KR20100055797A - Reception performance improvement apparatus of ofdm communication system and method for the same - Google Patents

Abstract

PURPOSE: The receiving ability improvement apparatus and method of the OFDM communications system prevent the degradation of the signal restoration rate due to the mixed harmonic noises. In the OFDM reception end, the restoration efficiency of the OFDM signal received through the radio channel is considered. CONSTITUTION: The receiver(100) receives a message the OFDM signal through the radio channel. The mixer(200) changes the OFDM signal into the intermediate frequency OFDM signal. The local oscillator(500) outputs the local oscillation frequency signal required for the intermediate frequency switching. The controller(300) decides the mixing of the OFDM signal, beforehand, the noises more than the fixed the level.

Description

Reception performance improvement apparatus of OFDM communication system and method for the same

The present invention relates to a technique for improving reception performance of an Orthogonal Frequency Division Multiplexing (OFDM) communication system. In particular, when harmonic noise is received at a receiver, the frequency of the harmonic noise is changed so that the harmonic noise does not affect the carrier frequency of the OFDM symbol. The present invention relates to a technique for improving reception performance of an OFDM communication system.

In the conventional broadband wireless communication system, when the harmonic noise generated by the clock signal and the high-speed data signal is mixed into the reception channel of the receiver, the recovery rate of the signal is reduced by the harmonic noise, which is relatively larger than the received signal, and the reception performance of the receiver is reduced. Lowers. The harmonic noise is dominated by the clock signal used in the RF modem stage.

Harmonic noise is a type of spurious noise that is radiated at harmonic frequencies. For example, when radio waves of 100 kHz frequency are radiated, harmonics of n times frequency such as 200 kHz and 300 kHz are emitted.

In the board design of the conventional wireless communication system, performance improvement is performed by tuning external components to reduce harmonic noise. However, the method of reducing harmonic noise with respect to the reference clock in the system board not only requires board design know-how for a wireless communication system but also increases the time and cost required for board design.

An object of the present invention is to provide a technique for improving reception performance of an OFDM communication system in which harmonic noise does not affect a carrier frequency of an OFDM symbol when harmonic noise is received at a receiver.

An apparatus for improving reception performance of an OFDM communication system according to the present invention includes a receiving unit for receiving an OFDM signal through a wireless channel; A mixer for converting the OFDM signal into an intermediate frequency OFDM signal; A local oscillator for outputting a local oscillation frequency signal necessary for intermediate frequency conversion to a mixer; And a controller for determining whether or not noise equal to or greater than a predetermined level is mixed in the OFDM signal obtained by frequency converting the intermediate frequency OFDM signal, and in this case changing and controlling the oscillation frequency of the local oscillator.

The reception performance improving apparatus according to the present invention further includes a crystal oscillator for providing an oscillation frequency signal to the local oscillator, and the controller is configured to change the oscillation frequency of the crystal oscillator when the noise is mixed with a predetermined level or more in the OFDM signal. Characterized in that.

The reception performance improving apparatus according to the present invention further comprises: an OFDM demodulator for demodulating an OFDM signal to calculate a data error rate, and wherein the controller is configured to change the oscillation frequency of the crystal oscillator when the data error rate exceeds a preset threshold error rate. Characterized in that.

A method for improving reception performance of an OFDM communication system according to the present invention includes the steps of (a) receiving an OFDM signal; (b) evaluating the effect of noise on the OFDM signal; And (c) changing and setting the oscillation frequency of the local oscillator if the influence of noise is greater than or equal to a preset threshold.

Step (b) according to the present invention includes calculating a maximum power and an average power of a carrier frequency in an OFDM signal, and comparing the maximum power and the average power of a carrier frequency with a threshold power to evaluate the influence of noise. Step (c) comprises the step of executing a frequency value change of the local oscillator if the maximum power of the carrier frequency is greater than the average power plus the threshold power.

The method for improving reception performance of an OFDM communication system according to the present invention further includes (d) changing and setting the oscillation frequency of the crystal oscillator if the influence of noise is greater than or equal to a preset threshold.

In the present invention, the influence of noise is characterized by calculating and evaluating the bit error rate of the Viterbi decoder.

In the present invention, the frequency change value of the local oscillator and the crystal oscillator is ½ of the carrier frequency interval of the OFDM symbol.

According to the present invention, the harmonic noise is mixed in the OFDM communication system, thereby preventing the signal recovery rate from being lowered, thereby improving the recovery performance of the OFDM signal received through the wireless channel at the OFDM receiver.

In addition, according to the present invention, the frequency of the harmonic noise is placed between the carrier frequencies so that the harmonic noise does not affect the carrier frequency of the OFDM symbol, thereby improving reception performance.

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

1 is a block diagram showing the configuration of a receiver in an OFDM communication system according to the present invention.

An OFDM communication system uses a digital modulation scheme in which high-speed data is divided into a plurality of subcarriers in which carriers are orthogonal and multi-transmitted. In the OFDM communication system, the receiving end is composed of an RF stage for converting an OFDM signal received from the outside into an intermediate frequency OFDM signal by the mixer 10 and an OFDM demodulator 40 for digitally converting and demodulating the intermediate frequency OFDM signal.

The RF stage receives harmonic noise due to the clock signal of the crystal oscillator 30 received through the antenna and harmonic noise due to the oscillation frequency of the local oscillator. Since these harmonic noises degrade the reception performance of the receiver, the receiver controls the oscillation frequencies of the local oscillator 20 and the crystal oscillator 30 so that the harmonic noise does not affect the OFDM signal.

2 is an exemplary view illustrating a configuration of controlling an oscillator so that harmonic noise does not affect OFDM signal recovery at a receiving end of the present invention.

An apparatus for improving reception performance of an OFDM communication system includes a receiver 100, a mixer 200, a local oscillator 500, a crystal oscillator 600, and a controller 300. Each component constituting the reception performance improving apparatus will be described.

The receiver 100 receives an OFDM signal through a wireless channel, amplifies low noise, and outputs the amplified signal to the mixer 200. The mixer 200 mixes the OFDM signal and the oscillation frequency signal of the local oscillator 500 and outputs an intermediate frequency OFDM signal to the controller 300.

The local oscillator 500 outputs a local oscillation frequency signal necessary for the intermediate frequency conversion of the OFDM signal to the mixer 200.

The controller 300 determines whether noise of a predetermined level or more is mixed in the OFDM signal obtained by frequency converting the intermediate frequency OFDM signal. The controller 300 calculates the maximum power and the average power of the OFDM signal to determine whether harmonic noise is mixed. The controller 300 compares a threshold value obtained by adding a threshold power to a maximum power and an average power to determine whether noise of a predetermined level or more is mixed in the OFDM signal. The controller 300 changes and controls the oscillation frequency of the local oscillator when harmonic noise is mixed in the OFDM signal.

The controller 300 controls the degree of movement of the oscillation frequency to ½ of the carrier frequency so that the oscillation frequency of the local oscillator 500 is located between the carrier frequencies of the OFDM signal. The control unit 300 changes and controls the oscillation frequency of the local oscillator 500, and then digitally converts the OFDM signal obtained by converting the intermediate frequency to the decoder 400. The decoder 400 demodulates the OFDM signal to obtain data.

The crystal oscillator 600 provides the oscillation frequency signal to the local oscillator 500. The crystal oscillator 600 may operate as a source of harmonic noise received by the antenna. At this time, the controller 300 changes and sets the oscillation frequency of the crystal oscillator 600 when noise of more than a predetermined level is mixed in the OFDM signal.

The reception performance improving apparatus includes an OFDM demodulator for demodulating an OFDM signal to calculate a data error rate. The OFDM demodulator counts data errors generated when demodulating an OFDM signal, calculates a data error rate, and outputs the data error rate to the controller 300.

The controller 300 compares the data error rate of the OFDM demodulator with a preset threshold error rate and changes the oscillation frequency of the crystal oscillator 600 when the data error rate exceeds the preset threshold error rate.

When the threshold noise or the threshold error rate is exceeded, the controller 300 changes the oscillation frequency of the local oscillator 500 or the crystal oscillator 600 so that the frequency of the harmonic noise is located between the carrier frequencies of the OFDM symbol so that the harmonic noise is reduced. Improved signal reconstruction rate by reducing the impact on the symbol carrier.

FIG. 3 is an exemplary diagram of controlling the frequency of harmonic noise to be located between carrier frequencies so that harmonic noise by a local oscillator does not affect the carrier frequency of an OFDM symbol.

The local oscillator 500 provides the oscillation frequency to the mixer 200 so that the mixer 200 converts the OFDM signal into an intermediate frequency OFDM signal. In such an operation, harmonic noise from local oscillator 500 may be incorporated into an OFDM signal. When the harmonic noise mixed in the OFDM signal is located at the carrier frequency of the OFDM signal, the signal recovery rate is significantly lowered, so that the controller 300 moves the oscillation frequency of the local oscillator 500 to be located between the carrier frequencies of the OFDM signal.

4 is an exemplary diagram of controlling the frequency of harmonic noise to be located between carrier frequencies so that harmonic noise by a crystal oscillator does not affect the carrier frequency of an OFDM symbol in the present invention.

The crystal oscillator 600 provides an operating frequency necessary for wireless signal processing at the receiving end. In this case, the high frequency signal radiated from the crystal oscillator 600 may be mixed through the antenna. When the mixed harmonic noise is located at the carrier frequency of the OFDM signal, the reception performance of the receiver is degraded. Therefore, the controller 300 shifts the oscillation frequency of the crystal oscillator to be located between the carrier frequencies of the OFDM signal.

5 is an operation flowchart of a method for improving reception performance of an OFDM communication system according to the present invention.

A receiver of an OFDM communication system is composed of an RF stage and an OFDM demodulator, and describes an operation of improving reception performance of an OFDM signal without being affected by the incorporation of harmonic noise.

The receiver samples the intermediate frequency OFDM signal by digitally converting it (ST101), and performs frequency conversion on the digital OFDM signal to prepare for processing the OFDM signal in the frequency domain (ST102).

The receiver calculates the maximum power and the average power for the OFDM signal in the frequency domain (ST103, ST104). The receiver compares the maximum power and the average power plus the threshold power (ST105). Here, the threshold power is a power value when the reception power of the receiver is affected due to the harmonic noise of the maximum power.

As a result of the comparison, when the maximum power exceeds the average power plus the threshold power, the receiver shifts the oscillation frequency of the local oscillator (ST106). The degree of shift of the oscillation frequency is ½ of the carrier frequency interval of the OFDM symbol.

The receiver determines whether the bit error rate at the front end of the Viterbi decoder is smaller than the threshold error rate to determine whether the reception performance is improved by the oscillation frequency shift of the local oscillator (ST107).

If the bit error rate is greater than the threshold error rate, the receiver shifts the oscillation frequency of the crystal oscillator (ST108). The degree of shift of the oscillation frequency is ½ of the carrier frequency interval of the OFDM symbol.

If the bit error rate at the front end of the Viterbi decoder is lower than the threshold error rate (ST109) due to the oscillation frequency shift of the crystal oscillator, the receiver completes the frequency shift operation of the local oscillator and the crystal oscillator.

In another embodiment, the receiver compares the maximum power with the average power plus the threshold power, and when the maximum power exceeds the average power with the threshold power, shifts the oscillation frequency of the crystal oscillator instead of shifting the oscillation frequency of the local oscillator. You can run In this case, the receiver determines the improvement in reception performance due to the oscillation frequency shift of the crystal oscillator with reference to the bit error rate in front of the Viterbi decoder. If the bit error rate is not lowered, the receiver shifts the oscillation frequency of the local oscillator. In this embodiment, the receiver is an operation example when the oscillation frequency shift of the crystal oscillator is performed before the oscillation frequency shift of the local oscillator.

Although the present invention has been described in more detail with reference to the examples, the present invention is not necessarily limited to these embodiments, and various modifications can be made without departing from the spirit of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of the present invention.

1 is a block diagram showing the configuration of a receiver in an OFDM communication system according to the present invention;

2 is an exemplary view illustrating a configuration of controlling an oscillator so that harmonic noise does not affect OFDM signal recovery at a receiving end of the present invention;

3 is an exemplary diagram of controlling the frequency of harmonic noise to be located between carrier frequencies so that harmonic noise by a local oscillator does not affect the carrier frequency of an OFDM symbol in the present invention;

4 is an exemplary diagram of controlling the frequency of harmonic noise to be located between carrier frequencies such that harmonic noise by a crystal oscillator does not affect a carrier frequency of an OFDM symbol in the present invention;

5 is an operation flowchart of a method for improving reception performance of an OFDM communication system according to the present invention.

Claims (8)

A receiver which receives an OFDM signal through a wireless channel; A mixer for converting the OFDM signal into an intermediate frequency OFDM signal; A local oscillator for outputting a local oscillation frequency signal for intermediate frequency conversion to the mixer; And A control unit for determining whether or not noise of a predetermined level or more is mixed in the OFDM signal obtained by frequency converting the intermediate frequency OFDM signal, and in this case, changing and controlling the oscillation frequency of the local oscillator; Receiving performance improvement apparatus of an OFDM communication system configured to include. The method according to claim 1, The reception performance improving apparatus further comprises; a crystal oscillator for providing an oscillation frequency signal to the local oscillator; The control unit improves the reception performance of the OFDM communication system, characterized in that for changing the oscillation frequency of the crystal oscillator when the noise is mixed with a predetermined level or more. The method according to claim 2, The reception performance improving apparatus further comprises an OFDM demodulator for demodulating the OFDM signal to calculate a data error rate, And the control unit changes and sets the oscillation frequency of the crystal oscillator when the data error rate exceeds a preset threshold error rate. (a) receiving an OFDM signal; (b) evaluating the effect of noise on the OFDM signal; And (c) changing and setting the oscillation frequency of a local oscillator if the influence of the noise is greater than or equal to a preset threshold; Method for improving the reception performance of an OFDM communication system configured to include. The method according to claim 4, In the step (b), calculating the maximum power and average power of the carrier frequency in the OFDM signal, and comparing the maximum power and average power of the carrier frequency plus a threshold power to evaluate the effect of noise Including; And performing step (c) of changing a frequency value of a local oscillator if the maximum power of the carrier frequency is greater than the average power plus the threshold power. How to improve. The method according to claim 5, and (d) changing and setting the oscillation frequency of the crystal oscillator if the influence of the noise is greater than or equal to a preset threshold. The method according to claim 6, The influence of the noise is to evaluate the bit error rate of the Viterbi decoder to evaluate the reception performance of the OFDM communication system. The method of claim 7, And a frequency change value of the local oscillator and the crystal oscillator is ½ of the carrier frequency interval of the OFDM symbol.

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