KR20010064261A - Channel Deduction Scheme for Multi-channel CDMA System - Google Patents

Abstract

PURPOSE: A channel estimator of a multi channel CDMA(Code Division Multiple Access) system and an estimating method thereof are provided to set up mutually different average blocks per each channel, so that more than two data channels requesting different quality of service exist. CONSTITUTION: Pilot signal processing units(31,32) de-spread pilot channels, and average pilot symbols during predetermined blocks, to output an estimating temporary channel coefficient. A temporary data detector(33) detects temporary data for each data channel, using signals of multi data channels and the estimating temporary channel coefficient. Multi data channel averaging units(35,37) average corresponding data channels during predetermined blocks, to estimate a temporary channel coefficient reducing the influence by a symbol error and interruption of the data channel. A summer(39) sums channel coefficients estimated from the pilot signal processing units(31,32) and the multi data channel averaging units(35,37), to output a final channel coefficient.

Description

Channel estimator and estimation method for multi-channel code division multiple access system {Channel Deduction Scheme for Multi-channel CDMA System}

The present invention relates to a multi-channel code division multiple access system, and more particularly, to a channel estimator and an estimation method suitable for a multi-channel CDMA system supporting multiple QoS (Quality of Service). It is about.

The present invention describes a channel estimation technique suitable for a next generation mobile communication system including an International Mobile Telecommunication-2000 (IMT-2000) system capable of integrating and supporting services requiring different rates and QoS.

As a conventional channel estimating technique, a method of estimating a channel using only a pilot or a pilot and a data channel at the same time in a CDMA system consisting of a pilot channel and a single data channel is disclosed.

The method for estimating a channel using only the pilot channel is the paper "M. Benthin & KD Kammeyer, Influence of channel estimation on the performance of a coherent DS-CDMA system, IEEE Transactions on Vehicular Techmology, Vol. 46 No. 2, 1997.5" Was presented in. In addition, a method of estimating a channel using a pilot and a data channel simultaneously is described in the paper "Seunghyun Min & Kwangbok Lee, Pilot and traffic based channel estimaion for DS-CDMA systems, Electronics Letters, Vol. 34 No.11, 1998.5". Presented.

The channel estimating technique using only the pilot channel is a method of estimating the corresponding channel by taking the average of the pilot channels in order to reduce the interference of other users, and the channel estimating technique using the pilot and the data channel simultaneously uses the data detected in the data channel. It is a technique for estimating a channel by feedback and combining it with a pilot signal.

However, since the pilot channel has time-varying characteristics, it is difficult to compensate for the time-varying characteristics of the channel when the average period is taken too long to reduce the influence of interference. In addition, since the data detected in the data channel has a certain probability of error, if the required bit error rate in each data channel is different, the average interval to be taken to reduce the influence of such a bit error rate must also be changed.

In addition, the channel estimating technique can support a certain QoS, and a channel estimating technique considering a structure optimized for a multi-channel CDMA system having two or more data channels requiring different QoS has not been disclosed. . That is, the multi-channel CDMA system is difficult to estimate the channel because it causes multi-user interference due to the use of more pilot power than necessary in the next generation wireless communication system environment.

Accordingly, the present invention has been made to solve the above problems of the prior art, and is optimized for a multi-channel CDMA system in which two or more data channels requiring different QoS are present by setting different average intervals for each channel. It is to provide an estimator and estimation method.

1 is an overall configuration diagram of a mobile communication system of a multi-channel direct sequence CDMA method to which a channel estimator is applied according to an embodiment of the present invention;

2 is a signal configuration diagram of the entire system of FIG.

3 is a detailed block diagram of a channel estimator according to an embodiment of the present invention.

※ Explanation of code about main part of drawing ※

31: pilot channel despreader 32: pilot channel averager

33: temporary data detector 34: data channel 1 delay

35: data channel 1 averager 36: data channel 2 delayer

37: Data Channel 2 Averager 38: Pilot Channel Delay

39: summer

In order to achieve the above object, the channel estimator of a multi-channel code division multiple access system according to the present invention transmits a pilot channel and a multiple data channel through a multi-radio channel in a transmitting end, and transmits a multi-channel in a receiving end. A channel estimator for estimating channel coefficients using a transmitted pilot channel and multiple data channels, and estimating the channel coefficients in a multi-channel code division multiple access system for detecting data of each multiple data channel using the channel coefficients, A pilot signal processor for despreading the pilot channel and averaging the despread pilot symbols for a predetermined period to output an estimated temporary channel coefficient, and using the estimated temporary channel coefficient and the signal of the data despread data To detect temporary data for each data channel Temporary channel coefficients are reduced by averaging the data channel for a predetermined period using temporal data for each data channel output from the temporal data detector and the temporal data detector to reduce the effects of symbol error and interference on the data channel. And a multiplier for estimating and outputting a final data coefficient by adding the channel coefficients estimated from the pilot signal processor and the multiple data channel averager.

Preferably, the average interval of each data channel for estimating the temporary channel coefficient in the multiple data channel averager is variably set to satisfy the bit error probability according to the quality of service (QoS) of each data channel. do.

In addition, in the channel estimation method of a multi-channel code division multiple access system according to the present invention, a transmission channel spreads a pilot channel and a multiple data channel and transmits the data through multiple radio channels, and a reception channel transmits a pilot channel through multiple radio channels. And a channel estimation method for estimating channel coefficients using multiple data channels and estimating the channel coefficients in a multi-channel code division multiple access system using the channel coefficients to detect data of each multiple data channel. A first step of despreading and outputting an estimated temporary channel coefficient by taking an average over a period of time for the despread pilot symbols; A second step of detecting temporary data for each data channel by using the estimated temporary channel coefficient and a signal of data despread data; A third step of estimating and outputting a temporary channel coefficient reduced by a symbol error and interference of the data channel by taking an average for a predetermined period using the temporary data for each data channel; And a fourth step of outputting a final channel coefficient by adding the temporary channel coefficients estimated from the first and third steps.

Hereinafter, the "channel estimator and estimation method of a multi-channel code division multiple access system" according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

In next generation wireless communication system, it is necessary to satisfy various needs of users by using multiple channels. That is, it must be able to support multiple QoS in multiple channels. In particular, in the code division multiple access (CDMA) system, the power of the pilot channel used only for channel estimation is minimized because only the minimum power that can satisfy its QoS is required due to the limited battery life of the terminal and the influence of multi-user interference. must do it. Therefore, using the data channel together in the channel estimation can significantly reduce the power of the pilot channel to extend the battery life and reduce the interference between multiple users. This will be described in more detail as follows.

1 is an overall configuration diagram of a multi-channel DS-CDMA (Direct Sequence DCMA) mobile communication system to which the channel estimator of the present invention is applied, and FIG. 2 is a signal configuration diagram of the entire system of FIG.

The entire mobile communication system can be largely divided into a transmission end, a wireless channel, and a reception end. The pilot channel and the two data channels generated at the transmitter are input to the receiver through a multipath channel. The transmitter includes a Spreader for Pilot Channel 1, a Spreader for Traffic Channel 1 2, and a Data Channel 2 Spreader 3 Include.

The receiving end comprises a channel estimator 4, a data channel 1-despreading correlator for traffic channel 1 5, a data spreading correlator for traffic channel 2 6, A data channel 1-rake receiver 7 and a data channel 2-rake receiver 8.

The pilot channel spreader 1 of the transmitting end spreads the pilot channel to the orthogonal code string C _p (k). Power is allocated. Data channel-1 spreader (2) spreads data channel 1 with orthogonal code C _D1 (k) Power is allocated. Data channel 2 spreader 3 spreads data channel 2 with orthogonal code C _D2 (k) Power is allocated.

The channel estimator 4 at the receiving end estimates the channel coefficients used for demodulation. Data channel 1 despread correlator 5 despreads data channel 1 with orthogonal code C _D1 (k). Data channel 2 despread correlator 6 despreads data channel 2 with orthogonal code C _D2 (k). The data channel 1 rake receiver 7 receives the output of the despread correlator 5 and the output of the channel estimator 4 for data channel 1 and detects the final data. The data channel 2 rake receiver 8 receives the output of the despread correlator 6 and the output of the channel estimator 4 for data channel 2 and detects the final data.

The pilot channel and the signals of data channel 1 and data channel 2 are shown in FIG. The pilot channel is a channel used for channel estimation with spread gain G _P , data channel 1 is a spread gain G _D1 equal to the spread gain G _P of the pilot channel, and is a channel responsible for data transmission. As a channel having _{D2, it} is a channel having a data rate faster than that of data channel 1 whose ratio with the spreading gain of data channel 1 is G _D1 / G _D2 .

3 is an internal configuration diagram of a channel estimator according to an embodiment of the present invention.

This channel estimator includes a pilot channel despreader 31, a pilot channel averifier 32, a temporary data detector 33, a data channel 1 delayer 34, a data channel 1 averager 35, and a data channel 2 delay. Group 36, a data channel 2 averager 37, a pilot channel delayer 38, and a summer 39.

The pilot channel despreader 31 despreads the pilot channel. The pilot channel averager 32 averages the despread pilot symbols over a period of time to reduce the effects of multi-user interference, multipath interference, and the like. The temporary data detector 33 detects temporary data for each data channel by using the temporary channel coefficient estimated only for the pilot channel. Data channel 1 delayer 34 and data channel 2 delayer 36 each data channel decorrelator to compensate for the time difference between the estimated temporary channel coefficients input to temporary data detector 33 and the despreading value of each data channel. Delays the output of

The Averaging Device for Traffic Channel 1 35 receives the output of the temporary data detector 33 and reduces the effects of symbol errors and various interferences that occur when estimating channel coefficients using the output of the temporary data detector 33. The average interval of data channel 1 is different from the average interval of pilot channel because the effect on symbol error must be considered.

The average device for traffic channel 2 37 receives the output of the temporary data detector 33 and reduces the effects of symbol errors and various interferences when estimating the channel coefficient using the output of the temporary data detector 33. As described above, since the spreading gains G _D1 and G _D2 of the two data channels are different because the spreading gains of the data channel 1 and the data channel 2 are different, the average interval is also set differently.

The pilot channel delay unit 38 compensates for the time difference caused by each data channel averager 35, 37. An adder 39 adds the channel coefficients estimated through each channel (pilot channel, data channel 1, and data channel 2) to estimate the final channel coefficients.

The signal input through the multipath is estimated using the pilot channel despreader 31 and the pilot channel averager 32 to estimate the temporary channel coefficient corresponding to each path. When the temporary data corresponding to each data channel is detected using the temporary channel coefficients, the temporary data is fed back and used for channel estimation. At this time, since the returned temporary data has a certain degree of error, the average interval of each channel is set differently. The final channel coefficients corresponding to the respective paths are calculated by summing the channel estimation coefficients, and the final data are detected through the Rake receiver.

While the invention has been described above based on the preferred embodiments thereof, these embodiments are intended to illustrate rather than limit the invention. It will be apparent to those skilled in the art that various changes, modifications, or adjustments to the above embodiments can be made without departing from the spirit of the invention. Therefore, the protection scope of the present invention will be limited only by the appended claims, and should be construed as including all such changes, modifications or adjustments.

As described above, according to the present invention, channel estimation can be performed by a channel estimator optimized for multiple channels, and when a power allocation of each channel is transmitted so as to satisfy a different transmission rate and a required bit error rate, the data channel together with a pilot is transmitted. The channel estimation can be used to improve the channel estimation performance, and the power of the pilot channel required for the same channel estimation performance can be reduced. That is, since the channel is estimated by using the pilot channel and the multiple data channels at the same time, it is possible to reduce the power used for the pilot to extend the battery life of the terminal and to reduce the multi-user interference. In addition, since the average section of each channel averager used for channel estimation is set differently, optimal channel estimation is possible even when applied to multiple channels having different powers.

Claims (4)

The transmitting end spreads the pilot channel and the multiple data channels and transmits the data through the multiple radio channels. The receiving end estimates the channel coefficients using the pilot channel and the multiple data channels transmitted through the multiple radio channels. In the channel estimator for estimating the channel coefficients in a multi-channel code division multiple access system for detecting data of multiple data channels, A pilot signal processor for despreading the pilot channel and averaging the despread pilot symbols for a predetermined period and outputting an estimated temporary channel coefficient; A temporary data detector configured to detect temporary data for each data channel by using the estimated temporary channel coefficient and the data despread signal of the multiple data channel; Using the temporary data for each data channel output from the temporary data detector, the averaged data channel is averaged for a predetermined period to estimate and output a reduced temporary channel coefficient to reduce the effects of symbol error and interference on the data channel. Multiple data channel averager, and And an adder for adding the channel coefficients estimated from the pilot signal processor and the multiple data channel averager to output a final channel coefficient. The method of claim 1, wherein the average interval of each data channel for estimating the temporary channel coefficient in the multiple data channel averager is variably set to satisfy the bit error probability according to the quality of service (QoS) of each data channel. A channel estimator for a multi-channel code division multiple access system. The transmitting end spreads the pilot channel and the multiple data channels and transmits the data through the multiple radio channels. The receiving end estimates the channel coefficients using the pilot channel and the multiple data channels transmitted through the multiple radio channels. A channel estimation method for estimating the channel coefficients in a multi-channel code division multiple access system for detecting data of multiple data channels, Despreading the pilot channel and averaging the despread pilot symbols for a predetermined period to output an estimated temporary channel coefficient; A second step of detecting temporary data for each data channel by using the estimated temporary channel coefficient and a signal of data despread data; A third step of estimating and outputting a temporary channel coefficient reduced by a symbol error and interference of the data channel by taking an average for a predetermined period using the temporary data for each data channel; And And a fourth step of outputting a final channel coefficient by adding the temporary channel coefficients estimated from the first and third steps. 4. The method of claim 3, wherein the third step is characterized in that the average interval of each data channel for estimating the temporary channel coefficient is variably set to satisfy the bit error probability according to the quality of service (QoS) of each data channel. A channel estimation method of a multi-channel code division multiple access system.