KR100914404B1 - Signal Quality Measuring Apparatus and Method for WCDMA System - Google Patents

Abstract

The present invention relates to an apparatus and method for measuring signal quality of a WCDMA system to improve the accuracy of signal quality measurement by finding and substituting more accurate synchronization points in measuring WCDMA signal quality.

Signal quality measuring apparatus of the WCDMA system of the present invention includes a WCDMA signal receiving unit for receiving a WCDMA signal; A slot synchronization search unit for searching for the WCDMA signal to obtain slot synchronization; A frame sync and code group search unit for obtaining frame start sync and code group information by searching the data of the slot in which the sync is obtained; A PSC search unit for searching the obtained code group information to obtain a corresponding PSC (Primary Scambling Codee) of a channel to be decoded; A synchronization rescan unit for obtaining a data sample having a maximum correlation value after obtaining a correlation value between the received data having the one or more data samples before and after the obtained frame start synchronization as the frame start synchronization and the obtained PSC; And a signal quality measuring unit measuring a quality of a signal based on the obtained PSC and a data sample having the maximum correlation value.

Description

Signal Quality Measuring Apparatus and Method for WCDMA System

The present invention relates to an apparatus and method for measuring signal quality of a WDCMA system. In particular, in measuring signal quality of a WCDMA system, a signal of a WCDMA system capable of improving the accuracy of signal quality measurement by finding and assigning a more accurate synchronization time point It relates to a quality measuring apparatus and method.

As is well known, Wideband CDMA (WCDMA) is a next-generation mobile communication wireless access standard including mobile phones and pocket bells proposed to support voice or multimedia data communication. Conventional Code Division Multiple Access (CDMA) is one of the standard technologies used in digital automobile cellular phones using spread-band technology. The user distinguishes using PN (Pseudo-Noise) code unique to the user communication channel.

Compared to the CDMA method, the WCDMA method has several advantages. First, the wider the bandwidth, the stronger the frequency selective fading, and when the same data is transmitted, the bandwidth is increased and the processing gain is increased, so the interference is reduced and the capacity is increased. Second, since multipath can be resolved using a RAKE receiver, even a micro cell can overcome the propagation delay in an indoor environment. Third, the efficiency per 1MHz bandwidth is excellent, which is advantageous in terms of subscriber capacity, and the processing gain is increased, so that the capacity of power amplifier is reduced to reduce the cost of implementation, and the power amplifier size and power consumption are reduced by reducing the size of power amplifier. Can be.

In the WCDMA system, cell discovery is performed through three processes: slot synchronization, frame synchronization, code group discovery, and primary scrambling code (PSC) discovery (see ETSI TS 125-214 Annex C).

Meanwhile, the WCDMA mobile communication company needs to measure the signal quality transmitted and received at its base station in order to provide a better service quality to subscribers, and thus operate a fixed or mobile WCDMA signal quality meter.

1 is a functional block diagram showing the configuration of a conventional WCDMA signal quality measuring apparatus. As shown in FIG. 1, the conventional WCDMA signal quality measuring apparatus includes a WCDMA signal receiving unit 10 that receives a WCDMA signal, a slot synchronization searching unit 20 that searches for a received WCDMA signal, and acquires slot synchronization. The frame synchronizer and code group search unit 30 and the frame synchronizer and code group search unit 30 which search for data of slots acquired by the synchronization search unit 20 to obtain frame start synchronization and code group information. Decode the desired channel through the PSC search unit 40 and the PSC obtained by the PSC search unit 40 to obtain the corresponding PSC (Primary Scambling Code) of the channel to be decoded by searching the code group information obtained by It may include a signal quality measuring unit 50 for measuring the signal quality.

2 is a flowchart illustrating an operation of a conventional WCDMA signal quality measuring apparatus, and FIG. 3 is a block diagram of a general WCDMA frame. As shown in Fig. 2, first in step S10, a WCDMA signal is received, which may be performed by the WCDMA signal receiving unit 10. Next, in step S20, slot synchronization is performed by the slot search unit 20. In step S20, the first 256 chip length data of each slot of the received WCDMA signal is present as shown in FIG. It may be performed by detecting a correlation for a PSCH code of a Primary Synchronization Channel (PSCH). In this process, the slot synchronization acquisition failure probability is inversely proportional to the length of the PSCH code used for slot synchronization. That is, the probability of failure in detecting slot synchronization using a PSCH code of 256 * 20 chips included in 20 slots rather than using a PSCH code of 256 * 10 chip lengths included in 10 slots can be used. It will be reduced.

When the slot synchronization is acquired in this manner, in step S30, frame start synchronization and code group searching are performed by using the SSCH (Secondary Synchronization Channel) transmitted in the same section in which the PSCH is transmitted by the frame synchronization and code group searching unit 30. Done. In step S30, the ID of each slot, that is, the number of slots of the entire frames, is obtained through correlations of 16 SSCH codes to obtain frame start synchronization, and the code group information for the PSC search is obtained. You get it.

Next, in step S40, the PSC search unit 40 searches for a PSC for decoding a desired channel. In the WCDMA system, all 64 code groups have 8 PSC candidates, and when the code group is obtained, One PSC is found among the eight PSC code candidates by the code group obtained without having to find all 512 PSC codes.

Finally, in step S50, the signal quality measurement unit 50 measures the signal quality after decoding the desired channel through the PSC thus obtained. In this case, there in a WCDMA system, the signal quality can be expressed as the value Ec / Io (Energy per chip over Interface noise), E c / I 0 , for example using a PSC descrambling (Descrambling) and Walsh code (Walsh It can be obtained by using the pilot power of the CPICH (Common Pilot Channel) and the power of the received signal, which are despread and decoded using Code. That is, the obtained PSC S (n), 0 beonjjae Walsh code W ₀ (n), the received data X (n), over the number of samples of P, E _c I a CPICH symbol number used to calculate the ₀ Ns , when referred to the frame start synchronization T _0, E _c / _{I 0} is defined as follows:

However, in the equation (1) above, T ₀ value is written to be obtained through the frame synchronization in step S20 slot synchronization, and step S30 of, is a value obtained from the values, that is, macro-interval acquired by a plurality of slots as described above, . Therefore, when calculating E _c / I ₀ using only a small number of slots, e.g., one micro slot, the T ₀ value may have an error for such a small number of slots, thus E _c / I _0. There was also a problem that the value appeared incorrectly.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and an apparatus and method for measuring signal quality of a WCDMA system to improve the accuracy of signal quality measurement by finding and substituting more accurate synchronization points in measuring WCDMA signal quality The purpose is to provide.

Signal quality measuring apparatus of the WCDMA system of the present invention for achieving the above object is a WCDMA signal receiving unit for receiving a WCDMA signal; A slot synchronization search unit for searching for the WCDMA signal to obtain slot synchronization; A frame sync and code group search unit for obtaining frame start sync and code group information by searching the data of the slot in which the sync is obtained; A PSC search unit for searching the obtained code group information to obtain a corresponding PSC (Primary Scambling Codee) of a channel to be decoded; A synchronization rescan unit for obtaining a data sample having a maximum correlation value after obtaining a correlation value between the received data having the one or more data samples before and after the obtained frame start synchronization as the frame start synchronization and the obtained PSC; And a signal quality measuring unit measuring a quality of a signal based on the obtained PSC and a data sample having the maximum correlation value.

In the above-described configuration, the signal quality is descrambled using the obtained PSC, and despreaded using Walsh code to decode and decode the pilot power of a common pilot channel (CPICH) and a received signal. Can be obtained using power.

More specifically, the signal quality is

Can be obtained by

S (n) is used to calculate the acquired PSC, W ₀ (n) is the 0-th Walsh code, the received data X (n) is, P is over the sample number, Ns is E _c I ₀ The number of common pilot channel (CPICH) symbols, T ₀ is frame start synchronization obtained through slot synchronization and frame synchronization, Denotes a frame start sync obtained through a sync rescan process.

On the other hand, the synchronization re-search section starting frame to the data samples from, based on the frame start synchronization T ₀ obtained from the slot synchronization search unit and the frame synchronization search section T ₀ -N / 2 to T ₀ + N / 2 1 each mobile A time delay adjusting unit for moving the position of the synchronization; A PSC correlator and a PCS buffer are used, and the correlation between received data having N different frame start synchronizations shifted by the time delay control unit and the PSC transferred from the PSC search unit and stored in the PSC buffer is N. A synchronization detector for detecting a frame start synchronization of a data sample having a maximum correlation value R (n ₀ ) of the PSC correlation unit and N correlation values R (n) obtained by the PSC correlation unit, and transmitting the detected frame start synchronization to the signal quality measurement unit. And 66.

Here, the correlation value R (ｎ) is

Where n is the received data, P is the PSC, and L is the length of the data sample whose correlation value is to be calculated.

A signal quality measuring method of a WCDMA system according to another aspect of the present invention includes a signal receiving step of receiving a WCDMA signal; A slot synchronization search step of searching for the received WCDMA signal to obtain slot synchronization; A frame synchronization and code group information searching step of searching for data of the slot in which synchronization has been acquired to obtain frame start synchronization and code group information; A PSC search step of searching for the obtained code group information to obtain a corresponding PSC (Primary Scambling Codee) of a channel to be decoded; A synchronization rescanning step of acquiring a data sample having a maximum correlation value after obtaining a correlation value between the received data having the one or more data samples before and after the obtained frame start synchronization as the frame start synchronization and the obtained PSC; and And a signal quality measuring step of measuring a quality of a signal based on the obtained PSC and a data sample having the maximum correlation value.

In the above-described configuration, the signal quality is descrambled using the obtained PSC, and despreaded using Walsh code to decode and decode the pilot power of a common pilot channel (CPICH) and a received signal. Can be obtained using power.

More specifically, the signal quality is

Saved by

S (n) is used to calculate the acquired PSC, W ₀ (n) is the 0-th Walsh code, the received data X (n) is, P is over the sample number, Ns is E _c I ₀ The number of common pilot channel (CPICH) symbols, T ₀ is frame start synchronization obtained through slot synchronization and frame synchronization, Denotes a frame start sync obtained through a sync rescan process.

On the other hand, the synchronization re-search step includes a time delay adjustment which by the frame start synchronization on the basis of T ₀ T ₀ -N / 2 from T ₀ + N / 2 data samples one by one movement to move the position of the start of frame synchronization; A PSC correlation obtaining step and N obtained correlations for obtaining N correlations between received data having N different frame start synchronizations moved by the time delay adjusting step and the PSCs obtained in the PSC search step. value R (n) can be made to include in the synchronization detection step of detecting a start of frame synchronization of the data sample having the maximum correlation value R (n _0).

Here, the correlation value R (ｎ) is

Where n is the received data, P is the PSC, and L is the length of the data sample whose correlation value is to be calculated.

The slot synchronization search step is performed by detecting a correlation of a PSCH code of a PSCH (Primary Synchronization Channel) present in data of a length of the first 256 chips of each slot of a received WCDMA signal. The discovery step may be performed using a Secondary Synchronization Channel (SSCH) transmitted in the same section in which the PSCH is transmitted.

According to the WCDMA signal quality measuring apparatus and method of the present invention, the accuracy of the signal quality measurement can be improved by finding and substituting a more accurate synchronization point in measuring the WCDMA signal quality, thereby improving the reliability of the measurement.

1 is a functional block diagram showing the configuration of a conventional WCDMA signal quality measuring apparatus,

2 is a flow chart for explaining the operation of the conventional WCDMA signal quality measuring apparatus;

3 is a configuration diagram of a general WCDMA frame;

4 is a functional block diagram showing the configuration of the WCDMA signal quality measuring apparatus of the present invention;

FIG. 5 is a functional block diagram showing a detailed configuration of a synchronization rescan unit in FIG. 4; FIG.

6 is a flowchart illustrating a synchronous rescanning process in the WCDMA signal quality measuring method of the present invention.

*** Explanation of symbols for the main parts of the drawing ***

10: WCDMA signal receiving unit, 20: slot synchronization search unit,

30: frame synchronization & code group search unit, 40: PSC search unit,

50: signal quality measuring unit, 60: synchronous rescanning unit,

62: time delay adjuster, 64: PSC correlator,

64a: PSC correlator, 64b: PSC buffer,

66: synchronization detector

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to the WCDMA signal quality measuring apparatus and method according to an embodiment of the present invention.

4 is a functional block diagram showing the configuration of the WCDMA signal quality measuring apparatus of the present invention, the same reference numerals are assigned to the same parts as those shown in FIG. As shown in FIG. 4, according to the WCDMA signal quality measuring apparatus of the present invention, the WCDMA signal receiving unit 10, the slot synchronization searching unit 20, the frame synchronization and code group searching unit 30 for measuring the WCDMA signal quality ), The configuration 50 of the PSC search unit 40 and the signal quality measurement unit is the same as in the prior art, but in the present invention, a synchronization rescan unit 60 for searching for an accurate sync point is added.

For this purpose, the information on the slot synchronization acquired by the slot synchronization search unit 20 and the frame start synchronization obtained by the frame synchronization and group code search unit 30 is directly inputted to the signal quality measurement unit 50. It is input to the synchronous rescanning unit 60. Next, the synchronization rescan unit 60 finds more accurate synchronization through the following process based on the input slot synchronization and frame start synchronization.

FIG. 5 is a functional block diagram illustrating a detailed configuration of a synchronization rescan unit in FIG. 4. First, as shown in FIG. 5, the synchronization redetection unit 60 starts from T ₀ -N / 2 to T based on the frame start position T ₀ obtained from the slot synchronization search unit 20 and the frame synchronization search unit 30. _It consists of a time delay adjuster 62, a PSC correlator 64a, and a PCS buffer 64b, which move a data sample one by one to ₀ + N / 2 so as to move the position of frame start sync. PSC Correlator 64 and PSC Correlation for N N correlation coefficients between the received data having N different frame start synchronizations moved by the PSC search unit 40 and the PSCs stored in the PSC buffer 64b. part synchronous detector (66) to pass to the N correlation values R (n) the maximum correlation value R (n _0), the signal quality measuring unit 50 detects the start of frame synchronization of a data sample having from obtained by the 64 It may be made, including. In the above configuration, the N value is any user-definable positive number whose unit is defined as 1 / P chip when the value of the oversample is P, and the larger the N value, the more calculation is required, but more accurate synchronization. You can get points. The PSC correlation value R (n) is calculated by Equation 2 below.

In Equation 2 above, n (n) is defined as received data, P (n) is PSC, and L is a length of a data sample for calculating a correlation.

6 is a flowchart illustrating a synchronization rescanning process in the WCDMA signal quality measuring method of the present invention.

First, in step S100 the initialization variable B represents the variable A, and the maximum correlation value indicating a correlation value in a variable n, each data sample representing the data sample ID, respectively and, for the next step S110 PSC correlation value R (n) Assign to variable A. Next, at a step S120 to determine the value of the variable A is greater than the value of the variable B, if large, the value of variable n, with also assigns the value of variable A to variable B data sample ID having the maximum correlation value It is substituted into the variable n representing _0. Next, in step S140, it is determined whether the value of the variable n reaches N (number of data samples arbitrarily set by the user) -1 . If the judgment made at step S140, it is determined to reach a value of a correlation value of the variable B of data samples to a variable n ₀ to the data sample ID in step S130, the maximum correlation value. On the other hand, if the value of the variable n does not reach N-1 in step S140, the flow advances to step S150 to increase the value of the variable n by 1 and then repeats step S110.

In this way, when the data sample having the maximum correlation value is determined, the synchronization detector 66 transmits it to the signal quality measurement unit 50. Subsequently, the signal quality measurement unit 50 substitutes this for Equation 3 below. Signal quality is measured.

In Equation 3 above, Denotes a frame start sync obtained through a sync rescan process.

As a result, the signal quality measurement value obtained as shown in Equation 3 above is more accurate because the signal quality measurement value obtained by Equation 1 above can prevent degradation of the signal quality measurement value that may occur due to synchronization error. Quality measurements can be provided to the user.

The signal quality measuring apparatus and apparatus of the WCDMA system of the present invention are not limited to the above-described embodiments, and may be variously modified and implemented within the range permitted by the technical idea of the present invention.

Claims (12)

A WCDMA signal receiver receiving a WCDMA signal; A slot synchronization search unit for searching for the WCDMA signal to obtain slot synchronization; A frame sync and code group search unit for obtaining frame start sync and code group information by searching the data of the slot in which the sync is obtained; A PSC search unit for searching for the obtained code group information to obtain a corresponding PSC (Primary Scambling Code) of a channel to be decoded; A synchronization rescan unit for obtaining a data sample having a maximum correlation value after obtaining a correlation value between the received data having the one or more data samples before and after the obtained frame start synchronization as the frame start synchronization and the obtained PSC; And a signal quality measuring unit for measuring a signal quality based on the obtained PSC and the data sample having the maximum correlation value. The method of claim 1, The signal quality is obtained by using the pilot power of the CPICH (Common Pilot Channel) decoded using the obtained PSC, despreading using a Walsh code, and the power of a received signal. A signal quality measuring apparatus of a WCDMA system. The method according to claim 1 or 2, The signal quality is Saved by Is the number of data samples, Denotes a frame start sync point of the data sample having the maximum correlation value, S (n) denotes the obtained PSC, Ｗ ₀ (ｎ) denotes a zeroth Walsh code, Ｘ (ｎ) denotes received data, and P the number of over-samples, Ns is the number of E _c I (Common Pilot Channel) CPICH symbols used to calculate _0, T ₀ is the start of frame synchronization acquired through the navigation unit the frame synchronization and code group, The signal quality measuring apparatus of the WCDMA system, characterized in that the frame start synchronization obtained through the synchronization re-search unit. The method of claim 3, wherein The synchronization re-search portion of the slot synchronization search unit and the frame synchronization search section frame start synchronization T data samples from, based on the ₀ T ₀ -N / 2 to T ₀ + N / 2 1 each move frame start synchronization obtained from A time delay adjusting unit for moving a position; A PSC correlator and a PCS buffer, and the correlation value between the received data having N different frame start synchronizations shifted by the time delay adjusting unit and the PSC transferred from the PSC search unit and stored in the PSC buffer is N. The PSC correlator Signal quality measurement of the WCDMA system, characterized in that it comprises a synchronization detection unit for detecting the frame start synchronization of the data sample having the maximum correlation value from the N correlation values obtained by the PSC correlator and transmits it to the signal quality measurement unit. Device. The method of claim 4, wherein The correlation value is Saved by (N) is the received data, P (n) is PSC, and L is the length of the data sample to calculate the correlation value. A signal receiving step of receiving a WCDMA signal; A slot synchronization search step of searching for the received WCDMA signal to obtain slot synchronization; A frame synchronization and code group information searching step of searching for data of the slot in which synchronization has been acquired to obtain frame start synchronization and code group information; A PSC search step of searching for the obtained code group information to obtain a corresponding PSC (Primary Scambling Code) of a channel to be decoded; A synchronization rescanning step of acquiring a data sample having a maximum correlation value after obtaining a correlation value between the received data having the one or more data samples before and after the obtained frame start synchronization as the frame start synchronization and the obtained PSC; and And a signal quality measuring step of measuring a signal quality based on the obtained PSC and the data sample having the maximum correlation value. The method of claim 6, The signal quality is obtained by using the pilot power of the CPICH (Common Pilot Channel) decoded using the obtained PSC, despreading using a Walsh code, and the power of a received signal. Signal quality measurement method of a WCDMA system characterized by. The method according to claim 6 or 7, The signal quality is Saved by Is the number of data samples, Denotes a frame start sync point of the data sample having the maximum correlation value, S (n) denotes the obtained PSC, Ｗ ₀ (ｎ) denotes a zeroth Walsh code, Ｘ (ｎ) denotes received data, and P the number of over-samples, Ns is the number of E _c I (Common Pilot Channel) CPICH symbols used to calculate _0, T ₀ is the start of frame synchronization acquired through the information search phase the frame synchronization and code group, The signal quality measurement method of the WCDMA system, characterized in that the frame start synchronization obtained through the resynchronization step. The method of claim 8, The synchronization re-search step includes a time delay adjustment of the frame to start synchronization on the basis of T ₀ T ₀ -N / 2 from T ₀ + N / 2 data samples one by one to shift the position of the mobile frame synchronization start; A PSC correlation value obtaining step of obtaining N correlation values between received data having N different frame start synchronizations moved by the time delay adjustment step and the PSC obtained in the PSC search step; And a synchronization detecting step of detecting a frame start synchronization of the data sample having the maximum correlation value among the obtained N correlation values. The method of claim 9, The correlation value is Saved by Ｘ (ｎ) is received data, P (NP) is PSC, and L is the length of a data sample to calculate a correlation value. The method of claim 10, The slot synchronization search step is performed by detecting a correlation value of a PSCH code of a PSCH (Primary Synchronization Channel) present in data of a length of the first 256 chips of each slot of a received WCDMA signal. How to measure. The method of claim 11, The frame synchronization and Grook code information search step is performed using the Secondary Synchronization Channel (SSCH) transmitted in the same period in which the PSCH is transmitted signal quality measurement method of the WCDMA system.