with a corresponding Spreading Factor (SF) and a Code Number as arguments when releasing the set call; And A fourth step of releasing a channelization code through a channelization code table according to the called function value, using the SF and code number corresponding to the channelization code table as an index; Channeling code allocation method in a wireless communication system further comprising. The method of claim 2, The fourth step, A fifth step of indicating that a channelization code is de-allocated by using a corresponding (SF, Code Number) as an index with respect to the channelization code table (SF and Code Number); In order to mark (SF, Code Number) that is not guaranteed to be orthogonal, the (SF, Code Number) is divided by ^2N (N = 1, 2, ...) and corresponds to the quotient (SF, Code Number). A sixth step of indicating that the channelization code is deallocated in the channelization code table using index as an index, and repeatedly increasing the N value by one until the quotient is greater than or equal to zero; (SF, Code Number + 1) to (SF, Code Number + N-1) corresponding to a value obtained by multiplying (SF, Code Number) by 2 ^N (N = 1, 2, ...) A seventh step of displaying the channelization code table as the channelization code is deallocated with the index of up to), and repeatedly performing a multiplication while increasing the value of N by 1 until the multiplied value is smaller than or equal to a predetermined value; And An eighth step of returning the processing result of the deassignment procedure using the (SF, Code Number) as an argument to the asynchronous network; Channelization code assignment method in a wireless communication system comprising a. The method of claim 1, The search procedure when the call setup request is performed, A third step of invoking a search procedure processing function whose SF is the service requested in the call establishment request; In the channelization code table SF and Code Number, the corresponding SF is the row, and the code number is the column, and the first (F, marked as unassigned is searched for the column from 0 to SF-1 in the row. A fourth step of finding and returning a code number); And A fifth step of returning the processing result of the search procedure based on the SF to the asynchronous network; Channelization code assignment method in a wireless communication system comprising a. The method of claim 1, The search procedure when the call setup request is performed, A third step of invoking a search procedure processing function whose SF is the service requested in the call establishment request; In the channelization code table (SF and Code Number), the corresponding SF is a row, the code number is a column, and the column is searched from the starting value (P) assigned to the corresponding service from the row to SF-1. According to the result of finding the first (SF, Code Number) marked as unassigned, the fourth step of finding and returning the first (SF, Code Number) marked as unassigned from the column P-1 through 0 if it is not found. ; And A fifth step of returning the processing result of the search procedure based on the SF to the asynchronous network; Channelization code assignment method in a wireless communication system comprising a. The method according to any one of claims 1 to 5, The second step, A ninth step of indicating that a channelization code is assigned using the channelization code table SF and Code Number as an index; In order to mark (SF, Code Number) that is not guaranteed to be orthogonal, (SF, Code Number) is divided by ^2N (N = 1, 2, ...) to divide (SF, Code Number) corresponding to the quotient. A tenth step of indicating that the channelization code is allocated in the channelization code table as an index and incrementing the value of N by 1 until the quotient is greater than or equal to zero; (SF, Code Number + 1) to (SF, Code Number + N-1) corresponding to a value obtained by multiplying (SF, Code Number) by 2 ^N (N = 1, 2, ...) An eleventh step of indicating that the channelization code table is assigned with a channelization code, and repeating until the multiplied value is smaller than or equal to the predetermined value by increasing N by 1; Step 12 of returning the processing result of the allocation procedure using the (SF, Code Number) as an argument to the asynchronous network; Channelization code assignment method in a wireless communication system comprising a. In a wireless communication system having a processor, A first function of calling an allocation procedure function by finding an appropriate code number by a search algorithm for a corresponding Spreading Factor (SF) in a search procedure upon call setup request; And A second function of allocating a channelization code through a channelization code table according to the called function value, using the SF and the code number corresponding to the channelization code table as an index; A computer-readable recording medium having recorded thereon a program for realizing this. The method of claim 7, wherein A third function of invoking an allocation dismantling processing function by taking a corresponding Spreading Factor (SF) and a Code Number as arguments when releasing the set call; And A fourth function of releasing a channelization code through a channelization code table by indexing the SF and the code number corresponding to the channelization code table according to the called function value A computer-readable recording medium that records a program for further realization.