JP2748360B2 - Vehicle information transmission device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION   The present invention will be described in the following order. A. Industrial application fields B. Summary of the Invention C Conventional technology D Problems to be solved by the invention E Means for solving the problems (Fig. 1) F action G Example   G₁Description of sender   G_TwoTerminal description   G_ThreeExplanation of random access transmission   G_FourExplanation of polling transmission   G_FiveDescription of Modification of Transmitter on Terminal Side H Effect of the Invention A. Industrial application fields   The present invention relates to passenger seats for aircraft, trains, buses, etc.
Information signals, etc. are transmitted from the central control unit to terminal devices
And also transmit information signals from the terminal device.
The present invention relates to a vehicle information transmission device suitable for use in a vehicle. B. Summary of the Invention   The present invention relates to passenger seats for aircraft, trains, buses, etc.
Information signals, etc. are transmitted from the central control unit to terminal devices
And also transmit information signals from the terminal device.
Information transmission device that is suitable for
Transmission from the terminal device to the central controller
Random access transmission and polling transmission
Use different carrier for each transmission
This allows information to be transmitted efficiently and in a short time.
Things. C Conventional technology   For example, U.S. Pat.
Provide separate video displays on the passenger seats of the goods.
Are shown. In other words, the video display on the passenger seat
And the video display
Multiple video signals in parallel to each video display.
On the ray side, one of the signals is selected and displayed.
You. D Problems to be solved by the invention   In this conventional device, a plurality of video signals are
Transmitted to each video display using independent transmission lines.
That require many transmission lines.
You. Therefore, the wiring becomes complicated and the device becomes complicated.
There's a problem.   In particular, supply video signals from each video display
By transmitting information such as the state of the seat to the control device,
If two-way communication is possible, more
The transmission line was required, and the configuration became more complicated.
In addition, aircraft tend to be larger in recent years, for example, 500
It is not possible to make such wiring on aircraft with more than seats.
It was close to possible.   In view of such a point, the present invention enables two-way transmission with a simple configuration.
With the aim of providing a possible vehicle information transmission device
You. E Means to solve the problem   The vehicle information transmission device according to the present invention is, for example, shown in FIGS.
As shown in FIG. 2, the central control units (5) and (8)
Information that is connected to the terminal device (30) so that bidirectional communication is possible
In the transmission equipment, from the terminal equipment (30) to the central control equipment
(5), transmission to (8), the reading light generated by the terminal device
Of the lighting request information of the first frequency using the carrier of the first frequency.
Transmits dumb access and requests the seat requested by the central controller.
Toberuto wearing state or reclining mechanism operating state
Information is polled using the carrier of the second frequency.
It is something we believe in. F action   According to the vehicle information transmission device of the present invention, the terminal device (3
0) to the central control unit (5), (8)
System access transmission and polling transmission.
This random access transmission and polling
Transmission by dividing the transmission
Transmission from multiple terminal devices (30) efficiently.
Can be. G Example   Hereinafter, one embodiment of the present invention will be described with reference to FIGS.
An example will be described. In this example, video signals and audio
It is a transmission device for transmitting signals and the like. G₁Description of sender   First, the transmitting side as the central control unit is described with reference to FIG.
Will be explained. In FIG. 1, (1a) to (1d) are crew members.
A video tape recorder provided on the transmitting side of a room
You. Video tape recorder (1a) is for override
Is a cassette that records how to put on a life jacket, etc.
Tape is loaded. Video tape recorder
(1b)-(1d) show cassette tapes with movies
It is loaded. These video tape recorders (1a)
(1d) includes a terminal V to which a playback video signal is output, and a playback terminal.
Terminals L, R, and A for outputting audio signals are provided. This
These video tape recorders (1a) to (1d) are bilingual
Terminals L and R are in the language of the first country, respectively.
Output terminals for the left audio signal and the right audio signal
A is a monaural audio signal output terminal in the language of the second country
is there.   (2) is a TV tuner.
Terminal (2) has a terminal V for outputting a video signal,
Terminals L and R for outputting voice signals are provided. Terminal L
And R are output terminals of a left audio signal and a right audio signal, respectively.
is there.   Also, (3) is a still picture reproducing machine, which can be used for maps, airfields.
Compact disc with information such as guide maps, so-called CD
  It is made to play ROM. This still picture
A terminal for outputting a video signal for a still image is provided on the greige machine (3).
And a terminal A for outputting an audio signal.
You.   (4a) and (4b) are compact disc
Player (CD player) and three tape recorders
These sound reproducers (4a) and
(4b) has six pairs of terminals L and R for outputting audio signals, respectively.
Is provided. Terminals L and R are the left audio signal and
Output terminal for right audio signal.   (5) is a control device, and (5a) is a control device.
Microphone, (5b) is voice signal from microphone (5a)
Volume to adjust the signal level, (5c) announcer
ー 、 (5d) is override key, (5e) ～ (5g) is husband
Each video tape recorder (1b)-(1d)
This is the pause key to perform. Video tape recorder
Video signal and terminal obtained at terminal V of (1a) and (1b)
The audio signals obtained for L, R, and A are each controlled
(5). Video is displayed on the control device (5)
Signal output terminal V and audio signal output terminals L, R, A are provided
Output terminals V and L, R, A
Video signal obtained at the terminal V of the videotape recorder (1b)
And audio signals obtained at terminals L, R, and A are output.
-Press the override key (5d) to turn on the override.
To connect to the terminal V of the video tape recorder (1a)
The video signal obtained and the audio signal obtained at terminals L, R, A are
Is output. Press the Announce key (5c)
When the microphone is turned on, a microphone is connected to the output terminal A.
The audio signal from (5a) is output.   (6) and (7) are conventional cable
Digital audio / data transmission system (CADA system)
This is the CADA encoder used in the system. CADA system
System is, for example, time-division
Weight, one TV channel vacant CATV (6M
Hz), which impairs the sound quality of music, etc.
, And a system that can transmit extremely efficiently. CADA
Encoders (6) and (7) are A / D converters and shift
A / D converter that converts multiple audio signals
To a digital signal, and the shift register
Input to each position in parallel
Time-division multiplexing
It is configured to be made. It's digital audio
Control data and computer software
Air data can also be multiplexed.   Connect the output terminals L, R, and A of the control device (5)
The obtained audio signal is supplied to the encoder (6). Ma
Output terminals of video tape recorders (1c) and (1d)
The audio signals obtained in L, R, and A are supplied to enorder (6).
It is. Further, the output terminals L and R of the tuner (2) and the switches
The audio signal obtained at the output terminal A of the video playback device (3)
Supplied to the encoder (6). In addition, audio player (4a)
6 pairs of output terminals L and R and 3 pairs of outputs of audio player (4b)
The audio signals obtained at the input terminals L and R are
Supplied to encoders (6) and (7) via (5)
You.   Also, the override key of the control device (5)
(5d), announce key (5c), pause key (5e)-
When (5g) is pressed, this control device (5)
Control data with the content corresponding to the key pressed
SC₁Is generated and this control data SC₁Is Enko
(6).   The encoder (6) has control data SC₁To
In response, output terminals A to E for outputting a pause control signal are provided.
And the pause control signals obtained at these output terminals AE.
Video tape recorders (1b) to (1d),
The audio reproducers (4a) and (4b) are controlled. That is, over
-Ride key (5d) and announcement key (5c) are pressed
The pause control signal is output to the output terminals A to E.
Video tape recorders (1b) to (1d), audio player
(4a) and (4b) are all in the pause state. Also,
Key (5e) to (5g) are output when pressed
A pause control signal is output to terminals A to C,
Each of the recorders (1b) to (1d) is put into a pause state.   Also, (8) is a computer that performs in-flight management.
Master controller
Controller (8) controls the terminal device on the receiving side.
Rule data SC_TwoIs generated and this control data SC_Two
Is supplied to the encoder (6). This control
Data SC_TwoIs the state of the seat where the terminal device is installed
Data requesting the data shown.   (9a) is the ROM where the menu data is written,
In (9b) to (9h), different game data are written respectively.
ROM. Read from this ROM (9a) to (9h)
Data SD for computer software is a signal processing circuit
Supplied to (10), error correction code added, etc.
After that, it is supplied to the encoder (7).   Control data SC₁And SC_TwoIs the encoder
From (6), it is also supplied to the encoder (7).   The output terminal O of the encoder (6) is
Digital signals of multiple audio signals
Role data SC₁, SC_TwoTime-division multiplexed signal Sc_A1Get
This signal Sc_A1Is supplied to the modulator (11f) and VSB
AM modulation is performed using the (remaining sideband) method. Also the encoder
The output terminal O of (7) receives a plurality of supplied audio signals.
Digitally converted, control data SC₁, SC_Two
Division multiplexing of data SD for computer and computer software
Signal Sc_A2And this signal Sc_A2Is the modulator (11
g) and AM-modulated by the VSB method.   Also, it is obtained at the output terminal V of the control device (5).
The video signal is supplied to the modulator (11a) and
The audio signal obtained at the output terminal A of the troll device (5)
The signal is supplied to the modulator (11a). In the modulator (11a)
The audio signal is FM modulated and frequency multiplexed with the video signal.
After the same as a normal TV signal,
M modulated.   In addition, video tape recorders (1c), (1d),
(2) and the output terminal V of the still picture reproducing device (2).
Video signals to be supplied to the modulators (11b) to (11e), respectively.
Then, it is AM-modulated by the VSB method.   Here, the modulators (11a) to (11g) are, for example, television
Over 60 transmission channels to prevent cross modulation
Modulation in frequency band every two channels in sequence
Have been.   The output signals of the modulators (11a) to (11g) are
It is supplied to (12) and frequency-multiplexed. And adder
Frequency multiplexed signal S from (12)_MFIs a duplexer (13)
Cable that constitutes a two-way signal transmission means via the
(Leakage cable) (21). This resource
Terminating resistor (22) is connected to the other end of the key cable (21)
Is terminated. This leaky cable (21) is an example
For example, a spiral cutout around the coaxial cable
The amount of leakage was increased. G_TwoTerminal description   Also, (30) is provided separately on the passenger seat of the aircraft.
In the figure, only one terminal device is shown. This end
In the end device (30), (31) is a leaky cable (2
1) More leaky frequency multiplexed signal S_MFAnne for catching
Tena. Frequency multiplied by this antenna (31)
Heavy signal S_MFIs a TV tuner (3
3) and supplied to the CADA tuner (34). Tuner (3
3) is the channel of the output frequency band of the modulators (11a) to (11e).
Channel and select
(34) is the output frequency band of the modulators (11f) and (11g).
These channels are configured so that channels can be selected.
The channel selection in (33) and (34) is selectable.
Controlled by the device (35).   The video signal and sound output from the tuner (33)
The voice signal is supplied to the selection display device (35), and the
Time division multiplexed signal Sc output from the receiver (34)_A1Or
Sc_A2Is supplied to the CADA decoder (36). This CADA deco
The operation of each key (described later) of the selection display device (35) is performed by the reader (36).
Time division multiplex signal which is CADA data supplied according to the work
Sc_A1Or Sc_A2More desired data is extracted and selected
Display device (35) or personal computer (37)
To provide the retrieved data.   FIG. 4 shows the configuration of the panel surface of the selective display device (35).
This is an example, and this panel surface is shown in FIG.
It is located behind the passenger seat. In FIG.
(35a) is a table consisting of flat cathode ray tubes, liquid crystal displays, etc.
Display device, (35b) is the sound to which headphones (35c) are connected
Output terminal, (35d) is a joystick for games
(35e) etc. (see Fig. 1)
You.   (35f) is TV selection key, (35g) is music selection
Key, (35h) is the channel indicator, (35i) is the channel
Down key and (35j) are channel up keys.
You. In this case, press the TV selection key (35f)
Channel down key (35i), channel up key (35j)
Press sequentially to change TV channels sequentially
You. That is, the receiving channel and the TV tuner (33)
And the audio signal output from the CADA decoder (36) changes
The display (35a) has a video tape recorder (1
b)-(1d), tuner (2), still picture playback device (3)
When the screen of the video signal output from the
And the corresponding audio signal is output to the audio output terminal (35b).
Is done. Here, when the audio signal is in two languages, 1
Two channels are assigned to one video signal screen
The first channel is a voice signal in the language of the first country.
No., the second channel is an audio signal in the language of the second country
Is output. Press the music selection key (35g)
Channel down key (35i), channel up key (3
5j) The music channel changes sequentially by pressing
It is. That is, the audio signal output from the CADA decoder (36)
The signal is changed and the audio signal is output to the audio signal output terminal (35b).
The audio signals output from the devices (4a) and (4b) are sequentially output.
It is.   (35k) is the menu display key, (35l) is the cursor
Down key, (35m) is cursor up key, (35n)
Is the enter key. In this case, the menu display key
By pressing (35k), the personal computer (3
7) Video signal based on data from menu ROM (9a)
No. is supplied to the selection display device (35) and the display device (35a)
The menu screen is displayed. And cursor down
Display image by key (35l), cursor up key (35m)
Enter game after selecting the game by moving the cursor on the surface
Key (35n), the personal computer
Game ROM (9b)-(9h) selected from the data (37)
The video and audio signals based on these data are selectively displayed.
(35) and the game screen is displayed on the display (35a).
Is displayed and the sound output terminal (35b)
A voice signal is output.   In Fig. 4, (35p) indicates the stewardessco.
Key, (35q) for reading light key, (35r) for volume adjustment
Volume.   Also, from the master controller (8), CADA
(6) sent to leaky cable (21)
Control data SC_TwoMultiplexed signal S including_MFThe husband
Captured by the antenna (31) of each terminal device (30) and CADA
It is supplied to a tuner (34). This CADA tuner (34)
Is the frequency multiplexed signal S_MFFrom the above-mentioned CADA data
No. Sc_A1And supplies it to the CADA decoder (36).
You. This CADA decoder (36) is configured as shown in FIG.
Signal from the CADA tuner (34) to this decoder (36)
Sc_A1Is supplied via the CADA data input terminal (36a)
Then, it is supplied to the decoding section (36b).
This decoding unit (36b) is a decoder provided in the decoder (36).
Instructions from the microcomputer (36c) or CADA data
Required from CADA data according to the instructions contained in
Demodulates data and supplies to microcomputer (36c)
I do.   In addition, this microcomputer (36c) has optional
Selection signal by operating each key is selected from the display device (35)
Supplied through the signal input terminal (36d)
Computer (37) for games included in CADA data
The data selection signal is connected to the game selection signal input terminal (36e).
The data is supplied to the microcomputer (36c) via the microcomputer. Ma
The demodulated sound from the microcomputer (36c)
Various data signals such as voice can be selected via output terminal (36f)
Demodulated game data supplied to the display device (35)
The signal is output from the personal computer via the output terminal (36g).
(37).   The CADA decoder (36) has an address generator
(36b) and the sheet ID storage unit (36i) are incorporated.
This terminal device (30) was attached from the generator (36b).
Seat (or the seat where the user of this terminal device (30) sits)
Information on the location of the seats)
(36c), and from the sheet ID storage unit (36i)
Seat with terminal (30) (or this terminal
Date of manufacture, model, etc. of the seat (30)
The information about this seat is a microcomputer (36c)
Supplied to   In addition, a sensor (39) that detects the status of this seat is
Connected to a black computer (36c)
Seat belt insertion and reclining mechanism operation
The microcomputer detects the state by the sensor (39)
(36c).   Then, from the CADA decoder (36), the transmitter (3
8) Through the central controller master controller
A predetermined signal can be transmitted to (8). This
In the case of (1), the transmitter (38) has a random access as shown in FIG.
Transmitter (38a) and polling transmitter (3
8b), and both transmitters (38a) and (38b) determine in advance.
The carrier of the specified frequency is superimposed on the transmission signal.
Then, the output signals of both transmitters (38a) and (38b) are added
(38c) and frequency multiplexed. In this case,
At the time of random access transmission as shown in FIG.
₁(779.0MHz) is used as the carrier wave and polling transmission
Is f_Two(779.2MHz) is the carrier. And the adder (38
The signal multiplexed in c) is the output terminal of the transmitter (38)
(38d) to the antenna (31) via the duplexer (32).
And a leaky cable (2
1) transmit the signal to the central controller via And
The signal supplied from the terminal device (30) is sent to the central control unit.
The signal is demodulated after being demultiplexed with other signals by the demultiplexer (13).
(43) and transmitted and demodulated by this demodulator (43).
No. to CADA encoder (6)
(6) From the master controller (8) to the terminal device (3
0) to supply data based on the transmission signal. G_ThreeExplanation of random access transmission   Next, in the transmission device of this example, from each terminal device (30)
Random access to supply signals to the central controller as needed
The transmission will be described.   This random access transmission is selected in the selection table in this case.
Stewardess call key (35p) of display device (35) and
This is performed when the reading light key (35q) is operated. Immediately
And stewardess call key of selection display device (35)
Pressing (35p) will cause the input terminal (3
6d) Via CADA decoder (36) microcomputer
The steward desk call signal is supplied to the terminal (36c).
This stewardess call signal is a microcomputer
(36c), this stewardess call message
Number and address generator (36h)
Address signal and random access transmission of transmitter (38)
(38a). And random access transmission
In section (38a), the transmission signal for random access transmission described above
And modulates this transmission signal through the adder (38c).
And supplies it to the output terminal (38d) of the transmitter (38). Soshi
From the output terminal (38d) and the duplexer (32) and antenna.
To the leaky cable (21) via the cable (31).
And this call signal is from leaky cable (21)
Central control unit side via splitter (13) and demodulator (43)
To the CADA encoder (6). And this signal
CPU (not shown) in CADA encoder (6) based on
The switch box (40) is controlled by the address
Stewardessco corresponding to the seat indicated by the signal
The lamp light (41) is turned on. Also, select table
Press the reading light key (35q) on the display device (35) to select it.
CADA decoder via input terminal (36d) from device (35)
(36) Microcomputer (36c) with reading lamp lighting signal
No. is supplied. This lighting signal is a microcomputer
(36c), this lighting signal and address generation
And the address signal of this seat supplied from the container (36h)
Supplied to the random access transmitter (38a) of the transmitter (38)
I do. And when the above steward desk call signal
In the same manner as in
The transmission signal (38a) modulates the signal into a transmission signal.
Central control unit CA via leaky cable (21)
Supply to DA encoder (6), and inside CADA encoder (6)
The switch box (40) is controlled by the CPU of
Reading light corresponding to the seat indicated by the dress signal (4
2) is made to light up. In this way, random
Access request is transmitted immediately.
And quick response. However, from multiple terminal devices (30)
When transmissions are performed at the same time,
Since the command is not transmitted exactly, it will be sent again after a predetermined time.
But it takes almost no time in this case.
No. G_FourExplanation of polling transmission   Next, the transmission device of the present embodiment controls the central control device.
Signal from each terminal device (30) to the central controller.
The polling transmission to be supplied will be described.   This polling transmission is performed by the central controller in this case.
The master controller (8) of each terminal device (30)
This is performed when it is desired to know the state of the vehicle and the state of the seat.
For example, the master controller (8)
Know if passengers are wearing seat belts
I suppose. At this time, the master controller (8)
From CADA encoder (6) to all terminal devices (30)
Control to request a response for seat belt wearing information
Data SC_TwoIs supplied. At this time, all terminal devices (3
0) cannot be asked for a response at the same time, so the master
-Advertisement of each terminal device (30) from the controller (8)
Control data SC_TwoOutput
You. For example, let's say this flight has 150 passengers
And all the addresses where these 150 passengers were seated
, Control data SC 150 times_TwoIs output.   This control data SC_TwoIs CADA encoder (6)
Control data SC_TwoDescribed above
Time-division multiplexed with other audio signals_A1Tona
The signal Sc which is the CADA data_A1But leaky cable
It is supplied to each terminal device (30) via (21). This
The signal Sc_A1Is supplied to the terminal device (30),
In the CADA decoder (36) of the device (30), the decoding unit
Control data in CADA data demodulated in (36b)
TA SC_TwoIs determined by the microcomputer (36c). this
Control data SC by discrimination_TwoAd directed by
Address is the address generator (36h) of this terminal device (30)
If the address matches the address output by
Microcomputer (36c) controlled by (30)
Data SC_TwoSeatbelt information signal instructed by
Is output to the polling transmission section (38b) of the transmitter (38).
You. This seat belt wearing information is sent as described above.
(39) supplied to the microcomputer (36c)
Is what it is. And the polling transmission unit (38b)
Modulates the transmission signal for polling transmission as described above.
This transmission signal is transmitted through the adder (38c) to the transmitter (3
8) Supply it to the output terminal (38d). And this output end
From the child (38d) through the splitter (32) and the antenna (31)
To the leaky cable (21). And this
The belt wearing information signal is from the leaky cable (21)
Central control unit side via splitter (13) and demodulator (43)
To CADA encoder (6), CADA encoder
The information is supplied from (6) to the master controller (8). This
Seat belt information on the master controller (8)
Once the signal is supplied, address another seat and re-
Wear a seat belt from the master controller (8)
Control data SC for requesting information response_TwoOutput
You. In this way, all terminal devices (30) are
Control data SC for requesting a reply to Toberto wear information
_TwoAre sequentially output.   Terminal device corresponding to all seats in this way (30)
To the master controller (8)
The master controller
(8) On the side, do not wear with a passenger wearing a seat belt
You can grasp passengers. The master control
From when the roller (8) outputs a signal to when there is a response
Because the time is very short, even if there are 150 seats, for example,
Polling transmission with all terminal devices (30) in a short time
Can do it. In the above example, the master controller
The information grasped by the roller (8) and the seat belt wearing information
However, in addition to this, for example, each of the sensors (39) detected
Operating status of the reclining mechanism of the seat, selection display device
Monitor of the viewing channel on the display device (35a) of (35)
Operation of the cursor keys on the selection display device (35)
Menu selection status, as well as the cursor
Select items to purchase for in-flight sales by operating keys
Species that can be detected by microcomputer (36c)
Various information can be collected and grasped.   Thus, according to the transmission device of this example, the terminal device (3
0) transmission of signals from the
Access transmission and polling transmission separately.
Random output with a fast response to the signal output from the device (30)
Access transmission required, signals from all terminal devices (30) required
When polling transmission is used, one
Efficient and quick information transmission using key cable (21)
No. can be transmitted. Also, random access
Transmission and polling transmission are transmission frequencies as shown in FIG.
So, for example, even during polling transmission
Perform random access transmission such as lighting control of reading light (42)
Can be. G_FiveDescription of Modification of Transmitter on Terminal Side   In the above embodiment, the transmitter included in the terminal device (30) is provided.
(38) as a random access transmitter (38a)
The transmitting unit (38b) is divided, for example,
As shown in the figure, both transmitters can be shared.
You. That is, in FIG. 6, (50) indicates the entire transmitter.
And from the CADA decoder (36) to the transmission signal input terminal (51)
The supplied transmission signal is supplied to the modulation circuit (52). this
The modulation circuit (52) is a circuit that performs FSK modulation on the transmission signal for transmission
Then, the output signal of the modulation circuit (52) is supplied to the multiplication circuit (53).
Supply. This multiplication circuit (53) is output by the modulation circuit (52).
The carrier wave output from the oscillator (54) is superimposed on the transmitted signal
This is the circuit that modulates the data.   This oscillator (54) is configured as shown in FIG.
The terminal (5
5) A high level signal is supplied to C during polling transmission.
High level signal from ADA decoder (36) to terminal (56)
Supplied. The terminal (55) is the first NAND gate circuit.
Connected to one input of the circuit (54a).
The other input side and output side of the heat circuit (54a) are connected to the first water.
It is connected via a crystal oscillator (54b). This first water
The crystal oscillator (54b) is the carrier for random access transmission described above.
It has the characteristic of oscillating transmission waves. The terminal (56) is
2 NAND gate circuit (54c) connected to one input side
Yes, the other input side and output side of the NAND gate circuit (54c)
And are connected via a second crystal resonator (54d).
This second crystal oscillator (54d) performs the polling transmission described above.
Has the characteristic of oscillating a carrier wave for use. And the first
And the outputs of the second NAND gate circuits (54a) and (54c)
One and the other inputs of the third NAND gate circuit (54e), respectively
And the output of this third NAND gate circuit (54e)
Side is connected to the output terminal (54f) of this oscillator (54).   By configuring the oscillator (54) in this way, the terminal
When the high level signal is supplied to (55), the first water
Access transmission according to the characteristics of the crystal oscillator (54b)
An oscillation signal corresponding to the carrier wave for
When a high level signal is supplied to the terminal (56).
Is polled according to the characteristics of the second crystal unit (54d)
Oscillation signal corresponding to carrier wave for transmission is output terminal (54f)
Is obtained. Therefore, the multiplication circuit (5
The carrier supplied to 3) ends at the CADA decoder (36)
Random (55) and (56).
Automatically switch between access transmission and polling transmission.
The modulation circuit (53) performs modulation suitable for each transmission method.
Be done.   With this configuration, random access transmission and
Polling transmission can be modulated by the same transmitter, simplifying configuration
become.   In the above embodiment, the present invention is applied to an information transmission device in an aircraft.
Information in vehicles such as trains and buses
The same can be applied to a transmission device. Also, the present invention
The present invention is not limited to the above-described embodiment, and may not deviate from the gist of the present invention.
Of course, various other configurations are possible. H Effect of the Invention   According to the vehicle information transmission device of the present invention, each terminal device
From the device (30) to the central controller (5), (8)
Random access transmission using a carrier of a first frequency and
Type of information in polling transmission by carrier of frequency 2
Separation is performed by using different transmission lines (21).
To efficiently transmit information signals in a short time.
There is profitable.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram showing an embodiment of a vehicle information transmission apparatus according to the present invention, FIG. 2 is a block diagram of a main part of the example of FIG. 1, FIG. 3 and FIG. 5 is a diagram for explaining the example shown in FIG. 1, FIG. 6 is a diagram showing a modified example of a transmitter used in the vehicle information transmission apparatus of the present invention, and FIG. 7 is an example shown in FIG. 3 is a configuration diagram of a main part of FIG. (1a) to (1d) are video tape recorders, (2) is a TV tuner, (3) is a still picture player, (4a) and (4a)
b) is a sound reproducer, (5) is a control device, (6)
And (7) are CADA encoders, (8) is a master controller, (9a) to (9h) are ROMs, (11a) to (11g) are modulators, (12) is adders, (13) and (32) Is a duplexer,
(21) is a leaky cable, (30) is a terminal device, (31)
Is an antenna, (33) is a TV tuner, (34) is a CADA tuner, (35) is a selection display device, (35p) is a stewardess call key, (35q) is a reading light key, and (36) is CADA
A decoder, (36b) is a decoding unit, (36c) is a microcomputer, (38) is a transmitter, (38a) is a random access transmission unit, (38b) is a polling transmission unit, and (39) is a sensor.

Claims (1)

(57) [Claims] In a vehicle information transmission device, a terminal device installed for each seat in a vehicle having a plurality of seats and a central control device for controlling the terminal device for each seat are connected so as to be capable of bidirectional communication. A random access transmission unit for transmitting, at any time, the reading request lighting request information generated by the operation of the terminal device to the central control device using a carrier wave of a first frequency, as the terminal device for each seat; The central control device requests the central control device from the central control device for the information on the seat belt wearing state of each seat or the operation state of the reclining mechanism, using the second frequency carrier. A polling transmitting unit that transmits when the output is performed, and an output unit that mixes the output of the random access transmitting unit and the output of the polling transmitting unit and outputs the mixed output to the central control device side. Vehicle information transmission device equipped with.