JP2005217948A - Information transmission system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an information transmission system capable of exactly adjusting the direction of a directional antenna, when information is transmitted from a transmitting device to a receiving device by radio communications, using the directional antenna. <P>SOLUTION: The information transmission system transmits information from a transmitting device 100 to a receiving device 200. The transmitting device 100 has functions as a normal mode for transmitting information to be transmitted, and a test mode for transmitting and receiving signals, other than the information to be transmitted. The receiving device 200 has functions as the normal mode for receiving the information to be transmitted, and the test mode for transmitting and receiving signals, other than the information to be transmitted. During the test mode, the direction of a directional antenna 260 is adjusted at the receiving device 200 side, which has received a signal from the transmitting device 100, on the basis of the electric field strength of the received signal. Also, the direction of a directional antenna 160 is adjusted at the transmitting device 100 side, which has received a signal from the receiving device 200, with the electric field strength of the signal received as the reference. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to an information transmission system that transmits information from a transmission device to a reception device by wireless communication using a directional antenna, and more particularly, to a directional antenna of an information transmission system that transmits an image signal by spread spectrum wireless communication. It relates to the improvement of direction adjustment.

There is an information transmission system that transmits an image signal from a transmission device to a reception device by spread spectrum (SS) wireless communication.
This type of information transmission system has advantages in that it is strong against interference by using a spread spectrum system, can be multiplexed, and can effectively use frequencies.

In addition, this type of information transmission system has a feature that high-capacity high-speed data communication can be performed by using a high frequency such as 2.4 GHz. In addition to this, the device has a feature that it can be used without receiving a radio station license on the user side by receiving a technical standard conformity certification (technical suit) in advance.
As one of the prior arts of such a thing, the following patent document 1 describes a spread spectrum information transmission system.

JP-A-9-261201 (FIG. 1)

For example, in a system that has received a technical standard conformity certification in an information transmission system as shown in the above publication, since the output is limited to 10 mW or less, it can only be used for a transmission range of a distance of about several hundred meters.
Therefore, in order to ensure a larger transmission range, a long-distance communication is stably performed by using an antenna having directivity and the gain of the antenna.
In such an information transmission system, basically, only a function of performing unidirectional communication from a transmission device to a reception device is mounted.
For this reason, it is only necessary to adjust the direction of the directional antenna so that good reception can be performed on the receiving device side, but there is no guideline serving as a reference for adjustment on the transmitting device side.

Therefore, separately, the operator on the receiving device side communicates the reception status on the receiving device side to the operator on the transmitting device side using a mobile phone or a transceiver. There was a need to make adjustments.
In addition, this type of information transmission system is not equipped with a signal intensity meter (signal meter) that is equipped in a general wireless communication apparatus, and an error rate when demodulating a digitally modulated image signal. Only a few light emitting diodes for simply displaying are provided on the receiver side.
For this reason, it has been very difficult to accurately adjust the direction of the directional antenna.

  The present invention has been made in view of the above-described problems, and accurately adjusts the direction of a directional antenna when transmitting information from a transmitting device to a receiving device by wireless communication using the directional antenna. The purpose is to realize an information transmission system capable of

That is, the present invention will be described and explained below as means for solving the problems.
(1) The invention according to claim 1 is an information transmission system for transmitting information from a transmitting device to a receiving device by wireless communication using a directional antenna,
The transmitting device has a function of a normal mode for transmitting the information to be transmitted and a test mode for transmitting a signal other than the information to be transmitted, and the receiving device receives the information to be transmitted. It has a function of a normal mode and a test mode for receiving a signal other than the information to be transmitted. During operation in the test mode, the signal is received on the receiving device side that has received the signal from the transmitting device. The information transmission system is characterized in that the direction of a directional antenna on the receiving device side is adjusted based on the electric field strength of the signal.

  In the information transmission system having such a configuration, the transmission apparatus has two modes, a normal mode for transmitting information to be transmitted and a test mode for transmitting signals other than the information to be transmitted, and a normal mode for receiving information to be transmitted. The receiving apparatus has two modes, ie, a test mode for receiving a signal other than the mode / information to be transmitted. When operating in the test mode, the electric field of the received signal is received on the receiving apparatus side that has received the signal from the transmitting apparatus. The direction of the directional antenna on the receiving device side is adjusted based on the strength.

  (2) The invention according to claim 2 is an information transmission system for transmitting information from a transmission device to a reception device by wireless communication using a directional antenna, wherein the transmission device transmits the information to be transmitted. And a test mode for receiving a signal other than the information to be transmitted, and the receiving device receives the information to be transmitted in a normal mode and a signal other than the information to be transmitted. A function of a test mode for transmitting the signal, and when operating in the test mode, on the side of the transmission device that has received the signal from the reception device, the transmission device is based on the electric field strength of the received signal. The information transmission system is characterized in that the direction of the side directional antenna is adjusted.

  In the information transmission system having such a configuration, the transmission apparatus has two modes, a normal mode for transmitting information to be transmitted and a test mode for receiving signals other than the information to be transmitted, and a normal mode for receiving information to be transmitted. The receiving apparatus has two modes, ie, a test mode for transmitting a signal other than the mode / information to be transmitted. When operating in the test mode, the electric field of the received signal is received on the transmitting apparatus side that has received the signal from the receiving apparatus. The direction of the directional antenna on the transmission device side is adjusted based on the strength.

  (3) The invention according to claim 3 is an information transmission system for transmitting information from a transmission device to a reception device by wireless communication using a directional antenna, wherein the transmission device transmits the information to be transmitted. And a test mode in which signals other than the information to be transmitted are transmitted and received, and the receiving device receives the information to be transmitted in the normal mode and other than the information to be transmitted. A function of a test mode for transmitting and receiving a signal of, and when operating in the test mode, as a first test mode, on the receiving device side that has received a signal from the transmitting device, The direction of the directional antenna on the receiving device side is adjusted based on the electric field strength, and the receiving device side receives the signal from the receiving device as the second test mode. Field strength of the signal in the reference, performs direction adjustment of the directional antenna of the transmitting apparatus is an information transmission system, characterized in that.

  In the information transmission system having such a configuration, the transmission apparatus has two modes of a normal mode for transmitting information to be transmitted and a test mode for transmitting and receiving signals other than information to be transmitted, and receives information to be transmitted. The receiving device has two modes, a normal mode to be performed and a test mode to transmit and receive signals other than information to be transmitted. When operating in the test mode, the signal from the transmitting device is received as the first test mode. In the receiving device side, with reference to the electric field strength of the received signal, the direction adjustment of the directional antenna on the receiving device side is performed, and as the second test mode, on the transmitting device side that has received the signal from the receiving device, The direction adjustment of the directional antenna on the transmission device side is performed with reference to the electric field strength of the received signal.

  (4) The invention described in claim 4 is directed to an antenna drive unit that adjusts the direction of the directional antenna, and the directivity via the antenna drive unit with reference to the electric field strength of a signal received during test mode operation. 4. The information transmission system according to claim 1, further comprising a control unit configured to control the direction adjustment of the directional antenna. 5.

  The information transmission system having such a configuration includes a control unit that controls the direction adjustment of the directional antenna via the antenna driving unit with reference to the electric field strength of the signal received during the test mode operation. In the operation of the receiver, the control unit controls the receiving device side that has received the signal from the transmitting device so that the antenna drive unit is directed to the direction of the directional antenna on the receiving device side based on the electric field strength of the received signal. On the transmitting device side that receives the signal from the receiving device, the antenna driving unit adjusts the direction of the directional antenna on the transmitting device side on the basis of the electric field strength of the received signal.

(5) The invention according to claim 5, wherein an image signal is transmitted as the information to be transmitted by spread spectrum wireless communication. Information transmission system.
In the information transmission system having such a configuration, even when information to be transmitted is transmitted by spread spectrum wireless communication, a test mode signal is transmitted and received separately from the spread spectrum method. The direction adjustment of the directional antenna is executed using the electric field strength.

As described above, according to the present invention, the following effects can be obtained.
(1) In the information transmission system having the above-described configuration, when operating in the test mode, the directivity on the receiving device side is determined on the receiving device side receiving the signal from the transmitting device on the basis of the electric field strength of the received signal. Adjust the antenna direction.

  This makes it easy to adjust the direction of the directional antenna on the receiving device side by using the electric field strength of the signal in the test mode before transmitting information from the transmitting device to the receiving device by wireless communication using the directional antenna. Thus, the direction of the directional antenna of the information transmission system can be accurately adjusted.

  (2) In the invention of the information transmission system having the above-described configuration, when operating in the test mode, the directivity on the transmitting apparatus side is determined on the transmitting apparatus side that has received the signal from the receiving apparatus on the basis of the electric field strength of the received signal. Adjust the antenna direction.

  This makes it easy to adjust the direction of the directional antenna on the transmitter side by using the electric field strength of the signal in the test mode before transmitting information from the transmitter to the receiver by wireless communication using the directional antenna. It becomes possible to adjust the direction of the directional antenna of the information transmission system accurately.

  (3) In the invention of the information transmission system having the above-described configuration, when operating in the test mode, the first test mode is performed on the receiving device side that has received the signal from the transmitting device on the basis of the electric field strength of the received signal. The direction of the directional antenna on the receiving device side is adjusted, and as a second test mode, on the transmitting device side that has received the signal from the receiving device, on the basis of the electric field strength of the received signal, Adjust the direction of the directional antenna.

  This enables the direction adjustment of the directional antenna on the receiving device side by using the electric field strength of the signal in the test mode before transmitting information from the transmitting device to the receiving device by wireless communication using the directional antenna. It becomes possible to easily adjust the direction of the directional antenna on the transmission device side, and it is possible to accurately adjust the direction of the directional antenna of the information transmission system.

  (4) In the invention of the information transmission system having the above-described configuration, when operating in the test mode, the control unit controls the receiving device that receives the signal from the transmitting device on the basis of the electric field strength of the received signal. The antenna driving unit adjusts the direction of the directional antenna on the receiving device side. On the transmitting device side that receives the signal from the receiving device, the antenna driving unit operates on the basis of the electric field strength of the received signal. Adjust the direction of the side directional antenna.

Thus, before transmitting information from the transmitting device to the receiving device by wireless communication using the directional antenna, the directional antenna by the antenna driving unit is controlled by the control unit referring to the electric field strength of the signal in the test mode. The direction is adjusted.
Accordingly, the direction adjustment of the directional antenna can be easily performed, and the direction adjustment of the directional antenna of the information transmission system can be accurately performed.

  (5) In the invention of the information transmission system having the above-described configuration, a test mode signal is transmitted / received separately from the spread spectrum system, and the direction adjustment of the directional antenna is executed using the electric field strength of the test mode signal.

  As described above, the test mode signal is transmitted and received separately from the spread spectrum method, and the direction adjustment of the directional antenna is executed using the electric field strength of the test mode signal. It can be easily done.

The best mode information transmission system for carrying out the present invention will be described with reference to the drawings.
First, with reference to FIG. 1, the information transmission system of the best mode for carrying out the present invention (hereinafter referred to as an embodiment) and its periphery will be described.
FIG. 1 shows an example of a transmission device and a reception device used in an information transmission system that is the best mode for carrying out the present invention. An image signal from an imaging device is transmitted by a spread spectrum wireless communication. Represents a block diagram for transmission.

Here, reference numeral 10 denotes an imaging device such as a video camera or a television camera that generates an image signal (video signal) by imaging.
The image signal from the imaging device 10 is supplied to the image signal input terminal of the image transmission device.
In addition, when an image signal is generated by imaging, sound may be collected to generate an audio signal.

Reference numeral 100 denotes an image transmission apparatus which is a main part of the information transmission system of the present embodiment.
Here, the image transmitting apparatus 100 has functions of a normal mode for transmitting an image signal as information to be transmitted and a test mode for transmitting and receiving a signal other than information to be transmitted (image signal). .
In addition, the image transmission device 100 has a function of controlling the direction adjustment of the directional antenna with reference to the electric field strength of the received signal during the test mode operation.

A control unit 101 controls each unit of the image transmission apparatus 100.
The control unit 101 switches between two modes, a normal mode for transmitting an image signal as information to be transmitted and a test mode for transmitting and receiving a signal other than information to be transmitted (image signal), and a test mode operation. Sometimes, it has a function of controlling the direction adjustment of the directional antenna with reference to the electric field strength of the received signal.

An operation display unit 110 is used to input various settings and operations of the image transmission apparatus 100 and to display various states of the image transmission apparatus 100.
It should be noted that the operation display unit 110 may be a unit that accepts input and a unit that performs display, or may be separate.

Reference numeral 120 denotes an SS image transmission unit for transmitting an image signal by spread spectrum (SS) wireless communication.
In general, the SS image transmission unit 120 compresses a digital signal by a method such as MPEG and then modulates the spread spectrum method and outputs it as a high-frequency signal having a predetermined frequency.

Reference numeral 130 denotes an analog signal transmission unit for transmitting a signal for measuring electric field strength as a signal other than information to be transmitted.
Since the analog signal transmission unit 130 transmits a signal for electric field strength measurement, for example, an analog signal modulated at a specific frequency indicating that it is an unmodulated signal or a signal for electric field strength measurement. The high frequency signal having a predetermined frequency is output.

Since the analog signal transmission unit 130 is for adjusting the direction of the directional antenna used by the information transmission system, a high-frequency signal having a frequency substantially equal to the center frequency of the high-frequency signal transmitted by the SS image transmission unit 120 is used. It is desirable to output.
Therefore, the analog signal transmission unit 130 can perform only analog modulation and share basic parts such as oscillation and high-frequency power amplification with the SS image transmission unit 130.

Reference numeral 140 denotes an analog signal receiving unit for receiving a signal for measuring electric field strength as a signal other than information to be transmitted.
Since the analog signal receiving unit 140 receives a signal for electric field strength measurement, for example, the analog signal receiving unit 140 receives an unmodulated signal or an analog signal modulated at a specific frequency indicating that it is a signal for electric field strength measurement. The signal is received and demodulated as a high-frequency signal having a predetermined frequency, and signal strength information is output.
The analog signal receiving unit 140 is for adjusting the direction of the directional antenna used by the SS image transmission unit 120 described above, and therefore has a frequency substantially equal to the center frequency of the high-frequency signal transmitted by the SS image transmission unit 120. It is desirable to receive a high frequency signal.

Reference numeral 150 denotes an antenna driving unit for adjusting the direction of the directional antenna.
The antenna driving unit 150 may be either one that adjusts the direction of the directional antenna under the control of the control unit 101 or one that manually adjusts the direction of the directional antenna.
Further, the antenna driving unit 150 is electrically connected to the image transmitting apparatus 100 when it is built in the image transmitting apparatus 100 or electrically and mechanically connected to the image transmitting apparatus 100. Is not mechanically connected, or is not electrically or mechanically connected to the image transmitting apparatus 100, or the like.

Reference numeral 160 denotes a directional antenna as an antenna having directivity used in the image transmission apparatus 100.
The directional antenna 160 is for transmitting a high-frequency signal from the SS image transmission unit 120 or the analog signal transmission unit 130 and receiving an analog signal from the image reception device 200 described later.
The directional antenna 160 is configured to be adjustable in direction by the antenna driving unit 150.

Reference numeral 200 denotes an image receiving apparatus that is a main part of the information transmission system of the present embodiment.
Here, the image receiving apparatus 200 has a function of a normal mode for receiving an image signal as information to be transmitted and a test mode for transmitting and receiving a signal other than information to be transmitted (image signal). .
Further, the image receiving apparatus 200 has a function of controlling the direction adjustment of the directional antenna with reference to the electric field strength of the received signal during the test mode operation.

Reference numeral 201 denotes a control unit that controls each unit of the image receiving apparatus 200.
The control unit 201 is configured to switch between two modes, a normal mode for receiving an image signal as information to be transmitted and a test mode for transmitting and receiving a signal other than information to be transmitted (image signal), and a test mode operation. Sometimes, it has a function of controlling the direction adjustment of the directional antenna with reference to the electric field strength of the received signal.

A display unit 210 has a function of inputting various settings and operations of the image receiving apparatus 200 and displaying various states of the image receiving apparatus 200.
The operation display unit 210 may be a unit that accepts input and a unit that performs display, or may be separate.

Reference numeral 220 denotes an SS image receiving unit for receiving an image signal by spread spectrum (SS) wireless communication.
In general, the SS image receiving unit 220 receives and demodulates a high-frequency signal having a predetermined frequency modulated by a spread spectrum method after the image signal is compressed by a digital signal method such as MPEG. The extracted image signal is output to an external device.

230 is an analog signal transmission unit for transmitting a signal for measuring electric field strength as a signal other than information to be transmitted.
Since the analog signal transmission unit 230 transmits a signal for measuring electric field strength, for example, an unmodulated signal or an analog signal modulated at a specific frequency indicating that it is a signal for measuring electric field strength is used. The high frequency signal having a predetermined frequency is output.
Since the analog signal transmission unit 230 is for adjusting the direction of the directional antenna used by the information transmission system, the high-frequency signal having a frequency substantially equal to the center frequency of the high-frequency signal received by the SS image reception unit 220 is used. Is desirable to output.

Reference numeral 140 denotes an analog signal receiving unit for receiving a signal for measuring electric field strength as a signal other than information to be transmitted.
Since the analog signal receiving unit 140 receives a signal for electric field strength measurement, for example, the analog signal receiving unit 140 receives an unmodulated signal or an analog signal modulated at a specific frequency indicating that it is a signal for electric field strength measurement. The signal is received and demodulated as a high-frequency signal having a predetermined frequency, and signal strength information is output.

The analog signal receiving unit 140 is for adjusting the direction of the directional antenna used by the SS image receiving unit 220 described above, and is therefore substantially equal to the center frequency of the high-frequency signal transmitted by the SS image receiving unit 220. It is desirable to receive a high frequency signal at a frequency.
Therefore, the analog signal receiving unit 240 can perform only analog demodulation and share the basic parts such as high-frequency amplification, frequency conversion, and intermediate frequency amplification at the time of reception with the SS image receiving unit 220. is there.

Reference numeral 250 denotes an antenna driving unit for adjusting the direction of the directional antenna.
The antenna driving unit 250 may adjust the direction of the directional antenna under the control of the control unit 201, or may manually adjust the direction of the directional antenna.
Note that the antenna driving unit 250 is electrically connected to the image receiving device 200 when it is built in the image receiving device 200 or electrically and mechanically connected to the image receiving device 200. Is not mechanically connected, or is not electrically or mechanically connected to the image receiving apparatus 200.

Reference numeral 260 denotes a directional antenna as an antenna having directivity used in the image receiving apparatus 200.
The directional antenna 260 is used to transmit a high-frequency signal from the analog signal transmission unit 230 and receive a signal from the image transmission device 100 using the SS image reception unit 220 or the analog signal reception unit 240. The direction is adjustable by 250.

In the above, the analog signal transmission unit 130 and the analog signal reception unit 240 are configured to transmit and receive the same frequency, and the analog signal transmission unit 230 and the analog signal reception unit 140 have the same frequency. It is configured to perform transmission and reception.
Further, in the above configuration, even if the frequency used by the analog signal transmission unit 130 and the analog signal reception unit 240 is the same as the frequency used by the analog signal transmission unit 230 and the analog signal reception unit 140, the timing is different. It is also possible to perform transmission and reception in a time division manner.

The operation of the information transmission system according to the embodiment of the present invention will be described below with reference to the flowchart of FIG.
Here, FIG. 2A is a flowchart showing the operation of the image transmitting apparatus 100 under the control of the control unit 101, and FIG. 2B is a flowchart showing the operation of the image receiving apparatus 200 under the control of the control unit 201. .
First, when power is supplied in the image transmission apparatus 100, the control unit 101 initializes each unit (S1a in FIG. 2).

In this initialization, the control unit 101 clears the contents of the memory, the register, and the like, and adjusts the directional antenna 160 to the initial direction via the antenna driving unit 150.
When power is supplied to the image receiving device 200, the control unit 201 initializes each unit (S1b in FIG. 2).
In this initialization, the control unit 201 clears the contents of the memory, the register, and the like, and adjusts the directional antenna 260 to the initial direction via the antenna driving unit 250.

When the initialization work is completed on the image transmission device 100 side, the control unit 101 generates an analog high-frequency signal for measuring the electric field strength in the analog signal transmission unit 130 while stopping the operation of the SS image transmission unit 120. It transmits from the directional antenna 160 (FIG. 2 S2a).
Note that the image transmission apparatus 100 transmits the high-frequency signal for measuring the electric field strength to the image receiving apparatus 200 until the high-frequency signal for measuring the electric field intensity from the image receiving apparatus 200 is received according to an instruction from the control unit 101. Continue (N in FIG. 2 S2a, 3a: test mode # 1).

  On the other hand, when the initialization operation is completed on the image receiving device 200 side, the control unit 201 stops the operation of the SS image receiving unit 220 and receives the analog high-frequency signal for measuring the electric field strength received through the directional antenna 260. Is received and demodulated by the analog signal receiving unit 240, signal strength information corresponding to the electric field strength is generated and supplied to the control unit 201 (S2b in FIG. 2).

Here, the control unit 201 monitors the change in the signal strength information while giving an instruction to the antenna driving unit 250 to change the direction of the directional antenna 260.
That is, the direction of the directional antenna 260 in which the received signal for measuring the electric field strength is the largest is detected as the best point (FIG. 2 S2b to S3b to S4b: test mode # 1).
Then, when the direction (best point) of the directional antenna 260 in which the received signal for measuring the electric field strength is the largest (the best point) can be detected (S4b in FIG. 2), the control unit 201 instructs the antenna drive unit 250. Then, the directional antenna 260 is fixed in the direction (S5b in FIG. 2).

As described above, when the direction of the directional antenna 260 is fixed, the test mode # 1 is switched from the test mode # 1 to the test mode # 2 according to the instruction of the control unit 201, and the analog high-frequency signal from the analog signal transmission unit 230 is used for measuring the electric field strength. Signal transmission is performed via the directional antenna 260 (S6b in FIG. 2).
If transmission of the high-frequency signal for measuring the electric field strength from the analog signal transmission unit 130 is intermittent, analog signal transmission is performed in accordance with an instruction from the control unit 201 at a timing when there is no transmission from the analog signal transmission unit 130. An analog high-frequency signal for electric field strength measurement is transmitted from the unit 230 via the directional antenna 260.

  Further, when the transmission of the high-frequency signal for electric field strength measurement from the analog signal transmission unit 130 is continuous, the control unit 201 uses a frequency different from that of the signal for electric field strength measurement from the analog signal transmission unit 130. In response to the instruction, the analog signal transmission unit 230 transmits an analog high-frequency signal for electric field strength measurement via the directional antenna 260.

The image receiving apparatus 200 continues to transmit a high-frequency signal for measuring the electric field strength to the image transmitting apparatus 100 until the spread spectrum high-frequency signal is received from the image transmitting apparatus 100 according to an instruction from the control unit 201. (N in FIG. 2 S6b and 7b: test mode # 2).
The image transmission device 100 is used for measuring the electric field strength from the image receiving device 200 while continuing to transmit the high-frequency signal for measuring the electric field strength to the image receiving device 200 according to an instruction from the control unit 101 (S1a in FIG. 2). It is detected whether or not a high frequency signal is received (S2a in FIG. 2: test mode # 1).

When the image receiving device 200 side switches to the test mode # 2 and starts transmitting a high-frequency signal for measuring the electric field strength, the analog signal receiving unit 140 on the image transmitting device 100 side receives this signal (Y in S3a in FIG. 2).
At this point, the test mode # 1 is switched to the test mode # 2 according to an instruction from the control unit 101, and an analog high-frequency signal for measuring the electric field strength from the image receiving apparatus 200 is transmitted through the directional antenna 160 by the analog signal receiving unit 140. (S4a in FIG. 2).
On the other hand, on the image transmitting apparatus 100 side, the control unit 101 receives and demodulates an analog high-frequency signal for electric field strength measurement received via the directional antenna 160 by the analog signal receiving unit 140, and according to the electric field strength. Signal strength information is generated and supplied to the control unit 101 (S4a in FIG. 2).

Here, the control unit 101 gives an instruction to the antenna driving unit 150 to monitor the change in the signal strength information while changing the direction of the directional antenna 160.
That is, the direction of the directional antenna 160 in which the received signal for measuring the electric field strength is the largest is detected as the best point (S4a to S5a to S6a in FIG. 2: test mode # 2).
Then, when the direction (best point) of the directional antenna 160 in which the received signal for measuring the electric field strength is the largest (the best point) can be detected (S6a in FIG. 2), the controller 101 instructs the antenna driver 150. Then, the directional antenna 160 is fixed in the direction (S7a in FIG. 2).

  When the direction of the directional antenna 160 is fixed as described above, the test mode # 2 is switched to the normal mode according to an instruction from the control unit 101, and an analog high-frequency signal for electric field strength measurement by the analog signal receiving unit 140 is switched. The reception is stopped, and the spread spectrum digitally modulated image signal is transmitted from the SS image transmission unit 120 through the directional antenna 160 (S8a in FIG. 2).

As described above, when the image transmission apparatus 100 side switches to the normal mode and starts transmission of the digitally modulated image signal of the spread spectrum system, this signal is received by the SS image reception unit 220 on the image reception apparatus 200 side (see FIG. Y in 2S7b).
At this time, the test mode # 2 is switched from the test mode # 2 to the normal mode according to the instruction of the control unit 201, the analog signal transmission unit 230 stops the transmission of the analog high-frequency signal for electric field strength measurement, and the SS image reception unit 120 performs the spectrum spread. The digitally modulated image signal is received via the directional antenna 260 (S8b in FIG. 2).

As described above, in the information transmission system of this embodiment, the direction of the directional antenna 260 is adjusted based on the electric field strength of the signal received on the image receiving device 200 side that has received the signal from the image transmitting device 100 ( The test mode # 1) is configured to adjust the direction of the directional antenna 160 with reference to the electric field strength of the received signal on the image transmitting apparatus 100 side that has received the signal from the image receiving apparatus 200 (test mode # 2). Therefore, the direction of the directional antenna is adjusted before the image signal is transmitted by wireless communication using the directional antenna.
Accordingly, the direction adjustment of the directional antenna can be easily performed, and the direction adjustment of the directional antenna of the information transmission system can be accurately performed.

In addition, in this embodiment, the test mode signal is transmitted and received separately from the spread spectrum method, and the direction adjustment of the directional antenna is performed using the electric field strength of the test mode signal. The direction of the directional antenna can be easily adjusted.
In the description of the embodiment described above, the direction adjustment of the directional antennas on both the image transmission device 100 side and the image reception device 200 side is performed, but only one of the adjustments may be performed.
In this case, in order to adjust the direction of the directional antenna 160, the analog signal receiver 140 and the analog signal transmitter 230 may be provided in addition to the spread spectrum transmitter and receiver.
In addition, in order to adjust the direction of the directional antenna 260, the analog signal transmission unit 130 and the analog signal reception unit 240 may be provided in addition to the spread spectrum transmission unit and the reception unit.

In the above embodiment, the direction of the directional antenna is automatically adjusted by the antenna driving unit. However, by displaying the electric field strength according to the electric field strength information on the operation display unit. It is also possible for the operator to adjust the direction of the antenna.
Further, in this case, instead of the electric field strength display, display indicating the best point of the antenna direction and adjustment by sounding are also possible.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a configuration explanatory diagram illustrating an electrical configuration of the best mode for carrying out the present invention. It is a flowchart which shows the operation | movement state of the best form for implementing this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 100 Image transmission apparatus 101 Control part 110 Operation display part 120 SS image transmission part 130 Analog signal transmission part 140 Analog signal reception part 150 Antenna drive part 160 Directional antenna 200 Image reception apparatus 201 Control part 210 Operation display part 220 SS image reception part 230 Analog Signal Transmitter 240 Analog Signal Receiver 250 Antenna Drive Unit 260 Directional Antenna

Claims (5)

An information transmission system for transmitting information from a transmission device to a reception device by wireless communication using a directional antenna,
The transmission device has a function of a normal mode for transmitting the information to be transmitted and a test mode for transmitting a signal other than the information to be transmitted,
The receiving device has a function of a normal mode for receiving the information to be transmitted and a test mode for receiving a signal other than the information to be transmitted,
During operation in the test mode, on the receiving device side that has received the signal from the transmitting device, the direction of the directional antenna on the receiving device side is adjusted based on the electric field strength of the received signal.
An information transmission system characterized by that. An information transmission system for transmitting information from a transmission device to a reception device by wireless communication using a directional antenna,
The transmitting device has a function of a normal mode for transmitting the information to be transmitted and a test mode for receiving a signal other than the information to be transmitted,
The receiving device has a function of a normal mode for receiving the information to be transmitted and a test mode for transmitting a signal other than the information to be transmitted,
During operation in the test mode, on the transmission device side that has received the signal from the reception device, the direction adjustment of the directional antenna on the transmission device side is performed with reference to the electric field strength of the received signal.
An information transmission system characterized by that. An information transmission system for transmitting information from a transmission device to a reception device by wireless communication using a directional antenna,
The transmitter has functions of a normal mode for transmitting the information to be transmitted and a test mode for transmitting and receiving a signal other than the information to be transmitted,
The receiving device has a function of a normal mode for receiving the information to be transmitted and a test mode for transmitting and receiving a signal other than the information to be transmitted,
During operation in the test mode, as the first test mode, the receiving device side that has received the signal from the transmitting device uses the directional antenna on the receiving device side as a reference with reference to the electric field strength of the received signal. The direction adjustment is performed, and as a second test mode, the direction of the directional antenna on the transmission device side is adjusted on the transmission device side that has received the signal from the reception device on the basis of the electric field strength of the received signal. ,
An information transmission system characterized by that. An antenna driver for adjusting the direction of the directional antenna;
Control means for controlling the direction adjustment of the directional antenna via the antenna driving unit with reference to the electric field strength of the signal received during the test mode operation;
The information transmission system according to claim 1, further comprising: Transmit the image signal as the information to be transmitted by spread spectrum wireless communication,
The information transmission system according to claim 1, wherein the information transmission system is an information transmission system.

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