KR100675907B1 - Apparatus for cancelling a multi access interference in multi-rate code division multiple access system - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus for canceling multiple interference in a multi-rate code division multiple access system. Processing means; Decorrelation filtering means for removing cross correlation between the despread signals; Whitening filter means for converting colored Gaussian noise included in the signals having been de-correlated into a white Gaussian noise level; And combining and determining means for combining the output signals converted to the white Gaussian noise level, and then determining a transmitting side signal based on the combined signal, which is included in a signal received through multiple transmission paths. By converting the colored Gaussian noise into a white Gaussian noise level and detecting the signal on the transmitting side, it is possible to efficiently eliminate the multiple connection interference in which the high-speed data signal acts as strong interference noise to the low-speed data signal. It is a very useful invention that can improve the overall performance of the multi-rate code division multiple access system expected to be applied to the third mobile communication system.

Multirate, Code Division Multiple Access, Multiple Access Interference, Third Mobile Communication System, Colored Gaussian Noise, White Gaussian Noise

Description

Apparatus for canceling a multi access interference in multi-rate code division multiple access system}             

1 is a block diagram illustrating an overall configuration of a receiver to which a multiple access interference cancellation apparatus is applied in a multi-rate code division multiple access system according to the present invention.

2 illustrates a detailed configuration of a multipath processor included in a receiver to which an apparatus for eliminating interference of multiple access in a multi-rate code division multiple access system according to the present invention,

3 illustrates a detailed configuration of a whitening filter included in a receiver to which a multiple access interference elimination apparatus is applied in a multi-rate code division multiple access system according to the present invention;

4 and 5 are graphs illustrating bit error ratios (BERs) for signal-to-noise ratios in a receiver to which an apparatus for multiple access interference cancellation in a multi-rate code division multiple access system according to the present invention is applied. will be.

※ Explanation of code for main part of drawing                 

10: multipath handler 20: decorrelating filter

30: whitening filter 40: diversity combiner

50: data determiner

The present invention relates to an apparatus for canceling multiple access interference in a multi-rate code division multiple access system, and more particularly, to eliminate multiple access interference (MAI) at a receiver side of a multi-rate code division multiple access system. The present invention relates to an apparatus for canceling multiple access interference in a multi-rate code division multiple access system.

First of all, the Code Division Multiple Access (CDMA) scheme, as is well known, has advantages such as flexibility in user assignment, support and security of multirate transmission, and robustness to external interference signals. As a coding scheme suitable for a communication environment requiring multiple transmission paths and multiple accesses, it has been researched and developed for a long time.

On the other hand, in recent 3rd generation mobile communication systems, since not only voice data but also multimedia data such as video data must be transmitted at high speed through a wireless channel, a low speed data signal and a high speed data signal mutually Multi-rate CDMA is expected to be adopted.

However, in the multi-rate code division multiple access scheme as described above, multiple access interference (MAI) is generated in which a high speed data signal acts as a strong interference noise to a low speed data signal. Therefore, since it is a major cause of limiting the overall performance of the multi-rate code division multiple access system, there is an urgent need for a method to effectively remove the multi-rate code division multiple access system.

Accordingly, the present invention was created in view of the above situation, and by converting the colored Gaussian noise included in the signal received through the multiple transmission paths to the white Gaussian noise level, effectively eliminating the multiple access interference, SUMMARY OF THE INVENTION An object of the present invention is to provide a multiple access interference cancellation apparatus in a multi-rate code division multiple access system capable of improving the overall performance of the rate code division multiple access system. `

In the multi-rate code division multiple access system according to the present invention for achieving the above object, the multiple access interference cancellation apparatus, the signal received via the wireless transmission path, multi-path using the spreading sequence of the user on the transmitting side Multipath processing means for despreading the image on the screen; Decorrelation filtering means for removing cross correlation between the despread signals; Whitening filter means for converting colored Gaussian noise included in the signals having been de-correlated into a white Gaussian noise level; And combining and determining means for combining the signals output to the white Gaussian noise level, and then determining a transmitting side signal based on the combined signal.

Hereinafter, a preferred embodiment of a multiple access interference cancellation apparatus in a multi-rate code division multiple access system according to the present invention will be described in detail with reference to the accompanying drawings.

First, FIG. 1 illustrates an overall configuration of a receiver to which a multiple access interference cancellation apparatus in a multi-rate code division multiple access system according to the present invention is applied. The data signal r (t) is despread through the plurality of multipath processors 10 ₁ to 10 _K , respectively, and then input to the decorrelating filter 20, for example, the K-th multipath processor. The received signal r (t) input at (10 _K ) is multiplied by the spreading sequence S _K (t) of the transmitting user K, as shown in Fig. 2, and then integrated by the integrator 1, In addition, each of the signals sequentially passed through a plurality of delay elements D _{1 to} D _{L -1} and delayed by a single chip duration is spreading sequence S _K (t) of the transmitting user K. After multiplying by and respectively, it is integrated by Integrator 2 ~ Integrator L Thus, after being despread by the spreading sequence of the transmitting user K, the integrally outputted signals are input to the decorrelating filter 20 through L multiple transmission paths.
In other words, K-th multi-path processor (10 _K) the received signal (r (t)) input to the then multiplied with the same spreading sequence S _K (t) and the transmission-side user K, 1 second integrator while the L integrators and The integral is calculated. In addition, the received signal r (t) passes through L-1 delay elements, respectively, and has a single chip duration. It is generated by changing _L-1 received signals r (t ₁ ) to r (t _L-1 ) according to the delay. Each of the received signals r (t ₁ ) to r (t _L-1 ) passes through the L-1 delay elements D _{1 to} D _{L-1 in} sequence and spreads the same spreading sequence S _K as the transmitting user _K. Multiply by (t), and integrate and compute each of the L integrators from the second to the L integrators, respectively. Accordingly, each of the L-received-calculated signals output from the K-th multipath processor _10K passes through L multiple transmission paths connected to the L integrators, respectively, and then is transmitted to the decorrelating filter 20, respectively. .

On the other hand, the decorrelating filter 20, after removing the cross-correlation between the signals received through the L multiple transmission paths as described above, L × L whitening having L input / output paths filter (30 ₁ ~30 _L) in a to be outputted, respectively, the L × L whitening filter (30 ₁ ~30 _L), after passing the decorrelation filter 20, through the L multiple transmission paths In order to remove colored Gaussian noise included in the received signal, a whitening process of adjusting a signal level to a white Gaussian noise level is performed.

That is, it is easier and mathematically simpler to detect a signal under white Gaussian noise than with a signal with colored Gaussian noise, as is commonly known in signal detection theory. The color Gaussian noise included in the received signal is converted into a white Gaussian noise level. For example, the received signal input to the L-th whitening filter 30 _L is multiplexed as shown in FIG. 3. After multiplying by the coefficient f ₁ of the whitening filter set to the inverse of the impulse response coefficient for the transmission path, it is output to a summer (Σ) and sequentially passes through the plurality of delay elements D _{1 to} D _{L -1} . since the output to said summer (Σ) and then made delayed by as much as a single chip duration (T _C ^-1), respectively of signals, coefficients of the whitening filter f ₂ ~ f _L to the product, eventually a white The signal converted into the cyan noise level, through a summator (Σ) is configured to include the L × L Whitening Filter (30 _L) is output to the diversity combiner (Diversity Combiner).

On the other hand, as shown in Figure 1, in the plurality of diversity combiners (40 _{1 ~} 40 _L ), the signals received through each path are combined, respectively, to output to the plurality of data determiners (50 ₁ ~ 50 _L ) The data determiner 50 _{1 to} 50 _L receives the high speed data signal or the low speed data signal transmitted from the transmitting side through the wireless transmission path. The colored Gaussian noise contained in the received signal is converted to a white Gaussian noise level which is easier to detect the signal, thereby enabling accurate estimation of the signal.

Therefore, the multiple connection interference that limits the overall performance in the multirate code division multiple access system in which the high speed data signal and the low speed data signal coexist, that is, the high speed data signal is a strong interference noise to the low speed data signal. It is possible to effectively eliminate the multiple access interference caused.

On the other hand, in the state where the total data rate that can be transmitted in the multi-rate code division multiple access system is fixed, as shown in FIG. 4, when adjusting the number of users, for example, the base data rate R When the number of users is 16, the performance deteriorates more than when there is one user having a transmission rate that is 16 times the basic data transmission rate (R). It can be seen that there is a greater impact.

And, as shown in Figure 5, in the state equipped with a multiple access interference cancellation apparatus according to the present invention, 16 users having a basic data rate (R), and a user 4 having four times the basic data rate (R) The bit error probability (BER) is higher than that of 16 users having the basic data rate R and four users having four times the basic data rate R without the multiple access interference cancellation device. : Bit Error Ratio) is much smaller, which shows that the system performance is better with the multiple access interference cancellation device.

As mentioned above, preferred embodiments of the present invention are disclosed for purposes of illustration, and those skilled in the art can improve and change various other embodiments within the spirit and technical scope of the present invention disclosed in the appended claims below. , Replacement or addition would be possible.

In the multi-rate code division multiple access system according to the present invention configured as described above, the multiplex interference elimination apparatus converts colored Gaussian noise included in a signal received through a multiple transmission path into a white Gaussian noise level, and transmits the transmitted signal. The multi-rate code, which is expected to be applied to the third mobile communication system, can be effectively removed by detecting the multiple connection interference caused by the high-speed data signal acting as strong interference noise to the low-speed data signal by detecting the It is a very useful invention that can improve the overall performance of the split multiple access system.

Claims (3)

Multipath processing means for despreading on a multipath by computing a signal received through a wireless transmission path and the same spreading sequence as a transmitting user; Decorrelation filtering means for removing cross correlation between the despread signals; Whitening filter means for converting colored Gaussian noise included in the signals having been de-correlated into a white Gaussian noise level; And And combining and determining means for combining the output signals converted to the white Gaussian noise level, and then determining a transmission side signal based on the combined signal. The method of claim 1, wherein the multi-path processing means, Multiply code division by multiplying the received signal and each signal delayed by a single chip duration by sequentially passing through a plurality of delay elements and multiplying by the same spreading sequence as the transmitting user, and then outputting the integral Multiple access interference cancellation device in a multiple access system. The method of claim 1, The whitening filter means, The cross-correlated signal and the signals each delayed by a single chip duration by sequentially passing through a plurality of delay elements are multiplied by the coefficient of the whitening filter set to the inverse of the impulse response coefficient for the multiple transmission paths. And then summarizing and outputting the signals, respectively, in the multiple rate code division multiple access system.

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