JP4155620B2 - Bidirectional CATV device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a bidirectional CATV communication apparatus that enables Internet communication on a terminal side using a bidirectional CATV apparatus that delivers image / audio data of a channel selected on each terminal side to each terminal. In particular, the hotel allows guests to communicate with the Internet in individual guest rooms.
[0002]
[Prior art]
Internet use facilities in the hotel have a dedicated terminal installed in a corner of the lobby, etc., and guests etc. go to that place or use a personal computer and a computer dedicated to the Internet in each guest room (some rooms). The method of installing and using is taken.
As the Internet spreads, hotels want to measure the introduction of Internet services in guest rooms, but to introduce computers, personal computers or network computers (collectively referred to as Internet computers in the specification) that can communicate with the Internet to each guest room. Has become a major obstacle to its introduction due to high equipment costs. A low-cost and easy-to-operate Internet utilization system has been desired.
On the other hand, images and audio signals selected from a plurality of TV programs or videos can be distributed to TV receivers in each guest room by a CATV device with two-way communication. You can select programs and videos and enjoy them.
However, in the conventional bidirectional CATV apparatus, the TV program / video image / audio signal generated on the center side is transmitted via the communication cable, but the operation signal / request signal is about 1 second. Communication is performed using a normal polling method and a request polling method at intervals of. For this reason, Internet communication that requires high-speed simultaneous signals cannot be performed by the polling operation signal transmission / reception method of the bidirectional CATV device, and Internet communication cannot be used immediately.
[0003]
[Problems to be solved by the invention]
The problem to be solved by the present invention is to provide a bidirectional CATV device which can solve these conventional problems and can perform Internet communication at each terminal at low cost by using the equipment of the bidirectional CATV device. It is in.
[0004]
[Means for Solving the Problems]
The configuration of the present invention that solves this problem is as follows.
1) A management computer and a CATV system that generates image and audio signals of TV programs / videos and sends them to a communication cable at a predetermined carrier frequency are installed at the center, and a CATV terminal and a TV receiver are respectively provided on a plurality of terminals. And the operation remote controller, and the center and the CATV terminal on each terminal side are connected via a coaxial line communication cable, request signals are exchanged by a polling system, and the video / audio signals of the CATV system are transmitted . In a bidirectional CATV apparatus that sends video and audio to a CATV terminal of a required terminal and reproduces video and audio on the TV receiver of the CATV terminal,
The center includes a plurality of Internet computers connected to the Internet communication line, a plurality of modulators that modulate the image and sound signals of each Internet computer with different frequencies, and the Internet modulated by the modulators. A mixer that mixes the modulation signals of the video and audio signals , a mixer / demultiplexer that sends the modulation signal mixed by the mixer to the communication cable, and the communication cable with a frequency specific to the terminal from the CATV terminal side. a distributor for delivering Internet operation signals sent by modulating the Internet receiver assigned to the terminal, setting a plurality of receivers for converting the Internet operation signal from the distributor to the input signal of the Internet computer ,
The CATV terminal of each terminal receives the Internet operation signal for operating the Internet selection signal or the Internet to start the Internet from the operation remote controller incorporates a circuit for outputting the signal to the following Internet transmitter, from CATV terminal An Internet transmitter that inputs an Internet selection signal or an Internet operation signal, modulates it with a frequency unique to the terminal, and sends it to the communication cable via the mixer / demultiplexer is provided on the terminal side,
Further, when the management computer receives an Internet selection signal from a terminal by two-way communication , the management computer assigns an Internet receiver and an Internet computer to be used for the terminal, and the Internet computer's Internet image / sound carrier frequency channel and Internet operation signal The carrier frequency channel information is sent to the terminal, the Internet video / audio is distributed from the center to the terminal CATV terminal via the communication cable, and the Internet operation signal from the terminal is assigned to each terminal. A bidirectional CATV apparatus characterized in that each terminal can freely perform Internet communication by sending it to the center through a frequency channel 2) From the remote control operation on the terminal side to the Internet connection of the center apparatus The bidirectional CATV apparatus according to 1), wherein the time until the computer receives the Internet operation signal is 100 msec or less.
[0005]
[Action]
In the present invention, a request for a video game or the like such as the Internet on the terminal side is communicated with a management computer by a request polling system at intervals of about 1 second as in the past, and the requested Internet video game or the like. The image / audio signal is modulated with a carrier frequency in a specific downstream band and transmitted to the CATV terminal.
The Internet can communicate with the outside by an Internet computer via an Internet communication line. When Internet communication of the operation remote controller is selected on the terminal side, the management computer notifies the management computer by request polling, and the management computer starts up the Internet computer via a free Internet receiver and connects to the browser. At the same time, the management computer notifies the CATV terminal of the carrier frequency data for transmitting the Internet operation signal and the reception channel data of the Internet image / sound to the terminal side. Therefore, an Internet operation signal from the remote controller on the terminal side is modulated and output at a specific frequency of the Internet transmitter via the CATV terminal. The operation signal is input to the Internet computer via the Internet receiver assigned to the center terminal, and Internet communication can be performed. Also, image / audio signals for Internet communication are modulated with a carrier frequency in the downstream band, mixed with other TV channels, sent to a coaxial transmission line, received by a CATV terminal, and output by a TV receiver.
In this way, the Internet operation signal is transmitted through a channel having a carrier frequency assigned to each terminal. As a result, it is possible to perform Internet communication without a feeling of strange operation on the terminal side.
[0006]
DETAILED DESCRIPTION OF THE INVENTION
The carrier frequency of CATV TV programs and video images and audio signals, and Internet communication image and audio signals use a downstream band of about 90 to 770 MHz, and request signals use frequencies of about 45 MHz and 75 MHz. In addition, as the frequency of the channel of the Internet operation signal, an upstream band frequency of 30 to 50 MHz is selected and used by the number of terminals. The CATV request signal is widely used in a normal polling for about 1 second and a request polling in between. The management computer can receive the request signal from the CATV terminal in about 1 second, and it is preferable that the internet operation signal is input within 100 msec from the remote control operation to the internet computer because rapid internet communication is possible.
[0007]
【Example】
An embodiment of the present invention will be described with reference to the drawings. The present embodiment is an example applied to a two-way hotel CATV apparatus between a hotel center (front and broadcast center, etc.) and a guest room. FIG. 1 is a configuration diagram of the embodiment. FIG. 2 is a block diagram of the hotel CATV terminal of the embodiment. FIG. 3 is a block diagram showing the Internet transmitter of the embodiment. FIG. 4 is a block diagram of the Internet receiver of the embodiment. FIG. 5 is an explanatory diagram showing channel allocation in the embodiment. FIG. 6 is an explanatory diagram showing details of Internet operation channel allocation. FIG. 7 is an explanatory diagram showing request boring of bidirectional communication. FIG. 8 is a flowchart of the Internet operation of this embodiment.
In the interactive hotel CATV apparatus, the center apparatus is connected to a plurality of guest room terminal apparatuses using coaxial cables.
The configuration of the interactive CATV center device 1 and the guest room terminal device 2 (excluding the Internet transmitter 24) in FIG. 1 is almost the same as that of the conventional interactive hotel CATV system and the management computer 10 that controls the entire system and a unique identification code The hotel CATV terminal 20 (hereinafter referred to as an address) has a normal polling type data communication in order to promptly respond to requests (requests) from a plurality of hotel CATV terminals 20 by polling type two-way data communication. In the meantime, the management computer 10 sends a simultaneous request signal to a plurality of hotel CATV terminals 20 at a predetermined rate, and the plurality of hotel CATV terminals 20 having a request randomly generates a delay time with a random number, and has the shortest delay. Hotel CATV terminal 20 with time adds response signal to address To the management computer 10. The management computer 10 instructs the other hotel CATV terminals 20 to wait in the answer-back state of the same response, and the request processing of the hotel CATV terminals 20 that returned the response earlier is short (within 1 second as real time). In addition, the hotel CATV head-end device 11 sends video and audio television signals such as general broadcasts, pay movies, and games, and sends them to the guest room terminal device 2 through the trunk coaxial line C1. This is a bidirectional hotel CATV apparatus that can select a station by operating the wireless remote control 21 on the hotel CATV terminal 20 and reproduce and view the video / audio on the television receiver 23.
Next, the Internet transmitter 24 and the center device 3 of the guest room terminal device 2 of FIG.
The Internet operation transmitter 24 of the guest room terminal device 2 has a variable oscillation function of 30 MHz to 50 MHz, and can generate an arbitrary carrier wave (hereinafter referred to as an Internet operation channel) of a maximum of 32 waves (a maximum of 32 guest rooms can be used simultaneously). The wireless remote controller 21 is a wireless remote controller in which keys necessary for Internet operation are provided as keys used for conventional general broadcast, pay broadcast, game operation, and the like. The Internet transmitter 24 has a function of modulating the serial operation data of the key information array inputted via the hotel CATV terminal 20 and transmitting it to the center by the Internet operation signal generated by the wireless remote controller 21.
On the other hand, the center device 3 on the center side has a function of receiving operation signals from the Internet transmitters 24 of a plurality of guest room terminals and accessing the Internet. Of these, 30 is a distributor that separates different carriers from a plurality of guest rooms and connects them to a predetermined Internet receiver. Reference numeral 31 denotes an Internet receiver having a function of synchronizing with the Internet operation channel transmitted by the Internet transmitter 24, converting the demodulated serial data into a signal form readable by the Internet computer 33, and outputting the signal. Reference numeral 33 denotes an Internet computer, which accesses the WWW server including the provider's automatic line connection. Reference numeral 34 denotes a modulator that converts Internet images and sound into television signals. The number of Internet receivers 31, Internet computers 33, and modulators 34 to be installed is determined by the number of hotel guest rooms and the operating rate. Reference numeral 36 denotes a multi-board repeater hub used in 10BASE-T, which is connected to the Internet computer 33 by a network cable 37. Reference numeral 39 denotes an OCN line of the Internet connection service provided by NTT, and reference numeral 38 denotes a router necessary for connecting to the OCN line 39 from the hub 36.
Further, in order to clarify the details of the hotel CATV terminal 20, the wireless remote controller 21, the Internet transmitter 24, and the Internet receiver 31, these block diagrams are shown in FIGS.
FIG. 2 is a block diagram of the hotel CATV terminal 20, 201 is a two-way communication data and television signal input terminal, 202 is an electronic tuner, and a hotel CATV headend device 11 sent from the two-way CATV center device 1 and A television signal of an Internet image is selected, and an AV (video, audio) signal is extracted by demodulation. Reference numeral 203 denotes an on-screen circuit that performs composition such as channel display and character display on the video from the electronic tuner 202 or telop display. Reference numeral 204 denotes an RF modulator that converts the on-screen processed video signal and audio signal into a television (1CH or 2CH) signal again, and outputs it from the output terminal 205. 206 is an FSK modem (downstream data signal 75 MHz, upstream data signal 45 MHz) as means for performing bidirectional communication with the management computer 1, 207 is a CPU that controls the entire cabin terminal device 2, and 208 is an image that has undergone on-screen processing. This is an AV amplifier circuit for setting the signal and the audio signal to an appropriate level by the television receiver 23. The video is output from the output terminal 209, and the audio signals L and R are output from the output terminals 210 and 212. A remote control light receiving sensor 213 receives operation switch information of the wireless remote controller 21. Reference numeral 214 denotes an operation switch and LED display on the main body. The keys necessary for the Internet browser operation of the hotel CATV terminal 21 (up / down / left / right arrows, confirm, cancel, return to the previous) are converted by the CPU 207 into serial data of the key arrangement of 2 bytes in order to speed up the operation response. The data is transferred from the terminal 216 to the Internet transmitter 24 via / F215. Reference numeral 217 denotes a relay circuit for turning on / off AC 100 V, which is a commercial power source, to the TV receiver 23 and is supplied from the receptacle 218. Reference numeral 219 denotes a ROM which stores data such as a program and telop display created by the on-screen 203, 220 is a temporary storage RAM, 229 is an EEPROM which can be electrically read / written, and data such as an address is here. Remembered. A power supply 222 supplies DC power to each unit of the guest room terminal device 2. (This block diagram is deleted except for the part related to Internet use)
Next, the description of FIG. 3 will be given.
In FIG. 3, 24 is an Internet transmitter which creates an Internet operation channel (any one wave of a maximum of 32 channels) from the frequency data sent from the hotel CATV terminal 20 and operates the remote control of the Internet browser. It has the function of modulating with serial data and sending it to the common hearing path. Further, the frequency data of the channel is managed by the management computer 10, and the frequency data of the empty operation channel at the time of the Internet request is allocated to the hotel CATV terminal 20 from the trunk coaxial line C1.
In FIG. 3, 240 is a serial data input terminal from the hotel CATV terminal 20, and 241 is a control circuit that determines whether it is frequency data or remote control operation data on the Internet from the serial data input from the serial data input terminal 240. Then, it is passed to the oscillation and modulation circuit 242. Reference numeral 242 denotes an oscillation and modulation circuit that creates an Internet operation channel from frequency data, modulates it with serial data by remote control operation of an Internet browser, amplifies it to a predetermined level by an RF AMP circuit 243, and outputs it from a terminal 244.
Next, the description of FIG. 4 will be given.
Reference numeral 31 in FIG. 4 denotes an Internet receiver, which tunes to an Internet operation channel emitted by the Internet transmitters 24 of a plurality of guest rooms, performs demodulation, and performs signal conversion that can be read by the Internet computer 32. Also, it has a communication function with the management computer 10 via RS485. 310 is an input terminal for the Internet operation channel, and 311 is an L.P. P. F (low-pass filter). A tuning and demodulation circuit 312 tunes to a predetermined wave from a plurality of Internet operation channels, performs demodulation, and restores TTL level serial data. A signal conversion circuit 313 converts the signal into a signal format that can be read by the Internet computer 32 connected from the output terminal 314. An oscillation circuit 315 oscillates the local frequency of the Internet channel that is tuned by the tuning and demodulation circuit 312. Reference numeral 316 denotes a CPU which is connected to the management computer 10 through a terminal 317 and transmits an Internet operation channel to be tuned by the Internet receiver 31 managed by the management computer 10, an Internet start request signal from the guest room terminal device, an end request signal, etc. The Internet receiver 31 performs input control of a function for performing communication (RS-485) such as operation information and a recognition address 319 for performing communication by the oscillation circuit 315 and the RS-485. A ROM 318 stores a program for operating the CPU 316. 320 is a relay circuit for starting and ending the Internet by turning on and off the commercial power supply AC100V of the Internet computer 33, and supplies AC100V to the receptacle 321. Reference numeral 322 denotes a DC power source for operating the Internet receiver 31.
The operation will be described below with reference to FIGS. 1, 2, 3, 4, and 5.
The management computer 10 always manages the operating status of the Internet computer 33 through the Internet receiver 31 and notifies the hotel CATV terminal 20 of the operation. When a guest or the like uses the Internet in a guest room, using the wireless remote control 21 and operating the power key, the relay circuit 217 of the hotel CATV terminal 20 is turned on, supplying AC100V to the television receiver 23 and via the AV cable 22 A selection menu screen for the Internet, games, VOD (video on demand), karaoke, etc. is displayed. When the Internet is selected by using the up and down arrow keys, the Internet start signal is received by the remote control light receiving sensor 213 and processed by the CPU 207, FSK It is modulated by the modem 206 and is sent to the management computer 10 from the terminal 201 via the transmission paths C3, C2, C1, B3, B1 as a high frequency signal in the upstream band. The management computer 10 is connected to a plurality of Internet receivers 31 via a terminal 317 via an RS-485 line 32 communication line, and notifies the CPU 316 of the start signal. Therefore, the relay circuit 320 is turned on, the power of the Internet computer 33 connected to the terminal 321 is turned on, and the OCN line of the router 38 is connected to the Internet of NTT registered in advance in the Internet computer 33 through the network cable 37 connected to the hub 36. 39 is automatically connected to the NTT Internet. The Internet computer 33 rises on a preset homepage screen and outputs an image and audio signal. This signal is connected to a modulator 34, modulated into a high-frequency television signal of 90 to 770 MHz, mixed with a plurality of television signals by a mixer 35, and is connected to a coaxial line A and a data coaxial line B2 (downstream television signal line). The signal is mixed / demultiplexed by the mixer / demultiplexer D2 and sent to the main coaxial line C1. On the other hand, the management computer 10 mixes / demultiplexes the two-way communication coaxial line B1 with the hotel CATV terminal 20 and the Internet data channel coaxial line B2 by the mixer / demultiplexer D1, and series B3, D2, C1, and D3. Through the unit, the coaxial cable C2, the mixer / demultiplexer D4, and the coaxial cable C3, the hotel CATV terminal 20 is notified of the frequency data of the Internet operation channel, and passed to the Internet transmitter 24. The hotel CATV terminal 20 selects the Internet TV signal sent from the modulator 34 by the tuner 202 and outputs it to the TV receiver 23 through the video output 209 and the audio output terminals 210 and 212 to provide a homepage screen. . From here, guests can access various WWW servers using the browser function of the Internet. The key signal operated by the wireless remote controller 21 is operated by the up / down / left / right arrow keys, confirm, cancel, and return key. The key signal received by the remote control sensor 213 of the hotel CATV terminal 20 is received by the CPU 207 from the remote control signal by 2 bytes. The frequency data of the Internet operation channel is converted into the serial data of the key arrangement, and the oscillation and modulation circuit 242 via the I / F 215 from the terminal 216 via the serial data input terminal 240 of the Internet transmitter 24 and the control circuit 241. The Internet operation channel modulated with the serial data of the key arrangement is created in the center through the transmission path of the coaxial cable B4, the mixer / demultiplexer D4, C2, D3, C1, D2, B3, D1, B2 from the output terminal 244. The distributor 30 of the device 3 (interfacing from a plurality of guest rooms) Distributed according to the required number on the net operating channel there), the input terminal 310 of the Internet receiver 31, L. P. The data is restored to TTL level serial data by the tuning and demodulation circuit 312 via F 311, converted to a signal readable by the Internet computer 33 by the signal conversion circuit 313, and output from the terminal 314, whereby the network cable 37 from the Internet computer 33, The hub 36, the router 38, and the OCN line 39 can be accessed every time the NTT Internet is operated. When the Internet is terminated, the relay 320 of the Internet receiver 31 is turned off and the power source 322 is turned off in the same manner as the operation route for starting the Internet. The start and end of the Internet are processed by request polling of the bidirectional data communication function, and the actual browser operation is processed from the guest room by performing the real-time processing through the Internet transmitter 24 and the Internet receiver 30 in an instant. Internet use is possible. (In this embodiment, the maximum number of Internet operation channels is 32, but this is not limited.)
FIG. 4 shows the procedure of Internet communication.
[0008]
【The invention's effect】
As described above, in the interactive CATV device of the present invention, the Internet computer is installed as a central device with the number corresponding to the operation status of the number of guest rooms, and can be operated from each guest room. It is very large, and guests can easily operate it from the remote terminal side of their room etc. and spend amenity regardless of time.
[Brief description of the drawings]
FIG. 1 is a configuration diagram of an embodiment.
FIG. 2 is a block diagram of a hotel CATV terminal according to the embodiment.
FIG. 3 is a block diagram illustrating an Internet transmitter according to an embodiment.
FIG. 4 is a block diagram of an Internet receiver according to an embodiment.
FIG. 5 is an explanatory diagram showing channel allocation according to the embodiment.
FIG. 6 is an explanatory diagram showing details of Internet operation channel allocation.
FIG. 7 is an explanatory diagram showing request boring for bidirectional communication.
FIG. 8 is a flowchart of Internet operation according to the present embodiment.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Bidirectional CATV center apparatus 2 Guest room terminal apparatus 3 Center apparatus 10 Management computer 11 Hotel CATV headend apparatus 20 Hotel CATV terminal 21 Wireless remote control 23 TV receiver 24 Internet transmitter 30 Divider 31 Internet receiver 32 RS485
33 Internet Computer 34 Modulator 35 Mixer 36 Hub 37 Network Cable 38 Router 39 OCN Lines B1, B2, B3, B4, C1, C2, C3 Coaxial Cables D1, D2, D3, D4, D5 Mixer / Demultiplexer

Claims (2)

A management computer and a CATV system for generating image / audio signals of TV programs / videos and sending them to a communication cable at a predetermined carrier frequency are installed at the center, and a CATV terminal and a TV receiver are respectively installed on a plurality of terminals. An operation remote control is provided, the center and the CATV terminal on each terminal side are connected via a coaxial line communication cable, a request signal is exchanged by a polling method, and a video / audio signal of the CATV system is required. In a bidirectional CATV apparatus for sending video and audio to a CATV terminal of a terminal and playing back video and audio on the TV receiver of the CATV terminal,
The center includes a plurality of Internet computers connected to the Internet communication line, a plurality of modulators that modulate the image and sound signals of each Internet computer with different frequencies, and the Internet modulated by the modulators. A mixer that mixes the modulation signals of the video and audio signals , a mixer / demultiplexer that sends the modulation signal mixed by the mixer to the communication cable, and the communication cable with a frequency specific to the terminal from the CATV terminal side. a distributor for delivering Internet operation signals sent by modulating the Internet receiver assigned to the terminal, setting a plurality of receivers for converting the Internet operation signal from the distributor to the input signal of the Internet computer ,
The CATV terminal of each terminal receives the Internet operation signal for operating the Internet selection signal or the Internet to start the Internet from the operation remote controller incorporates a circuit for outputting the signal to the following Internet transmitter, from CATV terminal An Internet transmitter that inputs an Internet selection signal or an Internet operation signal, modulates it with a frequency unique to the terminal, and sends it to the communication cable via the mixer / demultiplexer is provided on the terminal side,
Further, when the management computer receives an Internet selection signal from a terminal by two-way communication , the management computer assigns an Internet receiver and an Internet computer to be used for the terminal, and the Internet image / sound carrier frequency channel and Internet operation signal of the Internet computer are assigned to the management computer. The carrier frequency channel information is sent to the terminal, the Internet video / audio is distributed from the center to the terminal CATV terminal via the communication cable, and the Internet operation signal from the terminal is assigned to each terminal. A bidirectional CATV device characterized in that it can be transmitted to the center via a frequency channel so that Internet communication can be freely performed on each terminal side.   2. A bidirectional CATV apparatus according to claim 1, wherein the time from the remote control operation on the terminal side to the Internet computer of the center apparatus receiving the Internet operation signal is within 100 msec.

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