JP5228801B2 - FPU relay system, transmitter, receiver, and reception status screen presentation method - Google Patents

Description

  The present invention relates to an FPU relay system that relays radio material (video material and audio material) by an FPU (Field Pickup Unit).

  In the FPU relay system, a transmitter is taken out on the field, and wireless materials such as video material and audio material are transmitted from the transmitter to a base station receiver. A marathon relay etc. corresponds to this. In such an FPU relay system, the transmission output and modulation scheme at the transmitter are adjusted to the optimum state based on the reception status of the receiver.

  Patent Document 1 describes a digital FPU receiver that displays a channel state when transmitting a quadrature digital modulation signal on a television monitor on the receiving side. This digital FPU receiver receives quadrature digitally modulated signals (video signal and audio signal) from a transmitter, and includes a quadrature demodulator, a data decoder, a television display processing unit, and a switching unit.

The quadrature demodulator demodulates the quadrature digitally modulated signal from the transmitter into an in-phase component I signal and a quadrature component Q signal. The data decoder decodes the I signal and the Q signal from the quadrature demodulator to reproduce the video signal and the audio signal. The television display processing unit performs processing for displaying the constellation on the television from the I signal and the Q signal from the quadrature demodulator. The switching unit receives the output of the data decoder and the output of the television display processing unit as inputs, and selectively outputs one of these inputs.
JP 2003-209861 A

  In relays using FPU, the transmission path environment changes greatly depending on the relay destination, so each time, the reception status (delayed waves, fading, etc.) is judged accurately, and the transmission output and modulation method at the transmitter are optimized. It is necessary to adjust to the correct state. Performing such adjustment while communicating between the transmission side worker and the reception side worker is inefficient and time consuming. Further, since it is difficult to accurately convey the detailed reception status such as constellation in words, it is impossible to make detailed settings of the transmitter.

  In the digital FPU receiver described in Patent Document 1, although a constellation can be displayed on a television, a transmitter on the transmission side indicates transmission from the reception side operator during adjustment of the transmitter. It is necessary to obtain parameters (input electric field, constellation, etc.). Therefore, this digital FPU receiver cannot solve the above problem.

  An object of the present invention is to provide an FPU relay system, a receiver, a transmitter, and a reception status screen presentation method that can solve the above-described problems and can easily and accurately adjust a transmitter.

In order to achieve the above object, an FPU relay system of the present invention has a receiver and a transmitter that performs wireless communication with the receiver.
The receiver
A reception status screen generating unit for generating a reception status screen signal for displaying information indicating a reception state of a signal from the transmitter;
A reception status screen sending means for sending the reception status screen signal generated by the reception status screen generation unit to the transmitter;
The transmitter is
Reproducing means for reproducing the reception status screen signal from the receiver ;
An operation unit;
When an input operation for validating the return of the reception status screen is performed in the operation unit, the playback unit is activated in response to the input operation, and the operation unit sends back the reception status screen. When an input operation for invalidation is performed, a first feed back control unit that stops the reproducing unit according to the input operation,
The first sending back control unit supplies information indicating the setting of sending back valid and invalid on the reception status screen to the receiver,
The FPU relay system , wherein the reception status screen return means operates only when the reception status screen return is valid .

The transmitter of the present invention is a movable transmitter that constitutes an FPU relay system together with a receiver, which modulates a signal of a radio material and transmits the signal to the receiver, from the receiver, Receiving status screen signal for displaying information indicating the reception status of the signal from the transmitter, reproducing means for reproducing the received status screen signal , the operation unit, and the operation unit, When an input operation for validating the send-back is performed, the playback unit is operated in accordance with the input operation, and an input operation for invalidating the send-back of the reception status screen is performed in the operation unit. And a first return control unit that stops the reproduction means in response to the input operation, and the first return control unit is configured to enable and disable the return of the reception status screen. Supplies information indicating a constant in the receiver.

The receiver of the present invention constitutes an FPU relay system together with a transmitter , and receives a wireless material signal from the transmitter by wireless communication, and includes information indicating a reception state of the signal from the transmitter. A reception status screen generator for generating a reception status screen signal for display; a reception status screen return means for transmitting the reception status screen signal generated by the reception status screen generator to the transmitter ; and As control information related to transmission control, a receiving unit that receives a TMCC signal including flag information indicating valid and invalid setting states of sending back of the reception status screen in the transmitter, and the TMCC signal received by the receiving unit Included in the TMCC demodulator and the TMCC signal demodulated by the TMCC demodulator. The flag information indicates that the reception status screen sending back is valid, the reception status screen sending back means is operated, and if the flag information indicates the receiving status screen sending back is invalid, A sending back control section for stopping the receiving status screen sending back means ;

The reception status screen presentation method of the present invention is a reception status screen presentation method performed in an FPU relay system having a receiver and a transmitter that performs wireless communication with the receiver,
In the receiver , a reception status screen generation unit generates a reception status screen signal for displaying information indicating a reception state of a signal from the transmitter, and a reception status screen sending back means outputs the reception status screen signal. Transmitting to the transmitter;
In the transmitter, reproducing means, viewed contains a step of reproducing the received status screen signal from the receiver,
further,
In the transmitter, when an input operation for validating the sending back of the reception status screen is performed by the sending back control unit, the reproducing means is operated and an input operation for invalidating the sending back of the receiving status screen is performed. Stopping the playback means and supplying the receiver with information indicating valid and invalid settings for sending back on the reception status screen;
In the receiver, the reception status screen sending back means includes a step of operating only when sending back of the reception status screen is valid .

  According to the present invention, the receiver returns a reception status screen signal indicating the reception state of the signal from the transmitter to the transmitter, and the reception status screen signal is reproduced at the transmitter. By displaying a screen based on the reproduction signal in the transmitter, the transmission-side operator can recognize the state of the transmission path (reception state) from the display screen. Therefore, the transmission side operator can easily and accurately adjust the transmitter.

  Next, embodiments of the present invention will be described with reference to the drawings.

(First embodiment)
FIG. 1 is a block diagram showing a configuration of an FPU relay system according to the first embodiment of the present invention. The FPU relay system includes a receiver 100 installed in a base station and a transmitter 200 mounted on a moving body such as a relay vehicle. A plurality of transmission channels (for example, four channels having different frequency bands) are used for wireless communication between the receiver 100 and the transmitter 200.

  FIG. 2 is a block diagram illustrating a configuration of the transmitter 200. Referring to FIG. 2, a transmitter 200 includes a modulation unit 11, a TMCC (Transmission and Multiplexing Configuration Control) generation unit 2, a frequency conversion unit 3, a power amplification unit 4, a reception CH filter unit 5, a symbol synchronization unit 6, and a demodulation unit. 7

  The TMCC generation unit 2 generates a TMCC signal related to transmission control of a modulated wave. The TMCC signal includes control information related to transmission control (including information on modulation schemes and transmission parameters), and the control information is stored as bit information.

  The modulation unit 11 is supplied with a video signal and an audio signal, which are wireless materials, through the main line, and is also supplied with a TMCC signal from the TMCC generation unit 2. The modulation unit 11 maps the signal supplied through the main line and the TMCC signal from the TMCC generation unit 2. The mapping is a carrier modulation mapping that converts a binary digital signal into a symbol according to a certain procedure. The modulation unit 11 maps the phase and the magnitude of the amplitude for each carrier wave with respect to the symbol to be transmitted. The frequency of the modulation signal from the modulation unit 11 is, for example, 130 MHz.

  The frequency conversion unit 3 up-converts (frequency converts) the modulation signal from the modulation unit 11 into an RF signal in the frequency band of the transmission channel. The transmission channel is arbitrarily selected from a plurality of channels. The power amplifier 4 amplifies the RF signal from the frequency converter 3. The output signal of the power amplifier 4 is transmitted from an antenna (not shown).

  The reception CH filter unit 5 receives a return signal from the receiver 100 via an antenna, and converts the received RF signal into, for example, a 130 MHz IF signal. The return signal (IF signal) from the reception CH filter unit 5 is supplied to the demodulation unit 7 via the symbol synchronization unit 6. The symbol synchronization unit 6 detects a symbol synchronization timing necessary for demodulating a return signal (IF signal) that is a modulation signal from the reception CH filter unit 5. Based on the symbol synchronization timing detected by the symbol synchronization unit 6, the demodulation unit 7 demodulates the data portion of the return signal (IF signal) and reproduces the reception status screen signal. The reception status screen signal is supplied to display means (not shown).

  FIG. 3 is a block diagram illustrating a configuration of the receiver 100. Referring to FIG. 3, the receiver 100 includes a reception CH filter unit 9, a symbol synchronization unit 10, a demodulation unit 11, an input electric field detection unit 12, a MER (Mapping Error Rate) / constellation generation unit 13, a BER (Bit Error Rate). ) A calculation unit 14, a reception status screen generation unit 15, a modulation unit 16, a frequency conversion unit 17, and a power amplification unit 18 are included.

  The reception CH filter unit 9 receives the modulated signal from the transmitter 200 via an antenna (not shown), and converts the received RF signal into, for example, a 130 MHz IF signal. The output signal (modulated signal) of the reception CH filter unit 5 is supplied to the input electric field detection unit 12 and is also supplied to each of the demodulation unit 11 and the MER / constellation generation unit 13 via the symbol synchronization unit 10.

  The symbol synchronization unit 10 detects a symbol synchronization timing necessary for demodulating the modulation signal (IF signal) from the reception CH filter unit 9. Based on the symbol synchronization timing detected by the symbol synchronizer 10, the demodulator 11 demodulates the data portion (video signal and audio signal) of the modulated signal to reproduce the original video signal and audio signal. The reproduction signal is supplied to the external device along the main line and is also supplied to the BER calculation unit 14.

  The MER / constellation generation unit 13 demodulates the data portion (TMCC signal) of the modulation signal based on the symbol synchronization timing detected by the symbol synchronization unit 10 to generate MER and constellation. Specifically, the MER / constellation generation unit 13 performs quadrature demodulation on the modulation signal to extract the signals on the I axis and the Q axis, and generates a constellation based on the amplitude of the signal on each axis. The MER / constellation generation unit 13 calculates the MER by calculating the log logarithm of the distance from the point where the amplitude of the signal of each axis is mapped by the transmitter 200. The MER and constellation information is supplied to the reception status screen generator 15.

  The input electric field detector 12 detects the input electric field (reception level) by detecting the modulation signal (IF signal) from the reception CH filter unit 9. The detected value of the input electric field is supplied to the reception status screen generation unit 15.

  The BER calculator 14 receives the signals (video signal and audio signal) demodulated by the demodulator 11 and calculates a BER based on the input signal. Specifically, the BER calculation unit 14 calculates the BER by calculating the number of bits corrected by Reed-Solomon decoding used for the outer code. The calculated BER is supplied to the reception status screen generation unit 15.

  The reception status screen generation unit 15 displays the input electric field detection value from the input electric field detection unit 12, the MER and constellation from the MER / constellation generation unit 13, and the BER from the BER calculation unit 14 on one screen. Generate a reception status screen signal for display. The reception status screen signal is supplied to a display unit (not shown) and the modulation unit 16. A constellation is a collection of received signal points developed on two-dimensional coordinates composed of an I axis and a Q axis. The reception status screen has an area for displaying the collection of reception signal points and an area for displaying the input electric field detection value, MER, and BER values.

  The modulation unit 16 maps the reception status screen signal from the reception status screen generation unit 15. The mapping is the carrier modulation mapping described above. The frequency conversion unit 17 up-converts (frequency converts) the modulation signal (IF signal) from the modulation unit 16 into an RF signal in the frequency band of the transmission channel. This transmission channel is different from the transmission channel up-converted by the frequency converter 3 of the transmitter 200. The power amplifier 18 amplifies the RF signal from the frequency converter 17. The output signal of the power amplifier 18 is transmitted as a return signal from an antenna (not shown).

  Next, an operation for presenting a reception status screen in the FPU relay system of this embodiment will be described. FIG. 4 shows a procedure of the operation.

  When the operator performs a predetermined input operation for performing operation adjustment at the operation unit of the transmitter 200, the TMCC generation unit 2 receives the input operation and based on the transmission parameters given in advance. A TMCC signal is generated (step S10). Then, the modulation unit 11 maps the TMCC signal and the signal supplied from the main line (step S11).

  Next, the frequency converter 3 up-converts the modulated signal from the modulator 11 into an RF signal in the frequency band of the transmission channel CH1 (step S12). The up-converted modulated signal is amplified by the power amplifier 4 and transmitted from the antenna.

  The modulated signal transmitted from the transmitter 200 is received by the receiver 100. In the receiver 100, the reception CH filter unit 9 converts (down-converts) the received RF signal into an IF signal (step S13). The IF signal (modulation signal) is supplied to the input electric field detection unit 12 and is also supplied to the demodulation unit 11 and the MER / constellation generation unit 13 via the symbol synchronization unit 10.

  Next, the demodulation unit 11 demodulates the modulation signal from the reception CH filter unit 9 to reproduce the original video signal and audio signal. Furthermore, the transmission parameter acquisition means including the input electric field detection unit 12, the MER / constellation generation unit 13, and the BER calculation unit 14 acquires transmission parameters including the input electric field, MER, constellation, and BER (step S14).

  Next, the reception status screen generation unit 15 generates a reception status screen signal for displaying the transmission parameter acquired in step S14 (step S15). Further, the modulation unit 16 maps the reception status screen signal from the reception status screen generation unit 15 (step S15). Then, the frequency conversion unit 17 up-converts (frequency conversion) the modulation signal (IF signal) from the modulation unit 16 into an RF signal in the frequency band of the transmission channel CH2 (step S16). The up-converted modulated signal is amplified by the power amplifier 18 and transmitted as a return signal from the antenna.

  The return signal (modulated signal) transmitted from the receiver 100 is received by the transmitter 200. In the transmitter 200, the reception CH filter unit 5 converts (down-converts) the received RF signal into an IF signal (step S18). The reception CH filter unit 9 supplies the converted IF signal (modulated signal) to the demodulation unit 11 via the symbol synchronization unit 6.

  Finally, the demodulator 7 demodulates the modulation signal from the reception CH filter unit 5 to reproduce the original reception status screen signal (step S19).

  According to the above-described procedure, in the receiver 100, the screen on the basis of the reception status screen signal generated by the reception status screen generation unit 15 is displayed on the display means. The state of can be confirmed.

  Further, in the transmitter 200, the screen on the basis of the reception status screen signal supplied as a return signal from the receiver 100 is displayed on the display means, so that the transmission side operator can confirm the state of the transmission path from the display screen. can do. The reception status screens displayed on the receiver 100 and the transmitter 200 have the same contents. An operator on the transmission side and an operator on the reception side can easily set the receiver 100 and the transmitter 200 to an optimum state with reference to the contents of the reception status screen.

(Second Embodiment)
Operation adjustment is performed only when the environment of the transmission path changes greatly due to a change in the relay destination. Therefore, the reception status screen may be sent back only at the time of operation adjustment, and it is not always necessary to perform it.

  The parts related to sending back of the reception status screen are the reception CH filter unit 5, symbol synchronization unit 6 and demodulation unit 7 of the transmitter 200 shown in FIG. 2, and the modulation unit 16 and frequency conversion unit of the receiver 100 shown in FIG. 17 and the power amplifier 18. It is possible to reduce the power consumption of the receiver 100 and the transmitter 200 by operating the part related to sending back of the reception status screen only at the time of operation adjustment. Here, as a second embodiment of the present invention, an FPU relay system capable of controlling a part related to sending back of such a reception status screen will be described.

  The FPU relay system according to the present embodiment has the same configuration as that of the first embodiment except that a part of the receiver 100 and the transmitter 200 are different.

  FIG. 5 is a block diagram showing the configuration of the transmitter 200 of the FPU relay system of this embodiment. Referring to FIG. 5, the transmitter 200 includes a sending back control unit 8 in addition to the configuration shown in FIG. 2. The TMCC signal includes control information related to transmission control (including information on modulation schemes and transmission parameters), and the control information is stored as bit information. Here, flag information (bit information) indicating validity / invalidity of the send back function of the reception status screen is further stored in the TMCC signal as control information.

  When an input operation for enabling the send back function of the reception status screen is performed by an operation unit (not shown), the send back control unit 8 receives the reception CH filter unit 5 and the symbol synchronization unit 6 according to the input operation. In addition, the demodulator 7 is operated, and a flag control signal indicating that the flag information is “valid” is supplied to the TMCC generator 2. Further, when an input operation for invalidating the sending back function of the reception status screen is performed on the operation unit, the sending back control unit 8 responds to the input operation with the receiving CH filter unit 5, the symbol synchronization unit 6, The demodulator 7 is stopped, and a flag control signal indicating that the flag information is “invalid” is supplied to the TMCC generator 2.

  The TMCC generation unit 2 generates a TMCC signal and sets “valid” and “invalid” of flag information in the TMCC in accordance with the flag control signal from the return control unit 8. Specifically, when receiving a flag control signal indicating that the flag information is “valid” from the sending back control unit 8, the TMCC generation unit 2 generates a TMCC signal having the flag information in the TMCC as “valid”. Further, when receiving a flag control signal indicating that the flag information is “invalid” from the sending back control unit 8, the TMCC generation unit 2 generates a TMCC signal in which the flag information in the TMCC is “invalid”.

  FIG. 6 is a block diagram illustrating a configuration of the receiver 100 of the FPU relay system according to this embodiment. Referring to FIG. 6, receiver 100 includes a TMCC demodulator 19 and a send back controller 20 in addition to the configuration shown in FIG. 2. The output signal (modulated signal) of the reception CH filter unit 5 is supplied to the input electric field detection unit 12, and each of the demodulation unit 11, the MER / constellation generation unit 13, and the TMCC demodulation unit 19 through the symbol synchronization unit 10. To be supplied.

  The TMCC demodulation unit 19 demodulates (reproduces) the data portion (TMCC signal) of the modulation signal based on the symbol synchronization timing detected by the symbol synchronization unit 10. The demodulated TMCC signal is supplied to the sending back control unit 20.

  The sending back control unit 20 checks the flag information of the TMCC signal from the TMCC demodulating unit 19. When the flag information is “valid”, the return control unit 20 operates the modulation unit 16, the frequency conversion unit 17, and the power amplification unit 18. When the flag information is “invalid”, the sending back control unit 20 stops the modulation unit 16, the frequency conversion unit 17, and the power amplification unit 18.

  In the FPU relay system of this embodiment, the operator on the transmission side performs an input operation for enabling the send back function of the reception status screen on the operation unit of the transmitter 200 during operation adjustment. By this input operation, in the transmitter 200, the reception CH filter unit 5, the symbol synchronization unit 6, and the demodulation unit 7 operate, and the TMCC generation unit 2 generates a TMCC signal with flag information in the TMCC set to “valid”. To do. Further, the modulation unit 1 maps the signal from the main line and the TMCC signal generated by the TMCC generation unit 2, and the frequency conversion unit 3 upconverts the modulation signal from the modulation unit 11. Then, the RF signal from the frequency conversion unit 3 is amplified by the power amplification unit 4, and the amplified RF signal is transmitted from the antenna.

  The RF signal from the transmitter 100 is received by the receiver 100. In the receiver 100, the reception CH filter unit 9 converts the received RF signal into an IF signal. The IF signal (modulation signal) is supplied to the input electric field detection unit 12 and is also supplied to each of the demodulation unit 11, the MER / constellation generation unit 13, and the TMCC demodulation unit 19 via the symbol synchronization unit 10.

  The demodulator 11 demodulates the modulation signal from the reception CH filter unit 9 to reproduce the original video signal and audio signal. Further, a transmission parameter acquisition unit including the input electric field detection unit 12, the MER / constellation generation unit 13, and the BER calculation unit 14 acquires transmission parameters including the input electric field, MER, constellation, and BER. Then, the reception status screen generation unit 15 generates a reception status screen signal for displaying the acquired transmission parameter.

  Further, the TMCC demodulator 19 demodulates the modulation signal from the reception CH filter unit 9 to reproduce the TMCC signal. Then, the return controller 20 checks the flag information of the TMCC signal from the TMCC demodulator 19. Since the flag information in this case is “valid”, the return control unit 20 operates the modulation unit 16, the frequency conversion unit 17, and the power amplification unit 18. Thereafter, the receiver 100 performs steps S16 and S17 shown in FIG. 4, and the transmitter 200 performs steps S18 and S19 shown in FIG.

  When the operation adjustment is completed, the transmission-side operator performs an input operation for invalidating the send-back function of the reception status screen on the operation unit of the transmitter 200. By this input operation, in the transmitter 200, the reception CH filter unit 5, the symbol synchronization unit 6, and the demodulation unit 7 are stopped, and the TMCC generation unit 2 generates a TMCC signal in which the flag information in the TMCC is “invalid”. To do. Further, the modulation unit 1 maps the signal from the main line and the TMCC signal generated by the TMCC generation unit 2, and the frequency conversion unit 3 upconverts the modulation signal from the modulation unit 11. Then, the RF signal from the frequency conversion unit 3 is amplified by the power amplification unit 4, and the amplified RF signal is transmitted from the antenna.

  The RF signal from the transmitter 100 is received by the receiver 100. In the receiver 100, the reception CH filter unit 9 converts the received RF signal into an IF signal. The IF signal (modulation signal) is supplied to the input electric field detection unit 12 and is also supplied to each of the demodulation unit 11, the MER / constellation generation unit 13, and the TMCC demodulation unit 19 via the symbol synchronization unit 10.

  The demodulator 11 demodulates the modulation signal from the reception CH filter unit 9 to reproduce the original video signal and audio signal. Further, a transmission parameter acquisition unit including the input electric field detection unit 12, the MER / constellation generation unit 13, and the BER calculation unit 14 acquires transmission parameters including the input electric field, MER, constellation, and BER. Then, the reception status screen generation unit 15 generates a reception status screen signal for displaying the acquired transmission parameter.

  Further, the TMCC demodulator 19 demodulates the modulation signal from the reception CH filter unit 9 to reproduce the TMCC signal. Then, the return controller 20 checks the flag information of the TMCC signal from the TMCC demodulator 19. Since the flag information in this case is “invalid”, the sending back control unit 20 stops the modulation unit 16, the frequency conversion unit 17, and the power amplification unit 18. Thereafter, the receiver 100 does not send back the reception status screen.

  Also in the FPU relay system of this embodiment, as in the case of the first embodiment, in both the receiver 100 and the transmitter 200, a screen based on the reception status screen signal generated by the reception status screen generation unit 15 is displayed. To display. Therefore, an operator on the transmission side and an operator on the reception side can easily set the receiver 100 and the transmitter 200 to an optimal state with reference to the contents of the reception status screen.

  Further, the modulation unit 16, the frequency conversion unit 17, and the power amplification unit 18 of the receiver 100, and the reception CH filter unit 5, the symbol synchronization unit 6, and the demodulation unit 7 of the transmitter 200 are used during operation adjustment (return of the reception status screen). The power consumption of the receiver 100 and the transmitter 200 can be reduced accordingly.

  The FPU relay system of each embodiment described above is an example of the present invention, and the configuration and operation thereof can be changed as appropriate.

  According to one aspect of the present invention, an FPU relay system includes a receiver and a transmitter that performs wireless communication with the receiver. The receiver includes a reception status screen generation unit that generates a reception status screen signal for displaying information indicating a reception state of a signal from the transmitter, and the reception status screen signal generated by the reception status screen generation unit. Receiving status screen sending means for sending to the transmitter. The transmitter has reproduction means for reproducing the reception status screen signal from the receiver. Here, the transmitter and the receiver correspond to the transmitter and the receiver in the FPU relay system according to the first or second embodiment. The reproduction means corresponds to the reception CH filter unit 5, the symbol synchronization unit 6, and the demodulation unit 7 shown in FIG. The reception status screen sending back unit corresponds to the modulation unit 16, the frequency conversion unit 17, and the power amplification unit 18 shown in FIG.

  According to the above configuration, the receiver returns a reception status screen signal indicating the reception state of the signal from the transmitter to the transmitter, and the reception status screen signal is reproduced by the transmitter. By displaying a screen based on the reproduction signal in the transmitter, the transmission-side operator can recognize the state of the transmission path (reception state) from the display screen. Therefore, the transmission side operator can easily and accurately adjust the transmitter.

  In the above FPU relay system, when an input operation for validating the sending back of the reception status screen is performed on the operation unit and the operation unit, the transmitter operates the reproducing unit according to the input operation. The operation unit may further include a first sending back control unit that stops the reproducing unit in response to an input operation for invalidating sending back of the reception status screen. . Here, the first return control unit corresponds to the return control unit 8 shown in FIG. According to this configuration, since the reproducing unit is operated only when the sending back of the reception status screen is enabled, the power consumption of the transmitter can be reduced.

  In the FPU relay system, the transmitter includes a TMCC signal generation unit that generates a TMCC signal that stores control information related to transmission control in wireless communication, and the TMCC signal generated by the TMCC signal generation unit and an external source Each of the input radio material signals is modulated, the modulated signal is frequency-converted and transmitted through the first channel, and the first sending back control unit is configured to enable sending back on the reception status screen and A TMCC signal including flag information indicating an invalid setting state as control information may be generated by the TMCC signal generation unit.

  Further, in the above FPU relay system, the receiver demodulates the TMCC signal among the modulation signals from the transmitter, and flag information included in the TMCC signal demodulated by the TMCC demodulation unit. If the flag information indicates that the return of the reception status screen is valid, the reception status screen is sent back. If the flag information indicates that the return of the reception status screen is invalid, the reception status screen is returned. You may further have the 2nd sending back control part to stop. Here, the TMCC demodulation unit and the second return control unit correspond to the TMCC modulation unit 19 and the return control unit 20 shown in FIG. According to this configuration, the reception status screen sending back means is operated only when sending back of the reception status screen is enabled at the transmitter, so that the power consumption of the receiver can be reduced.

  Further, in the above FPU relay system, the reception status screen sending back means modulates the reception status screen signal generated by the reception status screen generation unit, and the modulation signal for the modulation signal from the modulation unit. You may have a frequency conversion part which performs frequency conversion for transmitting in the 2nd channel whose frequency band differs from the 1st channel, and a power amplification part which amplifies the modulation signal frequency-converted in the frequency conversion part .

  Further, in the above FPU relay system, the information indicating the reception state is based on the input electric field value of the modulated signal from the transmitter and the amplitudes of the I-axis and Q-axis signals obtained by orthogonal demodulation of the modulated signal. A modulation error ratio and a constellation that are generated, and a code error rate calculated based on a signal obtained by demodulating the modulation signal may be included.

It is a block diagram which shows the structure of the FPU relay system which is the 1st Embodiment of this invention. It is a block diagram which shows the structure of the transmitter of the FPU relay system shown in FIG. It is a block diagram which shows the structure of the receiver of the FPU relay system shown in FIG. It is a figure for demonstrating one procedure of the reception status screen presentation operation | movement in the FPU relay system shown in FIG. It is a block diagram which shows the structure of the transmitter of the FPU relay system of the 2nd Embodiment of this invention. It is a block diagram which shows the structure of the receiver of the FPU relay system of the 2nd Embodiment of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1,16 Modulation part 2 TMCC generation part 3, 17 Frequency conversion part 4, 18 Power amplification part 5, 9 Reception CH filter part 6, 10 Symbol synchronization part 7, 11 Demodulation part 12 Input electric field detection part 13 MER / constellation generation Unit 14 BER calculation unit 15 reception status screen generation unit

Claims (10)

An FPU relay system having a receiver and a transmitter that performs wireless communication with the receiver,
The receiver
A reception status screen generating unit for generating a reception status screen signal for displaying information indicating a reception state of a signal from the transmitter;
A reception status screen sending means for sending the reception status screen signal generated by the reception status screen generation unit to the transmitter;
The transmitter is
Reproducing means for reproducing the reception status screen signal from the receiver ;
An operation unit;
When an input operation for validating the return of the reception status screen is performed in the operation unit, the playback unit is activated in response to the input operation, and the operation unit sends back the reception status screen. When an input operation for invalidation is performed, a first feed back control unit that stops the reproducing unit according to the input operation,
The first sending back control unit supplies information indicating the setting of sending back valid and invalid on the reception status screen to the receiver,
The FPU relay system , wherein the reception status screen return means operates only when the reception status screen return is valid . The transmitter includes a TMCC signal generation unit that generates a TMCC signal storing control information related to transmission control in the wireless communication, and the TMCC signal generated by the TMCC signal generation unit and a signal of a radio material input from the outside Each of which is modulated, and the modulated signal is frequency-converted and transmitted on the first channel,
Said first sent back control unit to generate a TMCC signal including the flag information indicating enabling and disabling of the setting state of sending back of the reception status screen as the control information in the TMCC signal generator, according to claim 1 FPU relay system. The receiver
A TMCC demodulator for demodulating the TMCC signal of the modulated signal from the transmitter;
The flag information included in the TMCC signal demodulated by the TMCC demodulator is checked, and if the flag information indicates that the reception status screen is being sent back, the reception status screen sending back means is operated, and the flag The FPU relay system according to claim 2 , further comprising: a second sending back control unit that stops the receiving status screen sending back unit when the information indicates invalidity of sending back the receiving status screen. The reception status screen sending back means
A modulation unit that modulates the reception status screen signal generated by the reception status screen generation unit;
A frequency conversion unit that performs frequency conversion on the modulation signal from the modulation unit to transmit the modulation signal on a second channel having a frequency band different from the first channel;
The FPU relay system according to claim 3 , further comprising: a power amplifying unit that amplifies the modulation signal frequency-converted by the frequency converting unit. The information indicating the reception state is generated based on the input electric field value of the modulation signal from the transmitter and the amplitude of the I-axis and Q-axis signals obtained by orthogonal demodulation of the modulation signal. and con including static and configuration, the code error rate is calculated based on the signal obtained by demodulating a modulation signal, FPU relay system according to any one of claims 1 to 4. A movable transmitter that forms an FPU relay system together with a receiver ,
A wireless transmitter that modulates a signal of a wireless material and transmits the modulated signal to the receiver;
Receiving means for receiving a reception status screen signal for displaying information indicating a reception state of a signal from the transmitter from the receiver, and reproducing the reception status screen signal ;
An operation unit;
When an input operation for validating the return of the reception status screen is performed in the operation unit, the playback unit is activated in response to the input operation, and the operation unit sends back the reception status screen. When an input operation for invalidation is performed, a first feed back control unit that stops the reproducing unit according to the input operation,
The first sending back control unit supplies information indicating the setting of sending back valid and invalid on the reception status screen to the receiver . The wireless transmission unit includes a TMCC signal generation unit that generates a TMCC signal storing control information related to transmission control in the wireless communication, and the TMCC signal generated by the TMCC signal generation unit and a wireless material input from the outside Each of the signals is modulated, and the modulated signal is frequency-converted and transmitted on the first channel,
Said first sent back control unit to generate a TMCC signal including the flag information indicating enabling and disabling of the setting state of sending back of the reception status screen as the control information in the TMCC signal generator, according to claim 6 Transmitter. A receiver that constitutes an FPU relay system together with a transmitter and receives a wireless material signal from the transmitter by wireless communication,
A reception status screen generating unit for generating a reception status screen signal for displaying information indicating a reception state of a signal from the transmitter;
A reception status screen sending back means for sending the reception status screen signal generated by the reception status screen generation unit to the transmitter ;
As control information related to transmission control in the wireless communication, a receiving unit for receiving a TMCC signal including flag information indicating valid and invalid setting states of sending back of the reception status screen in the transmitter;
A TMCC demodulator that demodulates the TMCC signal received by the receiver;
The flag information included in the TMCC signal demodulated by the TMCC demodulator is checked, and if the flag information indicates that the reception status screen is being sent back, the reception status screen sending back means is operated, and the flag A receiver having a return control unit for stopping the reception status screen return means when the information indicates invalidity of the return of the reception status screen . The reception status screen sending back means
A modulation unit that modulates the reception status screen signal generated by the reception status screen generation unit;
A frequency conversion unit that performs frequency conversion on the modulation signal from the modulation unit to transmit the modulation signal in a channel whose frequency band is different from the channel that received the signal from the transmitter;
The receiver according to claim 8 , further comprising a power amplifying unit that amplifies the modulated signal frequency-converted by the frequency converting unit. A reception status screen presentation method performed in an FPU relay system having a receiver and a transmitter that performs wireless communication with the receiver,
In the receiver , a reception status screen generation unit generates a reception status screen signal for displaying information indicating a reception state of a signal from the transmitter, and a reception status screen sending back means outputs the reception status screen signal. Transmitting to the transmitter;
In the transmitter, reproducing means, viewed contains a step of reproducing the received status screen signal from the receiver,
further,
In the transmitter, when an input operation for validating the sending back of the reception status screen is performed by the sending back control unit, the reproducing means is operated and an input operation for invalidating the sending back of the receiving status screen is performed. Stopping the playback means and supplying the receiver with information indicating valid and invalid settings for sending back on the reception status screen;
In the receiver, the reception status screen sending back means includes a step of operating only when sending back of the reception status screen is valid .

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