KR102179642B1 - Transmit and receive modulators - Google Patents

Abstract

The present invention relates to a transmission/reception modulator including: a transmission/reception antenna selection unit (100) encoding index information in which transmission and reception antennas to be used for transmission/reception are selected from among multiple transmission antennas and multiple reception antennas; a modulation unit (200) loading the encoded index information into a transmission signal and modulating the transmission signal corresponding to the selected transmission and reception antennas; a transmission unit (300) transmitting the transmission signal through the transmission antenna selected by the index information; and a reception unit (400) selecting the reception antenna from among the multiple reception antennas by decoding the index information transmitted by the transmission signal and receiving the transmission signal of the transmission unit (300). Accordingly, the transmission/reception unit is capable of adapting to a transmission/reception environment using the index information in which the antenna to be used for transmission/reception is selected from among the multiple antennas, and thus an increase in data transfer rate can be achieved. The improved data transfer rate is capable of having a positive effect on the performance of communication equipment required in a future communication environment.

Description

Transmit and receive modulators {TRANSMIT AND RECEIVE MODULATORS}

The present invention relates to a transmission and reception modulation device, and more particularly, to a transmission and reception modulation device for transmitting and receiving a radio signal.

A communication device includes a transmitting unit and a receiving unit for transmitting and receiving radio signals, the transmitting unit transmitting a modulated transmission signal to a transmitting antenna, and the receiving unit receiving and demodulating a transmission signal of the transmitting unit through a receiving antenna. In this case, the transmitter may use a modulation method or use a plurality of transmit antennas to increase the data transmission rate. In addition, the receiving unit may also use a plurality of receiving antennas to lower the data error rate. For example, a transmission method using a plurality of transmit antennas includes a generalized spatial modulation (GSM) method, and a reception method using a plurality of receive antennas includes a receive antenna shift keying (RASK) method.

Registration No. 10-1009774, Spatial modulation method in multiple input/output system and transmission/reception device using the same Publication No. 10-2018-0133175, Signal processing method, apparatus and base station combining NOMA and GSSK

An object of the present invention for solving the above problems is to provide a transmission and reception modulation apparatus for increasing a data transmission rate by selecting an antenna to be used for transmission and reception among a plurality of antennas configured in a transmission and reception unit.

The present invention for achieving the above object, the transmission and reception antenna selection unit 100 for encoding index information for selecting a transmission antenna and a reception antenna to be used for transmission and reception among a plurality of transmission antennas and a plurality of reception antennas; A modulator 200 that loads the encoded index information on the transmission signal and modulates a transmission signal corresponding to the selected transmission antenna and the reception antenna; A transmission unit 300 for transmitting a transmission signal through a transmission antenna selected by the index information; And a receiving unit 400 that decodes index information transmitted by a transmission signal, selects a receiving antenna from among a plurality of receiving antennas, and receives a transmission signal from the transmitting unit 300.

In addition, the transmission/reception antenna selection unit 100 includes an encoding unit 110 for encoding index information of a transmission antenna and a reception antenna and a modulation method of a transmission signal, and the modulation unit 200 is a modulation method of the encoding unit 110 According to the modulation method, the transmission signal is modulated, the reception unit 400 selects a reception antenna according to the index information of the encoding unit 110, and demodulates the transmission signal according to the modulation method.

Further, the transmitter 300 uses a generalized spatial modulation (GSM) method, and the receiver 400 uses a receive antenna shift keying (RASK) method.

In addition, the receiving unit 400 measures the error rate of the transmission signal of the transmitting unit 300, extracts index information of the transmitting antenna and receiving antenna indicating a more improved transmission rate from the index information of the transmitting unit 300, and extracts the extracted index information. Including an error rate measurement unit 410 transmitted to the transmission unit 300, the transmission/reception antenna selection unit 100 of the transmission unit 300 updates the index information of the transmission/reception antenna selection unit 100 by using the extracted index information , And an update unit 120 reflecting the selection of the transmitting antenna and the receiving antenna.

In addition, the receiving unit 400 calculates a change trend in which the error rate and the transmission rate change over time, extracts index information whose change trend is less than a certain level, and transmits the extracted index information to the transmission/reception antenna selection unit 100. A change trend calculation unit 420 is included, and the encoding unit 110 of the transmission/reception antenna selection unit 100 changes the modulation method by referring to the extracted index information of the change trend calculation unit 420.

In addition, the reception unit 400 calculates the change trend of the error rate and the transmission rate for the modulation method of the transmission/reception antenna selection unit 100, extracts index information whose change trend is less than a certain level, and transmits the extracted index information to the transmission/reception antenna selection unit. Includes a modulation trend calculation unit 430 transmitted to 100, and the update unit 120 of the transmission/reception antenna selection unit 100 refers to the extracted index information of the modulation trend calculation unit 430, and the transmission/reception antenna selection unit Index information of (100) is updated.

In the case of using the transmission and reception modulation apparatus according to the present invention as described above, the transmission/reception unit adapts to the transmission/reception environment by using index information for selecting an antenna to be used for transmission/reception among a plurality of antennas to increase the data transmission rate.

In addition, the improved data transmission rate has an advantage of positively affecting the performance of communication equipment required in a future communication environment.

1 is an exemplary diagram showing a configuration of a transmission and reception modulation device.
2 is an exemplary diagram showing a configuration associated with the encoding unit 110.
3 is an exemplary diagram showing a configuration associated with the error rate measurement unit 410.
4 is an exemplary view showing a configuration associated with the change trend calculation unit 420.
5 is an exemplary diagram showing a configuration associated with the modulation trend calculation unit 430.
6 is a result showing RASK, GSM, and BER performance of the present invention when Nt=5, nt=2, and Nr=2.
7 is a result showing RASK, GSM, and BER performance of the present invention when Nt=5, nt=3, and Nr=2.

The terms used in the specification take the form of a compound word having a new meaning in a broader sense by combining words and words having different meanings into one word that can be interpreted broadly in the original meaning of the word. For example, the word “conversation” and the word “channel” are combined to form a dialogue channel, which means a communication channel through which dialogue is conducted. In addition, the embodiments presented in the specification are preferred embodiments, and in some cases, other components may be added or the original configuration may be omitted. In an embodiment, it may be implemented to include or have a configuration.

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

1 is an exemplary diagram showing a configuration of a transmission and reception modulation device.

The transmission and reception modulation apparatus selects a transmission antenna and a reception antenna to be used for transmission and reception from among a plurality of transmission antennas and a plurality of reception antennas, and transmits and receives a radio signal using the selected antenna. For example, when there are three transmit antennas, when two transmit antennas are selected, there are six transmit antenna index information, and if there are two receive antennas, two receive antenna index information. Here, eight types of index information for selecting a transmit antenna and a receive antenna may be selected.

Index information for selecting a transmission antenna and a reception antenna to be used for transmission/reception among a plurality of transmission antennas and a plurality of reception antennas is encoded by the transmission/reception antenna selection unit 100. For example, when the number of index information is eight, the index information encoded by the transmission/reception antenna selection unit 100 may be one of eight types.

The modulator 200 loads the encoded index information on the transmission signal and modulates the transmission signal corresponding to the selected transmission antenna and the reception antenna. The transmission unit 300 transmits the modulated transmission signal through the transmission antenna selected by the index information. For example, the modulator 200 modulates the transmission signal according to the modulation method, and may perform binary phase modulation when the modulation method is BPSK.

The receiving unit 400 decodes the index information transmitted by the transmitting signal, selects a receiving antenna among a plurality of receiving antennas, and receives a transmission signal of the transmitting unit 300. The reception unit 400 parses the binary code included in the index information, decodes the corresponding transmission antenna and index information of the reception antenna, and selects a reception antenna from among a plurality of reception antennas configured in the reception unit 400.

For example, the transmission unit 300 may use a generalized spatial modulation (GSM) method, and the reception unit 400 may use a receive antenna shift keying (RASK) method.

The GSM (Generalized Spatial Modulation) method is a transmission method using a plurality of transmit antennas, and the RASK (Receive Antenna Shift Keying) method is a receiving method using a plurality of receive antennas.

2 is an exemplary diagram showing a configuration associated with the encoding unit 110.

The transmission/reception antenna selection unit 100 includes an encoding unit 110 for encoding index information and a modulation method. The encoding unit 110 encodes index information of a transmit antenna and a receive antenna, and a method of modulating a transmit signal. The encoder 110 encodes index information and binary code indicating a modulation method. For example, if there are 8 index information and 4 modulation methods, 2 is the power of 5, and a 5-bit binary code can be used.

Table 1 below is an example of index information.

The modulator 200 modulates the transmission signal according to the modulation method of the encoding unit 110, the reception unit 400 selects a reception antenna according to the index information of the encoding unit 110, and transmits a signal corresponding to the modulation method. Demodulate For example, if the modulation method is BPSK, the modulation unit 200 performs binary phase modulation on the transmission signal, and the reception unit 400 decodes the index information of the reception antenna from the binary code included in the index information, and A reception antenna is selected and a transmission signal is demodulated according to the BPSK modulation method.

3 is an exemplary diagram showing a configuration associated with the error rate measurement unit 410.

The receiving unit 400 includes an error rate measurement unit 410 that measures an error rate for a transmission signal and extracts index information.

The error rate measurement unit 410 measures the error rate of the transmission signal of the transmission unit 300, extracts index information of a transmission antenna and a reception antenna indicating a more improved transmission rate from the index information of the transmission unit 300, and extracts the extracted index information. It transmits to the transmitter 300. For example, when the error rate is low, the transmission rate is high, and the error rate may vary according to index information of the transmitting antenna and the receiving antenna. Index information of a transmission antenna and a reception antenna having a low error rate and a high transmission rate can improve the performance of the transmission and reception modulation apparatus.

The transmission/reception antenna selection unit 100 of the transmission unit 300 includes an update unit 120 for updating index information of the transmission/reception antenna selection unit 100 by using the extracted index information.

The update unit 120 updates the index information of the transmission/reception antenna selection unit 100 by using the extracted index information, and reflects it in selection of a transmission antenna and a reception antenna.

4 is an exemplary view showing a configuration associated with the change trend calculation unit 420.

The receiving unit 400 includes a change trend calculation unit 420 that transmits index information in which an error rate and a change trend at which the transmission rate changes are less than or equal to a predetermined level.

The change trend calculation unit 420 calculates a change trend in which the error rate and the transmission rate change over time, extracts index information in which the change trend is less than a certain level, and transmits the extracted index information to the transmission/reception antenna selection unit 100 do. For example, index information in which a change trend of an error rate and a transmission rate change is less than or equal to a certain level may be used to support the performance of the transmission and reception modulation apparatus to indicate a certain level.

The encoding unit 110 of the transmission/reception antenna selection unit 100 changes the modulation method by referring to the index information extracted from the change trend calculation unit 420.

5 is an exemplary diagram showing a configuration associated with the modulation trend calculation unit 430.

The receiving unit 400 includes a modulation trend calculator 430 that transmits index information in which an error rate for a modulation method and a change trend of a transmission rate are less than a certain level.

The modulation trend calculation unit 430 calculates the change trend of the error rate and the transmission rate for the modulation method of the transmission/reception antenna selection unit 100, extracts index information whose change trend is less than a certain level, and selects the extracted index information. It is transmitted to the unit 100. For example, index information in which an error rate for a modulation method and a change trend in which a transmission rate changes is less than or equal to a certain level may be used to support the performance of the transmitting and receiving modulation apparatuses to indicate a certain level.

The update unit 120 of the transmission/reception antenna selection unit 100 updates index information of the transmission/reception antenna selection unit 100 by referring to the index information extracted from the modulation trend calculation unit 430.

6 and 7 are comparison results showing RASK, GSM, and BER performance of the present invention. The BER performance of the present invention lies between the performance of GSM and RASK. This is because the number of transmit/receive antennas is a trade-off relationship in GSM and RASK. In the case of RASK, the BER performance tends to improve as the number of antennas at the transmitting end increases. To this end, increasing the number of active antennas at the transmitting end causes difficulty in detecting the antenna index of the transmitting end at the receiving end. In addition, in the case of GSM, the antenna index of the transmitting end can be easily detected when the number of antennas at the receiving end is increased. Research is needed to solve these problems in the future.

Although the above has been described with reference to preferred embodiments of the present invention, those skilled in the art will variously modify and change the present invention within the scope not departing from the spirit and scope of the present invention described in the following claims. You will understand that you can do it.

100: transmitting and receiving antenna selection unit 110: encoding unit
120: update unit 200: modulator
300: transmitter 400: receiver
410: error rate measurement unit 420: change trend calculation unit
430: modulation trend calculation unit

Claims (6)

A transmission/reception antenna selection unit 100 encoding index information for selecting a transmission antenna and a reception antenna to be used for transmission/reception among a plurality of transmission antennas and a plurality of reception antennas;
A modulator 200 that loads the encoded index information on the transmission signal and modulates a transmission signal corresponding to the selected transmission antenna and the reception antenna;
A transmission unit 300 for transmitting the transmission signal through a transmission antenna selected by the index information; And
And a receiving unit 400 for decoding the index information transmitted by the transmission signal to select the receiving antenna among the plurality of receiving antennas and receiving the transmission signal of the transmitting unit 300,
The transmission/reception antenna selection unit 100 includes an encoding unit 110 for encoding the index information of the transmission antenna and the reception antenna and a modulation method of the transmission signal,
The modulator 200 modulates the transmission signal according to the modulation method of the encoding unit 110,
The transmission unit 300 selects the transmission antenna according to the index information of the encoding unit 110,
The receiving unit 400 selects the receiving antenna according to the index information of the encoding unit 110, and demodulates the transmission signal according to the modulation method; By measuring an error rate of the transmission signal of the transmission unit 300, the index information of the transmission antenna and the reception antenna indicating a more improved transmission rate is extracted from the index information of the transmission unit 300, and the extracted index information is Including an error rate measurement unit 410 transmitted to the transmission unit 300,
The transmission/reception antenna selection unit 100 of the transmission unit 300 updates the index information of the transmission/reception antenna selection unit 100 by using the extracted index information, and reflects it in selection of the transmission antenna and the reception antenna. Transmission and reception modulation device including an update unit 120. delete The method of claim 1,
The transmitting unit 300 uses a generalized spatial modulation (GSM) method, and the receiving unit 400 uses a receive antenna shift keying (RASK) method. delete The method of claim 1,
The receiver 400 calculates a change trend in which the error rate and the transmission rate change over time, extracts index information whose change trend is less than a certain level, and transmits the extracted index information to the transmission/reception antenna selection unit 100. Including a change trend calculation unit 420,
The encoding unit 110 of the transmission/reception antenna selection unit 100 changes the modulation method by referring to the index information extracted from the change trend calculation unit 420. The method of claim 5,
The reception unit 400 calculates a change trend of an error rate and a transmission rate for the modulation method of the transmission/reception antenna selection unit 100, extracts index information whose change trend is less than a certain level, and transmits the extracted index information to the transmission/reception antenna. Including a modulation trend calculation unit 430 transmitted to the selection unit 100,
The update unit 120 of the transmission/reception antenna selection unit 100 refers to the index information extracted from the modulation trend calculation unit 430 to update the index information of the transmission/reception antenna selection unit 100 Modulation device.

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