JP2021022852A - Rebroadcasting system and rebroadcasting device - Google Patents

Abstract

To provide a rebroadcasting system that prevents deterioration in sound quality.SOLUTION: According to an embodiment, a rebroadcasting system comprises: a first rebroadcasting device for rebroadcasting a received broadcast radio wave to a first provision area; and a second rebroadcasting device for expanding a second provision area. The first rebroadcasting device comprises an extraction unit, a generation unit, and a transfer unit. The extraction unit extracts a reference signal of a carrier of the broadcast radio wave, from a modulation signal to be transmitted to the first provision area. The generation unit generates a transfer signal having a frequency lower than that of the reference signal, from the reference signal. The transfer unit transmits the transfer signal to the second rebroadcasting device through a transmission path. The second rebroadcasting device comprises a reception unit, a modulation unit, and a transmission unit. The reception unit receives the transfer signal transferred through the transmission path. The modulation unit takes the received transfer signal as a reference signal to generate a broadcast signal to be transmitted to the second provision area. The transmission unit transmits the broadcast signal to the second provision area.SELECTED DRAWING: Figure 3

Description

Embodiments of the present invention relate to rebroadcasting systems and rebroadcasting devices.

A rebroadcasting system that receives public radio broadcasts and rebroadcasts them in a radio wave dead area such as in a tunnel is known. If this system is installed, the driver can listen to the car radio even in the tunnel. In addition, in the event of an emergency such as an accident or fire, an emergency interrupt broadcast will be started, and the driver will be able to receive fire information and evacuation guidance instructions on the same channel. Rather, this is the original purpose of the tunnel radio rebroadcast.

Japanese Unexamined Patent Publication No. 11-346182 Japanese Unexamined Patent Publication No. 2001-308765 Japanese Unexamined Patent Publication No. 2001-223627

In recent years, tunnels spanning several kilometers to a dozen kilometers have been constructed. Since it is difficult to cover the entire such a long tunnel with one device, measures are taken to install a plurality of radio rebroadcasting devices at a plurality of locations. However, there are individual differences in the devices, and it is difficult to eliminate minute deviations in the transmission frequency. As a result, intense noise is generated at the boundary of the broadcasting area of the rebroadcasting device, and there is a risk that the broadcast audio cannot be heard. In particular, if it is located at the boundary of the area during an accident traffic jam, it may not be possible to listen to the essential emergency broadcast, which is extremely dangerous.

Therefore, an object of the present invention is to provide a rebroadcasting system and a rebroadcasting apparatus that prevent deterioration of sound quality.

According to the embodiment, the rebroadcast system is connected to a first rebroadcast device that rebroadcasts the received broadcast radio wave to the first service area and a first rebroadcast device via a transmission line, and a second. It is equipped with a second rebroadcasting device that expands the service area of. The first rebroadcasting apparatus includes an extraction unit, a generation unit, and a transmission unit. The extraction unit extracts a reference signal of the carrier wave of the broadcast radio wave from the modulated signal transmitted to the first providing area. The generation unit generates a transmission signal having a frequency lower than that of the reference signal from the reference signal. The transmission unit transmits the transmission signal to the second rebroadcasting device via the transmission line. The second rebroadcasting device includes a receiving unit, a modulation unit, and a transmitting unit. The receiving unit receives the transmission signal transmitted via the transmission line. The modulation unit generates a broadcast signal to be transmitted to the second service area using the received transmission signal as a reference signal. The transmitter broadcasts the broadcast signal to the second service area.

Diagram for explaining a basic radio rebroadcast system. The figure which shows an example of the system which includes a plurality of radio rebroadcasting apparatus. The figure which shows an example of the radio rebroadcasting system which concerns on embodiment. The figure which shows another example of the radio rebroadcasting system which concerns on embodiment.

FIG. 1 is a diagram for explaining a basic radio rebroadcast system. In FIG. 1, broadcast radio waves of AM broadcasting and / or FM broadcasting are captured by the radio receiving device 10 and sent to the switching device 20. The switching device 20 normally connects the broadcast radio wave to the radio rebroadcasting device 30. The radio rebroadcasting device 30 amplifies the broadcast radio waves and broadcasts each broadcast radio wave of AM broadcast and FM broadcast from the guide line 40 in the tunnel and the leaky coaxial cable 50. As a result, the driver of the vehicle 60 can enjoy music and the like by radio broadcasting. Here, the band of the broadcast radio wave may include the frequency band of V-Low multimedia.

On the other hand, a broadcast signal from, for example, a broadcast desk 70 of a remote broadcast studio is also connected to the switching device 20. In an emergency, for example, under the control of the broadcasting table 70, the broadcasting signal from the broadcasting table 70 is switched and connected to the radio rebroadcasting device 30. As a result, an interrupted broadcast is broadcast on each AM and FM broadcast wave, and a voice such as "A fire has occurred. Please stop the car and evacuate." Is played from the car radio.

FIG. 2 is a diagram showing an example of a system including a plurality of radio rebroadcasting devices. The radio rebroadcasting devices 30A and 30B are installed at different locations in the tunnel, and each service area is expanded. The induction wire 40 and the leaky coaxial cable 50 that radiate radio waves are provided in an independent system for each radio rebroadcasting device at each location.

At the boundary of the service area, the car radio of the vehicle 60 will receive radio waves from both the radio rebroadcasting devices 30A and 30B. However, due to individual differences between the radio rebroadcasting devices 30A and 30B, a slight deviation occurs in the output frequencies of the two radio rebroadcasting devices 30A and 30B. The frequency of the reference signal is f0, and the frequency error Δf1 of the radio rebroadcasting device 30A and the frequency error Δf2 of the radio rebroadcasting device 30B with respect to the reference signal f0 are slightly deviated. Therefore, in the vehicle 60, a frequency error (Δf1-Δf2) occurs. When two waves with different frequencies are received, if the deviation is small, the noise becomes more intense, and the quality of the sound demodulated by the car radio is greatly deteriorated.

If the sound quality of the radio rebroadcast is poor, the evaluation of the service itself will decline, and the driver's viewing consciousness will be reduced, and there is a risk that more drivers will turn off the radio in the tunnel. In that case, the necessary information cannot be provided in an emergency, and the original significance of the radio rebroadcast in the tunnel is impaired. Not only that, there is a concern that the opportunity to save lives will be lost and the damage will spread. Next, a technique capable of solving this kind of defect will be described.

FIG. 3 is a diagram showing an example of a radio rebroadcast system according to the embodiment. The system shown in FIG. 3 includes a radio rebroadcasting device 300A and a radio rebroadcasting device 300B. The radio rebroadcasting device 300A and the radio rebroadcasting device 300B each develop their own service areas.

Here, the radio rebroadcasting device 300B is connected to the radio rebroadcasting device 300A as a master device via a transmission line 400. As the transmission line 400, for example, a metal cable or an optical cable can be applied. Further, a network using a VoIP (Voice over IP) device may be used.

In the radio rebroadcasting apparatus 300A, the modulation signal 31 transmitted to the providing area is input to the mixer 32 as the extraction unit. The mixer 32 extracts the reference signal 33 of the carrier wave of the broadcast radio wave and inputs it to the generation unit 34. The generation unit 34 generates an audio signal from the reference signal 33 and inputs it to the transmission device 35 as a transmission signal. The transmission device 35 transmits this transmission signal to the radio rebroadcasting device 300B via the transmission line 400. Here, the transmission signal can be used as long as it is a signal having a frequency lower than that of the reference signal 33, but it is preferably a low frequency signal including the voice band. Further, a signal (sine curve or the like) having a small amount of harmonic components and mainly composed of fundamental wave components is more preferable.

The transmission signal transmitted via the transmission line 400 is received by the transmission device 36 of the radio rebroadcasting device 300B, and the audio signal 37 is reproduced. The audio signal 37 is input to the mixer 310 as a reference signal 38 and mixed with the modulation signal 39 to generate a broadcast signal. This broadcast signal is broadcast to the service area of the radio rebroadcast device 300B.

The transmission devices 35 and 36 may have any form as long as they can transmit audio signals according to the form of the transmission line 400. For example, if the transmission line 400 is an optical fiber, the transmission devices 35 and 36 are provided with a function of optical / electrical conversion of an audio signal. If the transmission line 400 is a VoIP network, the transmission devices 35 and 36 are provided with a function of converting voice signals into data and encoding them into IP (Internet Protocol) packets.

As described above, in this embodiment, a plurality of radio rebroadcasting devices 300A and 300B are connected by a transmission line 400, and a common audio signal is transmitted from the master radio rebroadcasting device 300A via the transmission line 400 to the other side. It is transmitted to the (slave) radio rebroadcasting device 300B. Then, in the radio rebroadcasting devices 300A and 300B, a common audio signal is used as a reference signal for modulation to create a transmission signal. As a result, even if the frequency shift occurs, the frequency error Δf1 becomes the same value in the plurality of radio rebroadcasting devices 300A and 300B.

As a result, even if two waves are simultaneously received at the area boundary of the first and second provided sections, the sound quality does not deteriorate due to the frequency shift because the frequencies are the same. Therefore, according to the embodiment, it is possible to provide a rebroadcasting system and a rebroadcasting apparatus that prevent deterioration of sound quality.

The present invention is not limited to the above embodiment. For example, the number of radio rebroadcasting devices installed in a tunnel is not limited to two. As shown in FIG. 4, it is also possible to further add the radio rebroadcasting devices 300C and 300D from the form of FIG. An audio signal is directly transmitted to the radio rebroadcasting device 300C from the transmission device 35 of the radio rebroadcasting device 300A. For the radio rebroadcasting device 300D, the audio signal can be distributed from the line branched from the transmission line 400. Further, the transmission line 400 can be branched into a plurality of transmission lines, and more radio rebroadcasting devices can be cascaded. As described above, the radio rebroadcast system of the embodiment can be expanded by distributing a common audio signal to a plurality of radio rebroadcasting devices.

Although embodiments of the present invention have been described, these embodiments are presented as examples and are not intended to limit the scope of the invention. This novel embodiment can be implemented in various other embodiments, and various omissions, replacements, and changes can be made without departing from the gist of the invention. This embodiment and its modifications are included in the scope and gist of the invention, and are also included in the scope of the invention described in the claims and the equivalent scope thereof.

10 ... Radio receiver, 20 ... Switching device, 30 ... Radio rebroadcasting device, 30A, 30B ... Radio rebroadcasting device, 31 ... Modulation signal, 32 ... Mixer, 33 ... Reference signal, 34 ... Generator, 35 ... Transmission device , 36 ... Transmission device, 37 ... Audio signal, 38 ... Reference signal, 39 ... Modulation signal, 40 ... Induction line, 50 ... Leakage coaxial cable, 60 ... Vehicle, 70 ... Broadcasting desk, 300A-300D ... Radio rebroadcasting device, 310 ... mixer, 400 ... transmission line.

Claims (5)

A first rebroadcasting device that rebroadcasts the received broadcast radio waves to the first providing area,
It is provided with a second rebroadcasting device which is connected to the first rebroadcasting device via a transmission line and develops a second providing area.
The first rebroadcasting device is
An extraction unit that extracts a reference signal of the carrier wave of the broadcast radio wave from the modulated signal transmitted to the first providing area, and
A generator that generates a transmission signal having a frequency lower than that of the reference signal from the reference signal,
It includes a transmission unit that transmits the transmission signal to the second rebroadcasting apparatus via the transmission line.
The second rebroadcasting device is
A receiving unit that receives the transmission signal transmitted via the transmission line, and
A modulation unit that generates a broadcast signal to be transmitted to the second providing area using the received transmission signal as a reference signal.
A rebroadcast system including a transmission unit that broadcasts the broadcast signal to the second service area. The rebroadcast system according to claim 1, wherein the transmission signal is a signal in an audio band. The rebroadcast system according to claim 1, wherein the transmission signal is provided in a different band for each channel of the broadcast radio wave. In a rebroadcasting device that rebroadcasts the received broadcast radio waves to the service area
An extraction unit that extracts a reference signal of the carrier wave of the broadcast radio wave from the modulated signal transmitted to the provided area, and
A generator that generates a transmission signal having a frequency lower than that of the reference signal from the reference signal,
A rebroadcasting device including a transmission unit that transmits the transmission signal to another rebroadcasting device connected via a transmission line. In a rebroadcasting device that can be connected to a master rebroadcasting device that rebroadcasts the received broadcast radio waves to the service area via a transmission line.
A receiving unit that receives a transmission signal transmitted from the master rebroadcasting apparatus via the transmission line, and a receiving unit.
A modulation unit that uses the received transmission signal as a reference signal to generate a broadcast signal to be transmitted to a second provision area different from the provision area.
A rebroadcasting device including a transmitting unit that broadcasts the broadcasting signal to the second providing area.