JP2022152620A - Wireless transmitter-receiver and wireless transmission-reception method - Google Patents

Abstract

To provide a wireless transmitter-receiver with which it is possible to satisfy the performance required for the case when the characteristic of the transmitted and received signal ranges wide.SOLUTION: Provided is a wireless transmitter-receiver comprising: a wireless transmitter having a first transmit antenna signal processing unit that acquires a transmit signal transmitted by a first transmit antenna and generates a processed first transmit antenna signal; and a wireless receiver including a receive antenna signal common processing unit for performing common processing on two or more receive antennas so as to generate a processed receive antenna output signal, a receive side antenna selection unit for selecting the antenna used for reception from two or more receive antennas, and a synthesis unit for synthesizing the processed first transmit antenna signal and the processed receive antenna signal, one or more of the two or more receive antennas having their own processing unit.SELECTED DRAWING: Figure 1

Description

The present invention relates to a radio transceiver and a radio transmission/reception method.

In recent years, in wireless communication, the amount of communication has increased by about 1.4 times in a year, and frequency resources are being used more frequently, and frequency resources are always in a state where they cannot be used when needed. .

In communication networks such as 5G and Beyond 5G, multiplexing technology is being researched as a technique for effectively using frequency resources. For example, Non-Patent Document 1 discloses a technique of using one transmission antenna and one reception antenna for full-duplex wireless communication, which is one of the multiplexing techniques.

In full-duplex radio communication, since radio signal transmission and radio signal reception are performed simultaneously, the frequency resources can be doubled in theory, and it is highly useful as a technique for effective use of frequency resources.

Bharadia, E.McMilin, and S.Katti, “Full duplex radios.” In Proceedings of the ACM SIGCOMM 2013 conference on SIGCOMM, SIGCOMM’13, pages 375-386, NewYork, NY, USA, 2013.

In the conventional method such as that described in Non-Patent Document 1, it is sometimes difficult to satisfy the required performance when the characteristics of the transmitted and received signals are wide.

An object of one aspect of the embodiments of the present invention is to provide a wireless transmitter/receiver capable of satisfying the performance required when the characteristics of the signals to be transmitted/received are wide.

A radio transceiver that communicates using three or more antennas, including a first transmitting antenna and two or more receiving antennas, according to a signal in full-duplex radio communication, wherein the transmitted signal is transmitted by the first transmitting antenna and processed receive antennas by performing common processing on two or more receive antennas A reception antenna signal common processing unit that generates an output signal, a reception antenna selection unit that selects an antenna to be used for reception from two or more reception antennas, a processed first transmission antenna signal and a processed reception antenna output signal and a radio receiver, wherein one or more of the two or more receiving antennas has its own processing unit. provide the machine.

A radio transceiver that communicates with signals in full-duplex radio communication using three or more antennas, including two or more transmitting antennas and a first receiving antenna, common to the two or more transmitting antennas a transmission antenna signal common processing unit that generates a processed transmission antenna output signal by performing the processing of; and a transmission antenna selection unit that selects an antenna used for transmission from two or more transmission antennas; a wireless transmitter, wherein one or more of the one or more transmit antennas has its own processing unit, and a receive signal received by the first receive antenna to obtain a processed first receive antenna signal; and a synthesizing unit for synthesizing the processed transmission antenna output signal and the processed first reception antenna signal. A wireless transceiver is provided.

A radio transceiver that communicates with four or more antennas, including two or more transmitting antennas and two or more receiving antennas, by means of signals in full-duplex radio communication, for the two or more transmitting antennas A transmission antenna signal common processing unit that generates a processed transmission antenna output signal by performing common processing, and a transmission antenna selection unit that selects an antenna to be used for transmission from two or more transmission antennas, A wireless transmitter, wherein one or more of the two or more transmit antennas has its own processing unit, and a processed receive antenna output signal by performing common processing for the two or more receive antennas. , a receiving antenna selection unit that selects an antenna to be used for reception from two or more receiving antennas, and combines the processed transmitting antenna output signal and the processed receiving antenna output signal a combining unit, wherein one or more of the two or more receive antennas has its own processing unit; .

A radio transmission/reception method in a radio transceiver that communicates using three or more antennas including two or more transmitting antennas and a first receiving antenna by signals in full-duplex radio communication, wherein the two or more transmitting antennas a first step of generating a processed transmit antenna output signal by performing common processing on the first receive a third step of obtaining a receive signal received by the antenna to generate a processed first receive antenna signal; and a fourth step of combining the processed transmit antenna output signal and the processed first receive antenna signal. , wherein one or more of the two or more transmit antennas has its own processing unit.

According to the present invention, it is possible to realize a wireless transmitter/receiver capable of satisfying the performance required when the characteristics of the signals to be transmitted/received are wide.

FIG. 1 is a block diagram showing the configuration of a radio transceiver according to this embodiment. FIG. 2 is a block diagram showing the configuration of the transmission signal processing section according to this embodiment. FIG. 3 is a block diagram showing the configuration of the reception signal processing section according to this embodiment. FIG. 4 is a sequence diagram for explaining the radio transmitting/receiving function of the radio transmitting/receiving device according to this embodiment. FIG. 5 is a flow chart showing the procedure of wireless transmission/reception processing according to this embodiment.

One aspect of the embodiment of the present invention will be described in detail below with reference to the drawings. One aspect of the embodiments of the present invention is assumed to be used in communication networks such as 5G and Beyond 5G, for example.

(this embodiment)
FIG. 1 is a block diagram showing the configuration of a radio transceiver 1 according to this embodiment. For example, the radio transceiver 1 communicates using four or more antennas, including two or more transmit antennas and two or more receive antennas, by signals in full-duplex radio communication.

For example, the two or more transmit antennas include a first transmit antenna 3 and a second transmit antenna 4 . Also, for example, the two or more receive antennas include a first receive antenna 5 and a second receive antenna 6 .

A radio transmitter/receiver 1 includes a radio transmitter 10 that acquires transmission signals such as analog signals transmitted by transmission antennas 3 and 4, and a corrected reception signal based on reception signals such as analog signals received by reception antennas 5 and 6. and a radio receiver 20 for generating.

For example, the wireless transmitter/receiver 1, a transmission signal processing unit 30 described later, and a reception signal processing unit 40 described later are provided in a base station that performs full-duplex wireless communication via a channel with a terminal such as a smartphone.

The radio transmitter 10 transmits the acquired transmission signal to the radio receiver 20 . Note that the radio transmitter 10 may transmit the acquired transmission signal to the radio receiver 20 after applying transmission-side correction or the like.

The radio transmitter 10 includes a transmission antenna signal processing unit 11 (hereinafter, may be referred to as a first transmission antenna signal processing unit), a transmission antenna signal common processing unit 12, and a transmission antenna signal processing unit 13 (hereinafter, this may be called a first transmission antenna signal processing unit). (which may be called a second transmitting antenna signal processing unit) and a transmitting antenna selection unit 14 .

The radio receiver 20 includes a reception antenna signal processing unit 21 (hereinafter, this may be referred to as a first reception antenna signal processing unit), a reception antenna signal common processing unit 22, and a reception antenna signal processing unit 23 (hereinafter, this may be called a first reception antenna signal processing unit). (which may be called a second receiving antenna signal processing unit), a receiving antenna selection unit 24 and a combining unit 25 . For example, the transmission signal is generated by the transmission signal processing unit 30 . Based on the corrected received signal generated by the radio receiver 20, the received signal processing unit 40 generates a digital signal or the like.

Transmission antenna signal processing unit 11, transmission antenna signal common processing unit 12, transmission antenna signal processing unit 13, transmission antenna selection unit 14, reception antenna signal processing unit 21, reception antenna signal common processing unit 22, reception antenna signal processing unit 23 , the receiving antenna selection unit 24 and the combining unit 25 are, for example, integrated circuits.

The transmission antenna signal processing unit 11 acquires the transmission signal transmitted by the transmission antenna 3, adds transmission side correction and the like, and generates a processed first transmission antenna signal. The transmission antenna signal processing unit 13 acquires the transmission signal transmitted by the transmission antenna 4, adds transmission side correction and the like, and generates a processed second transmission antenna signal.

The transmission antenna signal common processing unit 12 acquires the processed first transmission antenna signal or the processed second transmission antenna signal, and converts the processed first transmission antenna signal or the processed second transmission antenna signal into the transmission antenna signal. 3, 4, and so on to generate a processed transmit antenna output signal.

A transmitting antenna selection unit 14 selects an antenna to be used for transmission from the transmitting antenna 3 or the transmitting antenna 4 . When the transmitting antenna 3 is selected, the transmitting antenna signal common processing unit 12 acquires the processed first transmitting antenna signal. When the transmitting antenna 4 is selected, the transmitting antenna signal common processing unit 12 acquires the processed second transmitting antenna signal.

Note that the transmission antenna signal processing unit 11 or the transmission antenna signal processing unit 13 may be omitted. For example, in the absence of the transmission antenna signal processing unit 11, when the transmission antenna 3 is selected, the transmission antenna signal common processing unit 12 acquires the transmission signal transmitted by the transmission antenna 3 and transmits the transmission signal common to the transmission antennas 3 and 4. Add side corrections, etc. to generate the processed transmit antenna output signal.

For example, in the absence of the transmission antenna signal processing unit 13, when the transmission antenna 4 is selected, the transmission antenna signal common processing unit 12 acquires the transmission signal transmitted by the transmission antenna 4 and transmits the transmission signal common to the transmission antennas 3 and 4. Add side corrections, etc. to generate the processed transmit antenna output signal.

The reception antenna signal processing unit 21 acquires the reception signal received by the reception antenna 5 and applies reception side correction and the like to generate a processed first reception antenna signal. The reception antenna signal processing unit 23 acquires the reception signal received by the reception antenna 6 and applies reception side correction and the like to generate a processed second reception antenna signal.

The reception antenna signal common processing unit 22 acquires the processed first reception antenna signal or the processed second reception antenna signal, and converts the reception antenna signal into the processed first reception antenna signal or the processed second reception antenna signal. 5, 6, and the like are added to generate a processed receive antenna output signal.

The receiving antenna selection unit 24 selects an antenna to be used for reception from the receiving antenna 5 or the receiving antenna 6 . When the receiving antenna 5 is selected, the receiving antenna signal common processing unit 22 acquires the processed first receiving antenna signal. When the receiving antenna 6 is selected, the receiving antenna signal common processing unit 22 acquires the processed second transmitting antenna signal.

Note that the receiving antenna signal processing unit 21 or the receiving antenna signal processing unit 23 may be omitted. For example, when the reception antenna signal processing unit 21 is not provided, when the reception antenna 5 is selected, the reception antenna signal common processing unit 22 acquires the reception signal received by the reception antenna 5 and performs the reception common to the reception antennas 5 and 6. Add side corrections and the like to generate the processed receive antenna output signal.

For example, when the receiving antenna signal processing unit 23 is not provided, when the receiving antenna 6 is selected, the receiving antenna signal common processing unit 22 acquires the received signal received by the receiving antenna 6 and performs the reception common to the receiving antennas 5 and 6. Add side corrections and the like to generate the processed receive antenna output signal. The synthesizing unit 25 synthesizes the processed transmission antenna output signal and the processed reception antenna output signal.

For example, the reception-side correction and transmission-side correction described above are assumed to be time delay processing and phase change processing. More specifically, at least one of the transmitting antenna signal processing unit 11, the transmitting antenna signal processing unit 13, and the transmitting antenna signal common processing unit 12 processes the processed first transmitting antenna signal and the processed second transmitting antenna signal. and at least one of a time delay process and a phase change process to the transmit signal in generating at least one of the processed transmit antenna output signals.

At least one of the receiving antenna signal processing unit 21, the receiving antenna signal processing unit 23, and the receiving antenna signal common processing unit 22 processes the processed first receiving antenna signal, the processed second receiving antenna signal, and the processed receiving antenna signal. At least one of time delay processing and phase modification processing may be applied to the received signal in generating at least one of the output signals.

Further, the transmission antenna may be, for example, one transmission antenna 3 . In this case, the transmitting antenna 4, the transmitting antenna signal common processing unit 12, the transmitting antenna signal processing unit 13, and the transmitting antenna selection unit 14 in FIG. 1 are unnecessary.

Specifically, the radio transmitter 10 has a transmission antenna signal processing section 11 . The radio receiver 20 has a receiving antenna signal processing section 21 , a receiving antenna signal common processing section 22 , a receiving antenna signal processing section 23 , a receiving side antenna selecting section 24 and a synthesizing section 25 . The transmission antenna signal processing unit 11 acquires the transmission signal transmitted by the transmission antenna 3, adds transmission side correction and the like, and generates a processed first transmission antenna signal.

The reception antenna signal processing unit 21 acquires the reception signal received by the reception antenna 5 and applies side correction or the like to generate a processed first reception antenna signal. The reception antenna signal processing unit 23 acquires the reception signal received by the reception antenna 6 and applies reception side correction and the like to generate a processed second reception antenna signal.

The reception antenna signal common processing unit 22 acquires the processed first reception antenna signal or the processed second reception antenna signal, and converts the reception antenna signal into the processed first reception antenna signal or the processed second reception antenna signal. 5, 6, and the like are added to generate a processed receive antenna output signal.

The receiving antenna selection unit 24 selects an antenna to be used for reception from the receiving antenna 5 or the receiving antenna 6 . The reception antenna signal common processing unit 22 acquires the processed first reception antenna signal. When the receiving antenna 6 is selected, the receiving antenna signal common processing unit 22 acquires the processed second transmitting antenna signal. The synthesizing unit 25 synthesizes the processed first transmitting antenna signal and the processed receiving antenna output signal.

Further, the receiving antenna may be, for example, one receiving antenna 5 . In this case, the receiving antenna 6, the receiving antenna signal common processing section 22, the receiving antenna signal processing section 23, and the receiving side antenna selection section 24 in FIG. 1 are unnecessary.

Specifically, the radio transmitter 10 has a transmission antenna signal processing section 11 , a transmission antenna signal common processing section 12 , a transmission antenna signal processing section 13 and a transmission side antenna selection section 14 . The radio receiver 20 has a receiving antenna signal processing section 21 and a synthesizing section 25 .

The transmission antenna signal processing unit 11 acquires the transmission signal transmitted by the transmission antenna 3, adds transmission side correction and the like, and generates a processed first transmission antenna signal. The transmission antenna signal processing unit 13 acquires the transmission signal transmitted by the transmission antenna 4, adds transmission side correction and the like, and generates a processed second transmission antenna signal.

The transmission antenna signal common processing unit 12 acquires the processed first transmission antenna signal or the processed second transmission antenna signal, and converts the processed first transmission antenna signal or the processed second transmission antenna signal into the transmission antenna signal. 3, 4, and so on to generate a processed transmit antenna output signal.

A transmitting antenna selection unit 14 selects an antenna to be used for transmission from the transmitting antenna 3 or the transmitting antenna 4 . When the transmitting antenna 3 is selected, the transmitting antenna signal common processing unit 12 acquires the processed first transmitting antenna signal. When the transmitting antenna 4 is selected, the transmitting antenna signal common processing unit 12 acquires the processed second transmitting antenna signal.

The reception antenna signal processing unit 21 acquires the reception signal received by the reception antenna 5 and applies reception side correction and the like to generate a processed first reception antenna signal. The synthesizing unit 25 synthesizes the processed transmission antenna output signal and the processed first reception antenna signal.

In other words, it can be said that the transmitting antenna signal common processing unit 12 generates a processed transmitting antenna output signal by performing common processing for two or more transmitting antennas. Also, it can be said that the transmitting antenna selection unit 14 selects an antenna to be used for transmission from two or more transmitting antennas. Also, one or more of the two or more transmit antennas can be said to have its own processing unit (eg, transmit antenna signal processing units 11, 13, etc.).

Further, it can be said that the reception antenna signal common processing unit 22 generates a processed reception antenna output signal by performing common processing for two or more reception antennas. Further, it can be said that the receiving antenna selection unit 24 selects an antenna to be used for reception from two or more receiving antennas. Further, it can be said that the synthesizing unit 25 synthesizes the processed transmission antenna output signal and the processed reception antenna output signal. Also, one or more of the two or more receiving antennas can be said to have their own processing units (eg, receiving antenna signal processing units 21, 23, etc.).

Further, at least one of the unique processing unit and the transmission antenna signal common processing unit 12 possessed by one or more of the two or more transmitting antennas performs time delay processing and phase processing on the transmission signal when generating the signal. It can be said that at least one change process may be added.

In addition, at least one of the unique processing unit and the receiving antenna signal common processing unit 22 possessed by one or more of the two or more receiving antennas performs time delay processing and phase processing on the received signal when generating the signal. It can be said that at least one change process may be added.

Next, an example of the transmission signal processing section 30 will be described with reference to FIG. FIG. 2 is a block diagram showing the configuration of transmission signal processing section 30 according to this embodiment. The transmission signal processing unit 30 has, for example, a function generator 31, a modulator 32, and an amplifier 36 for amplifying signals. The function generator 31 is a device that generates an analog signal by mapping a digital signal such as binary data to a symbol represented by a vector.

The modulator 32 is a device that modulates analog signals and has a splitter 33 , an oscillator 34 and a phase converter 35 . The splitter 33 is a device that decomposes the signal obtained from the function generator 31 into a sine wave component and a cosine wave component.

The analog signal decomposed into cosine wave components by the splitter 33 is multiplied by the carrier wave signal whose oscillation frequency is controlled by the oscillator 34 to become an I channel signal. Similarly, the analog signal decomposed into sine wave components by the splitter 33 is multiplied by the carrier wave signal whose oscillation frequency is controlled by the oscillator 34 and whose phase is converted by the phase converter to become a Q channel signal.

An analog signal obtained by adding the I-channel signal and the Q-channel signal is amplified by amplifier 36 and transmitted to radio transmitter 10 . When amplified by the amplifier 36, amplifier noise, which is noise by the amplifier 36, is added to the signal obtained by adding the I-channel signal and the Q-channel signal.

Next, an example of the received signal processing section 40 will be described with reference to FIG. 4 is a block diagram showing the configuration of a reception signal processing section 40 according to this embodiment; FIG. The received signal processing unit 40 is a device that decodes an analog signal into a digital signal or the like, and includes integrators 41 and 44, an oscillator 42, a phase converter 43, an I-channel digital canceller 45, and a Q-channel digital canceller 46. , bit array determiners 47 , 48 and a data combiner 49 .

The corrected received signal is detected by signal detector 50 as a signal for the I channel. The detected I-channel signal is multiplied by a carrier wave signal whose oscillation frequency is controlled by an oscillator 42 and integrated by an integrator 41 to obtain an I-channel signal.

The detected I-channel signal is multiplied by a carrier signal whose oscillation frequency is controlled by an oscillator 42 and phase-converted by a phase converter, and integrated by an integrator 44 to obtain a Q-channel signal.

The I-channel signal generated by the integrator 41 has its bit array determined by the bit array determiner 47 and is transmitted to the data combiner 49 . The Q-channel signal generated by the integrator 44 has its bit array determined by the bit array determiner 48 and is sent to the data combiner 49 .

The data combiner 49 combines the I-channel signal and the Q-channel signal whose bit sequences are determined by the bit sequence determiners 47 and 48 to generate binary data, which is a digital signal.

Next, with reference to FIG. 4, a description will be given of a case where the wireless transceiver 1 communicates using four or more antennas including two or more transmitting antennas and two or more receiving antennas using signals in full-duplex wireless communication. I do.

FIG. 4 is a sequence diagram for explaining the radio transmitting/receiving function of the radio transmitting/receiving device according to this embodiment. First, the case where the transmitting antenna 3 is selected in the wireless transmitter 10 will be described. The transmission antenna signal processing unit 11 acquires the transmission signal transmitted by the transmission antenna 3 and transmits the processed first transmission antenna signal generated by adding transmission side correction and the like to the transmission antenna signal common processing unit 12 (S1). .

The transmitting antenna signal common processing unit 12 acquires the processed first transmitting antenna signal and transmits the processed transmitting antenna output signal generated by applying the transmitting side correction and the like to the synthesizing unit 25 (S3). When the transmitting antenna 3 is selected, steps S1 and S3 are executed by the radio transmitter 10. FIG.

Next, the case when the transmitting antenna 4 is selected in the wireless transmitter 10 will be described. The transmission antenna signal processing unit 13 acquires the transmission signal transmitted by the transmission antenna 4 and transmits the processed second transmission antenna signal generated by adding transmission side correction and the like to the synthesis unit 25 (S2).

The transmitting antenna signal common processing unit 12 acquires the processed second transmitting antenna signal and transmits the processed transmitting antenna output signal generated by applying the transmitting side correction and the like to the synthesizing unit 25 (S3). Steps S2 and S3 are executed by the radio transmitter 10 when the transmitting antenna 4 is selected.

If there is no transmission antenna 4, transmission antenna signal common processing unit 12, and transmission antenna signal processing unit 13, the transmission antenna signal processing unit 11 acquires the transmission signal transmitted by the transmission antenna 3, adds transmission side correction, etc. The generated processed first transmitting antenna signal is transmitted to the synthesizing unit 25 (S1, S3).

A case where the receiving antenna 5 is selected in the radio receiver 20 will be described. The reception antenna signal processing unit 21 acquires the reception signal received by the reception antenna 5 and transmits the processed first reception antenna signal generated by adding reception side correction and the like to the reception antenna signal common processing unit 22 (S4). .

The receiving antenna signal common processing unit 22 acquires the processed first receiving antenna signal and transmits the processed receiving antenna output signal generated by adding receiving side correction and the like to the synthesizing unit 25 (S6). Steps S4 and S6 are executed by the radio receiver 20 when the receiving antenna 5 is selected.

Next, the case when the receiving antenna 6 is selected in the radio receiver 20 will be described. The reception antenna signal processing unit 23 acquires the reception signal received by the reception antenna 6 and transmits the processed second reception antenna signal generated by adding reception side correction and the like to the synthesis unit 25 (S5). Steps S5 and S6 are executed by the radio receiver 20 when the receiving antenna 6 is selected.

If the receiving antenna 6, the receiving antenna signal common processing unit 22, and the receiving antenna signal processing unit 23 are not provided, the receiving antenna signal processing unit 21 acquires the received signal received by the receiving antenna 5, adds receiving side correction, etc. The generated processed first transmitting antenna signal is transmitted to the synthesizing unit 25 (S4, S6).

Next, with reference to FIG. 5, a description will be given of a case where the radio transceiver 1 communicates using four or more antennas including two or more transmitting antennas and two or more receiving antennas by signals in full-duplex radio communication. I do.

FIG. 5 is a flow chart showing the procedure of wireless transmission/reception processing according to this embodiment. First, the transmitting antenna signal common processing unit 12 transmits a signal based on the selected transmitting antenna to the synthesizing unit 25 (S11).

For example, when the transmission antenna 3 is selected by the transmission antenna selection unit 14, the transmission antenna signal common processing unit 12 performs processing generated by the transmission antenna signal processing unit 11 based on the transmission signal transmitted by the transmission antenna 3. Further based on the processed first transmit antenna signal, a processed transmit antenna output signal is generated and transmitted to the combiner 25 .

For example, when the transmission antenna 4 is selected by the transmission antenna selection unit 14, the transmission antenna signal common processing unit 12 performs processing generated by the transmission antenna signal processing unit 13 based on the transmission signal transmitted by the transmission antenna 4. Further based on the processed second transmit antenna signal, a processed transmit antenna output signal is generated and transmitted to the combiner 25 .

Note that in the absence of the transmitting antenna 4, the transmitting antenna signal common processing unit 12, the transmitting antenna signal processing unit 13, and the transmitting antenna selection unit 14, the transmitting antenna signal processing unit 11 acquires the transmission signal transmitted by the transmitting antenna 3, The processed first transmitting antenna signal generated by adding the transmitting side correction and the like is transmitted to the synthesizing unit 25 .

Next, the receiving antenna signal common processing unit 22 transmits a signal based on the selected receiving antenna to the synthesizing unit 25 (S12). For example, when the receiving antenna 5 is selected by the receiving antenna selection unit 24, the receiving antenna signal common processing unit 22 performs processing generated by the receiving antenna signal processing unit 21 based on the received signal received by the receiving antenna 5. Further based on the processed first antenna signal, a processed antenna output signal is generated and transmitted to the combiner 25 .

For example, when the receiving antenna 6 is selected by the receiving antenna selection unit 24, the receiving antenna signal common processing unit 22 performs processing generated by the receiving antenna signal processing unit 23 based on the received signal received by the receiving antenna 6. Further based on the processed second receive antenna signal, a processed receive antenna output signal is generated and transmitted to the combiner 25 .

If the receiving antenna 6, the receiving antenna signal common processing unit 22, the receiving antenna signal processing unit 23, and the receiving antenna selection unit 24 are not provided, the receiving antenna signal processing unit 21 acquires the received signal received by the receiving antenna 5. The processed first transmission antenna signal generated by adding receiver correction and the like is transmitted to the synthesizing unit 25 .

Next, the synthesizing unit 25 synthesizes the processed transmitting antenna output signal, which is the signal transmitted from the transmitting antenna signal common processing unit 12, and the processed receiving antenna output signal, which is the signal transmitted from the receiving antenna signal common processing unit 22. (S13).

If there is no transmission antenna 4, transmission antenna signal common processing unit 12, transmission antenna signal processing unit 13, and transmission antenna selection unit 14, the synthesis unit 25 is a signal transmitted from the transmission antenna signal processing unit 11, which is a processed signal. The processed reception antenna output signal, which is the signal transmitted from the first transmission antenna signal and reception antenna signal common processing unit 22, is synthesized.

In the absence of the receiving antenna 6, the receiving antenna signal common processing unit 22, the receiving antenna signal processing unit 23, and the receiving antenna selection unit 24, the synthesizing unit 25 processes the signal transmitted from the transmitting antenna signal common processing unit 12. The processed transmission antenna output signal and the processed first reception antenna signal which is the signal transmitted from the reception antenna signal processing unit 21 are combined.

As described above, in the radio transceiver 1 according to the present embodiment, for example, at least one of the receiving antenna and the transmitting antenna, an antenna to be used is selected from two or more physically different antennas, and the characteristics of the selected antenna are used. Corresponding processing is performed at the receiving end.

For example, in addition to performing robust control in the base station, when there are two or more usable transmission antennas in the wireless transceiver 1 according to the present embodiment, it is desired to transmit a large-capacity signal by switching the transmission antenna to be used. In some cases, a large-capacity signal can be transmitted in as short a time as possible.

When using the base station using this embodiment, when there are two or more usable receiving antennas, the self-interference signal is suppressed in response to the transmitting antenna to be transmitted by switching the receiving antenna. It is possible to expect improvement in communication quality and effective utilization of frequency resources.

Therefore, by using the wireless transmitter/receiver 1 according to the present embodiment, it is possible to satisfy the performance required when the characteristics of the signals to be transmitted/received are wide. Specifically, for example, a signal coming in from the wireless transmitter 10 can be effectively canceled in the wireless receiver 20 .

In the above-described embodiment, the transmitting antenna signal processing unit 11, the transmitting antenna signal common processing unit 12, the transmitting antenna signal processing unit 13, the transmitting antenna selection unit 14, the receiving antenna signal processing unit 21, the receiving antenna signal common processing unit Although the case where the unit 22, the reception antenna signal processing unit 23, the reception antenna selection unit 24, and the synthesis unit 25 are integrated circuits, the present embodiment is not limited to this.

For example, the transmission antenna signal processing unit 11, the transmission antenna signal common processing unit 12, the transmission antenna signal processing unit 13, the transmitting antenna selection unit 14, the reception antenna signal processing unit 21, the reception antenna signal common processing unit 22, the reception antenna signal processing unit 23, the receiving antenna selection unit 24 and the combining unit 25 may be programs stored in a RAM (Random Access Memory) (not shown) provided in the base station. For example, the program is executed by being called by a CPU (Central Processing Unit) (not shown) provided in the base station.

Reference Signs List 1 Radio transmitter/receiver 3, 4 Transmitting antenna 5, 6 Receiving antenna 10 Radio transmitter 11, 13 Transmitting antenna signal processor 12 Transmitting antenna signal common processor , 14...transmitting side antenna selection section, 20...radio receiver, 21, 23...receiving antenna signal processing section, 22...receiving antenna signal common processing section, 24...receiving side antenna selection section, 25... Combining section 30 -- Transmitting signal processing section 40 -- Receiving signal processing section.

Claims (6)

A wireless transceiver that communicates with a signal in full-duplex wireless communication using three or more antennas, including a first transmitting antenna and two or more receiving antennas,
a wireless transmitter comprising a first transmitting antenna signal processing unit that acquires a transmission signal transmitted by the first transmitting antenna and generates a processed first transmitting antenna signal;
a receive antenna signal common processing unit that generates a processed receive antenna output signal by performing common processing on the two or more receive antennas;
a receiving antenna selection unit that selects an antenna to be used for reception from the two or more receiving antennas;
a combiner for combining the processed first transmit antenna signal and the processed receive antenna output signal;
a radio receiver, wherein one or more of the two or more receive antennas has its own processing unit;
A radio transceiver, characterized by: A wireless transceiver that communicates by signals in full-duplex wireless communication using three or more antennas, including two or more transmitting antennas and a first receiving antenna,
a transmit antenna signal common processing unit that generates a processed transmit antenna output signal by performing common processing on the two or more transmit antennas;
a transmitting antenna selection unit that selects an antenna to be used for transmission from the two or more transmitting antennas;
a wireless transmitter, wherein one or more of the two or more transmit antennas has its own processing unit;
a first receiving antenna signal processing unit that acquires a received signal received by the first receiving antenna and generates a processed first receiving antenna signal;
a combiner for combining the processed transmit antenna output signal and the processed first receive antenna signal;
A radio transceiver, characterized by: A radio transceiver that communicates with signals in full-duplex radio communication using four or more antennas, including two or more transmitting antennas and two or more receiving antennas,
a transmit antenna signal common processing unit that generates a processed transmit antenna output signal by performing common processing on the two or more transmit antennas;
a transmitting antenna selection unit that selects an antenna to be used for transmission from the two or more transmitting antennas;
a wireless transmitter, wherein one or more of the two or more transmit antennas has its own processing unit;
a receive antenna signal common processing unit that generates a processed receive antenna output signal by performing common processing on the two or more receive antennas;
a receiving antenna selection unit that selects an antenna to be used for reception from the two or more receiving antennas;
a combiner for combining the processed transmit antenna output signal and the processed receive antenna output signal;
a radio receiver, wherein one or more of the two or more receive antennas has its own processing unit;
A radio transceiver, characterized by: At least one of the unique processing unit and the transmission antenna signal common processing unit included in one or more of the two or more transmitting antennas performs time delay processing and processing on the transmission signal when generating the signal. adding at least one of the phase change operations;
4. The radio transmitter/receiver according to claim 2 or 3, characterized in that: At least one of the unique processing unit and the receiving antenna signal common processing unit included in one or more of the two or more receiving antennas performs time delay processing and adding at least one of the phase change operations;
4. The radio transmitter/receiver according to claim 1 or 3, characterized in that: A radio transmission/reception method in a radio transceiver that communicates using three or more antennas including two or more transmission antennas and a first reception antenna by signals in full-duplex radio communication,
a first step of generating a processed transmit antenna output signal by performing common processing on the two or more transmit antennas;
a second step of selecting an antenna to use for transmission from the two or more transmit antennas;
a third step of obtaining a received signal received by the first receive antenna to generate a processed first receive antenna signal;
a fourth step of combining the processed transmit antenna output signal and the processed first receive antenna signal;
one or more of the two or more transmit antennas has its own processing unit;
A wireless transmission/reception method characterized by:

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