KR100469426B1 - Method and apparatus for pilot signal transmission and reception - Google Patents

Abstract

The present invention relates to a method and apparatus for transmitting and receiving a pilot signal, in particular, in obtaining a transmission multiplexing effect through a plurality of antennas, even when the number of receiving antennas is smaller than the number of transmitting antennas, thereby minimizing loss of transmission power. The purpose of the present invention is to reduce the maximum average transmit power ratio (PAPR) of the transmit power amplifier, thereby reducing the design cost of the transmit power amplifier and accurately predicting the wireless channel environment. According to the present invention, a method of transmitting a pilot signal to a plurality of antennas includes: inputting a pilot symbol, spreading the pilot symbol into first and second orthogonal spreading codes, and first orthogonal spreading code; And converting the spread signal as it is and transmitting it to the first antenna, and summing the signal spread by the first orthogonal spreading code and the signal spread by the second orthogonal spreading code and sending the spread signal to the second antenna. Characterized in that it is configured to transmit a pilot signal through the above antenna.

Description

Method and apparatus for transmitting and receiving pilot signal {METHOD AND APPARATUS FOR PILOT SIGNAL TRANSMISSION AND RECEPTION}

The present invention relates to a communication system, and more particularly, to a method and apparatus for transmitting and receiving pilot signals in an IMT-2000 system.

In the IMT-2000 system, in order to demodulate data transmitted from a transmission antenna in a receiver, a transmission channel state must be known in a radio section.

For this reason, the transmitting antenna transmits a series of data promised between the transmitting end and the receiving end so that the receiving end can measure the transmission channel state.

In the standard of IMT-2000 standards setting organization, 3GPP (3 ^rd Generation Partnership Project) a set of data strings been preset common pilot channels: transmits via the (CPICH Common Pilot Channel).

For example, in a system having two or more transmitting antennas, different types of pilot data strings are transmitted for each transmitting antenna.

Typically, in 3GPP, when transmitting data using two antennas, a pilot symbol form for channel measurement from the antenna is configured as shown in FIG. 1 and transmitted.

A in FIG. 1 represents 1 + j.

That is, in order to maintain orthogonality with each antenna so that the receiver can distinguish the data stream transmitted from the antenna. or In general, it is transmitted in the form of a symbol.

In consideration of backward compatibility, the receiver designed to receive the data transmitted from the existing two antennas can be received, and four antennas are used for the terminal receiving four modified signals simultaneously. The pilot transmission structure of the proposed transmitter can be configured as shown in the circuit diagram of FIG.

That is, the circuit of Figure 2 is a pilot symbol pattern ( = ) ( or = ) Is composed of two transmitters 110 and 120 transmitting through two antennas ANT1 and ANT2, ANT3 and ANT4, respectively.

The transmitter 110 is a pilot symbol pattern ( ) And a pilot symbol pattern ( ) Is a gain regulator 112 for amplifying the gain g, and a first orthogonal spreading code (a) in the output pattern of the gain regulator 112. Multiplier 113 and a pilot symbol pattern (i) in the pattern input unit 111 ) Orthogonal spreading code ( Subtracts the output signal of the diffuser 114 from the output signal of the combiner 115 and the adder 115 for summing the outputs of the diffusers 113 and 114. A scrambling code may be added to the summer 116, the output pattern of the summer 115, and the output pattern of the summer 116. It is configured to have a scrambler (117, 118) for transmitting to the antenna (ANT1) (ANT2) by multiplication.

The transmitting end 120 is a pilot symbol pattern ( ) Is provided in the same manner as the transmitter 110 with a pattern inputter 121, a gain adjuster 122, a diffuser 123, 124, a summer 125, 126, and a scrambler 127, 128. Configure.

The orthogonal spreading code ( , ) Subscripts indicate an orthogonal variable spreading factor (OVSF).

The gain adjusters 112 and 122 may generate a pilot symbol pattern by a gain g determined based on the input gain of each spreader 114 and 124. , To amplify).

Accordingly, the antenna pilot symbol transmitted from the transmitter of the prior art as shown in FIG. 2 may be expressed as Equation 1 below.

Accordingly, the receiver as shown in FIG. 3 receives a pilot signal as shown in [Equation 1] to provide a wireless channel ( )of It can be predicted as

That is, the receiver of FIG. 3 uses a scrambling code (for the received signal of the antenna ANT5). The descrambler 201 multiplying by < RTI ID = 0.0 > and < / RTI > ) ( Despreader 202 (203) multiplied by < RTI ID = 0.0 > ) ( Pattern inputs 204 and 205 for inputting the respective signals) and an output signal of the spreader 202 to the pilot symbol pattern ) ( ) And the output signal of the despreader 203 and the comparator 206 and ) ( ) And the output signals of the comparators 208, 209, and the comparators 206, 207, 208, and 209, respectively. , , , And an accumulator (210, 211, 212, 213) for outputting the channel function ( ) ( Gain attenuators 214 and 215 for reducing the size of each gain by 1 / g, and the output of the gain attenuator 214 ) And the output of the accumulator 212 ( ) To sum up the channel state function ( And an output of the gain attenuator 215. ) And the output of the accumulator 213 ) To sum up the channel state function ( And a output of the gain attenuator 214 Output of the accumulator 212 at ) By subtracting the channel state function ( A summer 218 for calculating the output power of the gain attenuator 215 ) And the output of the accumulator 213 ) By subtracting the channel state function ( Is configured to include a summer 219 for calculating.

In addition, for a receiver that does not support reception of pilots from four antennas, that is, a receiver that supports reception of signals only from two existing antennas. By configuring a circuit to perform the operation as described above it is possible to receive a pilot transmitted from two antennas.

The circuit configuration for this is shown in FIG.

That is, the receiver of FIG. 4 uses a scrambling code (for the received signal of the antenna ANT6). The descrambler 301 multiplying by < RTI ID = 0.0 > and < / RTI > Despreader 302 multiplying by < RTI ID = 0.0 > ) ( Pattern inputs 303 and 306 for inputting the respective signals) and the output signal of the despreader 302 to the pilot symbol pattern ( And the output signal of the despreader 302 to the comparator 304 comparing ) And the output signals of the comparators 304 and 307 are respectively accumulated. , By including the accumulators 305 and 308 for outputting, it is possible to receive pilot signals transmitted from two antennas.

However, in the prior art, three values exist by adding and subtracting two orthogonal variable spreading codes (OVSF) which are different from each other as shown in [Equation 1].

Therefore, conventionally, for example, when OVSF '1111-1-1-1-1' and '11 -1-111-1-1 'of length 8 are added together, the result value is' 220000'. As a result of -2-2 ', the transmission power is twice as large as when one orthogonal variable spread code (OVSF) is used.

In addition, conventionally, when the HPSK code is configured using a scrambling code for using a low peak to average power ratio (PAPR) characteristic to reduce the burden of the transmission power amplifier, two or more orthogonal variable spread codes ( Addition and subtraction of OVSF) increases the PAPR value.

For this reason, the addition and subtraction operations of two or more orthogonal variable spread codes (OVSF) should be reduced as much as possible.

Accordingly, the present invention reduces the design cost of the transmission power amplifier by lowering the maximum average transmission power ratio (PAPR) in the transmission power amplifier in order to obtain transmission multiple effects through a plurality of antennas in order to solve the conventional disadvantage. An object of the present invention is to provide a method and apparatus for transmitting and receiving a pilot signal invented to predict a wireless channel environment.

1 is an exemplary view showing a pilot symbol form used for a pilot channel.

2 is a circuit diagram of a transmitter having four conventional antennas.

3 is a circuit diagram of a receiver corresponding to the transmitter of FIG.

4 is a circuit diagram of a receiver corresponding to a transmitter with two conventional antennas.

5 is a circuit diagram of a transmitter with four antennas in an embodiment of the invention.

6 is a circuit diagram of a receiver corresponding to the transmitter of FIG. 5 in an embodiment of the invention.

Explanation of symbols on the main parts of the drawings

411,421,504,505: Pattern inputter 412,414,422,424: Gain amplifier

413,415,423,425: diffuser 416,426,514,515: summer

417,418,427,428: Scrambler 501: Descrambler

502,503: despreader 510 ~ 513: gain attenuator

In order to achieve the above object, the present invention provides a method for inputting a pilot symbol, spreading the pilot symbol with first and second orthogonal spreading codes, and spreading a signal spread with the first orthogonal spreading code as it is. And summing the signal spread with the first orthogonal spreading code and the signal spread with the second orthogonal spreading code and sending the signal to the second antenna.

The method may further include amplifying a pilot symbol spread by one of the first or second orthogonal spreading codes.

The method may further include a scramble step of multiplying the same scramble code so that the signals transmitted to the two antennas are the same signal source.

In addition, the present invention comprises the steps of inputting a pilot signal through an antenna to achieve the above object, despreading the pilot signal with the first and second orthogonal spreading code, and despreading with the first orthogonal spreading code Comparing the de-spread signal with the second orthogonal spreading code with the specified pilot symbol, comparing the signal despread with the second orthogonal spreading code, and comparing the despread signal with the first orthogonal spreading code; Summing the signals obtained by comparing the signals despread with the second orthogonal spreading code and outputting them as a first evaluation signal; And perform the step in the receiving device.

The method may further include amplifying or attenuating any one of signals despread by the first orthogonal spreading code and signals despread by the second orthogonal spreading code with the designated pilot symbol.

The method may further include a descrambling step of multiplying a scramble code by a pilot signal input through the antenna to remove the scramble.

On the other hand, the present invention is characterized by configuring the hardware for performing the above steps as follows.

That is, a transmitting apparatus for achieving the above object of the present invention includes a pattern input unit for inputting a pilot symbol pattern, a first spreader for multiplying a first spreading code by inputting the pilot symbol, and the first symbol by inputting the pilot symbol. A second spreader multiplying a second spreading code orthogonal to a spreading code, a summer for summing output signals of the first and second spreaders, a first wireless transmitter for transmitting the output signal of the first spreader as it is, And a second wireless transmitter for converting and outputting the output of the summer.

The method may further include an amplifier for amplifying at least one of the pilot symbols input to the first spreader or the second spreader.

The first scrambler to multiply the output signal of the first spreader by the scramble code and output it to the first wireless transmitter, and to output the output signal of the adder to the second scrambler by multiplying the same scramble code as the first scrambler It further comprises a second scrambler.

In addition, the reception apparatus for achieving the above object of the present invention includes a wireless receiver for receiving a transmitted pilot signal through an antenna, a first despreader that multiplies a first spreading code by inputting the pilot signal, and the pilot signal. A second despreader for inputting and multiplying a second spreading code orthogonal to the first spreading code, a first comparator for comparing the despread signal with the first orthogonal spreading code with a specified pilot symbol, and outputting a second orthogonal spreading A second comparator for comparing a signal despread with a sign with the designated pilot symbol, and outputting the result; a summator summing an output value of the first comparator and an output value of the second comparator, and an output value of the second comparator as it is. Receiving a pilot signal transmitted through two or more antennas, including an evaluating unit having a value and an output value of the summer as a channel evaluation value; Characterized in that the configured.

The method may further include a gain adjuster configured to amplify or attenuate at least one of output values of the first comparator or the second comparator.

And a descrambler that multiplies a scramble code by a pilot signal input through the wireless receiver and outputs the descrambler to the first and second despreaders.

Hereinafter, the present invention will be described in detail with reference to the drawings.

An embodiment of the present invention provides a transmitter such as the circuit diagram of FIG. 5 to transmit pilot signals in four antennas considering backward compatibility and the maximum average transmit power ratio of a power amplifier.

That is, in case of transmitting pilot data through four antennas, an embodiment of the present invention configured to predict a radio channel environment through pilot data transmitted from four antennas even in a receiver capable of receiving only pilots coming from two transmission antennas. As shown in the circuit diagram of FIG. 5, the transmitter includes two transmitters 410 and 420.

The transmitting end 410 is a pilot symbol pattern ( ) The pattern input unit 411 for inputting the symbol pattern and the symbol pattern ( ) Into two different gains ( ) ( Gain amplifiers 412 and 414, which are respectively amplified by the < RTI ID = 0.0 > and < / RTI > ) ( Multiplier 413, 415 multiplying, a summer 416 summating the output signals of the spreaders 413, 415, and a scrambling code ) And a scrambling code (Scrambler) to the output signal of the summer 416 and the first scrambler 417 to transmit to the first antenna (ANT11) It is configured to include a second scrambler 418 to multiply by and transmit to the second antenna (ANT12).

The transmitter 420 is a pilot symbol pattern ( ) Is provided with a pattern input unit 421, a gain amplifier 422, 424, a diffuser 423, 425, a summer 426, and a scrambler 427, 428, in the same manner as the transmitter 410. It is configured to transmit each pilot signal to the antenna (ANT13, ANT14).

In conclusion, when the transmitter of FIG. 5 transmits pilot signals from four antennas ANT11 to ANT14, there is no addition and subtraction operation for an orthogonal spreading code (OVSF) in a transmission path corresponding to the antennas ANT11 and ANT13. The burden on the amplifier can be reduced.

Accordingly, the transmitter of FIG. 5 uses a pilot signal represented by Equation 2 below. To ) Will be sent.

And, a pilot signal as shown in [Equation 2] is a wireless channel ( , , , Is transmitted to the receiver and the receiver predicts the state of the radio channel.

In this case, the signal despread with the first and second orthogonal spreading codes is compared with a specified pilot symbol pattern, the comparison value is added, and one of the comparison values is output as it is, as the first channel evaluation value, and the sum value. Is configured to output a second channel evaluation value.

In the embodiment of the present invention, a receiver for receiving pilot signals transmitted from four antennas is configured as shown in the circuit diagram of FIG.

That is, the receiver of FIG. 6 uses a scrambling code (for the received signal of the antenna ANT15). Orthogonal spreading codes (< / RTI >) to the output signal of the descrambler 501 and the output signal of the descrambler 501, respectively. ) ( Despreaders 502 and 503 multiplying by < RTI ID = 0.0 > ) ( Pattern inputters 504 and 505 for inputting the input signal and the output signal of the despreader 502 to the pilot symbol pattern ) ( The comparator 506 (507) and the output signal of the despreader 503 is compared to the pilot symbol pattern ( ) ( Gain of the output signal of the comparator 508 and 509 and the comparator 506 and 507 Gain attenuator 510,511 and the output signal of the comparator 508,509 Gain attenuators 512 and 513, and the output signal of the gain attenuator 512 is subtracted from the output signal of the gain attenuator 510. A subtractor 514 and a output signal of the gain attenuator 513 from the output signal of the gain attenuator 511 to subtract the output signal of the gain attenuator 513. And a summator 515 for calculating the channel state (i.e., in the summator 514, 515 and gain attenuator 512, 513). , , , To predict).

In addition, the receiver structure of FIG. 4 may be used as it is for a receiver that supports only demodulation of pilot signals transmitted by two transmission antennas.

As described in detail above, when the pilot signal is transmitted from four antennas, the present invention performs a smaller amount of operation than the conventional method, thereby reducing the power size of the power amplifier.

In addition, the present invention has the effect of lowering the maximum average transmit power ratio (PAPR) value when using HPSK.

Claims (12)

A first step of inputting a pilot symbol, A second step of spreading the pilot symbols with first and second orthogonal spreading codes; A third step of transmitting the signal spread by the first orthogonal spreading code to the first antenna as it is, And a fourth step of summing the signal spread by the first orthogonal spreading code and the signal spread by the second orthogonal spreading code and transmitting the signal to the second antenna, wherein the pilot signal is transmitted through two or more antennas. Method of transmitting pilot signal. 2. The method of claim 1, comprising amplifying a pilot symbol spread with either the first or second orthogonal spread code. 2. The method of claim 1, further comprising a scramble step of multiplying a signal scrambled with a first and second orthogonal spread code by the same scramble code. A pattern input unit for inputting a pilot symbol pattern, A first spreader for inputting the pilot symbol to multiply a first spreading code; A second spreader for inputting the pilot symbol to multiply a second spreading code orthogonal to the first spreading code; A summer for summing output signals of the first and second spreaders; A first wireless transmitter for transmitting the output signal of the first spreader as it is; And a second wireless transmitter configured to transmit an output of the summer, to transmit a pilot signal to two or more antennas. 5. The apparatus of claim 4, further comprising gain adjusting means for amplifying at least one of the pilot symbols input to the first spreader or the second spreader. The apparatus of claim 4, further comprising: a first scrambler for multiplying an output signal of the first spreader by a scramble code and outputting the scramble code to the first wireless transmitter; And a second scrambler for multiplying the output signal of the summer by the same scramble code as the first scrambler and outputting the scrambler to the second wireless transmitter. A first step of inputting a pilot signal through an antenna; Despreading the pilot signal with first and second orthogonal spreading codes; A third step of comparing the despread signal with the first orthogonal spreading code with a designated pilot symbol and outputting the same; A fourth step of comparing the despread signal with a second orthogonal spreading code with the designated pilot symbol and outputting it; A fifth step of adding a signal obtained by comparing the signal despread by the first orthogonal spreading code and a signal comparing the signal despread by the second orthogonal spreading code and outputting the summed signal; And a sixth step of outputting a signal obtained by comparing the signal despread by the second orthogonal spreading code as a second evaluation signal as it is. 8. The method of claim 7, further comprising amplifying or attenuating any one of signals despread with a first orthogonal spreading code or signals despread with a second orthogonal spreading code and the designated pilot symbol. Pilot signal receiving method characterized in that. The method of claim 7, further comprising a descrambling step of multiplying a scramble code by a pilot signal input through an antenna. A wireless receiver which receives a transmitted pilot signal through an antenna; A first despreader that inputs the pilot signal and multiplies a first spreading code; A second despreader that inputs the pilot signal and multiplies a second spreading code orthogonal to the first spreading code; A first comparator configured to compare the despread signal with a first orthogonal spreading code with a specified pilot symbol and output the same; A second comparator configured to compare the despread signal with a second orthogonal spreading code with the designated pilot symbol and output the compared signal; A summer for summing output values of the first and second comparators; And an evaluator configured to use the output value of the second comparator as it is and the output of the adder as a channel evaluation value. 11. The pilot signal receiving apparatus according to claim 10, further comprising gain adjusting means for amplifying or attenuating at least one of output values of the first comparator or the second comparator. The apparatus of claim 10, further comprising a descrambler that multiplies a scramble code by a pilot signal input through a wireless receiver and outputs the scrambler to the first and second despreaders.