JP2004260811A - Optical radio communication system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To transmit a remote control signal from an optical receiving apparatus to an optical transmitting apparatus in a simple configuration in an optical radio communication system. <P>SOLUTION: In an optical transmitting apparatus 4, a video&audio signal from a video supply part 1 is converted into an optical signal and sent, and in an optical receiving apparatus 5, the optical signal from the optical transmitting apparatus 4 is received, restored into the video&audio signal and transmitted to a video display part 2. Pilot light P for optical axis adjustment of this optical communication is transmitted from the optical receiving apparatus 5 to the optical transmitting apparatus 4. On the side of the video display part 2, a remote control signal receiving part 2a is provided for receiving a remote control signal R from a wireless remote control apparatus 17 for controlling the video supply part 1. In the optical receiving apparatus 5, the pilot light P for the optical axis adjustment is modulated and transmitted to the optical transmitting apparatus 4 by the remote control signal R received by the remote control signal receiving part 2a and in the optical transmitting apparatus 4, this remote control signal is restored and outputted to the video supply part 1. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

  The present invention relates to an optical wireless communication system for transmitting an image signal by optical wireless in a configuration in which an image supply unit and an image display unit are separated, for example.

  FIG. 4 shows a conventional separation type video display device in which a video supply unit and a video display unit are separated, and video / audio signals are transmitted from the video supply unit 1 to the video display unit 2 by a dedicated connection cable 3. As an example of a separation type video display device, in a home plasma television, at the time of purchase of the system, this connection cable is bundled with a cable having a length of about 3 m as an accessory. Things often need to be purchased separately. Also, since the diameter of the cable is about 10 mm and has elasticity, care must be taken when routing the cable.

  In the conventional separation type video display device, even if the display unit is thin and can be hung on a wall surface, a relatively thick cable must be laid on the wall surface, which may degrade the aesthetic appearance. In addition, the installation location of the video supply unit (such as a tuner) is limited by the cable, and the advantage of separating the video supply unit and the video display unit cannot be fully utilized. Radio wave radio may be used as the transmission means, but the transmission speed is limited, and it is necessary to compress the signal.

Therefore, as shown in FIG. 5 and Patent Document 1 below, an optical signal modulated in accordance with a video / audio signal is emitted from an optical transmission device 4 installed on the video supply unit 1 side as a transmission means, and this emission is performed. An optical wireless device that restores a video / audio signal by receiving and demodulating the optical signal thus received by the optical receiving device 5 provided on the video display unit 2 side is conceivable. When a laser diode is used as the light emitting means of the optical transmission device 4, high-speed transmission is possible, so that a high-vision video signal can also be transmitted without compression.
As an optical axis adjustment method of an optical wireless communication system, there is a method of using guide light (pilot light) different from light for communication, as disclosed in Patent Document 2.
JP-A-2000-22632 (FIG. 1) Patent No. 3059870

In a general television receiver in which a video supply unit and a video display unit are integrated, operations such as channel change and volume adjustment, which are operations on the video supply unit, may be performed by pointing the remote control device at the video display unit. .
On the other hand, as shown in FIG. 5, the video supply unit 1 and the video display unit 2 are separated, and the one-way transmission of the video and audio signals from the video supply unit 1 to the video display unit 2 is made wireless. In such a case, operations such as channel change and volume adjustment, which are operations on the video supply unit 2, must be performed with the remote control device directed toward the video supply unit 1, not the video display unit 2.
However, the use of the remote control device in the television receiver for the video display unit has been established for the general user, and the general user has also displayed the remote control device on the video display unit in the system shown in FIG. In many cases, the remote control device is operated toward the video display unit 2 and the remote control device is directed to the video supply unit 1 installed in a direction different from that of the video display unit 2.
In order to solve this problem, a method is conceivable in which a remote control signal receiving unit is provided on the video display unit 2 side, and the received remote control signal is transmitted from the optical receiving device 5 to the video supplying unit 1 via the optical transmitting device 4. However, a remote control signal transmitting unit is newly required for the optical receiving device 5 and a remote control signal receiving unit is newly required for the optical transmitting device 4, which causes problems such as an increase in complexity of the device and an increase in cost.

  Further, in the video supply unit 1 and the optical transmission device 4 on the video transmission side, in order to confirm whether the optical reception device 5 and the video display unit 2 on the video reception side are operating normally, it is necessary to perform an operation. It is necessary to transmit information relating to the state from the optical receiving device 5 to the optical transmitting device 4, and the optical receiving device 5 has completely new means for transmitting information relating to the operating state, and the optical transmitting device 4 has a completely new means for receiving information relating to the operating state. This necessitates problems such as an increase in the complexity of the device and an increase in cost.

In view of the above problems, the present invention can transmit a remote control signal from an optical receiving device to an optical transmitting device with a simple configuration (and a remote control signal can be transmitted from one optical wireless communication device to another with a simple configuration). Which can be transmitted to the optical wireless communication device of the present invention).
Furthermore, in view of the above problems, the present invention uses a simple configuration to transmit information on the operating state, such as whether the optical receiving device or the video display unit on the video receiving side is operating normally, from the optical receiving device. Light that can be transmitted to a transmitting device (and that can transmit information on the operating state of one optical wireless communication device from one optical wireless communication device to another optical wireless communication device with a simple configuration) It is an object to provide a wireless communication system.

Therefore, in order to solve the above problems, the present invention provides the following system.
[1] One optical wireless communication device (5) has a pilot optical transmitter (16) for transmitting pilot light (P) for optical axis adjustment, and the other optical wireless communication device (4) In an optical wireless communication system having a pilot light receiving device (14) for receiving the pilot light (P), the optical axis adjustment is performed according to the pilot light (P) received by the pilot light receiving device (14). ,
An optical wireless communication device (4) having the pilot light receiving device (14), and at least one of the devices (1) connected to the optical wireless communication device (4) having the pilot light receiving device (14). Remote control signal receiving means (2a) for receiving a remote control signal (R) transmitted from a remote control device (17) for controlling, and the pilot light (R) by the remote control signal (R) received by the remote control signal receiving means (2a). P) modulates, and a modulation means for supplying the modulated pilot light (P) to the pilot light transmitting device, provided on the optical wireless communication device side (5) having the pilot light transmitting device (16),
An optical wireless communication device having the pilot light receiving device (14), by restoring the remote control signal (R) from the pilot light (P) received by the pilot light receiving device (14) and the restored remote control signal (R). (4), and restoration means for supplying at least one of the devices (1) connected to the optical wireless communication device (4) having the pilot light receiving device, the light having the pilot light receiving device (14) An optical wireless communication system provided on the wireless communication device (4) side.
[2] transmitting a video signal as an optical signal from an optical transmission device (4) provided on the video supply unit (1) side to an optical reception device (5) provided on the video display unit (2) side; An optical wireless communication system that displays an image based on the image signal received by the optical receiving device (5) on the image display unit (2), the optical receiving device (5) and the optical transmitting device (4). A pilot light transmitting device (16) for transmitting pilot light (P) for optical axis adjustment is provided on the video display unit (2) side, and a pilot light receiving device (14) for receiving the pilot light (P) In the optical wireless communication system having the video supply unit (1) side, optical axis adjustment is performed according to the pilot light (P) received by the pilot light receiving device (14),
Remote control signal receiving means (2a) for receiving a remote control signal (R) transmitted from a remote control device (17) for controlling at least one of the image supply unit (1) and the optical transmission device (4), Modulating means for modulating the pilot light (P) with the remote control signal (R) received by the remote control signal receiving means (2a) and supplying the modulated pilot light (P) to the pilot light transmitting device (16). Is provided on the image display unit (2) side,
The remote control signal (R) is restored from the pilot light (P) received by the pilot light receiving device (14), and the restored remote control signal (R) is transmitted to the video supply unit (1) and the optical transmitting device (4). ), Wherein a restoring means for supplying to at least one of the two is provided on the video supply unit (1) side.
[3] One optical wireless communication device has a pilot light transmitting device for transmitting pilot light for optical axis adjustment, and the other optical wireless communication device has a pilot light receiving device for receiving the pilot light. In an optical wireless communication system in which optical axis adjustment is performed according to the pilot light received by the pilot light receiving device,
The pilot light is modulated by the information related to the operation state of at least one of the optical wireless communication device having the pilot light transmitting device, and at least one of the devices connected to the optical wireless communication device having the pilot light transmitting device. Modulating means for supplying pilot light to the pilot light transmitting device, provided on the optical wireless communication device side having the pilot light transmitting device,
An optical wireless communication device having the pilot light receiving device, and an optical wireless communication device having the pilot light receiving device, and restoring the information on the operating condition from the pilot light received by the pilot light receiving device; An optical wireless communication system, wherein restoring means for supplying control information to at least one of the devices connected to the communication device is provided on the optical wireless communication device having the pilot light receiving device.
[4] A video signal is transmitted as an optical signal from an optical transmission device provided on the video supply unit side to an optical reception device provided on the video display unit side, and the video signal is received by the optical reception device. An optical wireless communication system that displays an image on the image display unit, the image display unit having a pilot light transmitting device that transmits pilot light for optical axis adjustment of the optical receiving device and the optical transmitting device. An optical wireless communication system having a pilot light receiving device for receiving the pilot light on the image supply unit side, wherein an optical axis adjustment is performed according to the pilot light received by the pilot light receiving device.
Modulating means for modulating the pilot light with information on the operation state of at least one of the image display unit and the optical receiver, and supplying the modulated pilot light to the pilot light transmitter, the image display unit side In addition to
Restoring means for restoring the information on the operating state from the pilot light received by the pilot light receiving apparatus and supplying the information on the restored operating state to at least one of the video supply unit and the optical transmitting apparatus as control information Is provided on the video supply unit side.

As described above, according to the present invention, the optical transmission apparatus modulates the pilot light transmitted by the optical receiving apparatus with a remote control signal and transmits the modulated pilot light to align the optical axis with the optical receiving apparatus. With this configuration, the remote control signal can be transmitted from the optical receiving device to the optical transmitting device (for example, from the video display unit to the video supply unit). As a result, the video display unit and the video supply unit are separated from each other, and the usability of the separated video display device installed and used at a remote location is greatly improved.
Further, according to the present invention, the optical transmission device transmits the pilot light transmitted by the optical reception device to align the optical axis with the optical reception device, and the optical reception device and the display unit on the video reception side operate normally. Is modulated according to information such as whether or not it is transmitted, so that information such as whether or not the optical receiving device or the display unit on the video receiving side is operating normally is transmitted from the optical receiving device with a simple configuration. The signal can be transmitted to the optical transmitting device, and more accurate control according to the operation state can be performed.
Further, according to the present invention, it is possible to transmit a signal for controlling the other optical wireless communication device from one optical wireless communication device to the other optical wireless communication device with a simple configuration.

<First embodiment>
Hereinafter, with reference to the drawings, an embodiment of the present invention in a separate type video display device in which a video supply unit and a video display unit are separated will be described. FIG. 1 is a block diagram showing a first embodiment of the optical wireless communication system according to the present invention, FIG. 2 is a block diagram showing a main part of the optical transmitter of FIG. 1, and FIG. 3 is a block diagram of the optical receiver of FIG. FIG. 3 is a configuration diagram illustrating a main part. Examples of the separation-type image display device include a plasma display device, a liquid crystal display device, and a rear projector device.

  In FIG. 1, an optical transmission device 4 converts a video / audio signal from the video supply unit 1 into an optical signal and sends it out, and an optical receiving device 5 receives the optical signal from the optical transmission device 4 and sends a video / audio signal. Is restored and transmitted to the video display unit 2. For this optical communication, a pilot light P for optical axis adjustment is transmitted from the optical receiving device 5 to the optical transmitting device 4, and the optical transmitting device 4 receives the pilot light P and adjusts the optical axis.

  Further, on the video display unit 2 side, a remote control signal receiving unit 2a that receives, for example, an infrared remote control signal (remote control signal) R from the wireless remote control device 17 of the video supply unit 1 is provided. The light receiving device 5 modulates the pilot light P for optical axis adjustment with the remote control signal R received by the remote control signal receiving unit 2a, and transmits the pilot light to a pilot light transmitting unit (a wide directional light emitting unit 16 shown in FIG. 3 described later). Send from. The optical transmitting device 4 receives the modulated pilot light P by a pilot light receiving unit (a wide-directional light receiving unit 14 shown in FIG. 2 described later), restores a remote control signal R from the received pilot light P, and Output to 1. Note that the remote control signal receiving unit 2a may be provided in the optical receiving device 5 instead of the video display unit 2.

  As shown in FIG. 2A, the light transmitting device 4 roughly converts a video / audio signal from the video supply unit 1 into an optical signal and sends it to the optical receiving device 5; It has a wide-directional light receiving unit 14 (pilot light receiving unit) that converts an optical signal (pilot light P for optical axis adjustment) transmitted by the receiving device 5 into an electric signal. The light emitting section 8 has a light emitting element 6 such as an LED or an LD (laser diode) and an optical element 7 such as a lens. The wide directional light receiving section 14 has a light receiving element 12 and an optical element 13 such as a lens. As shown in FIG. 2B, the light emitting section 8 and the wide directional light receiving section 14 can turn in the horizontal and vertical directions as shown by arrows to turn themselves in the direction of the optical receiver 5. It is.

  As shown in FIG. 3A, the light receiving device 5 roughly receives a light signal from the light transmitting device 4, restores a video / audio signal, and outputs it to the video display unit 2. And a wide directional light emitting unit 16 (pilot light transmitting unit) for modulating and transmitting the pilot light P for adjusting the optical axis with the remote control signal R received by the remote control signal receiving unit 2a. The light receiving section 11 includes a light receiving element 9 such as a PD (photodiode) and an APD (avalanche photodiode) and an optical element 10 such as a lens, and the wide directional light emitting section 16 emits wide directional light such as an LED. 15 and the like. As shown in FIG. 3B, the light receiving unit 11 and the wide directional light emitting unit 16 can turn in the horizontal and vertical directions as shown by arrows to turn themselves in the direction of the optical transmitter 4. It is.

In the above configuration, the optical receiving device 5 is directed in the approximate direction of the optical transmitting device 4. A pilot light P for adjusting the optical axis is transmitted from the light-directed light-emitting unit 16 of the optical receiver 5. The optical transmitting device 4 searches the optical signal (pilot light P for optical axis adjustment) transmitted from the wide directional light emitting portion 16 of the optical receiving device 5 by the wide directional light receiving portion 14 while turning itself, and To match.
An example of an optical axis adjustment method when a four-divided PD is used as the light receiving element 12 of the wide directional light receiving unit 14 will be described with reference to FIGS.

  FIG. 6 is a block diagram showing an example of a circuit configuration for realizing optical axis adjustment by pilot light in the optical transmission device. FIG. 7 is a block diagram showing the configuration of the optical receiving device in the wide directional light receiving section of the optical transmission device at the time of optical axis adjustment. FIG. 8 is a flowchart showing the procedure of optical axis adjustment using pilot light. The pilot light P is modulated at a constant frequency f_c.

  The pilot light P from the term directional light emitting unit 16 of the optical receiver 5 is subjected to optical-electric conversion in each PD (PD_A, B, C, D) in the four-divided PD 18, and an electric signal having an amplitude corresponding to the amount of received light. (SIG_A, B, C, D) (step S1). The SIG_A, B, C, and D are respectively amplified by the amplifiers 19, 20, 21, and 22 (step S2), and only the frequency component f_c of the pilot light P is extracted by the detection circuit 24 (step S3). The light receiving level is converted into a DC value (step S4).

  In FIG. 6, the switch 23 is switched by a microprocessor 26 such as a microcomputer / DSP to detect SIG_A, B, C, and D sequentially. However, four detection circuits and four level detection circuits are provided, and detection is performed simultaneously. Is also good. The microprocessor 26 calculates a position where the light receiving level of each PD input as a DC value becomes equal, for example, a difference between light receiving levels of PDs facing each other in the horizontal direction (Pan) and the vertical direction (Tilt). (Steps S5 and S9), and calculates the driving amounts in the pan and tilt directions for turning the optical transmission device 4 to the position where the light receiving level difference becomes 0 (steps S6 and S10). The calculated movement amounts are converted into analog signals by the D / A converters 27 and 28, and output to the actuator drive circuits 29 and 30 (steps S7 and S11).

  The actuator drive circuits 29 and 30 rotate the optical transmission device 4 in the pan and tilt directions according to the drive amount (steps S8 and S12). By turning to the position where the amount of received light of each PD of the four-divided PD 18 becomes equal, that is, the center of the four-divided PD 18 to the position where the pilot light P is radiated, the optical transmitting device 4 makes the optical receiving device 5 It is possible to align the optical axis.

  In the case of FIG. 7, in the step [1], first, the difference between the light receiving amounts of the PDs B and D facing each other in the horizontal direction is calculated, and a spot is formed in the direction of making the difference 0 (rightward in FIG. 7). The optical transmitter 4 is moved in the horizontal direction so that the light is emitted. In step [2], the difference between the received light amounts of the PDs A and C that are vertically opposed to each other is calculated, and the spot is illuminated so as to irradiate the spot in the direction of making the difference 0 (downward in FIG. 7). The optical transmitter 4 is moved in the vertical direction.

  The light receiving element 12 is not limited to the four-divided PD. When a single PD is used as the light receiving element 12, the optical transmitter 4 determines whether or not the pilot light P has been received while turning itself. An optical axis adjustment method of stopping at a position where the pilot light P can be received can be considered. When the light receiving element 12 is a two-dimensional imaging device such as a CCD, the position of the pilot light P is instantaneously specified. And turning the optical transmission device 4 in that direction.

  Here, in the video display device in which the video supply unit 1 and the video display unit 2 are separated, when the remote control signal receiving unit 2a is provided in the video display unit 2, the control signal R by the operation is transmitted to the video supply unit 1. There is a need. Therefore, the pilot light P for adjusting the optical axis transmitted from the wide directional light emitting unit 16 of the optical receiver 5 installed on the video display unit 2 side is modulated by the control signal R of the wireless remote controller, so that the optical axis is adjusted. After the adjustment, when the optical axes of the optical transmitting device 4 and the optical receiving device 5 are aligned, transmission of video / audio signals from the video supply unit 1 to the video display unit 2 and transmission of video / audio signals from the video display unit 2 to the video supply unit 1 are performed. Transmission of the control signal R of the wireless remote controller to the remote controller.

  FIG. 9 shows a configuration of a signal of a home appliance cooperative format of a remote controller recommended by the Home Appliance Association. 9A shows the entire format, FIG. 9B shows the reader section, FIG. 9C shows the bit configuration, FIG. 9D shows the trailer section, and FIG. 9E shows the repeat code. The format is composed of a reader section, a custom code section, a parity section of the custom code, and a data section.The custom code section uses a code registered with the consumer electronics cooperative, and the data section defines the number of bytes and the number of bytes. Can be set freely.

  FIG. 10 is a block diagram showing an example of a circuit configuration for modulating a pilot light P for optical axis adjustment by an ASK modulation method by a control signal R of a remote controller in the optical receiver. In this system, the remote control signal R is used as a modulation signal, and the product of the modulated signal and a sine carrier Acosωt having a single frequency sufficiently higher than the highest frequency included in the remote control signal R is used. Here, ASK modulation is used as a modulation method, but other modulation methods such as FM modulation and PM modulation may be used. Also, a new signal indicating the control content read from the received control signal R and other information, not the control signal R itself, is generated in the video display device or the optical receiving device, and the pilot light P is generated by the signal. May be modulated.

  FIG. 11 is a block diagram showing an example of a circuit configuration for demodulating a remote control signal R modulated by the ASK modulation method from the received pilot light P in the optical transmission device. In this system, synchronous detection is performed in which demodulation is performed by taking a product of a received signal and a local oscillation wave having the same frequency and the same phase as a carrier lost in a modulation process. Here, ASK modulation is used as a modulation method, but other modulation methods such as FM modulation and PM modulation may be used.

<Second embodiment>
In the separation-type image display device according to the first embodiment, at the time of optical axis adjustment, adjustment information such as whether the light receiving device 5 obtains a sufficient amount of light to transmit an image / audio signal, and image information. By using the information signal of the video display unit 2 as a signal and modulating the pilot light P for adjusting the optical axis transmitted from the wide directional light emitting unit 16 of the optical receiver 5 with the information signal, At the time of optical axis adjustment, the reception status of the optical receiving device 5 and the like are transmitted to the optical transmitting device 4, and more precise optical axis adjustment becomes possible.

  Further, after the optical axis adjustment is completed, when the optical axes of the optical transmitting device 4 and the optical receiving device 5 are aligned, transmission of video / audio signals from the video supply unit 1 to the video display unit 2 becomes possible. Since the states of the unit 2 and the optical receiving device 5 can be transmitted to the video supply unit 1 and the optical transmission device 4, troubles on the video display unit 2 can be dealt with on the video supply unit 1 side. .

<Third embodiment>
FIG. 12 shows an optical wireless communication system for transmitting video and audio signals by optical signals from a VTR device such as a VCR installed at a position distant from a video display device such as a television receiver.
The optical transmitter 4 is connected to the VTR 31 and the optical receiver 5 is connected to the video display 32. The optical transmitter 4 converts the video / audio signal from the VTR device 31 into an optical signal and sends it out. The optical receiver 5 receives the optical signal from the optical transmitter 4 to restore the video / audio signal, By transmitting the image to the display device 32, the image reproduced by the VTR device 31 can be viewed on the video display device 32 without using a cable even when the VTR device 31 is installed at a position distant from the video display device 32. Becomes possible.

Under this installation condition, in a conventional device, when the user performs a remote control operation, it is necessary to point the remote control in a different direction depending on each of the VTR device 31 and the video display device 32.
In this embodiment, the remote control signal Rv for controlling the VTR device 31 transmitted from the remote control device 17b for the VTR device is received by the video display device 32 or the remote control signal receiving unit 2b provided in the light receiving device 5. . The optical receiver 5 modulates the pilot light P (pilot light transmitted from the optical receiver 5 to the optical transmitter 4 for optical axis adjustment) with the received remote control signal Rv, and modulates the pilot light P Is transmitted to the optical transmitter 4. The optical transmission device 4 restores the remote control signal Rv from the received pilot light P and outputs it to the VTR device 31.

Thus, in the present embodiment, the VTR device 31 can be accurately controlled even when the remote control device 17b for the VTR device is operated in the direction of the video display device 32 without pointing in the direction of the VTR device 31. .
The remote control signal receiving unit 2b has a configuration capable of receiving both the remote control signal Rv for controlling the VTR device 31 and the remote control signal Rt for controlling the video display device 32 transmitted from the remote control device 17a for the video display device. Is also good.

  Although the above embodiment relates to the optical wireless communication system for transmitting the video / audio signal to the video display unit, the devices connected to the optical wireless communication system are not limited to the video display device. According to the present invention, for example, between devices that transmit only an audio signal or a data signal by optical wireless, a signal for controlling the other device is transmitted from one device to another using a pilot light for optical axis adjustment. Can be transmitted to other devices.

FIG. 1 is a configuration diagram illustrating a first embodiment of an optical wireless communication system according to the present invention. FIG. 2 is a configuration diagram illustrating a main part of the optical transmission device in FIG. 1. FIG. 2 is a configuration diagram illustrating a main part of the optical receiver in FIG. 1. FIG. 2 is a configuration diagram illustrating a conventional separation-type video display device. FIG. 2 is a configuration diagram illustrating a conventional optical wireless communication system. FIG. 3 is an example of a block diagram for realizing an optical axis adjustment procedure according to the first embodiment. FIG. 7 is a diagram illustrating an operation of a spot of received light at the time of optical axis adjustment according to the first embodiment. 5 is a flowchart illustrating an optical axis adjustment procedure according to the first embodiment. It is a figure showing the format of a remote control signal recommended by the Home Appliances Association. It is a block diagram of an ASK modulation circuit. FIG. 3 is a block diagram of an ASK demodulation circuit. FIG. 9 is a configuration diagram illustrating a third embodiment of the optical wireless communication system according to the present invention.

Explanation of reference numerals

REFERENCE SIGNS LIST 1 video supply unit 2 video display unit 2a remote control signal receiving unit for video display device 2b remote control signal receiving unit for VTR device 3 dedicated connection cable 4 optical transmitter 5 optical receiver 6, 15 light emitting element 7, 10, 13 optical element 8 Light emitting unit 9 and 12 light receiving element 11 of light transmitting device 11 light receiving unit of light receiving device 14 wide directional light receiving unit of light transmitting device 16 wide directional light emitting unit of light receiving device 17 wireless remote control device 17a remote control device for video display device 17b VTR Remote control device for device 18 4-split PD
19, 20, 21, 22 Amplifier 23 Switch 24 Detection circuit 25 Level detection circuit 26 Microprocessor 27, 28 D / A converter 29, 30 Actuator drive circuit 31 VTR device 32 Video display device R Remote control signal Rv for video display device control Remote control signal for controlling VTR device Rt Remote control signal for controlling video display device P Pilot light

Claims (4)

One optical wireless communication device has a pilot light transmitting device for transmitting pilot light for optical axis adjustment, and the other optical wireless communication device has a pilot light receiving device for receiving the pilot light, In an optical wireless communication system in which optical axis adjustment is performed according to the pilot light received by the optical receiving device,
An optical wireless communication device having the pilot light receiving device, and a remote control signal for receiving a remote control signal transmitted from a remote control device controlling at least one of devices connected to the optical wireless communication device having the pilot light receiving device A light modulating means for modulating the pilot light with the remote control signal received by the remote control signal receiving means, and a modulation means for supplying the modulated pilot light to the pilot light transmitting apparatus; Provided on the wireless communication device side,
The remote control signal is restored from the pilot light received by the pilot light receiving device, and the restored remote control signal is connected to the optical wireless communication device having the pilot light receiving device and the optical wireless communication device having the pilot light receiving device. An optical wireless communication system, characterized in that restoration means for supplying to at least one of the selected devices is provided on the optical wireless communication device side having the pilot light receiving device. A video signal is transmitted as an optical signal from an optical transmission device provided on the video supply unit side to an optical reception device provided on the video display unit side, and an image based on the video signal received by the optical reception device is displayed. An optical wireless communication system to be displayed on a video display unit, wherein the video reception unit has a pilot light transmitting device that transmits pilot light for optical axis adjustment of the optical receiving device and the optical transmitting device, and the pilot An optical wireless communication system having a pilot light receiving device for receiving light on the video supply unit side, wherein an optical axis adjustment is performed according to the pilot light received by the pilot light receiving device.
Remote control signal receiving means for receiving a remote control signal transmitted from a remote control device for controlling at least one of the image supply unit and the light transmitting device; and the pilot light by the remote control signal received by the remote control signal receiving means. Modulation, and a modulation means for supplying the modulated pilot light to the pilot light transmission device, provided on the video display unit side,
Restoring means for restoring the remote control signal from the pilot light received by the pilot light receiving device and supplying the restored remote control signal to at least one of the image supply unit and the optical transmission device, the image supply unit side An optical wireless communication system, comprising: One optical wireless communication device has a pilot light transmitting device for transmitting pilot light for optical axis adjustment, and the other optical wireless communication device has a pilot light receiving device for receiving the pilot light, In an optical wireless communication system in which optical axis adjustment is performed according to the pilot light received by the optical receiving device,
The pilot light is modulated by the information related to the operation state of at least one of the optical wireless communication device having the pilot light transmitting device, and at least one of the devices connected to the optical wireless communication device having the pilot light transmitting device. Modulating means for supplying pilot light to the pilot light transmitting device, provided on the optical wireless communication device side having the pilot light transmitting device,
An optical wireless communication device having the pilot light receiving device, and an optical wireless communication device having the pilot light receiving device, and restoring the information on the operating condition from the pilot light received by the pilot light receiving device; An optical wireless communication system, wherein restoring means for supplying control information to at least one of the devices connected to the communication device is provided on the optical wireless communication device having the pilot light receiving device. A video signal is transmitted as an optical signal from an optical transmission device provided on the video supply unit side to an optical reception device provided on the video display unit side, and an image based on the video signal received by the optical reception device is displayed. An optical wireless communication system to be displayed on a video display unit, wherein the video reception unit has a pilot light transmitting device that transmits pilot light for optical axis adjustment of the optical receiving device and the optical transmitting device, and the pilot An optical wireless communication system having a pilot light receiving device for receiving light on the video supply unit side, wherein an optical axis adjustment is performed according to the pilot light received by the pilot light receiving device.
Modulating means for modulating the pilot light with information on the operation state of at least one of the image display unit and the optical receiver, and supplying the modulated pilot light to the pilot light transmitter, the image display unit side In addition to
Restoring means for restoring the information on the operating state from the pilot light received by the pilot light receiving apparatus and supplying the information on the restored operating state to at least one of the video supply unit and the optical transmitting apparatus as control information Is provided on the video supply unit side.