KR100369563B1 - Apparatus and method for detection of the code-group of w-cdma system - Google Patents

Abstract

The present invention relates to an apparatus and method for determining a code group of an asynchronous wideband code division multiple access system (W-CDMA system).

The present invention relates to a code group determination method of a W-CDMA system in which a code group is determined by comparing code information contained in 15 slots and 64 code groups, and detecting a main code and recognizing a starting point of a slot. Steps; Detecting an auxiliary code and recognizing a slot index of a slot; Detecting and comparing a minimum index value of the recognized slot index; The method may include determining a code group by performing a code comparison operation within a code group of the corresponding minimum index value according to the detected minimum index value of the slot index.

Therefore, the present invention has the effect of reducing the code group determination time of the W-CDMA system.

Description

Apparatus and method for determining code group in asynchronous wideband code division multiple access system {APPARATUS AND METHOD FOR DETECTION OF THE CODE-GROUP OF W-CDMA SYSTEM}

The present invention relates to an asynchronous wideband code division multiple access system (hereinafter, abbreviated as W-CDMA system), and more particularly, to an apparatus and method for determining a code group of an asynchronous wideband code division multiple access system.

Recently, broadband wireless mobile communication systems (for example, International Mobile Telecommunications (IMT-2000)), which are rapidly progressing in the development of commercialization and standardization technologies and application technologies, are mainly focused on Europe, the United States, and Japan. A third generation mobile communication system standardized by the International Telecommunication Union (ITU) with global participation, and aims to realize a multimedia service using a broadband wireless mobile terminal.

Among the IMT-2000, the W-CDMA system proposed by 3GPP is a kind of code division multiple access system. The W-CDMA system is a system in which a signal to be transmitted is spread and used with a code having a wider bandwidth than the original signal. Due to the inherent function of the W-CDMA system, the receiving side can check the type and starting position of the spreading code used at the transmitting side so that accurate communication can be performed. searcher).

On the other hand, the existing synchronous CDMA system or cdma2000 system presented by 3GPP2 among IMT-2000 uses the same code and receives communication only by different starting position based on GPS (Global Positioning System). The search function may be performed using only one code on the side.

However, in an asynchronous system such as a W-CDMA system, each base station is defined to use different codes. That is, codes from each base station are divided into 64 groups, and 16 codes exist in each group. At the receiving end, first, which group the code currently being used belongs to is determined and based on the determined result. In this way, 16 codes are directly compared to determine the desired code.

Further, in the W-CDMA system, 10 msec is used as one frame (one frame is composed of 15 slots), and code information for determining a code group is carried in these 15 slots. In other words, the information obtained from the fifteen slots and the table set in the standard of the W-CDMA system are cyclically shifted to determine the group. That is, as shown in the code arrangement diagram of [Table 1] below, 64 code groups are currently set, and each code group is composed of 15 slots. Therefore, a total of 960 comparisons (64 × 15) are performed. The largest value of the result data according to the comparison process is set as the desired code group.

Code group Slot number #One #2 # 3 #4 # 5 # 6 # 7 #8 # 9 # 10 # 11 # 12 # 13 # 14 # 15 Group 1 One One 2 8 9 10 15 8 10 16 2 7 15 7 16 Group2 One One 5 16 7 3 14 16 3 10 5 12 14 12 10 Group3 One 2 One 15 5 5 12 16 6 11 2 16 11 15 12 Group 4 One 2 3 One 8 6 5 2 5 8 4 4 6 3 7 Group 5 One 2 16 6 6 11 15 5 12 One 15 12 16 11 2 Group6 One 3 4 7 4 One 5 5 3 6 2 8 7 6 8 Group 7 One 4 11 3 4 10 9 2 11 2 10 12 12 9 3 Group 8 One 5 6 6 14 9 10 2 13 9 2 5 14 One 13 Group 9 One 6 10 10 4 11 7 13 16 11 13 6 4 One 16 Group 10 One 6 13 2 14 2 6 5 5 13 10 9 One 14 10 Group 11 One 7 8 5 7 2 4 3 8 3 2 6 6 4 5 Group12 One 7 10 9 16 7 9 15 One 8 16 8 15 2 2 Group 13 One 8 12 9 9 4 13 16 5 One 13 5 12 4 8 Group14 One 8 14 10 14 One 15 15 8 5 11 4 10 5 4

Code group Slot number #One #2 # 3 #4 # 5 # 6 # 7 #8 # 9 # 10 # 11 # 12 # 13 # 14 # 15 Group 15 One 9 2 15 15 16 10 7 8 One 10 8 2 16 9 Group 16 One 9 15 6 16 2 13 14 10 11 7 4 5 12 3 Group17 One 10 9 11 15 7 6 4 16 5 2 12 13 3 14 Group18 One 11 14 4 13 2 9 10 12 16 8 5 3 15 6 Group19 One 12 12 13 14 7 2 8 14 2 One 13 11 8 11 Group 20 One 12 15 5 4 14 3 16 7 8 6 2 10 11 13 Group 21 One 15 4 3 7 6 10 13 12 5 14 16 8 2 11 Group 22 One 16 3 12 11 9 13 5 8 2 14 7 4 10 15 Group23 2 2 5 10 16 11 3 10 11 8 5 13 3 13 8 Group24 2 2 12 3 15 5 8 3 5 14 12 9 8 9 14 Group25 2 3 6 16 12 16 3 13 13 6 7 9 2 12 7 Group26 2 3 8 2 9 15 14 3 14 9 5 5 15 8 12 Group27 2 4 7 9 5 4 9 11 2 14 5 14 11 16 16 Group28 2 4 13 12 12 7 15 10 5 2 15 5 13 7 4 Group29 2 5 9 9 3 12 8 14 15 12 14 5 3 2 15 Group 30 2 5 11 7 2 11 9 4 16 7 16 9 14 14 4 Group31 2 6 2 13 3 3 12 9 7 16 6 9 16 13 12 Group32 2 6 9 7 7 16 13 3 12 2 13 12 9 16 6 Group33 2 7 12 15 2 12 4 10 13 15 13 4 5 5 10 Group34 2 7 14 16 5 9 2 9 16 11 11 5 7 4 14 Group35 2 8 5 12 5 2 14 14 8 15 3 9 12 15 9 Group36 2 9 13 4 2 13 8 11 6 4 6 8 15 15 11 Group37 2 10 3 2 13 16 8 10 8 13 11 11 16 3 5 Group38 2 11 15 3 11 6 14 10 15 10 6 7 7 14 3 Group39 2 16 4 5 16 14 7 11 4 11 14 9 9 7 5 Group40 3 3 4 6 11 12 13 6 12 14 4 5 13 5 14 Group41 3 3 6 5 16 9 15 5 9 10 6 4 15 4 10 Group42 3 4 5 14 4 6 12 13 5 13 6 11 11 12 14 Group43 3 4 9 16 10 4 16 15 3 5 10 5 15 6 6 Group44 3 4 16 10 5 10 4 9 9 16 15 6 3 5 15 Group45 3 5 12 11 14 5 11 13 3 6 14 6 13 4 4 Group46 3 6 4 10 6 5 9 15 4 15 5 16 16 9 10 Group47 3 7 8 8 16 11 12 4 15 11 4 7 16 3 15 Group48 3 7 16 11 4 15 3 15 11 12 12 4 7 8 16 Group49 3 8 7 15 4 8 15 12 3 16 4 16 12 11 11 Group 50 3 8 15 4 16 4 8 7 7 15 12 11 3 16 12 Group51 3 10 10 15 16 5 4 6 16 4 3 15 9 6 9 Group52 3 13 11 5 4 12 4 11 6 6 5 3 14 13 12 Group53 3 14 7 9 14 10 13 8 7 8 10 4 4 13 9 Group54 5 5 8 14 16 13 6 14 13 7 8 15 6 16 7

Code group Slot number #One #2 # 3 #4 # 5 # 6 # 7 #8 # 9 # 10 # 11 # 12 # 13 # 14 # 15 Group55 5 6 11 7 10 8 5 8 7 12 12 10 6 9 11 Group56 5 6 13 8 13 5 7 7 6 16 14 15 8 16 15 Group57 5 7 9 10 7 11 6 12 9 12 11 8 8 6 10 Group58 5 9 6 8 10 9 8 12 5 11 10 11 12 7 7 Group59 5 10 10 12 8 11 9 7 8 9 5 12 6 7 6 Group60 5 10 12 6 5 12 8 9 7 6 7 8 11 11 9 Group61 5 13 15 15 14 8 6 7 16 8 7 13 14 5 16 Group62 9 10 13 10 11 15 15 9 16 12 14 13 16 14 11 Group63 9 11 12 15 12 9 13 13 11 14 10 16 15 14 16 Group64 9 12 10 15 13 14 9 14 15 11 11 13 12 16 10

As described above, in the related art, since all code tables are compared one by one, a desired code group is determined. As a result, an unnecessary comparison operation increases power consumption and a long search time.

Accordingly, the present invention has been made to solve the above-described problem, and the received slot index using the characteristics of the allocated table, that is, the minimum index value for each code group exists in the table. By detecting the minimum index value of, and selectively searching and determining the code group only within the code groups including the detected minimum index value, to reduce the number of group comparisons, and to reduce the power consumption or time required for the search An object of the present invention is to provide an apparatus and method for determining a code group of an asynchronous wideband code division multiple access system.

In order to achieve the above object, the present invention provides a code group determination method of an asynchronous wideband code division multiple access system in which a code group is determined by comparing code information contained in 15 slots and 64 code groups. Detecting a primary code and recognizing the starting point of the slot; Detecting an auxiliary code and recognizing a slot index of a slot; Detecting and comparing a minimum index value of the recognized slot index; If the minimum index value of the detected slot index is 1, comparing the code groups in groups 1 to 22, which are code groups having a minimum index value of 1 from among 64 code groups, to determine a code group; If the minimum index value of the detected slot index is 2, comparing the code groups in groups 23 to 39, which are code groups having a minimum index value of 2 from the 64 code groups, to determine a code group; If the minimum index value of the detected slot index is 3, comparing the code groups in groups 40 to 53, which are code groups having the minimum index value of 3, from the 64 code groups to determine a code group; If the minimum index value of the detected slot index is 5, comparing the code groups in the groups 54 to 61 which are code groups having the minimum index value of 5 among the 64 code groups to determine a code group; If the minimum index value of the detected slot index is 9, comparing the code groups in the group 62 to group 64, which is the code group having the minimum index value of 9 among the 64 code groups, and determining a code group. A code group determination method of an asynchronous wideband code division multiple access system is provided.

1 is a block diagram of a code group determination apparatus of an asynchronous broadband code division multiple access system according to the present invention;

2 is a view for explaining a synchronization channel received by the primary code searcher and the auxiliary code searcher of FIG.

3 is a flow chart of a code group determination process performed in the code group determination apparatus of FIG. 1 according to a preferred embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

100: main code explorer

102: secondary code explorer

104: comparator

106: memory unit

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention.

1 is a block diagram of a code group discrimination apparatus of an asynchronous broadband code division multiple access system (hereinafter, abbreviated as W-CDMA system) according to the present invention. The comparator 104 and the memory unit 106 are included.

As shown, the primary code explorer 100 recognizes the starting point of the slot containing the code information of the 16 codes in the synchronization channel received from the base station, not shown, and the secondary code explorer 102 identifies the slot index of this slot. Recognize.

The synchronization channel received by the primary code searcher 100 and the auxiliary code searcher 102 is shown in more detail in FIG. 2.

As shown in FIG. 2, the synchronization channel transmitted from the base station is divided into a primary synchronization channel and a secondary synchronization channel. The starting position of each slot is detected from the main synchronization channel repeated every slot. From the beginning of each slot, 256 chips will then contain the contents of the secondary synchronization channel, which is then compared with 16 possible codes. Store the index of the code used to get the largest of these comparisons.

While this process is performed for every 15 slots, it will continue to update the smallest value found so far.

When one frame elapses, 15 index values and the smallest value among these index values are determined.

In other words, looking at the table in the standard, that is, Table 1, it can be seen that the minimum index value of each group increases as the group increases. That is, the minimum index value is 1 for groups 1 to 22, 2 for 23 to 39, 3 for minimum values for 40 to 53, 5 for groups 54 to 61, and 9 for minimum values for 62 to 64. . In the present invention, if it is assumed that the minimum index value obtained from the received value is 9, not all 64 groups are compared, but only 62, 63, and 64 groups in which 9 is the minimum value. This comparison process will be described in detail in the flowchart of FIG. 3 to be described later.

On the other hand, as shown in Table 1, the memory unit 106 stores 64 code groups. That is, the memory unit 106 stores code groups for determining the code group by searching 64 code groups in which 16 codes are loaded, and are used to perform the comparison operation of the comparator 104 described later.

The comparator 104 detects the minimum index value of the slot index provided through the auxiliary code searcher 102 and compares only the code group corresponding to the minimum index value among the 64 code groups.

Hereinafter, a code group determination process performed by the code group determination apparatus of FIG. 1 according to an exemplary embodiment of the present invention will be described in detail with reference to the flowchart of FIG. 3.

First, the main code searcher 100 detects a main code and recognizes a starting point of a slot (S200) (S202).

Thereafter, the auxiliary code searcher 102 detects the auxiliary code and recognizes the slot index of the slot (S204) (S206).

After performing step S206, the comparator 104 detects and compares the minimum index value of the recognized slot index (S208), and proceeds to step S210 to determine whether all 15 consecutive slots have been detected. As a result of the determination in step S210, when all 15 consecutive slots are compared, the comparator 104 performs a code comparison operation in a code group including the corresponding minimum index value according to the detected minimum index value of the slot index. To determine the code group.

That is, if the minimum index value of the detected slot index is 1 as a result of the comparison in step S212, the code group having the minimum index value of 1 among the 64 code groups stored in the memory unit 106, for example, Groups 1 to 3 A code comparison process is performed in group 22 (S214), and a corresponding code group is determined based on the comparison result (S216).

If the minimum index value of the detected slot index is 2 as a result of the comparison of step S218, a code group having a minimum index value of 2 among the 64 code groups stored in the memory unit 106, for example, groups 23 to 23. The code comparison process is performed in the group 39 (S220), and the corresponding code group is determined according to the comparison result (S216).

As a result of the comparison in step S222, if the minimum index value of the detected slot index is 3, a code group having a minimum index value of 3 among the 64 code groups stored in the memory unit 106, for example, groups 40 to group 53 A code comparison process is performed in operation S224, and a corresponding code group is determined according to the comparison result in operation S216.

In addition, if the minimum index value of the detected slot index is 5 as a result of the comparison in step S226, a code group having a minimum index value of 5 among the 64 code groups stored in the memory unit 106, for example, groups 54 to 54. A code comparison process is performed in the group 61 (S228), and the corresponding code group is determined according to the comparison result (S216).

As a result of the comparison in step S230, if the minimum index value of the detected slot index is 9, a code group having a minimum index value of 9 out of 64 code groups stored in the memory unit 106, for example, groups 62 to group 64 A code comparison process is performed within (S232), and the corresponding code group is determined according to the comparison result (S216).

If the code group determination fails in step S230, the process returns to step S200 to perform main code search again.

In other words, if 64 code groups exist at the same ratio, the minimum index value is 22/64 for 1, 17/64 for 2, 14/64 for 3, 8/64 for 5, When the minimum index value is 9, there is a probability of 3/64. Therefore, the average number of comparisons involved in the code group discrimination process according to the present invention is 224.22 times {((22/64 × 22) + It becomes (17/64 * 17) + (14/64 * 14) + (8/64 * 8) + (3/64 * 3)) * 15} and is about 1/4 compared with 960 times of the conventional comparison Will be reduced.

As described above, the present invention implements the code group determination of the W-CDMA system so as to search and determine the code group only within the code group belonging to the minimum value of the slot index to be detected. For example, assuming that the minimum value of the slot index is 9, the comparison only needs to be performed within groups 62, 63, and 64, so that the total number of comparisons is reduced to 3/64.

Therefore, the present invention has the effect of reducing the code group determination time of the W-CDMA system.

Claims (3)

In a code group determination method of an asynchronous broadband code division multiple access system for determining a code group by comparing code information carried in 15 slots and 64 code groups, Detecting a main code and recognizing a starting point of the slot; Detecting an auxiliary code and recognizing a slot index of the slot; Detecting and comparing a minimum index value of the recognized slot index; And determining a code group by performing a code comparison operation within a code group including the corresponding minimum index value according to the detected minimum index value of the slot index. How to determine group. The method of claim 1, The code group determination step, If the minimum index value of the detected slot index is 1, comparing the code groups in groups 1 to 22, which are code groups having the minimum index value of 1 from among the 64 code groups, to determine a code group; If the minimum index value of the detected slot index is 2, comparing the code groups in groups 23 to 39, which are code groups having a minimum index value of 2 from the 64 code groups, to determine a code group; If the minimum index value of the detected slot index is 3, comparing the code groups in groups 40 to 53, which are code groups having the minimum index value of 3, from the 64 code groups to determine a code group; If the minimum index value of the detected slot index is 5, comparing the code groups in the groups 54 to 61 which are code groups having the minimum index value of 5 among the 64 code groups to determine a code group; If the minimum index value of the detected slot index is 9, comparing the code groups in the group 62 to group 64, which is the code group having the minimum index value of 9 among the 64 code groups, and determining a code group Code Group Determination Method for Asynchronous Broadband Code Division Multiple Access Systems. In the code group determination apparatus of the asynchronous broadband code division multiple access system for determining the code group by searching 64 code groups each containing 16 codes, A main code searcher for recognizing a starting point of a slot in which code information of the 16 codes is loaded; An auxiliary code searcher for recognizing a slot index of the slot; A memory unit in which 64 code groups are stored; And a comparator detecting a minimum index value of the slot index provided through the auxiliary code searcher and comparing only the code group corresponding to the minimum index value among the 64 code groups. Code group determination device in the system.