JP3248922B2 - Video transmission system - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a video transmission system for a cable television (CATV) having a large number of channels ranging from 100 channels to 200 channels.

[0002]

2. Description of the Related Art As a conventional CATV video transmission system, a) a system in which a signal of the current broadcast standard is converted into a vestigial sideband / amplitude modulation (VSB-AM) signal, which is frequency-multiplexed and transmitted. , B) the signal of the current broadcasting standard is converted to the frequency (F
M: Frequency Modulation) There is a method of modulating, frequency-multiplexing and transmitting the modulated signal, and a method of transmitting a time-division multiplexed baseband digital video signal.

[0003] Most of the current CATVs adopt the method a) because the system configuration is simple.

[0004]

However, according to the method a) which has been widely adopted in the prior art, when an electric signal is transmitted over a long distance, the quality of an image is degraded due to the influence of a repeater in a transmission line. . Therefore, in order to ensure image quality, "Hiroaki Nakata et al.," Optical fiber backbone for CATV ""
Technical Report of the Institute of Television Engineers of Japan, Vol. 13, No. 5
1, P. 53 to 58 ", it has been proposed to employ optical transmission for a part of a transmission line. However, even if optical transmission is adopted, “Satoshi Tanabe et al.,“ 64ch RF multiplexed signal optical transmission device ”OSC90-9 pages 49-54”
In order to multiplex multiple channels as shown in (1), a larger output is obtained and a laser with good linearity is required. Therefore, there is a disadvantage that the number of channels that can be multiplexed is limited due to restrictions caused by the transmission output of the laser and the like.

On the other hand, in systems other than a), the transmission power required per channel may be small, so that a margin (Loss budget) for more attenuation can be secured. But,
The bandwidth required for transmission per channel is VSB-AM
In the case of FM modulation, 27 MHz / ch if a system equivalent to that of satellite broadcasting is used, and in the case of an uncompressed digital video signal, the data rate is about 10 MHz.
Since it is 0 Mbps / ch, 100 MHz / ch or more is required. For this reason, when multiplexing and transmitting signals of methods other than a), the channel arrangement becomes completely different from the current one. In addition, signals other than the method of a) are set to 10
In the case of multiplexing 0 channels or more, the band of the multiplexed signal becomes 2.7 GHz or more in the FM modulation of a) and 10 GHz or more in the baseband digital signal of c), and it is difficult to transmit the electric signal anymore. It is necessary to use optical transmission over the entire path.

Further, in the case of a baseband digital signal, the band required for transmission needs to be a band extending from the vicinity of direct current to the data rate for transmission, so that even if optical transmission is used, transmission is performed at the same wavelength. , Cannot be transmitted in combination with the current CATV VSB-AM using a carrier in the VHF band. As described above, transmission methods based on FM modulation and baseband digital signals other than the above method a) cannot be used as they are because existing converters cannot be used as they are due to frequency conditions, transmission path restrictions, differences in demodulation methods, etc. It is less compatible with the system, which results in an expensive system.

Further, the current CATV video sources are mainly analog video signals distributed by the current terrestrial television broadcasting and satellites. There is also a problem that even if the adoption of the method (c) or (c) has a large transmission capacity exceeding 100 channels, the treasure may endure. for that reason,
In consideration of the future development of CATV, it is possible to transmit an appropriate number of channels over long distances without deteriorating the image quality while being compatible with current systems, and to satisfy various requirements for CATV. In fact, there is no suitable method for satisfying the above.

[0008] <br/> onset bright according to claim 1 for solving the above problems, the analog movies <br/> image signal and a multi-channel for the current television broadcasting multi-channel and a digital video signal multiplexed ,
After being converted to an optical signal by a laser, it is transmitted to an optical transmission line
A video transmission method, comprising: a multi-channel corresponding to each of the multi-channel analog video signals for current television broadcasting.
And outputs the VSB-AM signal of the multi-channel.
QAM modulates each digital video signal and multi-channel
And outputs the multi-channel QAM signal.
Signal level of the multi-channel VSB-AM signal
Of the multi-channel
The QAM signal is band-limited within the band of the current TV broadcast,
The multi-channel QAM signal whose frequency is limited is
Weighted and frequency multiplexed multi-channel QAM signal
From the transmission band of the multi-channel VSB-AM signal
By placing them in the higher frequency range,
Channel VSB-AM signal and the multi-channel QAM signal
And VSB-AM of the multi-channel.
Light based on the signal level of the signal and the transmit power of the laser
Assigning the modulation degree to the multi-channel VSB-AM signal
The signal level of the multi-channel QAM signal and the
The optical modulation degree based on the transmission output of the laser
Of the multi-channel VS
The B-AM signal and the multi-channel QAM signal are
Converting the multiplexed electrical signal into the optical signal,
And the optical signal transmitted through the optical transmission path.
Receiving the signal and converting it into the electric signal again .

[0009] The invention according to claim 2 is a multi-channel present invention.
Analog video signal and multi-channel
Digital video signal is multiplexed and converted to optical signal by laser
A video transmission device that transmits the data to the optical transmission line after the
An analog video signal for the current TV broadcast of Shita Channel
Multi-channel VSB-AM signals corresponding to each
VSB-AM signal generator for output and the multi-channel
QAM modulation of each digital video signal
Multiple QAM converters each outputting a QAM signal
Keying and signal level of the multi-channel QAM signal
Is set smaller than the multi-channel VSB-AM signal.
The multi-channel QAM signal to the current TV broadcast
Band-limited within the band of
Means for frequency-multiplexing the QAM signal of
The multi-channel QAM signal
Frequency range higher than VSB-AM signal transmission band
By arranging, the multi-channel VSB-AM
Frequency multiplexing the signal and the multi-channel QAM signal.
And a signal of the multi-channel VSB-AM signal
The light modulation degree based on the level and the transmission power of the laser is
Allocated to the multi-channel VSB-AM signal,
Channel signal level of QAM signal and transmission of the laser
QAM of the multi-channel
Signals, and the multi-channel VSB-AM signal
Signal and the multi-channel QAM signal were frequency multiplexed.
Converting an electrical signal into the optical signal and transmitting the optical signal to the optical transmission line;
And an electric / optical converter .
The invention according to claim 3 is a multi-channel current television broadcast.
Analog video signal and multi-channel digital video signal
Optical transmission line after multiplexing the signal and converting it to an optical signal by laser
A video transmission device for transmitting to the
Video reception for receiving the optical signal transmitted via a transmission line
A video transmission system comprising:
The communication device is an analyzer for the current TV broadcast of the multi-channel.
Multi-channel VSB corresponding to each log video signal
-The VSB-AM signal generator that outputs the AM signal
QAM conversion of each digital video signal
Output multi-channel QAM signals
QAM modulating means, and the multi-channel QAM signal
The signal level VSB-AM signal of the multi-channel
The QAM signal of the multi-channel
Before the band is limited,
Means for frequency-multiplexing the multi-channel QAM signal;
The frequency-multiplexed multi-channel QAM signal is
Higher than transmission band of multi-channel VSB-AM signal
By arranging in the frequency domain, the multi-channel
A VSB-AM signal and the multi-channel QAM signal
Frequency multiplexing means, and the multi-channel VSB-A
Based on the signal level of the M signal and the transmission power of the laser
Dividing the degree of light modulation into the multi-channel VSB-AM signal
And the signal level of the multi-channel QAM signal and the
The optical modulation degree based on the transmission power of the laser
Channel QAM signal, and
The SB-AM signal and the multi-channel QAM signal
The wave number multiplexed electric signal is converted into the optical signal, and the
An electric / optical converter for transmitting to the transmission path,
The optical signal transmitted from the video transmitting device.
Receiving through the optical transmission path,
Converting the optical signal received by the optical signal into an electric signal;
And electrical conversion means.

[0010]

According to the first , second and third aspects of the present invention, the VSB-AM which requires a large transmission output is provided.
Quadrature amplitude modulation (QAM;
The frequency multiplexing of the quadrature amplitude modulated digital video signal enables transmission of multiple channels within the constraints of the transmission output. In addition, it is possible to multiplex and transmit the digital signal after QAM modulation, while maintaining the same processing band and channel arrangement as the current television broadcast.

Further , since a multiplexed signal obtained by frequency multiplexing a VSB-AM signal and a QAM signal having different signal levels is transmitted after converting an electric signal into an optical signal, optical transmission of a multi-channel signal is performed. It becomes possible .

[0012]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below in detail with reference to FIGS. FIG. 1 shows a functional configuration of a CATV system using the transmission system of the present invention. Hereinafter, the functions and operations of the system will be described. The system includes a first signal generator 110, a second signal generator 120,
Three signal generators of third signal generator 130 and transmission line 20
0 and a converter 300.

The first signal generator 110 mainly includes a CA
It has a function of generating an image of a basic TV service, and has a frequency multiplexing unit 111 that multiplexes the same VSB-AM signal as the current one according to the channel arrangement of the CATV system. The second signal generation unit 120 has a function of generating a pay channel of CATV and a video of PPV (Pay Per View), a demodulation unit 121, a video compression unit 122, an encryption unit 123, a QAM modulation unit 124, frequency multiplexing. It comprises a unit 125. The demodulation unit 121 has a function of demodulating and digitizing an analog video signal distributed by current television broadcasting and satellite. The video compression unit 122 has a function of compressing this digital video signal into the same format as the digital video signal output from the video playback unit 131 described later. The encryption unit 123 has a function of encrypting the compressed digital video signal in order to prevent viewing at a place other than the home where the video viewing contract has been made. QAM modulator 124
Modulates the digital video signal by QAM. Then, the frequency multiplexing unit 125 converts the QAM modulated signal into a frequency corresponding to the channel of the pay service, limits the transmission band to be within the band of the current television broadcast, and performs frequency multiplexing.

The third signal generator 130 provides a service (VO) that provides a video desired by the subscriber at the request of the subscriber.
D. Video On Demand) and has a function of generating a video reproduction unit 131, an encryption unit 132, a QAM modulation unit 133, and a frequency multiplexing unit 134. The video reproducing unit 131 has a function of reproducing the recorded compressed digital video and outputting the corresponding compressed digital video in response to a request from the subscriber. Here, the format of the compressed video to be output is the same as the output of the video compression unit 122 described above, and the functions after the encryption unit 132 are the same as the functions after the encryption unit 123 of the second signal generation unit 120. is there. The encryption unit 132 encrypts the compressed digital video signal in order to prevent viewing at homes other than the home where the video viewing contract has been made. The QAM modulator 133 performs QAM modulation on the digital video signal. The frequency multiplexing unit 134 limits the transmission band of the QAM-modulated signal to be within the band of the current television broadcast. O. D. The frequency is converted to a frequency corresponding to the service channel and frequency-multiplexed.

These three signal generators 110 and 12
The signals from 0 and 130 are further frequency-multiplexed and input to the transmission line 200 in a frequency arrangement as shown in FIG. The transmission path 200 employs an optical transmission path in consideration of a band, image quality, and the like, and is provided with an end office (End Office) E / O201, O / E2.
02. The level of each of the three video signals input to the transmission line 200 is adjusted by the frequency multiplexing unit of each signal generating unit so that a modulation degree capable of achieving a required C / N at the time of reception can be given to the laser in the E / O 201. Will be adjusted. At this time, the frequency multiplexing unit of each signal generating unit sets the signal level of each service as VSB-AM as shown in FIG.
Is adjusted to a level that provides a large degree of modulation, and pay channels, V.I. O. D. Is adjusted to a level that gives a small degree of modulation.

The O / E 202 in the transmission line reconverts the transmitted optical signal into an electric signal, and converts
Distribute to Converter 300 receives the input electric signal, decodes the demodulated and encrypted signal according to the designated channel, and outputs the signal to a television receiver as an analog video signal. Under the above system configuration, a carrier for transmitting a digital signal obtained by QAM-modulating a highly confidential channel suitable for a toll channel or the like, for which demand is expected to increase in the future, is allocated to a band higher than the current service. Is broadcast using the same channel and modulation scheme as before, so that a converter compatible with a new service and a current converter can be used as they are. Further, even in a state where the optical transmission line and the coaxial transmission line are mixed, the service can be continuously provided even when a part of the transmission line is exchanged because both transmission methods can use the band that can be transmitted by the coaxial transmission line. It is possible. At this time, transmission of the QAM-modulated digital signal requires only a small output, so that multiplex transmission of more channels can be performed within the transmission output of the laser.

Further, by appropriately combining the QAM modulation level and the compressed video data rate, it is possible to give a certain degree of freedom to the digital video data rate that can be transmitted in the current band.

[0018]

As described above, according to the present invention, PPV, V.P. O. D. CA due to increased demand
Even if it is necessary to transmit more than 100 channels on a TV with its content confidentiality increased,
High-quality and long-distance image transmission can be performed while diverting existing system equipment and maintaining service.

[Brief description of the drawings]

FIG. 1 is a functional configuration diagram of a CATV system according to an embodiment of the present invention.

FIG. 2 is a diagram showing an example of a frequency allocation of channels in each service in the embodiment shown in FIG. 1;

[Explanation of symbols]

 Reference Signs List 110 first signal generation section 111 frequency multiplexing section 120 second signal section generation section 121 demodulation section 122 video compression section 123 encryption section 124 QAM modulation section 125 frequency multiplexing section 130 third signal generation section 131 video reproduction section 132 encryption section 133 QAM modulator 134 Frequency multiplexing unit 200 Transmission line 201 E / O (optical transmission line terminal station) 202 O / E (optical transmission line terminal station) 300 Converter

──────────────────────────────────────────────────の Continuation of the front page (56) References JP-A-2-113780 (JP, A) Norio KANNO, Katsushiyo ITO, "FIBER OPTIC BROADBAND VISUAL SIGNALS TRANSPART EMPLOYING HIGH-LEVELQ RAVELQUEQ RAVELQUEQ RAVEL VERCEL IEEE Global Telecomm Conf, 1987. 3, Vol. 1987, No. 3, pp. 1447-1484 (58) Fields investigated (Int. Cl. ⁷ , DB name) H04N 7/10 H04N ^7/ 16-7/173 H04N ^7/ 025-7/088

Claims (3)

(57) [Claims] 1. An analyzer for a current multi-channel television broadcast.
Multi and the digital video signal of the log video signal and multi-channel
A video signal which is converted into an optical signal by a laser, and then transmitted to an optical transmission line , wherein the multi-channel analog video signal for current television broadcasting is provided.
Multi-channel VSB-AM signal corresponding to each signal
And outputs each of the multi-channel digital video signals by QAM.
Modulates the multi-channel QAM signal and outputs the signal level of the multi-channel QAM signal to the multi-channel QAM signal.
Smaller than the signal level of the VSB-AM signal of the channel
And set the multi-channel QAM signal to the current TV
Bandwidth is limited within the transmission band, and the
The frequency-multiplexed QAM signal of the multi-channel
Higher than transmission band of multi-channel VSB-AM signal
By arranging in the frequency domain, the multi-channel
A VSB-AM signal and the multi-channel QAM signal
Frequency multiplexing the signal level of the multi-channel VSB-AM signal and
The optical modulation degree based on the transmission power of the laser
Channel VSB-AM signal, and the multi-channel
Between the signal level of the QAM signal and the transmission output of the laser
The optical modulation factor based on the multi-channel QAM signal.
The multi-channel VSB-AM signal and the multi-channel
An electric signal obtained by frequency-multiplexing the QAM signal of the channel
Converted to the optical signal, transmitted to the optical transmission path, receiving the optical signal transmitted via the optical transmission path,
Video transmission, wherein the video signal is converted into the electric signal again
How . 2. An analyzer for multi-channel current television broadcasting.
Log video signals and multi-channel digital video signals
Weight, convert it to an optical signal with a laser, and send it to the optical transmission path.
A video transmission apparatus for transmitting an analog video signal for the current television broadcast of the multi-channel.
Multi-channel VSB-AM signal corresponding to each signal
And a VSB-AM signal generator for outputting the multi-channel digital video signal.
Modulate and output multi-channel QAM signals
A plurality of QAM modulators and a signal level of the multi-channel QAM signal;
Set smaller than the VSB-AM signal of the channel,
Multi-channel QAM signal within current TV broadcast band
Band limited and band limited multi-channel QAM
Means for frequency multiplexing a signal, and
Higher than transmission band of multi-channel VSB-AM signal
By arranging in the frequency domain, the multi-channel
A VSB-AM signal and the multi-channel QAM signal
Frequency multiplexing means, and the signal level of the multi-channel VSB-AM signal
The optical modulation degree based on the transmission power of the laser
Channel VSB-AM signal, and the multi-channel
Between the signal level of the QAM signal and the transmission output of the laser
The optical modulation factor based on the multi-channel QAM signal.
The multi-channel VSB-AM signal and the multi-channel
An electric signal obtained by frequency-multiplexing the QAM signal of the channel
Electric / optical to convert to the optical signal and transmit to the optical transmission line
A video transmitting device, comprising: 3. An analyzer for multi-channel current television broadcasting.
Log video signals and multi-channel digital video signals
After being converted to an optical signal by the weight laser, it is transmitted to the optical transmission line.
Video transmission device, and an optical transmission path from the video transmission device.
And a video receiver for receiving the optical signal transmitted as
Video transmission system, wherein the video transmission device is an analog video signal for current television broadcasting of the multi-channel.
Multi-channel VSB-AM signal corresponding to each signal
And a VSB-AM signal generator for outputting the multi-channel digital video signal.
Modulate and output multi-channel QAM signals
A plurality of QAM modulating means, and a signal level of the multi-channel QAM signal,
Set smaller than the VSB-AM signal of the channel,
Multi-channel QAM signal within current TV broadcast band
Band limited and band limited multi-channel QAM
Means for frequency multiplexing a signal, and
Higher than transmission band of multi-channel VSB-AM signal
By arranging in the frequency domain, the multi-channel
A VSB-AM signal and the multi-channel QAM signal
Frequency multiplexing means, and the signal level of the multi-channel VSB-AM signal
The optical modulation degree based on the transmission power of the laser
Channel VSB-AM signal, and the multi-channel
Between the signal level of the QAM signal and the transmission output of the laser
The optical modulation factor based on the multi-channel QAM signal.
The multi-channel VSB-AM signal and the multi-channel
An electric signal obtained by frequency-multiplexing the QAM signal of the channel
Electric / optical to convert to the optical signal and transmit to the optical transmission line
And a conversion hand throw, the video receiving apparatus, the optical transmission path the optical signal transmitted from said video transmitting apparatus
Receiving the light signal via the receiver, and converting the optical signal received by the receiver
Light-to-electricity conversion means for converting
Video transmission system.