KR20020000456A - WCDMA channel estimator using common pilot channel - Google Patents

Abstract

PURPOSE: An apparatus for estimating a WCDMA(Wideband CDMA) channel response using a CPICH(Common PIlot CHannel) is provided to show excellent performance for a fast fading channel as well as a slow fading channel by using a CPICH. CONSTITUTION: An apparatus for estimating a WCDMA channel response using a CPICH consists of a complex correlation part(31), delay parts(41-45), multiplication parts(51-56), and addition parts(61-65). The complex correlation part(31) takes and correlates the conjugate complex numbers of the pilot symbols inputted from a despreader(1). The delay parts(41-45) sequentially delay the outputs of the complex correlation part(31) by the symbol. The multiplication parts(51-56) multiply the outputs of the complex correlation part(31) and the delay parts(41-45) by a complex value weight factor respectively. The addition parts(61-65) add up the outputs of the multiplication parts(51-56), update symbols, and output phase offset compensated signals.

Description

Wideband CDA channel response estimator using common pilot channel {WCDMA channel estimator using common pilot channel}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a wideband CDMA channel response estimator using a common pilot channel. In particular, the present invention relates to a fast fading channel as well as a slow fading channel using a common pilot channel (CPICH). The present invention relates to a wideband CDMA channel response estimator using a common pilot channel suitable for showing excellent performance.

In general, the propagation environment of a wideband code division multiple access (WCDMA) system can be viewed as a frequency-selective multipath fading channel, and the rate of fading increases in proportion to the speed of movement of the mobile.

On the other hand, an ideal receiver for a frequency selective multipath fading channel is known as a rake, and a key component of the rake receiver is a channel response estimator.

Thus, assuming that each path has a multipath channel composed of L resolvable propagation paths whose time delay is expressed as a multiple of the chip delay (= T _C ), the spread signal received r (t) is expressed by Equation 1 below. same.

Where S is the average signal power, w (t) is Additive White Gaussian Noise (AWGN), ξ _l is the complex channel gain, τ _l is the time delay of the l-th path, and s _d (t) is the data symbol S _p (t) is a spreading sequence of pilot symbols, d (t) is a Quadrature Phase Shift Keying (QPSK) modulation data symbol including a pilot symbol, and p (t) is a pilot symbol.

In addition, s _d (t), s _p (t), d (t), p (t) is represented by the following equation (2) to (5).

Where c _scr (k) is the scrambling code, c _dch (k) is the OVSF channelization code for the data channel, c _pch (k) is the OVSF channelization code for the pilot channel, and Φ (k) is QPSK modulation Is the attenuation factor for the common pilot channel, and T _s / T _c is the processing gain.

1 is a diagram illustrating a structure of a common common pilot channel, and FIG. 2 is a block diagram of an interference rake combiner using a wideband CDMA channel response estimator using a common common pilot channel.

In FIG. 2, reference numeral 1 is a despreader, 2 is a channel response estimator, 3 is a coherent rake combiner, 4 is a delay unit, 5 is a multiplier, 6 is an adder, 7 is a deinterleaver, 8 is a Viterbi decoder.

Therefore, the received signal is decomposed into signal paths having L different delays through a matched filter and a descrambler / despreader, and each path is decomposed into a QPSK data channel and a common pilot channel (CPICH) to a finger. Is entered.

Each finger consists of a channel response estimator, a rake combiner, and the like.

The m th (m-th) data symbol of the n th (n-th) slot output from the despreader 1 is expressed as in Equation 6 below.

Where ξ _l (m, n) is the complex channel gain, Is the phase error, Is a QPSK data symbol and w (m, n) is AWGN.

In addition, the m-th (m-th) pilot symbol of the n-th (n-th) slot output from the spreader 1 is expressed by the following equation (7).

A representative method for estimating gain ξ _l (m, n) of a channel is to use a channel response estimation filter as shown in FIG. 3. 3 is a block diagram of a conventional broadband CDMA channel response estimator using a common pilot channel.

Here, reference numeral 1 is a spreader, 2 is a channel response estimator, 11 is a channel response estimate value, 12 to 16 is a delay unit, 17 to 22 is a multiplier, and 23 to 27 is an adder.

Therefore, the magnitude of the signal is obtained by taking the absolute value of the pilot symbol input from the despreader 1, and the channel response is estimated by passing the value through a filter of a finite impulse response filter (FIR) as shown in Equation 8 below. do.

The shift register of the channel response estimation filter is updated in units of symbols, and the output of the filter is also updated in units of symbols. We use a filter with 2K taps to observe 2K symbols. This is expressed as in Equation 9 below.

Where β _j is a real weighted factor, Is the channel response estimate applied in symbol units.

3 is a block diagram of a channel response estimation filter in the case of K = 3. Where T _s is the length of the slot. The output of the channel response estimation filter is expressed by Equation 10 below.

Where K is the gain of the channel response estimation filter. In this case, the rake combiner performs combining by applying a maximum-ratio combination method. The output of the channel response estimation filter Therefore, the m-th symbol output sample of the n-th slot of the rake combiner is expressed by Equation 11 below.

However, since this conventional method only estimates the magnitude of the channel response, the phase error (= ) Had the disadvantage of remaining. Since QPSK data contains all the information on the phase, this phase error must be eliminated. Therefore, when using the conventional method, there is a need for a separate circuit for eliminating phase error, thereby increasing the complexity of hardware.

Accordingly, the present invention has been proposed to solve the above-mentioned conventional problems, and an object of the present invention is to use a common pilot channel to provide a common pilot channel that can exhibit excellent performance even in a fast fading channel as well as a slow fading channel. The present invention provides a wideband CDMA channel response estimator.

In order to achieve the above object, a wideband CDMA channel response estimator using a common pilot channel according to an embodiment of the present invention is provided.

A complex correlation unit which takes a conjugate complex number of the pilot symbols inputted from the spreader and correlates the complex symbols; A plurality of delay units for sequentially delaying the output of the complex correlation unit in symbol units; A plurality of multipliers for multiplying outputs of the complex correlator and the plurality of delay units by a complex weighting factor; The technical configuration is characterized by comprising a plurality of adders for outputting a signal whose phase offset is compensated by updating a symbol by adding the outputs of the plurality of multipliers.

1 is a view showing a structure of a common common pilot channel,

2 is a block diagram of an interference rake combiner using a wideband CDMA channel response estimator using a common pilot channel;

3 is a block diagram of a conventional broadband CDMA channel response estimator using a common pilot channel.

4 is a block diagram of a wideband CDMA channel response estimator using a common pilot channel according to the present invention;

FIG. 5 is a detailed block diagram of the complex correlation unit in FIG. 4.

Explanation of symbols on the main parts of the drawings

1: despreader 30: channel response estimator

31: complex correlation 41 ~ 45: delay

51 to 55: multiplication unit 61 to 65: addition unit

Hereinafter, an embodiment according to the technical idea of the wideband CDMA channel response estimator using the common pilot channel according to the present invention will be described with reference to the accompanying drawings.

First, the present invention provides a channel response estimation filter capable of removing the phase offset while simultaneously estimating the channel gain without significantly increasing the volume of hardware.

4 is a block diagram of a wideband CDMA channel response estimator using a common pilot channel according to the present invention.

As shown therein, a complex correlation unit 31 which takes a conjugate complex number of the pilot symbols input from the despreader 1 and correlates it; A plurality of delay units 41 to 45 which sequentially delay the output of the complex correlation unit 31 in symbol units; A plurality of multipliers (51 to 56) for multiplying the outputs of the complex correlator (31) and the plurality of delay units (41 to 45) by a complex value weighting factor, respectively; A plurality of adders 61 to 65 add outputs of the plurality of multipliers 51 to 56 to update a symbol to output a signal compensated for a phase offset.

FIG. 5 is a detailed block diagram of the complex correlation unit in FIG. 4.

As shown therein, first to fourth multipliers 71 to 74 that take and multiply conjugate conjugate numbers of known pilot symbols with respect to pilot symbols input from the despreader 1; A first adder (75) for subtracting the output value of the third multiplier (73) from the output value of the first multiplier (71) to output a real value among the conjugate complex values estimated by the channel response; And a second adder 76 for outputting an imaginary value of the conjugate response values estimated by subtracting the output value of the fourth multiplier 74 from the output value of the second multiplier 72.

The operation of the wideband CDMA channel response estimator using the common pilot channel according to the present invention configured as described above will be described in detail with reference to the accompanying drawings.

First, FIG. 1 shows a structure of a common pilot channel, and a conventional structure of a coherent rake receiver using a channel response estimator using the common pilot channel is shown in FIG. Each finger consists of a channel response estimator, a rake combiner, and the like.

The m-th data symbol of the n-th slot output from the despreader 1 is expressed by Equation (6). In addition, the m-th pilot symbol of the n-th slot output from the despreader 1 is expressed as in Equation (7).

In the present invention, the channel gain ξ _l (m, n) and phase error We propose an estimation response estimation filter of the form as shown in FIG. The pilot symbol input from the spreader 1 and the known pilot symbol are correlated in symbol units, and this value is used as an input of the channel response estimation filter. That is, the following equation 12 is performed.

The shift register of the channel response estimation filter is updated in units of symbols, and the output of the filter is also updated in units of symbols. We use a filter with 2K taps to observe 2K symbols. Where β _j is the complex weighting factor, Is the channel response estimate applied in symbol units. Final output Is as shown in Equation 13 below.

4 is a block diagram of a channel response estimation filter in the case of K = 3. Where T _s is the length of the slot. The output of the channel response estimation filter is expressed by Equation 14 below.

Where K is the gain of the channel response estimation filter. In this case, it is possible to perform combining by applying the MRC method in the rake combiner, and the phase offset (= ) Can be compensated at the same time. The output of the channel response estimation filter Therefore, the m-th symbol output sample of the n-th slot of the rake combiner is expressed by Equation 15 below.

Therefore, it is expressed as in Equation 15 so that MRC and phase offset are simultaneously compensated.

As such, the present invention exhibits excellent performance even in the case of fast fading as well as slow fading channel using a common pilot channel.

Although the preferred embodiment of the present invention has been described above, the present invention may use various changes, modifications, and equivalents. It is clear that the present invention can be applied in the same manner by appropriately modifying the above embodiments. Accordingly, the above description does not limit the scope of the invention as defined by the limitations of the following claims.

As described above, the wideband CDMA channel response estimator using the common pilot channel according to the present invention provides a phase offset at the same time as estimating the channel gain without significantly increasing the volume of hardware in the channel response estimator using the common pilot channel. By providing a removable channel response estimation filter, it is possible to compensate for phase errors without using separate phase error estimation hardware, and to achieve excellent performance even in slow fading channels as well as fast fading. do.

Claims (3)

A complex correlation unit which takes a conjugate complex number of the pilot symbols inputted from the spreader and correlates the complex symbols; A plurality of delay units for sequentially delaying the output of the complex correlation unit in symbol units; A plurality of multipliers for multiplying complex output weight factors with outputs of the complex correlation part and the plurality of delay parts; 2. A wideband CDMA channel response estimator using a common pilot channel, comprising: a plurality of adders for updating a symbol by adding outputs of the plurality of multipliers to output a signal compensated for a phase offset. The method of claim 1, wherein the complex correlation portion, First to fourth multipliers that take and multiply conjugate conjugate numbers of known pilot symbols with respect to pilot symbols input from the spreader; A first adder configured to subtract the output value of the third multiplier from the output value of the first multiplier and output a real value among the conjugate-computed complex values estimated by the channel response; And a second adder configured to output an imaginary value among the complex response values estimated by subtracting the output value of the fourth multiplier from the output value of the second multiplier. The method of claim 1, wherein the plurality of adders, When β _j is a complex weighting factor, the channel response estimate applied in symbol units silver, Obtaining as follows, wideband CDMA channel response estimator using a common pilot channel, characterized in that for outputting a signal compensated for the phase offset.