RU95109838A - PROCESSOR FOR ADDING DATA SIGNAL TO VIDEO SIGNAL (OPTIONS), PROCESSOR FOR DETECTING DATA SIGNAL, METHOD OF TRANSFER OF DATA (OPTIONS), METHOD OF RECEPTING AND DECAIT OF TRANSFER - Google Patents

Claims (38)

1. A processor for adding a data signal to a raster-shaped video signal containing color and luminance components and having an active video signal interval and a video blanking interval, characterized in that it comprises a signal generator for generating a data carrier, a modulator responsive to the data carrier for generating modulated data carrier, an adder for combining the modulated data signal with the video signal during part of the active intervals of the video signal to obtain the combined signal and the controller for To control the modulator so that the modulator generates a packet of oscillations of the data carrier at the beginning of at least some active intervals of the video signal.  2. The processor according to claim 1, characterized in that the frequency of the data carrier is a multiple of one fourth of the scan frequency, but not a multiple of the scan frequency.  3. The processor according to claim 1 or 2, characterized in that the color component of the video signal is formed by modulation of the carrier color, and the frequency of the data carrier is higher than the frequency of the carrier color.  4. The processor according to claim 2 or 3, characterized in that the frequency of the video signal located above the carrier is substantially attenuated.  5. The processor according to paragraphs. 1 to 4, characterized in that it further comprises a clock detector, generating a signal of a mixture of clock pulses, marking each blanking interval and each active interval of the video signal, and a clock generator generating a system clock using the data carrier as a reference signal, and the controller is configured as follows that it generates synchronization control signals to control the output signal of the modulator.  6. The processor according to p. 5, characterized in that the modulator is designed so that at least one of the synchronization signals causes it to issue a packet of oscillations of the data carrier.  7. A processor for adding a data signal to a video signal having an active part and blanking intervals, a horizontal frequency and luminance and color spectra, the color spectrum having upper and lower side bands, characterized in that it comprises a video signal processor unit containing means for attenuating the upper side band of the color spectrum and the output signal partially attenuated video signal with blanking intervals, a carrier generator with a frequency located in the upper side band, the data signal block, re a modulator for modulating the carrier signal of the raster shape data signal so that the spectral energy of the output signal of the modulator is almost completely within the attenuated sideband, and an adder for introducing a relatively low modulated carrier into a partially attenuated video signal.  8. The processor according to claim 7, characterized in that the data unit further comprises means for inputting a predetermined phase synchronization signal into a predetermined part of the data signal.  9. The processor according to claim 7 or 8, characterized in that the data processor further comprises means for limiting the frequency band of the data signal.  10. The processor according to paragraphs. 7 to 9, characterized in that the carrier generator is designed so that it forms a carrier by dividing the sweep frequency by 4.  11. The processor according to paragraphs. 7 to 10, characterized in that the video signal unit further comprises an amplifier with automatic gain control and a DC component recovery circuitry, responsive to the video signal to generate a video signal substantially corresponding to a given standard, as well as a low-pass filter with correction, attenuating the frequencies in the upper sideband color spectrum of this signal.  12. A processor for extracting a modulated data signal of a raster shape with a phase synchronization marker inserted into a video signal characterized by a horizontal frequency, the raster data signal being located within a part of the frequency band intended for a video signal, characterized in that it contains a filter for attenuating those parts of the spectrum that do not contain a data signal, a phase-controlled carrier generator, a demodulator responsive to a carrier and a filtered data signal, means for detecting a phase synchronization marker; and means for changing the phase of the carrier generator when a marker is detected.  13. The processor according to p. 12, characterized in that the frequency of the carrier oscillator is approximately a multiple of one fourth of the scanning frequency, but not a multiple of the scanning frequency.  14. The processor according to p. 12 or 13, characterized in that it further comprises a first tuner outputting a portion of the combined signal containing the blanking intervals, a detector generating a signal that marks the blanking intervals, and said phase marker detection means respond to the blanking interval signal and a second tuner for receiving a portion of the combined signal containing the spectral energy of the data, and for supplying this portion of the signal to the filter.  15. A method of transmitting data over a television network, characterized in that a signal carrying a small amount of information is sent from the first point, through a medium having a narrow bandwidth, a signal is received in the second point and a large amount of information is selected, which must be transmitted to the first point provide the selected information with a high data rate, combine the selected information with a high data rate with a video signal for transmission over a television network and receive a large amount of transmitted information tion in the first paragraph.  16. The method according to p. 15, characterized in that the carriers are formed for transmitting and receiving a large amount of information, and a phase synchronization marker is inserted into a large amount of data and the carrier phase in the receiver is synchronized with the carrier phase in the transmitter.  17. A data transmission method, characterized in that information is received from the source, a carrier is formed with a frequency that is a multiple of one fourth of the scanning frequency of the raster-shaped video signal, but not a multiple of this scanning frequency, and the spectral energy of the indicated video signal contains information about color and brightness, modulate carrier information from the source so that the spectral energy of the modulated carrier is interleaved in frequency with information about color and brightness, enter the modulated carrier into the video signal and transmit This is a signal from a cable television network in the channel through which the video signal is transmitted.  18. The method according to p. 17, characterized in that the phase synchronization marker is added to the modulated carrier.  19. A method of receiving data information combined with color information and luminance of a raster waveform having an active video signal interval, wherein the data carrier is modulated by a transmitter data carrier, characterized in that a receiver carrier is generated at a frequency substantially equal to the transmitter data carrier frequency, demodulated a signal with obtaining information from it, determine the location of marker information in the active line of the video signal, change the phase of the carrier in accordance with the phase marker.  20. The method according to p. 19, characterized in that the data information include graphic images with high resolution and, in addition, remove marker information about the phase of the data information and display the graphic information by appropriate means.  21. A method of transmitting a data signal together with a video signal having blanking intervals of a certain duration, the data signal and the video signal being essentially uncorrelated, characterized in that the temporary position of the blanking intervals is determined, converting the data signal into a raster form with forming blanking intervals in the data signal a data signal that is a predetermined interval longer than the blanking intervals of the video signal, and combine the video signal and the data signal of the raster shape so that the blanking intervals are signal starting substantially at the same points of time as the data blanking intervals of the signal.  22. The method according to p. 21, characterized in that it further form a packet of oscillations of the data carrier and include it in the combined signal.  23. The method according to p. 21 or 22. characterized in that a predetermined sequence of units is additionally inserted into the active interval of the video signal as a phase synchronization marker.  24. The method according to PP. 21 - 23. characterized in that. that the data signal is divided into packets, and the beginning and end of each packet is indicated by a unique code.  25. The method according to p. 21, characterized in that it further insert a phase synchronization marker at the beginning of each active interval of the video signal.  26. A method for transmitting images over a cable television network. characterized in that the data carrier is modulated with data representing the image, the modulated data carrier is inserted into the channel video signal during the active intervals of the video signal to form the combined signal, the combined signal is transmitted over the cable network, the modulated data carrier and video signal are extracted from the combined signal, the data carrier is demodulated, determining the active intervals in the video signal, and display the image on the display.  27. The method according to p. 26, characterized in that the image data has a resolution higher than 400 pixels by 2.54 cm.  28. The method according to p. 27, characterized in that the image size exceeds 12.7 x 12.7 cm  29. A fax machine for a cable television system, characterized in that. that it comprises means for scanning an image to obtain a digital representation of this high resolution image, means responsive to the signal of the scanning means for modulating the data carrier with a digital representation of the image, and means for introducing a modulated data carrier into the video signal.  30. The facsimile apparatus of claim 29, wherein the video signal has a partially suppressed upper sideband of a color signal, and the frequency spectrum of the modulated data carrier is located substantially within said partially suppressed sideband.  31. The facsimile apparatus of claim 29. characterized in that the modulation means comprise a data carrier generator, the frequency of which is a multiple of one fourth of the horizontal frequency of the video signal, but not a multiple of the horizontal frequency of the video signal, and means for suppressing the data carrier during the blanking intervals of the video signal.  32. The fax machine according to p. 31, characterized in that it further comprises means for inputting a phase synchronization marker.  33. A method of transmitting data over a cable television network containing a transmitting medium, a central station broadcasting a plurality of video signals through a plurality of direct channels, a control channel and at least one subchannel, characterized in that at least one data receiver is connected to the network made with the possibility of controlled selection of direct channels, add data to the video signal of at least one direct channel to obtain a combined signal data / video, transmit the combined signal data / view about the transmission medium in the forward channel, receive at least one data receiver the transmitted data / video signal and separate the data from the video signal, transmit control signals via the control channel to select the direct channel in at least one receiver and transmit at least one subchannel data from the receiver to the central station.  34. The method according to p. 33, characterized in that the use of a receiver made with the possibility of controlled selection of a subchannel, and the control channels transmit a signal for selecting at least one receiver of a particular subchannel.  35. The method according to p. 34, characterized in that they control the transmission of data over subchannels and control the selection of subchannels based on the results of monitoring data transmission so that they maximize data transmission over subchannels.  36. Device for transmitting data on a television network containing a transmitting medium and having many direct channels, a control channel and a subchannel, characterized in that it contains means for receiving a plurality of video signals, means for receiving at least one data signal, means for combining a signal data with a selected video signal, means for transmitting a combined signal over a selected video channel, means for receiving data transmitted over subchannels, means for monitoring the transmission of data signals over anal and means for transmitting control signals over a control channel on the basis of inspection results of sub-channels for transmission of data.  37. Device for receiving data transmitted over a cable television network containing a transmitting medium and having direct channels for transmitting video signals, at least one of which contains data, subchannels and a control channel, characterized in that it contains a television receiver having a tuner for direct channel selection, a control channel receiver that responds to a control channel signal, a tunable subchannel transmitter, and a controller that responds to control signals transmitted through a control channel to select direct channel and sub-channel transmitter settings.  38. The device according to p. 37, characterized in that it further comprises means for extracting data from the video signal.