KR101857732B1 - Data transmitting method using impedance and apparatus performing the same - Google Patents

Abstract

A data transmitting apparatus according to an embodiment of the present invention includes a first modulator for modulating a data signal in a specific modulation scheme, a second modulator for modulating an impedance phase of the data transmitter, And a data transmission management section for providing data modulated by each of the modulation sections to the data reception apparatus. Therefore, the present invention has an advantage of modulating a signal to a constellation diagram using an existing modulation scheme and modulating an impedance value through switching to transmit additional information.

Description

TECHNICAL FIELD [0001] The present invention relates to a data transmission method using impedance switching in a wireless communication system,

BACKGROUND OF THE INVENTION Field of the Invention [0001] The present invention relates to a data transmission method using impedance switching and an apparatus for implementing the same, and more particularly, to a data transmission method using impedance switching in a wireless communication system capable of transmitting additional information by combining an existing modulation method and an impedance modulation method To a data transmission method and apparatus for executing the same.

There are various modulation schemes in which a data signal is changed and transmitted in a communication system. The number of bits that can be transmitted at one time can be increased according to the modulation scheme for changing the phase, amplitude, and frequency information of the carrier signal.

A modulation method combining a modulation method in which one of the information of the carrier wave is changed and a modulation method in which two kinds of modulation are combined is widely used. The phase shift keying (PSK) scheme and the amplitude shift keying (ASK) scheme in which the magnitude of the carrier wave is varied and transmitted in correspondence with the digital signal are schemes for modulating the phase of the carrier wave have.

There is a quadrature amplitude modulation (QAM) scheme combining amplitude modulation and phase modulation using two carriers. In this case, two bits can be sent to one symbol, so that more information can be transmitted and transmitted.

An object of the present invention is to provide a data transmission method using impedance switching in a wireless communication system capable of increasing a transmission rate by adding independent information to an existing modulation scheme and an apparatus for implementing the same.

It is another object of the present invention to provide a data transmission method using impedance switching in a wireless communication system that modulates a signal to a constellation diagram using an existing modulation scheme and modulates an impedance value through switching to transmit the additional information, The purpose.

In addition, the present invention provides a radio communication system that modulates a value of an impedance at a transmitting end and provides the received signal to a receiving end so that the receiving end can demodulate the received signal after checking the modulated impedance value to recover the original signal. A data transmission method and an apparatus for executing the same.

The problems to be solved by the present invention are not limited to the above-mentioned problem (s), and another problem (s) not mentioned can be clearly understood by those skilled in the art from the following description.

Among the embodiments, the data transmitting apparatus includes a first modulator for modulating the data signal in a specific modulation scheme, a second modulator for modulating the impedance phase of the data transmitter, and a second modulator for modulating the data signal in the first modulator And a data transmission management unit for providing the data modulated by the data transmission apparatus to the data reception apparatus.

Among the embodiments, a data transmission method using impedance switching performed in a data transmission apparatus includes the steps of modulating a data signal by a specific modulation scheme, modulating the impedance phase of the data transmission apparatus, Device.

The details of other embodiments are included in the detailed description and the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and / or features of the present invention, and how to accomplish them, will become apparent with reference to the embodiments described in detail below with reference to the accompanying drawings. It should be understood, however, that the invention is not limited to the disclosed embodiments, but is capable of many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, To fully disclose the scope of the invention to those skilled in the art, and the invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout the specification.

According to the present invention, it is possible to increase the transmission rate by transmitting independent information to the existing modulation scheme.

In addition, according to the present invention, there is an advantage that a signal can be modulated by a conventional modulation scheme, and the additional information can be transmitted by modulating an impedance value through switching.

Also, according to the present invention, the transmitting terminal modulates the value of the impedance and provides it to the receiving terminal, so that the receiver can check the modulated impedance value, demodulate the received signal, and recover the original signal.

1 is a diagram for explaining a conventional data modulation method.
2 is a block diagram illustrating an internal structure of a data transmitting apparatus according to an embodiment of the present invention.
3 is a flowchart illustrating a method of transmitting data using impedance switching in a wireless communication system according to an embodiment of the present invention.
4 is a flowchart for explaining an execution process of FIG.
5 is a graph illustrating transmission efficiency when data is transmitted through a data transmission method using impedance switching in a wireless communication system according to the present invention.

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

1 is a diagram for explaining a conventional data modulation method.

Referring to FIG. 1, a modulation scheme combining a modulation scheme in which one of the information of a carrier is changed and a modulation scheme in which two kinds of modulation are combined is widely used. The phase shift keying (PSK) system 101 and the amplitude shift keying (ASK) system 101 for changing the amplitude of the carrier wave and transmitting the amplitude shift keying ) Method (102).

There is a quadrature amplitude modulation (QAM) method 103 that combines amplitude modulation and phase modulation using two carriers. In this case, 2 bits can be sent to one symbol, so that more information can be transmitted and transmitted Do.

For example, when the modulation method is the phase shift keying method 101, the phase is shifted by 180 degrees with respect to the phase of the carrier wave, and the phase of the carrier wave is transmitted in association with 0 degrees and 180 degrees. That is, when the phase is 0 °, it corresponds to 0, and when the phase is 180 °, it corresponds to 1, and two pieces of information can be transmitted.

1, PSK modulates the phase of the carrier wave to transmit 0 bits to the carrier phase, and 2 bits to the carrier phase phase corresponding to 1 when the phase of the carrier phase is 180 degrees. .

2 is a block diagram illustrating an internal structure of a data transmitting apparatus according to an embodiment of the present invention.

Referring to FIG. 2, the data transmission apparatus 100 includes a first modulation unit 110, a second modulation unit 120, and a data transmission management unit 130.

The first modulator 110 modulates the data signal with a specific modulation scheme (for example, a phase shift keying scheme, a quadrature amplitude modulation scheme, or the like). The reason why the first modulator 110 modulates the data signal is to change the phase, amplitude, and frequency information of the carrier signal to increase the number of bits that can be transmitted per symbol.

For example, when the data signal is modulated in accordance with the phase shift keying scheme, the first modulator 110 may shift the phase of the carrier by 180 °, and when the phase of the carrier is 0 °, When the phase of the signal is 180 [deg.], Two pieces of information corresponding to 1 can be transmitted.

The second modulator 120 modulates the impedance phase of the data transmitting apparatus 100. To this end, different impedances are added to the specific modulation scheme used in the first modulation unit 110, and the impedance state is selected through the switching of the second modulation unit 120 to modulate the impedance phase.

That is, the second modulator 120 modulates the impedance phase according to the impedance state when it is switched to one of the different impedance states added to the specific modulation scheme.

In one embodiment, the second modulator 120 can modulate the phase of the impedance according to the impedance state Z1 when the switch is connected to the impedance state Z1 of the impedance state Z1 and the impedance state Z2.

For example, when the impedance state Z1 added to BPSK is 0 degrees and the impedance state Z2 is 90 degrees, the second modulator 120 modulates the impedance phase to 0 degrees according to the impedance state Z1.

In another embodiment, the second modulating unit 120 can modulate the phase of the impedance to 90 degrees according to the impedance state Z2 when the switch is connected to the impedance state Z2 of the impedance state Z1 and the impedance state Z2.

For example, when the impedance state Z1 added to the BPSK is 0 degrees and the impedance state Z2 is 90 degrees, the second modulator 120 modulates the impedance phase to 90 degrees according to the impedance state Z2.

As described above, the reason why the second modulator 120 modulates the impedance phase is that if the impedance is an independent value and the state of the impedance is changed, the second modulator 120 can have independent impedance only information. That is, if the second modulator 120 changes the amplitude or phase of the impedance, it can have only independent impedance information.

The data transmission management unit 130 provides the data modulated by the first modulation unit 110 and the second modulation unit 120 to the data reception apparatus 200, respectively. At this time, the data transmission management unit 130 simultaneously displays the data modulated by the first modulation unit 110 and the second modulation unit 120 in the constellation diagram.

In one embodiment, the data transmission management unit 130 receives coordinate information of data determined according to the specific modulation scheme used in the first modulation unit 110 and coordinate information of the impedance value modulated through the second modulation unit 120 Shown together on the constellation.

That is, the data transmission management unit 130 displays the value of the impedance on the third axis, the phase on the second axis orthogonal to the first axis of the constellation. For example, the data transmission management unit 130 may generate a three-dimensional constellation diagram by displaying orthogonality and phase on each of the X-axis and Y-axis of the constellation and displaying the value of impedance on the Z-axis of the constellation.

Conventional optical communication systems additionally transmit information using three dimensions. However, the optical communication system is different from the wireless communication system in that the signal size is always the same, so it is difficult to control the signal size.

However, the three-dimensional information transmission method of the optical communication system does not apply to the wireless communication system. The reason for this is that the wireless communication system can control the signal size because the transmission distance is different from the signal size.

That is, it is difficult to adjust the size of a signal because the size of the signal is always the same as that of the optical communication system. However, since the size of the signal can be adjusted by varying the size of the signal, The transmission method does not apply to the wireless communication system.

For this reason, the present invention can be applied to a wireless communication system by combining an existing modulation scheme (e.g., a phase shift keying scheme, a quadrature amplitude modulation scheme, etc.) and an impedance phase modulation scheme It is possible to transmit a large amount of information, thereby increasing the transmission rate.

3 is a flowchart illustrating a method of transmitting data using impedance switching in a wireless communication system according to an embodiment of the present invention. 4 is a reference diagram for explaining the execution process of FIG.

Referring to FIG. 3, the data transmitting apparatus 100 modulates the data signal in a specific modulation scheme (step S310). The data transmitting apparatus 100 modulates the impedance phase of the data transmitting apparatus (step S320). The data transmitting apparatus 100 provides the modulated data to the data receiving apparatus (step S330).

In one embodiment of step S330, the data transmitting apparatus 100 displays the coordinate information of the data determined according to the specific modulation scheme and the coordinate information of the modulated impedance value together on the constellation diagram.

For example, when the data signal is modulated according to the phase shift keying scheme, the phase difference is 180 degrees, and when the phase of the carrier is 0, the phase of the carrier is 0, and when the phase of the carrier is 180, It is possible to transmit 2 bits because the phase shift of the data signal and the phase modulation of the impedance are transmitted when the phase shift modulation method and the impedance phase modulation method are combined.

As described above, the present invention can transmit more information at a time than the existing modulation method by combining the existing modulation method and the impedance phase modulation method, thereby increasing the transmission rate.

4, the data transmission apparatus 100 displays orthogonality and phase on the first axis 410 and the second axis 420 of the constellation diagram and outputs a value of the impedance on the third axis 430 of the constellation diagram To generate a three-dimensional constellation diagram.

5 is a graph illustrating transmission efficiency when data is transmitted through a data transmission method using impedance switching in a wireless communication system according to the present invention.

The present invention can transmit more information at a time than the existing phase shift keying scheme by combining the existing modulation scheme and the impedance phase modulation scheme, thereby increasing the transmission rate. Among the existing modulation schemes, the BPSK scheme is one of the modulation schemes of the PSK, in which the phase is shifted by 180 ° to 0 ° and 180 °. That is, when the phase is 0 °, it corresponds to 0, and when the phase is 180 °, it corresponds to 1, and two pieces of information can be transmitted. Similarly, the impedance phase modulation method is a method of changing the phase of the impedance to 0 ° and 90 °.

As described above, the BPSK scheme and the impedance phase modulation scheme among the existing modulation schemes are combined to transmit 2-bit signals, thereby increasing the transmission rate.

[Equation 1]

C _onv : Channel capacity of existing modulation method

M: modulation order

&Quot; (2) "

C _prop : Impedance modulation type channel capacity

I: Modulation order of impedance

M: modulation order

The channel capacity of the existing modulation scheme is expressed by Equation (1), and the channel capacity of the impedance modulation scheme is expressed by Equation (2). In Equation (1), the channel capacity is determined according to the modulation order M in the existing modulation scheme. However, if the impedance is changed to an independent value as in Equation (2), independent impedances The frequency efficiency is higher than that of the conventional modulation method.

5 is a graph comparing the bit error rate of the BPSK scheme and the impedance modulation scheme among the existing modulation schemes and the bit error rate of QPSK among the existing modulation schemes. QPSK is one of the modulation methods of PSK, which transmits the phase of the carrier in correspondence with four phases, and can transmit information twice as much as BPSK in the same frequency bandwidth.

As shown in FIG. 5, it can be seen that the bit error rate of the conventional modulation scheme combining the BPSK scheme and the impedance modulation scheme is improved by comparing the bit error rate of QPSK among the existing modulation schemes. That is, the conventional modulation scheme combining the BPSK scheme and the impedance modulation scheme transmits 2 bits to one symbol, but the bit error rate is improved as compared with the bit error rate of the existing modulation scheme.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined by the scope of the appended claims and equivalents thereof.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, Modification is possible. Accordingly, the spirit of the present invention should be understood only in accordance with the following claims, and all equivalents or equivalent variations thereof are included in the scope of the present invention.

100: Data transmission device
110: first modulation section
120: second modulation section
130: Data transmission management unit
200: Data receiving device

Claims (12)

In the data transmitting apparatus,
A first modulator for modulating the data signal in a specific modulation scheme;
A second modulator for modulating an impedance phase of the data transmission apparatus; And
And a data transmission management section for providing the data modulated by each of the first modulation section and the second modulation section to the data reception apparatus,
The data transmission management unit
A three-dimensional constellation diagram is generated by displaying orthogonality and phase respectively on a first axis and a second axis of the constellation diagram and displaying coordinate information of impedance on a third axis of the constellation diagram,
The second modulator
And modulates the impedance phase according to the state of the selected impedance when the state of the impedance is selected through the switching of the antenna among the different impedances added to the specific modulation scheme used in the first modulation unit
Data transmission device.
The method according to claim 1,
The first modulator
Characterized in that a data signal is modulated by using any one of a phase shift keying method, an amplitude shift keying method and a quadrature amplitude modulation method
Data transmission device.
delete The method according to claim 1,
The data transmission management unit
The coordinate information of the data determined according to the specific modulation scheme used in the first modulation unit and the coordinate information of the impedance modulated through the second modulation unit are displayed together on the constellation diagram
Data transmission device.
delete delete A data transmission method using impedance switching performed in a data transmission apparatus,
Modulating a data signal with a specific modulation scheme;
Modulating an impedance phase of the data transmission apparatus;
And providing each of the modulated data to a data receiving apparatus,
The step of providing the modulated data to the data receiving device
And displaying the coordinates of the impedance on the third axis of the constellation diagram by displaying each of the orthogonality and phase on the first axis and the second axis of the constellation diagram to generate a three dimensional constellation diagram,
The step of modulating the impedance phase of the data transmitting device
And modulating the impedance phase according to the state of the selected impedance when the state of the impedance is selected through the switching of the antenna among the different impedances added to the specific modulation scheme
Method of data transmission using impedance switching.
8. The method of claim 7,
The step of modulating the data signal with a specific modulation scheme
Modulating the data signal using any one of a phase shift keying method, an amplitude shift keying method and a quadrature amplitude modulation method
Method of data transmission using impedance switching.
delete 8. The method of claim 7,
The step of providing the modulated data to the data receiving device
The coordinate information of the data determined according to the specific modulation scheme and the coordinate information of the modulated impedance are displayed together on the constellation diagram
Method of data transmission using impedance switching. 11. The method of claim 10,
The step of modulating the data signal with a specific modulation scheme
When the data signal is modulated according to the modulation scheme of BPSK, the phase difference of the carrier wave is 180 °, and when the phase of the carrier wave is 0 °, it corresponds to 0 and when the phase of the carrier wave is 180 °, ≪ RTI ID = 0.0 >
Method of data transmission using impedance switching. delete

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