Classifications

• • H—ELECTRICITY
  • H04—ELECTRIC COMMUNICATION TECHNIQUE
  • H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
  • H04N5/00—Details of television systems
  • H04N5/76—Television signal recording
• • H—ELECTRICITY
  • H04—ELECTRIC COMMUNICATION TECHNIQUE
  • H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
  • H04N9/00—Details of colour television systems
  • H04N9/79—Processing of colour television signals in connection with recording
  • H04N9/7921—Processing of colour television signals in connection with recording for more than one processing mode
• • H—ELECTRICITY
  • H04—ELECTRIC COMMUNICATION TECHNIQUE
  • H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
  • H04N9/00—Details of colour television systems
  • H04N9/79—Processing of colour television signals in connection with recording
  • H04N9/80—Transformation of the television signal for recording, e.g. modulation, frequency changing; Inverse transformation for playback
  • H04N9/804—Transformation of the television signal for recording, e.g. modulation, frequency changing; Inverse transformation for playback involving pulse code modulation of the colour picture signal components
  • H04N9/8042—Transformation of the television signal for recording, e.g. modulation, frequency changing; Inverse transformation for playback involving pulse code modulation of the colour picture signal components involving data reduction
• • H—ELECTRICITY
  • H04—ELECTRIC COMMUNICATION TECHNIQUE
  • H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
  • H04N9/00—Details of colour television systems
  • H04N9/79—Processing of colour television signals in connection with recording
  • H04N9/80—Transformation of the television signal for recording, e.g. modulation, frequency changing; Inverse transformation for playback
  • H04N9/82—Transformation of the television signal for recording, e.g. modulation, frequency changing; Inverse transformation for playback the individual colour picture signal components being recorded simultaneously only
  • H04N9/8205—Transformation of the television signal for recording, e.g. modulation, frequency changing; Inverse transformation for playback the individual colour picture signal components being recorded simultaneously only involving the multiplexing of an additional signal and the colour video signal
  • H04N9/8227—Transformation of the television signal for recording, e.g. modulation, frequency changing; Inverse transformation for playback the individual colour picture signal components being recorded simultaneously only involving the multiplexing of an additional signal and the colour video signal the additional signal being at least another television signal

Definitions

• the invention relates to a method of and apparatus for recording digital television signals.
• the invention further relates to a method of and apparatus for recording a plurality of television signals simultaneously.
• the invention relates to video recorders using components of standard analogue VHS recorders.
• EP-A-0601963 discloses a system for a video cassette recorder which is capable of recording/reproducing analogue video and audio signals as well as digital video and audio signals for a HDTV.
• the revolution of a head drum may be determined different from each other depending on the selected mode, i.e., digital or analog signal recording/reproducing mode, and thus the digital signal having a different recording bandwidth from the analog signal can be recorded on and reproduced from a conventional analog tape.
• a further proposal published in US-A-5 335125 discloses a video tape recorder capable of recording a normal definition video signal and a high definition video signal having an image quality higher than the normal one in a simulcast for broadcasting an identical program in a conventional broadcasting system and a high definition system.
• the common video signal is recorded in a conventional analog signal format at a tape feeding speed of the normal mode by an EP mode head defining a tracking width narrower than that of a standard mode head, while the high definition video signal is recorded in a digital form by a high definition video head additionally mounted on a rotary drum. Additionally, a common video signal recorded by a conventional video tape recorder can be reproduced.
• the invention provides a method of recording a television signal in the form of a digital data stream on a magnetic tape using a video recorder, the method comprising the steps of; receiving the digital data stream converting the data to a multilevel code, at a data rate which falls within the bandwidth of the recording apparatus, and recording the multilevel code on the tape.
• Digital television channels may typically have a data rate of 5Mbits/s, which is too high for recording on and replay from a standard VHS VCR.
• VHS VCR VHS VCR
• a four level code can encode two bits of data and thus divide the effective data rate by two. This then renders such a signal recordable as the data rate is reduced to 2.5 Mbits/s and this is recordable by a VHS recorder. It requires the provision of an encoder which will perform the conversion from a binary to quaternary code but such encoders can be readily constructed.
• teletext data multiplexed with an analogue television signal may be recorded on a VHS video recorder by encoding teletext data into a multilevel 5 code, in a particular embodiment into a four level code, and thus reducing the teletext data rate to one which can be recorded on a tape.
• the present invention extends that principle by similarly encoding a digital data stream representing a television picture in a similar way.
• the multilevel code may comprise a signal having more than two ⁇ o amplitude levels.
• the multilevel signal may comprise a plurality of phase values or a combination of the two to enable more bits to be encoded in each data period.
• the multilevel code may have four levels giving a data rate of half the data rate of the received digital data stream. This will enable an input digital 15 television signal of 5Mbits/s to be recorded using standard VHS video recorder components.
• the invention further provides a method of replaying a television signal in the form of a digital data stream from a record carrier using replay apparatus having a bandwidth of less than the data rate of the digital data stream, the 20 digital data stream being recorded on the record carrier by means of a multilevel code at a data rate which is lower than the data rate of the television signal, the method comprising the steps of reading the multilevel code from the record carrier, converting the multilevel code to a digital data stream at the data 25 rate of the television signal, and applying the digital data stream to an output.
• a digital television signal is recorded on a tape either off air or as a pre-recorded tape in the form of a multilevel code
• the data rate of a decoded bit stream can be greater than that capable of being supported by the 30 replay apparatus.
• a VHS video recorder can be made capable of replaying a digital television signal having a data rate of 5Mbits/s or greater depending on the number of levels in the multilevel code.
• the invention still further provides apparatus for recording a television signal in the form a digital data stream on a magnetic tape, said apparatus having a bandwidth of less than the data rate of the digital data stream, the apparatus comprising means for receiving the digital data stream, means for encoding the received digital data stream into a multilevel code at a data rate which is less than the data rate of the received digital data stream and means for recording the multilevel code on the record carrier.
• apparatus such as a VHS video recorder can be arranged to record digital television signals whose data rate is greater than the channel bandwidth of the video recorder by providing an encoder which takes the input data stream and converts it to a lower rate data stream by encoding a plurality of bits into a single data period using a multilevel code. Once data has been converted the multilevel code is recorded on the tape in the same way as normal analogue television signals.
• the means for encoding the digital data stream may comprise means for applying the received digital data stream to an encoder in n-bit packets, where n is greater than one, means for converting each n-bit packet into a multilevel code having at least one level for each n-bit combination, and means for feeding the multibit code to the record head of the recorder at a data rate of 1/n times the data rate of the received digital data stream.
• the encoding means is of substantially the same form as that disclosed in our co-pending UK patent application No. 9605614.8 (PHB 34056) which uses a multilevel code for recording teletext data using a VHS video recorder.
• the invention still further provides apparatus for replaying a television signal in the form of a digital data stream from a magnetic tape, the digital data stream being encoded by means of a multilevel code at a data rate less than that of the digital data stream, the apparatus comprising means for feeding the multilevel code signal to a decoder which is arranged to convert the multilevel code to a binary code at the data rate of the digital data stream and means for feeding the binary code to a television receiver for display.
• the multilevel code may be a four level code, the decoder producing two bits from each four level code.
• a digital television signal recorded "off-air" or produced as a prerecorded tape using a multilevel code for recording the digital data stream may be replayed by a VHS video recorder which is provided with the appropriate decoding means to enable the digital data stream to be reconstituted from the multilevel code read from the tape.
• the decoder may include an equaliser which may be a decision feedback equaliser.
• an equaliser which may be a decision feedback equaliser.
• the provision of such an equaliser improves the decoder performance particularly in the presence of noise. Such provision becomes increasingly important as the number of levels of the multilevel code are increased as this imposes greater performance requirements on the decoder.
• the invention yet further provides a VHS video recorder including selection means for selecting for recording either an analogue television signal or a digital television signal, means for encoding the digital television signal into a multilevel signal at a data rate lower than the data rate of the received digital television signal, and means for recording the multilevel signal on a tape.
• a video recorder can be provided which will record analogue television broadcasts and digital television broadcasts without requiring any modification to the recording or replay mechanisms.
• Both analogue television signals and digital television signals can be recorded using the same record and replay heads and without requiring any changes in drum speed. Consequently inexpensive mechanisms can be used, any changes from the standard VHS recorders being confined to selection of sources and encoding and decoding of digital signals which can all be performed using integrated circuitry.
• the recorder may include a further encoder for encoding the analogue television signal into a further digital television signal, the selection means being arranged to select either the digital television signal or the further digital television signal for application to the first mentioned encoding means.
• the recorder may include further selection means for directing an analogue television signal replayed from the tape to an analogue output and for directing a multilevel signal replayed from the tape to a multilevel decoder for converting the multilevel signal to a digital television signal.
• Such a recorder has the advantage that it can be used to record both digital and analogue television signals and to replay an analogue recorded tape to an analogue output and a digitally recorded tape to a digital output.
• the recorder may include a further encoder for encoding the analogue television signal into a further digital television signal, the selection means being arranged to select either the digital television signal or the further digital television signal for application to the first mentioned encoding means.
• MPEG 1 and MPEG 2 encoders can encode an analogue television signal into a digital television signal at data rates between 1.5 Mbits/s and 10 Mbits/s.
• MPEG 2 encoded television signals can have a higher quality than normal VHS analogue video with data rates in the region of 5 Mbits/s and consequently if an input analogue signal is passed through an MPEG 2 encoder and then recorded using the multilevel encoder a higher quality recording is possible.
• the video recorder may include a multilevel decoder for decoding the multilevel code read from the tape and producing a digital television data stream, a digital decoder for decoding the digital television data stream and converting it to a standard analogue television signal, and means for feeding the analogue television signal to an output.
• Such a recorder can take an analogue television signal and convert it to a digital signal for recording and then on replay reconvert the digital signal replayed from the tape into a standard analogue television signal.
• analogue television signal is encoded according to the MPEG 2 standard a higher quality output is obtained than with normal analogue recording on a VHS recorder.
• Figure 1 shows a digital television signal in the form of a standard broadcast teletext signal and the effect the restricted bandwidth of a VHS recorder on this signal
• Figure 2 shows a low level code representing the broadcast teletext signal which is suitable for recording on or replay from a VHS recorder
• Figure 3 shows on an enlarged timescale a portion of the signal shown in Figure 2
• Figure 4 shows in block schematic form a first embodiment of apparatus according to the invention
• Figure 5 shows in block schematic form a second embodiment of apparatus according to the invention.
• Figure 6 shows in block schematic form a third embodiment of apparatus according to the invention.
• Figures 1 and 2 show digital television signals in the form of teletext data signals and illustrate the coding method used in our co-pending UK Patent Application No. 9605664.8 (PHB 34056) to enable teletext data to be recorded on and replayed from a tape using a VHS VCR.
• Figure 1 shows a standard broadcast teletext signal as received by a receiver.
• the data rate of the teletext signal is greater than 5MHz and consequently such a signal will be distorted when it is fed through a standard VHS video recorder which has a channel bandwidth of around 3MHz.
• Figure 1 (b) shows how the teletext signal is affected by the channel bandwidth of a VHS recorder.
• the initial clock run-in information is lost and on replay such a signal would not be decodable by standard teletext decoder.
• a multilevel code which can have a data rate which is lower than that of the standard teletext data rate is utilised.
• Figure 2 shows a line of teletext data encoded according to a four amplitude level code.
• the initial clock run-in has been replaced by a lower frequency clock run-in while the framing code and data are replaced by the four level code.
• the four levels in this instance are four amplitude levels and consequently in each data period two bits can be encoded the four levels giving the codes 00, 01 , 10, and 11.
• the teletext signal re-encoded according to the multilevel code now has a data rate which falls within the bandwidth of the VHS recorder.
• FIG. 4 shows in block schematic form a VHS video recorder which is capable of recording and replaying both digital and analogue television signals.
• the dotted box 1 includes those items which are additional to or modifications of the standard components of a VHS video recorder and which enable digital television signals to be recorded.
• the recorder has an aerial input 2 which is connected to the normal tuning circuits 3, intermediate frequency stages 4, and demodulator 5, the output of which is the standard CVBS signal.
• the output of the demodulator 5 is fed to an input 6 of a selector circuit 7, whose output is fed to the usual luminance, chrominance, and audio signal processor 8 of a VHS recorder.
• the processor 8 has connections to and from the record and replay heads 9.
• a remote control handset 10 intercommunicates with a remote control receiver 11 to enable instructions from the user to be made to the video recorder in known manner.
• These user instructions will be for example to set the recorder into a condition to record a received signal; either an analogue signal in which case the selected channel for from the tuner 3 will be controlled from the remote control handset 10 or a digital television signal in which case the input 15 and output 16 interfaces will become operable.
• the selector 7 will be arranged to select either the analogue input at is input 6 or a digital television signal input at a second input 12. This is under the control of a control and timing circuit 13 which receives the instructions from the remote control handset via the remote control receiver 11.
• the control and timing circuit 13 will, in addition to the normal control and timing functions of such a circuit in a VHS recorder, also control the recording of digital video signals as will be described hereinafter.
• the recorder has a further input 14 to which in operation a digital television signal is applied.
• This digital television signal will be derived from either a set top box or a digital television receiver and will be received over a standard digital interface such as for example the IEEE 1394.
• This digital data stream is fed via an input interface 15 to a buffer store and error correction circuit 16 under the control of the control and timing circuit 13.
• the output of the buffer store 16 is fed to a tape encoder 17.
• the tape encoder 17 takes the stored data stream which may typically have a data rate of 5 Mbits/s and convert if into a multilevel code having a lower data rate for example 2.5 Mbits/s.
• the tape encoder is as described in our co-pending application No. 9605614.8 (PHB 34056).
• This encoder will produce a multi level code which combines a plurality of bits for each date period. In this way a lower data rate is achieved bringing it within the bandwidth of a standard VHS VCR at the expense of increased complexity in encoding and decoding the digital data.
• four amplitude levels are used enabling two bits to be encoded in each data period, thus halving the required data rate.
• a larger number of amplitude levels and/or phase values may be used enabling more bits to be encoded in each data period. Consequently an even lower data rate or a higher input bit rate may be recorded.
• the selector 7 takes the input at its input 12 and feeds this to the processor 8 for recording on the tape.
• Figure 4 shows a VHS video recorder including selection means 7 for selecting for recording either an analogue television signal or a digital television signal. It includes means for encoding the digital television signal into a multilevel signal at a data rate lower than the data rate of the received digital television signal, that is the tape encoder 17. This multilevel signal is then passed through the selector 7 to the processor 8 and from there to the record head 9 to effect recording of the multilevel code on the tape.
• the user selects the replay function by means of the remote control handset 10 and a further selector 18 is arranged to feed the signal at its input to a tape decoder 19.
• the tape decoder 19 performs the inverse function to the tape encoder 17 and its output is fed to the buffer memory and error corrector 16 under the control of the control and timing circuit 13.
• the output of the buffer memory 16 is then in the same form as that received at the input 14 for recording or if a precorded tape is replayed which is encoded using the multilevel code a standard digital format is available for display using either a set top box or a television set including a digital decoding circuit.
• This output is fed via an output interface 20 to an output 21 at which the digital television signal is available. If it is desired to replay an analogue television signal the selector 18 is set , under the control of the control and timing circuit 13, so that its input is fed to a second output 22.
• the second output 22 is either connected to a SCART output 23 as a standard CVBS signal or via a modulator 24 which converts it to a UHF signal to an aerial output 25.
• the first and second selectors 7 and 18 which route the analogue signal to be recorded and to be replayed in response to instructions entered by the user using the normal remote control unit 10.
• the first and second selectors are arranged so that the second input of the first selector 7 is selected for recording the signal and the first output of the second selector 18 is selected for replaying the signal.
• the digital television signal received is encoded by means of an encoder 17 which may take the form of that disclosed in our co-pending application and decoded by the decoder 19 on replay which again may take the form of that disclosed in our co-pending application. It can be seen that all the mechanical functions of the standard VHS video recorder are retained and consequently a relatively inexpensive mechanism can be used for recording and replaying digital television signals as well as analogue signals.
• a 5 Mbits/s input can be converted to 2.5 Mbits/s for recording on the tape. This will be within the bandwidth of a standard VHS recorder. If instead of a four level code an 8 level code was used then the data rate would be divided by 3. There is of course a trade off between the resolution of the number of levels and the reduced bandwidth required. As stated in our co-pending application as well as amplitude levels the multilevel code could include phase changes or even a combination of the two. Thus with a greater number of levels in the encoder an even higher bit rate could be recorded, but at the cost of increased complexity in the encoder and decoder.
• Figure 5 shows an alternative embodiment of a video recorder according to the invention in which television signals received in both analogue and digital form are recorded in digital form on the tape.
• those elements corresponding to those in Figure 4 have been given the same reference numerals.
• Figure 5 only those aspects which are different from those shown in Figure 4 will be described.
• the major difference between the arrangement of Figure 5 and that of Figure 4 is that after the demodulator 5 a digital video encoder/decoder 30 is included.
• Digital video signals are again applied via the selector 7 through a digital input/output interface 31.
• This digital input/output interface 31 is the combination of the two interfaces 15 and 20 of Figure 4.
• the major difference between the embodiments of Figures 4 and 5 is that the analogue television signal is converted to a digital signal in the encoder 30 before application to the selector 7.
• the digitally converted analogue signal is then processed in the same manner as a digital television signal applied to input 14.
• both analogue and digital television signals are recorded digitally on the tape.
• Playback of a tape which has been recorded by this process will follow the same procedure as for the digital television signal shown in Figure 4, except that where a digitally encoded analogue signal has been recorded this signal will be fed from the buffer ram and error correction circuit 16 to the digital video decoder 30 from where it will be applied to the SCART socket 23 or to the modulator 24.
• Digital video decoders are, of course, well known and will be of the same form as those used in digital set top boxes.
• the selector 18 may be retained and under the control of the control circuit 13 will select the analogue output 22 so that a CVBS signal from the processor 8 will be passed from the output 22 to a further selector 31.
• the selector 31 will, under the control of the control and timing circuit 13, select either the output 22 of selector 18 or the output of the digital video encoder/decoder 30.
• the selector 7 is now a digital source selector which selects either the digital video from the internal encoder 30, that is from an analogue source, or digital video from an external source via the bus interface.
• the digital video is decoded by the decoder 30 and converted to a standard analogue television signal and passed to the SCART terminal 23 or to the modulator 24 and aerial connection 25.
• a digital video output is available via the input/output interface 31.
• All recordings are now in the same format and the video recorder can be connected to a standard analogue T.V. with no external digital video decoder being necessary even when prerecorded digital television tapes are replayed. Tapes made on such a machine however cannot be played on a conventional VHS VCR as the recording format is different.
• Figure 6 shows a modification of the recorder shown in Figure 5.
• the digital video encoder/decoder uses a different encoding algorithm which requires a lower bit rate, for example MPEG 1 instead MPEG 2.
• MPEG 1 may provide a lower picture quality but a data capacity of for example only 1.5 Mbits/s is sufficient for encoding the television signal according to the MPEG 1 standard.
• three tuners, 3-1 to 3-3, three IF stages 4-1 to 4-3, and three demodulators, 5-1 to 5-3 are provided, each of which feeds the digital video encoder decoder 30.
• One application of such a facility is when a user would like to record two or more programmes which are transmitted on different channels with the same or overlapping transmission times. Thus a plurality of programmes, for example three could be recorded simultaneously. On play-back one of the channels may be selected for replay. As an alternative such an arrangement could be used to extend the capacity of the tape, that is the tape could record for example a programme three times as long or three times as many programmes may be recorded on the same length tape. Thus one reduced rate channel could be recorded, the tape then rewound to the beginning and the process repeated for channels 2 and 3 on the tape.
• the digital video decoder 30 contains circuitry for identifying the separate data streams, the desired data stream being chosen by means of instructions from the remote control handset 10 via the control circuit 13.
• the chosen data stream is then decoded and passed to the T.V. in analogue form.
• the desired data stream could be selected for transfer to the digital video output bus.
• all the data streams could be passed to the digital video output bus, the selection of the desired material being made in the external equipment.

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• Engineering & Computer Science (AREA)
• Multimedia (AREA)
• Signal Processing (AREA)
• Television Signal Processing For Recording (AREA)
• Signal Processing For Digital Recording And Reproducing (AREA)

Priority Applications (2)

Applications Claiming Priority (2)

Publications (2)

Family

ID=10818223

Family Applications (1)

Country Status (6)

Cited By (4)

Citations (4)

• 1997
  • 1997-08-30 GB GBGB9718326.3A patent/GB9718326D0/en not_active Ceased
• 1998
  • 1998-08-19 JP JP51649399A patent/JP2001505392A/ja active Pending
  • 1998-08-19 EP EP98936626A patent/EP0935873A2/en not_active Withdrawn
  • 1998-08-19 WO PCT/IB1998/001280 patent/WO1999012332A2/en not_active Application Discontinuation
  • 1998-08-19 KR KR1019997003709A patent/KR20000068855A/ko not_active Application Discontinuation
  • 1998-08-27 TW TW087114194A patent/TW401695B/zh not_active IP Right Cessation

Patent Citations (4)

Non-Patent Citations (1)

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