JP2016201658A - Radio communication device and control method thereof - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a radio communication device and a control method thereof, capable of changing modulation system adaptively.SOLUTION: A radio communication device 1 includes a modulation part 12 and a transmission part 13 for modulating a signal with one selected modulation system within a plurality of modulation systems and transmitting it to a communication target device, a reception part 14 and a demodulation part 15 for receiving a modulated signal transmitted from the communication target device and demodulating the signal, and a modulation system change determination part 17 for deciding a modulation system by adaptively determining change of modulation system to use, according to quality information on radio communication measured over time. The modulation system change determination part 17 includes a threshold value table for representing a threshold value as a reference to determine a modulation system, adjusts a margin of a threshold value within the threshold value table, associated with one or more piece of quality information, by a predetermined calculation and renewal method for reflecting quality information at a previous measurement, every time the quality information is measured, renews the threshold value with a new threshold value obtained by a process for adding the margin to the threshold value, and decides a modulation system to use based on a newly obtained quality information value.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a wireless communication technology that performs wireless communication in both directions, and more particularly, to a wireless communication apparatus that adaptively changes a modulation scheme and a control method thereof.

  Conventionally, a wireless communication device that performs wireless communication in both directions has an adaptive modulation function that changes the modulation method according to the quality of the propagation path in order to increase communication reliability and at the same time expand the transmission capacity There is. The adaptive modulation function refers to a function for determining a modulation scheme for future (next transmission) data based on the propagation path quality of the past (last transmitted / received) data.

  As such an adaptive modulation function, for example, a fluctuation amount of a line quality detection value is measured, a change amount that is a difference between a previous line quality detection value and a current line quality detection value is calculated, and a large value of the change amount is obtained. There is disclosed a transmitting / receiving apparatus that is configured to instruct whether or not to change and to instruct a modulation scheme and improve communication reliability (see, for example, Patent Document 1).

  In addition, when the propagation environment quality due to the moving speed of the wireless communication terminal or the difference in reception method corrects the threshold value that is the reference when determining the modulation method, and the usage environment of the wireless communication terminal itself changes Discloses a technique for configuring a wireless communication terminal so that the modulation scheme can be appropriately changed (see, for example, Patent Document 2).

  Further, a technique is disclosed in which a wireless communication apparatus is configured to change a modulation method by comparing a value obtained by evaluating an error or a fading state of a decoded signal with a preset threshold table (for example, a patent). Reference 3).

JP 2004-363712 A Japanese Patent No. 4860211 Japanese Patent No. 5453949

  The technique disclosed in Patent Document 1 realizes adaptive modulation by preliminarily defining a table associating a threshold value of a fluctuation amount of a line quality detection value with a modulation method to be variably applied as a threshold value table. It becomes. However, in the technique disclosed in Patent Document 1, if it is attempted to realize adaptive modulation using only the threshold table determined in advance as described above, for example, a difference in a local environment to be used or communication between wireless communication apparatuses that transmit and receive is performed. The modulation scheme is determined based on the same reference threshold without distinguishing between changes in the operating environment such as a change in obstacles or a change in weather, and it is not possible to have flexibility to cope with various propagation paths.

  In addition, the technique disclosed in Patent Document 2 corrects a threshold value used as a reference when determining a modulation method depending on a moving speed of a wireless communication terminal or a difference in a reception method, so that the use environment of the wireless communication terminal itself has changed. Although it is configured so that the modulation method can be changed appropriately in some cases, it responds to changes in the usage environment caused by fluctuations due to external factors, such as changes in communication failures between transmitting and receiving wireless communication devices, changes in weather, etc. Since there is no mechanism for correcting the threshold so that it can be done, there is room for improvement.

  Also, in the technique disclosed in Patent Document 3, the modulation scheme is changed by comparing the value of the decoded signal error and the fading state with only a preset threshold table. Therefore, the modulation scheme is determined with the same reference threshold regardless of whether or not the usage environment has changed, and it is not possible to provide flexibility to cope with various propagation paths.

  In other words, the amount of fluctuation of the propagation path quality varies depending on the surrounding speed and the weather conditions in addition to the moving speed and reception method of the wireless communication device itself, so when using a predetermined threshold table, In consideration of the change, a device for suppressing the performance deterioration of the adaptive modulation function is desired.

  In view of the above problems, an object of the present invention is to provide a wireless communication apparatus that adaptively changes a modulation scheme and a control method thereof.

  A wireless communication apparatus and a control method thereof according to the present invention provide a margin for a threshold of a threshold table related to a change of a modulation scheme, and appropriately modulate a modulation scheme even when propagation path quality fluctuations occur due to various usage environment changes. The channel quality is continuously observed so that the margin for the threshold can be dynamically adjusted based on the fluctuation amount of the channel quality.

  That is, the wireless communication device of the present invention is a wireless communication device that adaptively changes the modulation method, and selects one of a plurality of types of modulation methods to generate a modulation signal, which is transmitted to the communication destination device by wireless communication. Modulation / transmission means for transmission, reception / demodulation means for receiving and demodulating a modulated signal transmitted from the communication destination device by wireless communication, and one or more quality information measured over time related to the wireless communication And a modulation scheme change determining means for adaptively determining and determining the modulation scheme to be used, wherein the modulation scheme change determining means determines the modulation scheme to be used for each of the one or more quality information. The one or more quality information measures a threshold table storage unit that holds a threshold value table that indicates a threshold value that is a reference for the threshold, and a margin for the threshold value in the threshold value table that corresponds to the one or more quality information. Margin adjustment means that adjusts and updates by a predetermined calculation / update method that takes into account quality information at the time of previous measurement each time, and adds the margin to a threshold in the threshold table corresponding to the one or more quality information And a modulation scheme determining means for determining the modulation scheme to be used from the one or more newly obtained values of the quality information, using the value obtained in this way as a new threshold value.

  In the wireless communication apparatus of the present invention, the reception / demodulation means includes means for measuring the one or more quality information based on a modulation signal transmitted from the communication destination apparatus by wireless communication. To do.

  In the wireless communication apparatus of the present invention, the one or more pieces of quality information are measured by the communication destination apparatus with respect to a modulation signal transmitted by the modulation / transmission means in the wireless communication apparatus, and the reception / demodulation means includes the communication It has a means to receive the said 1 or more quality information measured by the tip apparatus.

  In the wireless communication apparatus of the present invention, the modulation scheme determining means is configured to specify a modulation scheme of the communication destination apparatus, and the communication destination apparatus specifies a modulation scheme of the wireless communication apparatus. The modulation / transmission unit selects one of a plurality of types of modulation schemes based on the modulation scheme designation information acquired from the communication destination device and generates a modulation signal. Is generated and transmitted to the communication destination apparatus by wireless communication.

  In the wireless communication apparatus of the present invention, the value indicated by the one or more quality information includes one or more of reception power, CN ratio, and modulation error ratio, and the one or more quality information is a plurality of quality information. The modulation scheme determining means determines to use the modulation scheme selected from the most quality information among the modulation schemes selected by each quality information, and when a plurality of modulation schemes are candidates. And a means for determining to use the modulation method having the smallest modulation order among the modulation methods selected for each quality information.

  Furthermore, a control method for a wireless communication apparatus according to the present invention is a control method for a wireless communication apparatus that adaptively changes a modulation method, and (A) selects one of a plurality of types of modulation methods and outputs a modulation signal. Generating and transmitting to the communication destination device by wireless communication; (B) receiving and demodulating a modulation signal transmitted from the communication destination device by wireless communication; and (C) over time related to the wireless communication. Adaptively determining and determining a modulation scheme to be used according to the measured one or more quality information, wherein the step (C) includes the modulation scheme to be used for each of the one or more quality information. Referring to a threshold table stored in advance indicating a threshold value used as a reference for determining the one or more quality information, the one or more quality information is measured with respect to a threshold value in the threshold table corresponding to the one or more quality information. Every time A value obtained by adjusting and updating by a predetermined calculation / update method that takes into account quality information at the time of the previous measurement, and adding the margin to a threshold value in the threshold value table corresponding to the one or more quality information. Determining a modulation scheme to be used from the newly obtained one or more quality information values as the new threshold value.

  ADVANTAGE OF THE INVENTION According to this invention, the reliability of communication which concerns on two-way radio | wireless communication can be improved with respect to various use environments.

It is a block diagram of a radio | wireless communications system provided with the radio | wireless communication apparatus of 1st Embodiment by this invention. It is a figure which shows an example of the threshold value table regarding one reception quality in the radio | wireless communication apparatus of 1st Embodiment by this invention. It is a flowchart which shows the control method in the radio | wireless communication apparatus of 1st Embodiment by this invention. It is a block diagram of the radio | wireless communications system which shows the other application example regarding the radio | wireless communication apparatus of 1st Embodiment by this invention. It is a block diagram of a radio | wireless communications system provided with the radio | wireless communication apparatus of 2nd Embodiment by this invention. It is a flowchart which shows the control method in the radio | wireless communication apparatus of 2nd Embodiment by this invention. It is a block diagram of a radio | wireless communications system provided with the radio | wireless communication apparatus of 3rd Embodiment by this invention. It is a flowchart which shows the control method in the radio | wireless communication apparatus of 3rd Embodiment by this invention.

  Hereinafter, with reference to the drawings, a wireless communication apparatus and a control method thereof according to each embodiment of the present invention will be described.

[First Embodiment]
First, with reference to FIG. 1 thru | or FIG. 4, the radio | wireless communication apparatus 1 of 1st Embodiment and its control method are demonstrated. FIG. 1 is a block diagram of a wireless communication system including the wireless communication device 1 according to the first embodiment of the present invention. In FIG. 1, a wireless communication device 2 is an opposite communication destination device that performs bidirectional wireless communication with the wireless communication device 1. Here, an example mainly including the same components as the wireless communication device 1. Will be explained. In addition, although the radio communication apparatuses 1 and 2 that face each other so as to perform two-way radio communication may be individually defined as modulation schemes that can be operated individually, in the following description, between the radio communication apparatuses 1 and 2 It is assumed that negotiations on types of modulation schemes that can be used in common have been adjusted.

  The wireless communication device 1 includes an error correction encoding unit 11, a modulation unit 12, a transmission unit 13, a reception unit 14, a demodulation unit 15, an error correction decoding unit 16, and a modulation scheme change determination unit 17. The modulation method change determination unit 17 includes a margin adjustment unit 171, a modulation method determination unit 172, and a threshold table storage unit 173.

  The wireless communication device 2 includes the same components as those of the wireless communication device 1, including an error correction encoding unit 21, a modulation unit 22, a transmission unit 23, a reception unit 24, a demodulation unit 25, an error correction decoding unit 26, and a modulation scheme change. A determination unit 27 is provided. The modulation method change determination unit 27 includes a margin adjustment unit 271, a modulation method determination unit 272, and a threshold table storage unit 273.

  Mainly focusing on the wireless communication apparatus 1 and describing its components, the error correction encoding unit 11 performs error correction encoding processing on transmission data based on a predetermined error correction method, and a modulation unit 12 Output to.

  The modulation unit 12 performs error correction coding after a modulation method (for example, BPSK (binary phase-shift keying), 64QAM (quadrature amplitude modulation), 128QAM, 256QAM, etc.) adaptively specified by the modulation method determination unit 172. The transmission data is modulated and output to the transmission unit 13. At the start of communication, modulation processing is performed using a predetermined modulation method and output to the transmission unit 13.

  The transmission unit 13 transmits a modulated wave signal of transmission data subjected to modulation processing by the modulation unit 12 to the wireless communication device 2 via an antenna. In addition, illustration of the base station etc. which concern on a relay is abbreviate | omitted.

  The receiving unit 14 receives a modulated wave signal of transmission data subjected to modulation processing by the wireless communication device 2 and outputs the received signal to the demodulating unit 15, measures the reception quality, and displays the measured reception quality information as quality information. To the margin adjusting unit 171 and the modulation scheme determining unit 172. As this reception quality, for example, reception power or CN ratio (Carrier to Noise Ratio) can be used.

  The demodulation unit 15 demodulates the modulated wave signal of the transmission data subjected to the modulation process by the wireless communication device 2 and outputs it to the error correction decoding unit 16 and information indicating the quality of the demodulated signal. The quality information is output to the margin adjustment unit 171 and the modulation scheme determination unit 172. The quality of the demodulated signal can be, for example, a modulation error ratio.

  The error correction decoding unit 16 decodes the transmission data demodulated by the demodulation unit 14 by error correction decoding processing based on a corresponding predetermined error correction method, and generates decoded data. The decoded data is output to another external device such as a display device (not shown).

  When the margin adjusting unit 171 receives quality information from the receiving unit 14 and the demodulating unit 15, the margin adjusting unit 171 determines a modulation scheme to be used for each piece of quality information in one or more quality information based on a predetermined calculation / update method. The margin with respect to the reference threshold value is adjusted in consideration of the quality information at the previous measurement every time the one or more pieces of quality information are measured, and the held margin is updated. When multiple pieces of quality information are indicated, the margin corresponding to each quality information is updated. The margin adjustment unit 171 initializes the margin held at the time of starting communication with another wireless communication device such as the wireless communication device 2 to a predetermined value (for example, zero) at the time of starting communication. In addition, the reception unit 14 and the demodulation unit 15 measure the quality information over time (for example, at regular intervals) after the start of communication, and the margin adjustment unit 171 holds the previous quality information.

(Margin calculation / update method of Example 1)
As Example 1 of the margin calculation / update method, for example, a value obtained by moving average of the difference between the previous quality information and the newly received quality information is updated as a new margin. More specifically, the margin is updated according to equation (1).

_{margin_ i = margin_ i-1 ×} (1-α) + abs (Quality_ i -Quality_ i-1) × α (1)

obtaining Margin_ _i margin for calculating the i-th data reception margin Margin_ _i-1 is to be calculated by the i-1 th data reception, abs () is a function that returns the absolute value, Quality_ _i during data reception i th The quality information, Quality_i _−1, is the quality information acquired when the _i− 1th data is received, and α is a predetermined parameter greater than 0 and less than or equal to 1.

(Margin calculation / update method of Example 2)
As a second embodiment of the margin calculation / update method, for example, when the difference between the previous quality information and the newly received quality information is larger than the retained margin in order to quickly follow the fluctuation of the propagation path quality. This difference is updated as a new margin, and when the difference is less than or equal to the retained margin, a value obtained by a moving average of the difference between the previous quality information and the newly received quality information is updated as a new margin. More specifically, the margin is updated according to Equation (2).

_{if (abs (Quality_ i -Quality_ i} -1)> margin_ i-1) (2)
then margin_ _i = abs (Quality_ _i −Quality_ _i-1 )
else margin_ _i = margin_ _i-1 × (1−α) + abs (Quality_ _i -Quality_ _i-1 ) × α

  When receiving the quality information from the receiving unit 14 and the demodulating unit 15, the modulation scheme determining unit 172 displays the threshold value table for each type of quality information stored in the threshold value table storing unit 173 and the margin updated by the margin adjusting unit 171. The updated margin is added to the threshold shown in the threshold table corresponding to the quality information, and the modulation method is calculated from the newly measured value of the quality information based on the new threshold after the addition processing. And instructs the modulation unit 12 to use the modulation method.

  The threshold table storage unit 173 holds a threshold table for each type of quality information. For example, as shown in FIG. 2, the threshold table is a value that allows reliable transmission of certain quality information by prior measurement. Therefore, the modulation method can be selected. For example, a certain quality information value is used to determine a modulation scheme that is equal to or lower than a predetermined bit error rate so that all data errors are corrected by the error correction scheme. Thus, as the value indicating the quality in the quality information becomes higher, it is set so that a modulation scheme having a large modulation order for expanding the transmission capacity can be determined. Then, every time the quality information is measured, the margin adjusted and updated by a predetermined calculation / update method (including the above-described equations (1), (2), etc.) taking into account the quality information at the previous measurement is, for example, FIG. Are added to all of the threshold values (32 dB and 27 dB) shown in FIG.

  In the example of the present embodiment, an example in which the reception unit 14 and the demodulation unit 15 output one or more different pieces of quality information to the margin adjustment unit 171 and the modulation scheme determination unit 172 has been described. Any one of the units 15 may be configured to output one quality information to the margin adjusting unit 171 and the modulation scheme determining unit 172. In the case of handling two or more quality information, when a different modulation method is selected for each quality information, the modulation method selected from the most quality information among the modulation methods selected by each quality information is selected. When a plurality of modulation schemes are candidates in this determination method, it is determined to use the modulation scheme having the smallest modulation order among the modulation schemes selected for each quality information. As a result, when the channel quality is deteriorated, a modulation method with a low data error can be determined. When the channel quality is improved, a modulation method for further expanding the transmission capacity can be set by setting a threshold table. Can be determined.

  FIG. 3 is a flowchart showing a control method in the wireless communication apparatus 1 according to the first embodiment of the present invention.

  The wireless communication device 1 receives a signal from the opposite wireless communication device 2 by either one or both of the reception unit 14 and the demodulation unit 15, and measures the reception quality (step S11).

  Subsequently, the wireless communication device 1 uses the margin adjustment unit 171 to update the threshold margin related to the modulation scheme change from the measured reception quality (step S12).

  Subsequently, the wireless communication device 1 adds the updated margin to the value in the threshold table by the modulation scheme determination unit 172, and compares it with the reception quality (step S13).

  Subsequently, in the wireless communication device 1, the modulation method determination unit 172 determines the change of the modulation method from the comparison result, and determines the modulation method (step S14).

  Subsequently, the wireless communication device 1 modulates data by the modulation unit 12 using the determined modulation method, and transmits the data to the opposing wireless communication device 2 by the transmission unit 13 (step S15).

  In this way, by configuring the margin for the threshold value in the threshold value table corresponding to one or more quality information in consideration of the quality information at the previous measurement every time the one or more quality information is measured, It is possible to improve the reliability of communication related to two-way wireless communication in various usage environments. In addition, since quality information related to reception quality is acquired before error correction processing and a modulation method is determined, adaptive modulation can be quickly performed with respect to fluctuations in reception quality of the propagation path.

  As shown in FIG. 4, the wireless communication device 1 according to the first embodiment is bidirectional with respect to various usage environments even for the existing wireless communication device 2 that does not include the modulation method change determination unit 27. Communication reliability related to wireless communication can be increased.

[Second Embodiment]
Next, with reference to FIG.5 and FIG.6, the radio | wireless communication apparatus 1 of 2nd Embodiment and its control method are demonstrated. FIG. 5 is a block diagram of a wireless communication system including the wireless communication device 1 according to the second embodiment of the present invention. FIG. 6 is a flowchart showing a control method in the wireless communication apparatus 1 according to the second embodiment of the present invention. In FIG. 5 and FIG. 6, the same reference numerals are assigned to the same components as those in the first embodiment. The wireless communication device 1 of the second embodiment causes the wireless communication device 2 that is opposed to measure the reception quality, sends back the quality information to the wireless communication device 1 that is the transmission source, and the wireless communication device 1 that is the transmission source The modulation scheme is configured to be adaptively determined based on the information. In FIG. 5, the wireless communication device 2 is a communication destination device on the opposite side that performs two-way wireless communication with the wireless communication device 1, and here, an example including mainly the same components as the wireless communication device 1 will be described. To do. In addition, although the radio communication apparatuses 1 and 2 that face each other so as to perform two-way radio communication may be individually defined as modulation schemes that can be operated individually, in the following description, between the radio communication apparatuses 1 and 2 It is assumed that negotiations on types of modulation schemes that can be used in common have been adjusted.

  The wireless communication device 1 according to the second embodiment includes an error correction encoding unit 11, a modulation unit 12, a transmission unit 13, a reception unit 14, a demodulation unit 15, an error correction decoding unit 16, a modulation scheme change determination unit 17, and quality information. A generation unit 18 is provided. The modulation method change determination unit 17 includes a margin adjustment unit 171, a modulation method determination unit 172, and a threshold table storage unit 173.

  The wireless communication device 2 according to the second embodiment includes the same components as those of the wireless communication device 1 as an error correction coding unit 21, a modulation unit 22, a transmission unit 23, a reception unit 24, a demodulation unit 25, and an error correction decoding unit 26. A modulation method change determination unit 27 and a quality information generation unit 28. The modulation method change determination unit 27 includes a margin adjustment unit 271, a modulation method determination unit 272, and a threshold table storage unit 273.

  Mainly focusing on the wireless communication apparatus 1 and describing its components, the error correction encoding unit 11 performs error correction encoding processing on transmission data based on a predetermined error correction method, and a modulation unit 12 Output to.

  The modulation unit 12 performs modulation processing on the transmission data after error correction coding by a modulation method (for example, BPSK, 64QAM, 128QAM, 256QAM, etc.) adaptively designated by the modulation method determination unit 172, and transmits the transmission unit 13. It is the same as that of 1st Embodiment by the point which outputs to. However, the modulation unit 12 of the second embodiment performs a modulation process on the quality information generated by the quality information generation unit 18 using a predetermined modulation method (preferably, BPSK with a low error rate of data errors), and transmits the transmission unit. 13 is output.

  The transmission unit 13 is the same as in the first embodiment in that it transmits a modulated wave signal of transmission data subjected to modulation processing by the modulation unit 12 to the wireless communication device 2 via an antenna. However, the transmission unit 13 of the second embodiment can also transmit a quality information signal for “determination of a modulation method at the time of data transmission by the wireless communication device 2” toward the wireless communication device 2.

  The receiving unit 14 is the same as in the first embodiment in that it receives a modulated wave signal of transmission data subjected to modulation processing by the wireless communication device 2 and outputs it to the demodulating unit 15. However, when receiving the transmission data signal from the wireless communication device 2, the reception unit 14 of the second embodiment measures the reception quality for “determination of the modulation method at the time of data transmission by the wireless communication device 2”. Then, the measurement result is output to the quality information generation unit 18. As this reception quality, for example, reception power or CN ratio can be used.

  The demodulator 15 is similar to the first embodiment in that the signal of the modulated wave of the transmission data subjected to the modulation process by the wireless communication device 2 is demodulated by the corresponding modulation method and output to the error correction decoder 16. However, when the demodulator 15 of the second embodiment demodulates the signal of the transmission data from the radio communication device 2, the quality of the demodulated signal is determined for “determination of the modulation method at the time of data transmission by the radio communication device 2”. Is output to the quality information generator 18. The quality of the demodulated signal can be, for example, a modulation error ratio. Furthermore, when the demodulator 15 of the second embodiment demodulates the modulated wave signal of the quality information subjected to the modulation process by the wireless communication device 2 using the corresponding modulation scheme, the margin adjuster 171 and the modulation scheme determiner 172 Output.

  Similar to the first embodiment, the error correction decoding unit 16 decodes the transmission data demodulated by the demodulation unit 14 by error correction decoding processing based on a corresponding predetermined error correction method, and generates decoded data. The decoded data is output to another external device such as a display device (not shown).

  When the margin adjustment unit 171 receives “quality information generated by the wireless communication device 2” from the demodulation unit 15, the margin adjustment unit 171 determines a modulation method to be used for each piece of quality information based on a predetermined calculation / update method. The margin for the reference threshold value is calculated, and the held margin is updated. The margin adjustment unit 171 initializes the margin held at the time of starting communication with another wireless communication device such as the wireless communication device 2 to a predetermined value (for example, zero) at the time of starting communication. The margin calculation / update method can be configured in the same manner as in the first embodiment.

  When receiving the “quality information generated by the wireless communication device 2”, the modulation scheme determination unit 172 receives the threshold value table for each type of quality information stored in the threshold value table storage unit 173, as in the first embodiment, and With reference to the margin updated by the margin adjustment unit 171, the updated margin is added to the threshold value shown in the threshold value table corresponding to the quality information, and the threshold value after the addition processing and the value of the quality information are The modulation method is determined from the comparison, and the modulation method to be used is instructed to the modulation unit 12.

  Similar to the first embodiment, the threshold table storage unit 173 holds a threshold table for each type of quality information.

  The quality information generation unit 18 receives information indicating the reception quality related to the “modulated wave signal of the transmission data subjected to the modulation process by the wireless communication device 2” from the reception unit 14 and the demodulation unit 15. Quality information for “determination of modulation scheme at the time of data transmission” is generated and output to the modulation unit 12 of the second embodiment.

  Also in the example of the present embodiment, information indicating reception quality related to “a signal of a modulated wave of transmission data modulated by the wireless communication device 2” obtained from one or both of the receiving unit 14 and the demodulating unit 15 is provided. Based on this, each quality information can be generated by the quality information generator 18. What value the quality information has for which reception quality may be configured in a predetermined format so that it can be discriminated between the radio communication apparatuses 1 and 2 facing each other.

  FIG. 6 is a flowchart showing a control method in the wireless communication apparatus 1 according to the second embodiment of the present invention.

  The wireless communication device 1 transmits a signal of a modulated wave of transmission data to the wireless communication device 2 by the transmission unit 13 to the opposite wireless communication device 2, and the wireless communication device 2 that has received this signal receives the reception unit 24. Reception quality is measured by either or both of the demodulation unit 25 and the demodulation unit 25, and the quality information generation unit 28 generates quality information for "determination of the modulation method at the time of data transmission by the wireless communication apparatus 1" The unit 22 and the transmission unit 23 transmit a modulated wave signal of the quality information toward the wireless communication apparatus 1. Then, the wireless communication device 1 demodulates and acquires the modulated wave signal of the quality information by the demodulator 15 via the receiver 14 (step S21).

  Subsequently, the wireless communication device 1 uses the margin adjusting unit 171 to update the threshold margin related to the modulation scheme change from the reception quality value indicated in the acquired quality information (step S22).

  Subsequently, the wireless communication device 1 adds the updated margin to the value in the threshold table by the modulation scheme determination unit 172, and compares it with the value of the reception quality indicated in the acquired quality information (step S23).

  Subsequently, in the wireless communication device 1, the modulation method determination unit 172 determines the change of the modulation method from the comparison result, and determines the modulation method (step S24).

  Subsequently, the wireless communication device 1 modulates data using the modulation method determined by the modulation unit 12 and transmits the data to the opposite wireless communication device 2 using the transmission unit 13 (step S25).

  In this way, by configuring the margin for the threshold value in the threshold value table corresponding to one or more quality information in consideration of the quality information at the previous measurement every time the one or more quality information is measured, It is possible to improve the reliability of communication related to two-way wireless communication in various usage environments. In addition, since quality information related to reception quality is acquired before error correction processing and a modulation method is determined, adaptive modulation can be quickly performed with respect to fluctuations in reception quality of the propagation path.

  In particular, the wireless communication device 1 of the second embodiment measures reception quality by the wireless communication device 2 that is opposed to the actually transmitted data, and determines the modulation method in the wireless communication device 1 based on the measurement result. Compared with the wireless communication apparatus 1 of the first embodiment, adaptive modulation can be quickly performed more reliably with respect to fluctuations in the reception quality of the propagation path.

  In FIG. 5, the wireless communication apparatus 1 according to the second embodiment does not include the quality information generation unit 18, and the wireless communication apparatus 2 according to the second embodiment does not include the modulation method change determination unit 27. It is good.

[Third Embodiment]
Next, with reference to FIG.7 and FIG.8, the radio | wireless communication apparatus 1 of 3rd Embodiment and its control method are demonstrated. FIG. 7 is a block diagram of a wireless communication system including the wireless communication device 1 according to the third embodiment of the present invention. FIG. 8 is a flowchart showing a control method in the wireless communication apparatus 1 according to the third embodiment of the present invention. 7 and 8, the same reference numerals are assigned to the same components as those in the first embodiment. The wireless communication device 1 of the third embodiment causes the wireless communication device 2 that is opposed to measure the reception quality, and instructs the modulation method for the wireless communication device 1 that is the transmission source based on the quality information, and the wireless communication device that is the transmission source The communication device 1 is configured to perform adaptive modulation based on the instructed modulation scheme. In FIG. 7, the wireless communication device 2 is an opposite communication destination device that performs bidirectional wireless communication with the wireless communication device 1, and here, an example including mainly the same components as the wireless communication device 1 will be described. To do. In addition, although the radio communication apparatuses 1 and 2 that face each other so as to perform two-way radio communication may be individually defined as modulation schemes that can be operated individually, in the following description, between the radio communication apparatuses 1 and 2 It is assumed that negotiations on types of modulation schemes that can be used in common have been adjusted.

  The wireless communication device 1 according to the third embodiment includes an error correction encoding unit 11, a modulation unit 12, a transmission unit 13, a reception unit 14, a demodulation unit 15, an error correction decoding unit 16, an opposite side modulation scheme change determination unit 17a, and A modulation scheme setting unit 19 is provided. The opposite side modulation method change determination unit 17a includes a margin adjustment unit 171, an opposite side modulation method determination unit 174, and a threshold table storage unit 173.

  The wireless communication device 2 according to the third embodiment includes the same components as those of the wireless communication device 1 as an error correction coding unit 21, a modulation unit 22, a transmission unit 23, a reception unit 24, a demodulation unit 25, and an error correction decoding unit 26. , A counter-side modulation method change determination unit 27a, and a modulation method setting unit 29. The opposite side modulation method change determination unit 27 a includes a margin adjustment unit 271, an opposite side modulation method determination unit 274, and a threshold table storage unit 273.

  Mainly focusing on the wireless communication apparatus 1 and describing its components, the error correction encoding unit 11 performs error correction encoding processing on transmission data based on a predetermined error correction method, and a modulation unit 12 Output to.

  The modulation unit 12 performs error correction coding using a modulation method (for example, BPSK, 64QAM, 128QAM, 256QAM, etc.) set by the modulation method setting unit 19 based on “the modulation method instructed from the wireless communication apparatus 2”. The transmission data is modulated and output to the transmission unit 13. In addition, the modulation unit 12 of the third embodiment provides a signal of information (modulation method designation information) for “setting of the modulation method at the time of data transmission by the wireless communication device 2” obtained from the modulation method change determination unit 17a. Modulation method (preferably, BPSK with a low error rate of data error) is performed and output to the transmitter 13.

  The transmission unit 13 is the same as in the first embodiment in that it transmits a modulated wave signal of transmission data subjected to modulation processing by the modulation unit 12 to the wireless communication device 2 via an antenna. However, the transmission unit 13 of the third embodiment transmits a signal of modulation scheme designation information for “setting of a modulation scheme at the time of data transmission by the radio communication device 2” obtained from the modulation scheme change determination unit 17a. You can also send to.

  The receiving unit 14 is the same as in the first embodiment in that it receives a modulated wave signal of transmission data subjected to modulation processing by the wireless communication device 2 and outputs it to the demodulating unit 15. However, the receiving unit 14 of the third embodiment receives a modulated wave signal of transmission data subjected to modulation processing by the wireless communication device 2 in order to “set the modulation method at the time of data transmission by the wireless communication device 2”. Then, the reception quality is measured, and the measured reception quality information is output as quality information to the margin adjustment unit 171 and the opposite side modulation scheme determination unit 174. As this reception quality, for example, reception power or CN ratio can be used.

  The demodulator 15 is similar to the first embodiment in that the signal of the modulated wave of the transmission data subjected to the modulation process by the wireless communication device 2 is demodulated by the corresponding modulation method and output to the error correction decoder 16. However, when the demodulator 15 of the third embodiment demodulates the transmission data signal from the wireless communication device 2 for “setting of the modulation method at the time of data transmission by the wireless communication device 2”, the quality of the demodulated signal Is output as quality information to the margin adjusting unit 171 and the opposite side modulation scheme determining unit 174. The quality of the demodulated signal can be, for example, a modulation error ratio. Furthermore, when the demodulation unit 15 of the third embodiment demodulates the modulation scheme designation information signal indicating “the modulation scheme instructed from the wireless communication apparatus 2” via the reception unit 14, the modulation scheme designation information is modulated. The data is output to the method setting unit 19.

  Similar to the first embodiment, the error correction decoding unit 16 decodes the transmission data demodulated by the demodulation unit 14 by error correction decoding processing based on a corresponding predetermined error correction method, and generates decoded data. The decoded data is output to another external device such as a display device (not shown).

  When the margin adjustment unit 171 receives the quality information from the reception unit 14 and the demodulation unit 15, the margin adjustment unit 171 provides a margin for a threshold serving as a reference when determining a modulation method to be used for each quality information based on a predetermined calculation / update method. This is the same as in the first embodiment in that the calculated margin is updated and the retained margin is updated. However, this margin update is performed for “setting of the modulation method at the time of data transmission by the wireless communication device 2”, and the margin adjustment unit 171 starts communication with another wireless communication device such as the wireless communication device 2. The margin held at the time is initialized to a predetermined value (for example, zero) at the start of the communication.

  When receiving the quality information from the receiving unit 14 and the demodulating unit 15 for “setting of the modulation method at the time of data transmission by the wireless communication device 2”, the opposite side modulation scheme determining unit 174 is stored in the threshold table storage unit 173. Referring to the threshold table for each type of quality information and the margin updated by the margin adjustment unit 171, the updated margin is added to the threshold indicated in the threshold table corresponding to the quality information, and the addition processing is performed. A modulation scheme is determined from a comparison between the subsequent threshold value and the value of the quality information, and modulation scheme designation information designating “a modulation scheme at the time of data transmission by the wireless communication device 2” is output to the modulation section 12.

  Similar to the first embodiment, the threshold table storage unit 173 holds a threshold table for each type of quality information.

  The modulation scheme setting unit 19 acquires modulation scheme designation information indicating “a modulation scheme instructed from the radio communication apparatus 2” from the demodulation unit 15 and sets the modulation unit 12 to change to the instructed modulation scheme. .

  Also in the example of this embodiment, based on each quality information indicating reception quality obtained from one or both of the receiving unit 14 and the demodulating unit 15, modulation scheme designation information is generated by the opposite modulation scheme determining unit 174. Can be configured to. What value the quality information has for which reception quality may be configured in a predetermined format so that it can be discriminated between the radio communication apparatuses 1 and 2 facing each other.

  FIG. 8 is a flowchart showing a control method in the wireless communication apparatus 1 according to the third embodiment of the present invention.

  The wireless communication device 1 causes the transmission unit 13 to transmit a modulated wave signal of transmission data to the opposite wireless communication device 2 toward the wireless communication device 2, and causes the wireless communication device 2 to measure the reception quality (step S31). Then, the threshold margin relating to the modulation method is updated (step S32), and the modulation method is determined (step S33). That is, the wireless communication device 2 that has received the modulated wave signal from the wireless communication device 1 measures the reception quality by either one or both of the reception unit 24 and the demodulation unit 25.

  At this time, the wireless communication device 2 uses the margin adjustment unit 271 to update the threshold margin related to the modulation scheme based on the quality information indicating the measured reception quality.

  In addition, the wireless communication device 2 refers to the threshold table for each type of quality information stored in the threshold table storage unit 273 and the margin updated by the margin adjustment unit 271 by the opposite side modulation scheme determination unit 274, and The updated margin is added to the threshold value shown in the threshold value table corresponding to the quality information, and a modulation method is determined by comparing the threshold value after the addition process with the value of the quality information. Modulation scheme designation information for designating “modulation scheme at the time of data transmission” is output to the wireless communication apparatus 1 by the modulator 22 and the transmitter 23.

  Subsequently, the wireless communication device 1 acquires the modulation method designation information indicating “the modulation method instructed from the wireless communication device 2” from the demodulation unit 15 by the modulation method setting unit 19 and sets the modulation method to the instructed modulation method. The modulation unit 12 is set to be changed (step S34).

  Subsequently, the wireless communication device 1 modulates data by the modulation unit 12 using the modulation scheme designated and set by the opposing wireless communication device 2, and transmits the data to the wireless communication device 2 by the transmission unit 13 (step S35).

  In this way, by configuring the margin for the threshold value in the threshold value table corresponding to one or more quality information in consideration of the quality information at the previous measurement every time the one or more quality information is measured, It is possible to improve the reliability of communication related to two-way wireless communication in various usage environments. In addition, since quality information related to reception quality is acquired before error correction processing and a modulation method is determined, adaptive modulation can be quickly performed with respect to fluctuations in reception quality of the propagation path.

  In particular, the wireless communication device 1 of the third embodiment measures the reception quality of the actually transmitted data by the opposing wireless communication device 2 and determines the modulation method, so that the wireless communication device 1 of the first embodiment In comparison, adaptive modulation can be quickly performed more reliably with respect to fluctuations in the reception quality of the propagation path.

  In FIG. 7, the wireless communication apparatus 1 according to the third embodiment does not include the modulation method change determination unit 17a, and the wireless communication apparatus 2 according to the third embodiment does not include the modulation method setting unit 29. It is good.

  Although the present invention has been described with reference to specific examples, the present invention is not limited to the examples of the above-described embodiments, and various modifications can be made without departing from the technical idea thereof. For example, the communication method may be time division duplex (TDD) or frequency division duplex (FDD).

  According to the present invention, it is possible to improve the reliability of communication related to wireless communication in both directions for various usage environments, which is useful for the purpose of wireless communication control related to bidirectional wireless communication.

DESCRIPTION OF SYMBOLS 1, 2 Wireless communication apparatus 11, 21 Error correction encoding part 12, 22 Modulation part 13, 23 Transmission part 14, 24 Reception part 15, 25 Demodulation part 16, 26 Error correction decoding part 17, 27 Modulation system change determination part 17a 27a Opposite side modulation method change determination unit 18, 28 Quality information generation unit 19, 29 Modulation method setting unit 171, 271 Margin adjustment unit 172, 272 Modulation method determination unit 173, 273 Threshold table storage unit 174, 274 Opposite side modulation method Decision part

Claims (6)

A wireless communication device that adaptively changes a modulation method,
Modulation / transmission means for selecting one of a plurality of modulation schemes to generate a modulation signal, and transmitting the modulation signal to a communication destination device by wireless communication; and receiving a modulation signal transmitted from the communication destination device by wireless communication Receiving and demodulating means for demodulating, and modulation method change determining means for adaptively determining and determining a modulation method to be used according to one or more quality information measured over time related to the wireless communication,
The modulation method change determination means includes
Threshold value table storage means for holding a threshold value table indicating a threshold value used as a reference when determining the modulation method to be used for each of the one or more pieces of quality information;
The margin for the threshold value in the threshold value table corresponding to the one or more quality information is adjusted and updated by a predetermined calculation / update method that takes the quality information at the previous measurement into consideration each time the one or more quality information is measured. Margin adjustment means to
The value obtained by adding the margin to the threshold value in the threshold value table corresponding to the one or more quality information is used as a new threshold value, and the modulation to be used is used from the newly obtained one or more quality information values. A modulation scheme determining means for determining a scheme;
A wireless communication apparatus comprising:   The wireless communication according to claim 1, wherein the receiving / demodulating means includes means for measuring the one or more quality information based on a modulated signal transmitted from the communication destination apparatus by wireless communication. apparatus. The one or more quality information is measured by the communication destination device for a modulation signal transmitted by the modulation / transmission means in the wireless communication device,
The wireless communication apparatus according to claim 1, wherein the reception / demodulation means includes means for receiving the one or more pieces of quality information measured by the communication destination apparatus. The modulation scheme determining means is configured to designate a modulation scheme of the communication destination device, and the communication destination device is configured to include means for generating modulation scheme designation information for designating the modulation scheme of the wireless communication device. And
The modulation / transmission unit selects one of a plurality of types of modulation schemes based on the modulation scheme designation information acquired from the communication destination device, generates a modulation signal, and transmits the modulation signal to the communication destination device by wireless communication. The wireless communication apparatus according to claim 1, wherein:   The value indicated by the one or more quality information includes one or more of reception power, CN ratio, and modulation error ratio, and the modulation scheme determining means is used when the one or more quality information is a plurality of quality information. Is determined to use the modulation method selected from the most quality information among the modulation methods selected by each quality information, and when a plurality of modulation methods are candidates, the modulation method selected for each quality information 5. The wireless communication apparatus according to claim 1, further comprising a unit that determines to use a modulation method having the smallest modulation order. A method of controlling a wireless communication device that adaptively changes a modulation method,
(A) selecting one of a plurality of types of modulation schemes to generate a modulated signal and transmitting the modulated signal to a communication destination device by wireless communication;
(B) receiving and demodulating a modulated signal transmitted by wireless communication from the communication destination device;
(C) adaptively determining and determining a modulation scheme to be used according to one or more pieces of quality information measured over time related to the wireless communication,
The step (C)
Threshold values in the threshold table corresponding to the one or more quality information are referred to with reference to a threshold table that is stored in advance indicating threshold values that serve as a reference when determining the modulation method to be used for each of the one or more quality information Adjusting and updating the margin with respect to a predetermined calculation / update method that takes into account the quality information at the previous measurement each time the one or more pieces of quality information are measured;
The value obtained by adding the margin to the threshold value in the threshold value table corresponding to the one or more quality information is used as a new threshold value, and the modulation to be used is used from the newly obtained one or more quality information values. Determining a method;
A control method for a wireless communication apparatus, comprising: