KR20050041346A - A method of selecting optimistic mcs level mimo - Google Patents

Abstract

The present invention reduces the data transmission error and improves the overall transmission efficiency by selecting the optimal MS level based on the minimum received BS in the multi-antenna system, which is determined to be 1024 bits per frame when transmitting data through the beauty antenna system. A first level process of applying a QPSK modulation scheme and a 1/3 code rate if necessary; A second level process of applying a QPSK modulation scheme and a 2/3 code rate if it is determined not to transmit 1024 bits per frame through the antenna in the above process but 2048 bits; A third level process of transmitting an 8PSK modulation scheme and a 2/3 code rate if it is determined in the above process and determines that it is 3072 bits instead of 2048 bits per frame; In the above process, if it is determined that it is 4096 bits instead of 3072 bits per frame, the fourth level process of transmitting by applying 16QAM modulation method and 2/3 code rate reduces the error probability of data transmission for each antenna. The overall data rate of the MIMO antenna system is increased, and transmission errors do not occur in the transmitted data, thereby improving reliability of the transmitted data.

Description

A METHOD OF SELECTING OPTIMISTIC MCS LEVEL MIMO}

The present invention relates to a method for selecting an optimal MCS level of a MIMO multiple antenna system. In particular, the method selects an MS level based on a minimum received SNR, thereby reducing data transmission error and reducing system-wide data. The present invention relates to a method for selecting an optimal MS level of a beauty system for improving transmission efficiency.

Since a wireless communication system is limited in the size of digital data that can be transmitted through one antenna (ANT: ANTENNA), when transmitting a large amount of data, a method of transmitting through multiple antennas and receiving through multiple antennas is provided. In addition, a method of using multiple antennas to solve the multipath problem is proposed, and the antenna system operating as described above is called a MIMO (MULTIPLE INPUT MULTIPLE OUTPUT) antenna system.

In the digital data signal transmission process, noise signals are mixed by internal and external causes, and the ratio of the noise signals mixed to the data signal is called SNR (SIGNAL TO NOISE RATIO). Lower ratios indicate no noise mixing.

When the SNR value, which is the ratio of the noise signal mixed to the digital data signal, is lower than a predetermined level, errors generated by various error correction methods can be recovered. However, when the SNR ratio is high, various error correction methods may be applied. Since it cannot be completely recovered, it is important to check the SNR ratio where the noise signals are mixed.

In a wireless communication system, there is a difference in the maximum data size that can be transmitted without error in a predetermined time unit by a modulation and demodulation method and a coding method (MCS: MODULATION AND CODING SCHEME).

Hereinafter, a conventional antenna system according to the prior art will be described with reference to the accompanying drawings.

Attached to describe the prior art, FIG. 1 is a functional explanatory diagram of a general beauty antenna system.

Referring to FIG. 1, a MIMO (MULTIPLE INPUT MULTIPLE OUTPUT) antenna system includes a plurality of transmission antennas 10 for transmitting (TX) data signals to a transmitting side and receiving data (RX) at a receiving side. A plurality of receiving antennas 20 are provided.

Referring to the above-described beautiful antenna system in detail, the multiple transmit antenna (TX ANT) (10) transmits the data signal by the respective data transmission rate and higher-order modulation scheme, each receive antenna (RX ANT) (20) Receives all data transmitted from the multiple transmit antennas.

Each of the receive antennas (RX ANT) 20 receives any one signal selected from all received signals received from the multiple transmit antennas (TX ANT) 10 and processes the received signal based on an average or maximum received SNR. To detect the signal.

However, each of the transmission antenna 10 and the reception antenna 20 may have a poor wireless environment due to the surrounding environment, and the MS may be caused by a higher-order modulation method difference such as QPSK, 8PSK, 16QAM, etc., and a code rate difference. Since the average or maximum received SNR is applied even when the (MCS) selection is different, there is a problem that an error occurrence probability increases in a received and detected signal, and a problem occurs in the data transmission performance of a MIMO antenna system. There is.

Since the present invention selects the optimal level of each stage based on the minimum received SNR value, the present invention provides a method for selecting an optimal level of the MS system that reduces the error occurrence rate of a transmitted signal and increases the transmission efficiency and performance of the entire antenna system. For that purpose.

In order to achieve the above object, the present invention provides a first level process for transmitting data by applying a QPSK modulation scheme and 1/3 code rate when it is determined that 1024 bits per frame is used to transmit data through a beautiful antenna system. ; A second level process of transmitting a QPSK modulation scheme and a 2/3 code rate if it is determined not to transmit 1024 bits per frame through the antenna in the above process but 2048 bits; A third level process of transmitting an 8PSK modulation scheme and a 2/3 code rate if it is determined in the above process and is determined to be 3072 bits instead of 2048 bits per frame; If it is determined in the above process and determined to be 4096 bits rather than 3072 bits per frame, the fourth level process is performed by applying a 16QAM modulation scheme and a 2/3 code rate.

Hereinafter, a method of selecting an optimal MS level of a beauty antenna system according to the present invention will be described with reference to the accompanying drawings.

In order to illustrate the present invention, FIG. 2 is a graph illustrating error rate measurement using each modulation scheme and code rate of the present invention's MIMO antenna system, and FIG. 3 shows each modulation scheme and code rate of the present invention's MIMO antenna system. Fig. 4 is a graph illustrating the correlation between the minimum SNR and the MCS level of the present invention's MIMO antenna system, and Fig. 5 is a flowchart illustrating a method for selecting an optimal MS level of the MIMO antenna system according to the present invention.

Referring to FIG. 2 in detail, the error occurrence rate is experimentally measured by applying each modulation method and a code rate, and the minimum SNR is about as a result of measuring the worst case error rate using the QPSK modulation method and 1/3 code rate. As a result of measuring the worst case error rate using -1.9 dB and QPSK modulation method and 2/3 code rate, the minimum SNR is about 3.25 dB and the worst case error rate using 8PSK modulation method and 2/3 code rate As a result, the minimum SNR is about 7.25 dB, and the minimum SNR is about 9.25 dB as a result of measuring the worst case error rate using 16QAM modulation method and 2/3 code rate.

Referring to FIG. 3 in detail, a data transmission characteristic graph using respective modulation schemes and code rates is shown. The data transmission characteristic when the QPSK modulation scheme and 1/3 code rate is applied is about 614.4 Kbps, and the QPSK modulation scheme and 2 The data transmission characteristics of the / 3 code rate is about 1228.8 Kbps, the data transmission characteristics of the 8PSK modulation method and 2/3 code rate is about 1843.2 Kbps, and the 16QAM modulation method and 2/3 code rate are applied. The data transmission characteristic in the case is a graph measured at about 2457.6 Kbps.

The attached FIG. 4 illustrates the correlation between the minimum SNR and the MCS level of the MIMO antenna system according to the present invention. In the case of applying the QPSK modulation scheme and 1/3 code rate, the bit per frame is 1024 and the data transmission characteristic is 614.4 Kbps. Is MCS level 1, QPSK modulation method and 2/3 code rate are applied, MCS level 2 is used when bit per frame is 2048 and data transmission characteristic is 1228.8 Kbps, and 8PSK modulation method and 2/3 code rate are set. MCS level 3 is applied when the bit per frame is 3072 and the data transmission characteristic is about 1843.2 Kbps, 16QAM modulation method and 2/3 code rate are applied, the bit per frame is 4096 and the data transmission characteristic is about 2457.6 Kbps. The case where the case is set to MCS level 4, THROUGHPUT in the case set as mentioned above is optimal.

5 is a method of selecting an optimal MS level of the present invention's MIMO system. When the data is transmitted through the MIMO antenna system, it is determined that the QPSK modulation scheme and the 1/3 code rate are determined. Determining whether data is transmitted through the beauty antenna system by applying and transmitting (S100); Determining whether data transmitted per unit frame is 1024 bits when data is transmitted in step S100 (S110); In step S110, if it is determined that data transmitted per unit frame is 1024 bits, the first level process includes applying a QPSK modulation scheme and a 1/3 code rate and transmitting the data through a corresponding antenna system (S120);

In the first level process, 1024 bits per frame are not transmitted through the MIMO antenna, but if it is determined to be 2048 bits, it is transmitted by applying a QPSK modulation scheme and a 2/3 code rate, and is transmitted per unit frame in the first level process. Determining whether the data is 2048 bits when the data are not 1024 bits (S110); In step S130, if the data transmitted per unit frame is determined to be 2048 bits, the second level process includes applying a QPSK modulation scheme and a 2/3 code rate and transmitting the data through a corresponding antenna system (S140);

If it is determined in the second level process that it is determined not to be 2048 bits per frame but 3072 bits, it is transmitted by applying 8PSK modulation method and 2/3 code rate, and the data transmitted per unit frame in the second level process is 2048 bits. If not (S130) to determine whether or not 3072 bits (S150); In step S150, if it is determined that the data transmitted per unit frame is 3072 bits, the third level process includes applying an 8PSK modulation scheme and a 2/3 code rate and transmitting the data through a corresponding antenna system (S160);

If it is determined in the third level process and is determined to be 4096 bits rather than 3072 bits per frame, the 16QAM modulation scheme and the 2/3 code rate are transmitted. The data transmitted per unit frame in the third level process is 3072 bits. If not (S150) and determining whether or not 4096 bits (S170); If the data transmitted per unit frame in step S170 is determined to be 4096 bits, the fourth level process includes applying a 16QAM modulation scheme and a 2/3 code rate and transmitting the data through a corresponding antenna system (S180). .

Hereinafter, a method of selecting an optimal level of an EMS system of the present invention will be described in detail with reference to the accompanying drawings.

The present invention is a MIMO (MULTIPLE INPUT MULTIPLE OUTPUT) antenna system for transmitting and receiving multiple antennas, the optimum data transmission conditions are different depending on the characteristics of the operating environment and surrounding conditions of each antenna, By applying the appropriate optimal modulation scheme and the optimal code rate, the data transmission error rate of the entire beautiful antenna system is reduced while increasing the transmission rate.

In case of transmitting data through each antenna of the MIMO antenna system (S100), if the data to be transmitted is determined to be 1024 bits or less per frame, the QPSK modulation scheme transmits data without error at a 614.4 Kbps transmission rate and 1 Process at a / 3 code rate and transmit through the corresponding beauty antenna (S120).

When the data transmitted in the first process is determined to be 1024 bits or more per frame (S110), it is determined whether to transmit to 2048 bits or less per frame (S130), and in the determination (S130) when it is 2048 bits or less per frame, In the QPSK method of transmitting data without error at 1228.8 Kbps transmission rate, the data is processed at 2/3 code rate and transmitted through the corresponding beauty antenna (S140).

If the data to be transmitted in the second process is determined to be 2048 bits or more per frame (S130), it is determined whether to transmit less than 3072 bits per frame (S150), if the determination (S150) is less than 3072 bits per frame, The 8PSK modulation scheme transmits data without error at 1843.2 Kbps transmission rate and 2/3 code rate, and transmits the data through the corresponding beauty antenna (S160).

If the data to be transmitted in the third process is determined to be 3072 bits or more per frame (S150), it is determined whether to transmit less than 4096 bits per frame (S170), and in the determination (S170), the data is 4096 bits or less per frame. In this case, the 16QAM modulation scheme transmits data without error at 2457.6 Kbps transmission rate and 2/3 code rate, and transmits the data through the corresponding beauty antenna (S180).

As described above, since the optimal MCS level is selected based on the minimum received SNR for each antenna of the MIMO antenna system, the probability of error occurrence of transmitted data is reduced and the overall data transmission rate of the MIMO antenna system is increased.

According to the present invention having the above-described configuration, in a beautiful antenna system for transmitting and receiving data using multiple antennas, since the data is transmitted based on the minimum SNR for each antenna and selecting the optimal MCS level, the probability of error in data transmission is reduced. There is an industrial use effect of reducing and increasing the overall data rate of the good looking antenna system.

In addition, since transmission errors do not occur in data transmitted to each antenna of the beautiful antenna system, there is an industrial use effect of improving reliability in the transmitted data.

1 is a functional explanatory diagram of a general beauty antenna system;

FIG. 2 is a graph illustrating error rate measurement using each modulation scheme and code rate of the present invention's MIMO antenna system; FIG.

3 is a graph illustrating data transmission characteristics using respective modulation schemes and code rates of the present invention's MIMO antenna system;

4 is a diagram illustrating a correlation between a minimum SNR and an optimal MCS level of the present invention's antenna system;

5 is a flowchart illustrating a method for selecting an optimal MS level of the present invention's MIMO antenna system.

** Explanation of symbols on the main parts of the drawing **

10: transmit good looking antenna 20: receive good looking antenna

Claims (5)

A first level process of transmitting data using a QPSK modulation scheme and a 1/3 code rate when it is determined that the data is transmitted through a beautiful antenna system, 1024 bits per frame; A second level process of transmitting a QPSK modulation scheme and a 2/3 code rate if it is determined that the signal is 2048 bits rather than transmitting 1024 bits per frame through the antenna; A third level process of transmitting by applying 8PSK modulation and 2/3 code rate if it is determined in the above process that it is determined not to be 2048 bits per frame but 3072 bits; And a fourth level process of applying 16QAM modulation scheme and 2/3 code rate if it is determined that the process determines 4096 bits instead of 3072 bits per frame. The method of claim 1, wherein the first level process, Determining whether data is transmitted through the beautiful antenna system; Determining whether data transmitted per unit frame is 1024 bits when data is transmitted in the above process; In the above process, if the data transmitted per unit frame is determined to be 1024 bits, the process is performed by applying the QPSK modulation scheme and 1/3 code rate and transmitting the data through the corresponding MIMO antenna system. Way. The method of claim 1, wherein the second level process, Determining whether the data transmitted per unit frame in the first level process is 2048 bits when the data is not 1024 bits; In the above process, if the data transmitted per unit frame is determined to be 2048 bits, the process is performed by applying the QPSK modulation method and the 2/3 code rate and transmitting the data through the corresponding MIMO antenna system. Way. The method of claim 1, wherein the third level process comprises: Determining whether the data transmitted per unit frame in the second level process is 3072 bits when the data is not 2048 bits; In the above process, if the data transmitted per unit frame is determined to be 3072 bits, the process is performed by applying 8PSK modulation scheme and 2/3 code rate and transmitting through the corresponding MIMO antenna system. Way. The method of claim 1, wherein the fourth level process, Determining whether the data transmitted per unit frame in the third level process is 4096 bits when it is not 3072 bits; In the above process, if the data transmitted per unit frame is determined to be 4096 bits, the process is applied to the 16QAM modulation scheme and the 2/3 code rate and transmitted through the corresponding MIMO antenna system. Way.