GB2095949A - Television burst service - Google Patents

Television burst service Download PDF

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Publication number
GB2095949A
GB2095949A GB8201831A GB8201831A GB2095949A GB 2095949 A GB2095949 A GB 2095949A GB 8201831 A GB8201831 A GB 8201831A GB 8201831 A GB8201831 A GB 8201831A GB 2095949 A GB2095949 A GB 2095949A
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Prior art keywords
video
specified
frame
video signal
television
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EECO Inc
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EECO Inc
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Publication of GB2095949A publication Critical patent/GB2095949A/en
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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04NPICTORIAL COMMUNICATION, e.g. TELEVISION
    • H04N1/00Scanning, transmission or reproduction of documents or the like, e.g. facsimile transmission; Details thereof
    • H04N1/21Intermediate information storage
    • H04N1/2166Intermediate information storage for mass storage, e.g. in document filing systems
    • H04N1/2179Interfaces allowing access to a plurality of users, e.g. connection to electronic image libraries
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04NPICTORIAL COMMUNICATION, e.g. TELEVISION
    • H04N1/00Scanning, transmission or reproduction of documents or the like, e.g. facsimile transmission; Details thereof
    • H04N1/00095Systems or arrangements for the transmission of the picture signal
    • H04N1/00098Systems or arrangements for the transmission of the picture signal via a television channel, e.g. for a series of still pictures with or without sound
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04NPICTORIAL COMMUNICATION, e.g. TELEVISION
    • H04N7/00Television systems
    • H04N7/16Analogue secrecy systems; Analogue subscription systems
    • H04N7/173Analogue secrecy systems; Analogue subscription systems with two-way working, e.g. subscriber sending a programme selection signal
    • H04N7/17309Transmission or handling of upstream communications
    • H04N7/17318Direct or substantially direct transmission and handling of requests

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  • Engineering & Computer Science (AREA)
  • Multimedia (AREA)
  • Signal Processing (AREA)
  • Library & Information Science (AREA)
  • Television Signal Processing For Recording (AREA)
  • Two-Way Televisions, Distribution Of Moving Picture Or The Like (AREA)

Abstract

A visual service that employs the full facilities of a television communication channel on an intermittent basis. A user chooses certain still picture television frames that contain subject matter of interest to him from a selection stored on the video tape reproducers (3, 4, 5--n) and conveys these choices to a central controller (1) via an incoming channel (2). These are then contiguously assembled in a tape assembler (8) perhaps with frames for other users as well, and are then transmitted to the user in a "burst" of such video frames. A local controller (Figure 3 not shown) then selects those frames which have been requested by the user these are then stored at the user's location, and can be brought up for viewing as often as desired. A vertical interval code may be used in the system for frame identification and to reproduce only those frames that the user has requested. <IMAGE>

Description

SPECIFICATION Television burst service The present invention relates to a visual service that employs the full facilities of a television communication channel on an intermittent basis.
The art has provided an auxiliary service in an essentially continuous process that supplies auxiliary information during only a small fraction of the duration of each frame of television subject matter.
This typically occurs within the vertical scanning retrace interval.
This service can only occupy a limited area of the television picture, such as a line of printing in the nature of a sub-title.
The art has also provided a single television image frame, or a successive series of frames to provide a pictorial replay from an originating source.
An example is the known stop-motion frame of a cricket telecast to show the viewer how a batsman was out.
A variation of the above is the replay of a hundred to several hundred frames in slow motion to show an action in the game that is of interest.
These activities occur at the transmitting station under the control of the program director. A choice by an individual viewer as to what he will see is not possible.
According to a first aspect of the present invention there is provided a method of reproducing a specified complete image at a distance, which includes the steps of: (a) forming only one frame of video signal of the specified subject matter; (b) transmitting said one frame of video signal over a wide band communication channel at video speed; (c) storing at video speed said one frame of video signal after transmission; and (d) upon demand, repeatedly reproducing at the original video speed said one frame of specified subject matter from storage.
According to a second aspect of the present invention there is provided television apparatus for reproducing at least one complete specified image at a distance, including: (a) means to form a video signal of one frame representing said specified image; (b) television transmitting means having a bandwidth sufficient to transmit said video signal of said specified image at video speed; (c) television receiving means for accepting video signals from said transmitting means; (d) means for storing at video speed at least said video signal representing said one specified image, said means for storing being connected to said television receiving means; (e) means for reproducing television images; and (f) a local controller connected to said means for storing and to said means for reproducing, in order to select said specified image for reproduction.
Thus the present invention provides a service for individually transmitting and receiving one or more frames of video signal at television speed. During such transmission the full video bandwidth and all other facilities of the video and the synchronizing channel are employed. These frames may be periodically successively transmitted in a "burst".
This may be during a brief break in a main television program service, being otherwise continuous. Alternatively, a channel may be dedicated to "burst" transmissions.
The pictorial subject matter of the "burst" frames is usually not related, one to the other, or to a television service. Frames may be rendered in colour if the television system is capable of colour. Cable TV facilities may also be used.
A user at his receiver chooses which frame or frames are to be selected (i.e., specified) for his viewing. This selection is communicated to a central transmitting station, where the desired subject matter is on file, or is produced for the request.
In general, there are a number of viewers making selections at any time. These selections are preferably collated into a unified "burst" sequence, which is transmitted upon an empirically scheduled basis for an interval of perhaps from a fraction of a minute to a few minutes.
The "burst" may be transmitted on any communication channel having video bandwidth, and in any relation to any other video material, as in a multi-use cable or satellite system.
The video burst sequence is stored at the receiver of each user utilizing the service. Any one viewer may then reproduce all of the selections until he reproduces the one he specified, being aided by an initially reproduced "table of contents". Alternatively, coding may be employed with automatic code selection means to reproduce only the selection specified by a user at his receiver.
The received material is stored for viewing at any time.
The present invention will now be described in greater detail by way of example with reference to the accompanying drawings, wherein: Figure lisa block diagram of the central equipment, at the transmitting location; Figure 2 is a block diagram of the central controller shown in Figure 1; Figure 3 is a block diagram of the user equipment, at the receiver location; Figure 4 is a block diagram of the local controller shown in Figure 3; Figure 5A is a flow chart for the microprocessor of the central controller; the foreground program; Figure 5B is the same for the background program; and Figure 6 is a flow chart for the microprocessor of the local controller.
Referring to Figure 1,the central equipment includes a central controller which is shown in detail in Figure 2. As the name implies, it controls the several other devices at the originating, or transmitting station.
A request for specified frame(s) service originates from a user, and is electrically transmitted to the central controller. This may be via an incoming channel 2, such as a telephone line. The usual telephone instrument of the touch-tone type may be used by the user.
Typically, a request is accompanied by the user's identifying number. This number is used to identify the request as it is electronically handied, and also to provide a measure of security to prevent unauthorized use.
In a simple form, the request also includes a few digit numbers, which uniquely determines the specific pictorial subject matter to be presented; i.e., a picture of the volcanic Mt. St. Helens erupting. Such number is typically made available to the user by a printed catalog of availabilities, or video transmissions over the system when a more general number pertaining to the desired subject matter is introduced by the user. That is, from the general category the specific category and then the specific selection is made known.
The user makes a request for one or more specified complete images.
The desired information in video form is contained in usually more than one video signal reproducer at the transmitting station. In the form shown, these are plural video tape reproducers 3, 4, 5, - - n, all connected to the central controller 1 by one set of conductors 6,forth control of the reproducers by the central controller, and by another set of conductors 7, for conveying the video output selectively from the reproducers to the central controller 1 for ultimate tranmission to the user.
Each reproducer is separately actuated by an appropriate code number, known to contain the frame sought, and then further actuated to reel the reproducer to the specific frame sought, which is then accepted as a video signal by the central controller for subsequent disposition.
In typical operation, successive requests are received by the central controller, and one or more reproducers are successively actuated to bring forth the picture material requested.
The video signals corresponding to each requested single frame are immediately passed-on to a tape assembler 8. These frames are sequentially and contiguously recorded on the tape to provide the subject material of a subsequent "burst" of individual frames to satisfy one or more requests.
The tape assembler is a video recorder - reproducer.
Control thereof to position one frame of video directly adjacent to another; i.e., "on" - "off", is provided from central controller 1, via an appropriate control conductor. The central equipment comprising components 1 - 8 form video signal of one, or more, frames representing the specified image.
A second "audio" channel on the tape assembler8 is connected to central controller 1. This provides time code control for indexing the associated video material.
Transmission equipment 9 accepts the "burst" video signal, now composed to reflect the user selections that have been made, and passes this on via a transmission channel.
The transmission equipment 9 represents a wide band communication channel. This may be the known television transmitter used in television broadcasting, cable television, satellite broadcast, or beam radio wave relay, such as handles the video signal of the specified image desired by the user at video speed. "Wide band" may be subject to considerable variation, but the usually understood frequency band from a few Hzto 4.5 MHz, with a wider or narrower band by a factor of 50% being acceptable. The width of the band determines how detailed the images are.
A control/status line 10 connects the central controller to the transmission equipment 9, particularly for the purpose of conditioning the transmission equipment to receive the "burst" when the appropriate time for the transmission occurs.
Figure 2 shows a detailed block circuit of the central controller 1. This is included within the dotted line. Certain of the other components shown in Figure 1 has also been shown for completeness.
Microprocessor 14 provides general control, according to a software program that has been prepared for it, and which is shown in the form of flow charts in Figure 5. Typically, the microprocessor is an IC (integrated circuit) general purpose computer, such as the Intel 8085.
A bus 15 connects the microprocessor to and from the several other entities within the dotted area in the circuit of Figure 2. The bus 15 typically comprises 8 data lines, 16 lines for address, and a few more lines for control; i.e., read, write and timing.
A read only memory 16 (ROM), which may be an Intel 2716, performs bootstrap service to microprocessor 14, to empower itto access a set of commands to floppy disc controller 17. The controller 17 then accesses the program located on the recorded program means, floppy disc 18; being typically a magnetic recording medium.
That program is then stored in a random access memory (RAM) 19 by the control exercised by microprocessor 14. The RAM 19 may be a semiconductor memory which has rewrite capability and random access; it may be the Mostek MK 4116, which, with an array of 8 x 2 provides 32,768 bytes.
It is now possible to begin to execute the prgram, which not only contains the operational program for microprocessor 14, but also cross-reference information between catalog selection numbers and reel and frame numbers associated with them; also cross-reference information between reel number and playback machine numbers. All of this information is brought in from the floppy disc 18 and put into the RAM memory 19.
Means are provided to communicate with the user; i.e., a telephone interface 20. The lower part thereof has facility for handling data and control, such as ring detector circuitry, "hook switch" relay, line terminator transformer, and touch-tone detector circuitry.
The data include "ringing occurring", or ringing "not occurring", telephone "off hook", or not, etc., whether or not numbers are being received by touch-tone, and if so, what are the numbers. Other functions are "go off hook", answer a ringing signal, and go back "on hook" atthe end of the conversation with a user.
The above information comes and goes through a data/control interface 21. This comprises conven tional medium scale integration (MSI) digital circuits, organized in the conventional microprocessor manner, for address decoding, device selection, tri-state gating to insert selected data on bus 15, and flip-flops to store selected data from the bus. These elements may be the Texas Instruments, Inc. 74, LS 240,74 LS 30,74 LS 138, and 74 LS 259.
The tri-state gates have three states; a normal binary "hi" and binary "lo", and a completely open-circuited state. This allows a large number of these gates to be connected to the bus 15.
When a gate is in the open-circuit state it does not load the bus and so does not interfere with any other action upon the bus. When a gate is in the active state it does impress on the bus either a "hi" or a "lo" condition. The circuit structure is similar to the old telephone party line. Each tri-state gate has an enable function pin connection. An address decoder decodes the particular address for that tri-state gate.
Whenever that address occurs only that tri-state gate is put in the active state and then communicates to the bus the condition that is associated with that gate input.
A voice synthesis device 22 is part of the means to communicate with the user. It accepts data from microprocessor 14 concerning voice messages to be sent back to the user of the service and converts these data to voice sounds that are sent to the user.
Typcial voice sounds answer a call from a user, giving prompting assistance in making selections, correcting the user when errors are made, informing the user when his selection(s) will be transmitted to him, and the page numbers of his selection, concluding the telephone call, and arranging for hanging up the telephone at the end of the message.
This device may be a Texas Instruments, Inc., TMS5200 voice synthesis processor.
Atime of day clock 23 provides real time information that is utilized in formulating when a "burst" transmission can occur. It may be a single digital functioning chip, plus a few MSI device select chips.
These are available from the National Semiconductor corporation. This clock 23 is connected to the bus 15. Typically, a piezo crystal, as one operating at 32 KHz, is connected to the clock 23 to give a time standard for its operation.
A control and status panel 24 enables initial setup to be accomplished by an operator, also subsequent monitoring, and subsequent changes, if required.
The panel 24 is connected to the bus 15 through an input/output panel 25. This provides an addressable port interface function connection to the bus. This interface is similar to the above described telephone data/control interface 21. The circuits are similar but the address code is different.
At the lower left in Figure 2, plural sources of specified images are the plurality of video playbacks shown at 3, 4, 5, - - n in Figure 1. Machine I/O input-output circuits 26 are shown in each case to connect the video playbacks to the bus 15.
In Figure 2, playback video tape recorder (VTR) 3 is shown, along with machine input/output (I/O) circuit 26, as exemplary of the plural sources and companion I/O circuits that are more fully shown in Figure 1.
A known time code output is conveyed from the VTR 3 to I/O circuit 26 via a conductor 27 for providing address information to the microprocessor 14. Machine I/O circuit 26 is similar to previously described interface 21, except that it additionally has known time code reader circuits and the provision for transferring data from these circuits to the bus 15 when selected.
A further output of the VTR 3 is conveyed by a conductor 29 to video switch and VI code insert circuit 30, on its way to ulimate transmission. The circuit 30 has known Vl code insertion circuits and known video routing switch circuits.
A switcher controller 31 is similar to the interface 21.
Both of these additional circuits accept data provided by the microprocessor 14 via the bus 15 when the addresses for this interface are present.
Playback VTR 4 and its machine I/O circuit 26' are shown dotted in Figure 2. This circuit and the others follow the circuits for the VTR 3 and provide outputs to switch the circuit 30. In the circuit 30 the proper video signal from amongst the several playback VTRs is output under the control of the microprocessor 14 through switcher controller and VI code data interface circuit 31.
In this way the unique code that has been provided by the microprocessor is inserted in the vertical (synchronizing) interval, VI, upon what horizontal scanning lines are selected for the system for such information, and individually for each of the frames chosen.
This selected video signal then enters record and reproducerVTR 8 (tape assembler). Also connected to the VTR 8 is record VTR l/O 32, which is further connected to the bus 15. This input/output circuit is similar to the I/O circuit 26, except that it has a different address and digital control of the record function.
Record and reproducerVTR (tape assembler) 8 has pre-recorded time code information and through the I/O circuit 32, control from the microprocessor 14 causes the VTR 8 to position its video tape so that the typical several unrelated frames are placed contiguously adjacent to each other.
When a "burst" of typical plural frames is to be transmitted, after having been assembled in the tape assembler 8, the video signals are reproduced from the video tape thereof and enter the video transmission system 9. This preferably occurs on an empirically schedules basis. That is, this may be every half-hour, or more or less frequently depending upon the demands of the users, or for other reasons of convenience.
A system 1/O 33 is connected to the bus 15 and video transmission system 9, the latter by control and status conductor 10. The ultimate signal authorizing transmission of the "burst" comes from the microprocessor 14 through the system 1/O 33.
The video transmission equipment 9 has been described in connection with Figure 1. System 1/O 33 is connected thereto by the conductor 10 and to the bus 15 for control, and is similar to the interface 21, except for having a different address.
Referring now to Figure 3, which is a block diagram for user's equipment, such as is located in a home, office or store, a receiver 40 intercepts the incoming transmitted signal. Depending upon the nature of the communication channel, the receiver may be a television receiver if the signal is broadcast by a television transmitter, terminal amplifying equipment if by video cable, a satellite receiver if satellite broadcast, or a beam relay receiver if beam relayed.
Video cassette recorder-reproducer 41 represents means for storing one, or a few, frames of video signal after the transmission thereof. This is preferably a high quality device. As shown, the receiver 40 is connected to the video cassette recorderreproducer 41, for recording the whole "burst" of incoming frames.
The use of the system is inaugurated by referring to a catalog of available information. In a matured system the scope of available information is very large. The catalog is made available as a printed publication, or it can be presented over the system by a user utilizing a simple index number, such as 001. Similar index numbers may be provided for a number of general subjects, so that the user is not overwhelmed with availabilities.
Telephone 42 is the usual touch-tone type as provided by the local telephone exchange and is connected normally to the telephone line. This provides the meansforthe user to make his request known to the central equipment of the system. The usual phone call to that facility is made. After invitation by the voice synthesis circuit 22 at the central location, the user touch-tone dials the selection of frames he wishes to view. Central controller 1 determines when the burst transmission containing his selections will be transmitted, and what page numbers therein will be his selections.
The central controller 1 handles all request and has information on how many requests may be ahead of any particular user. The central controller is programmed to estimate how long a time interval is to be expected before the particlar user's request will be assembled on tape assembler 8.
Assuming a burst transmission at every half hour, if the next burst transmission is due in 10 minutes and the particular user's selections can be assembled in 7 minutes, voice synthesis circuit 22 will be directed to inform the user that his burst transmission will occur in 10 minutes. Conversely, if there is a queue of other request and the time required to fill the user's request requires 12 minutes or longer, then the voice reply will be to the effect that the desired burst will occur in 40 minutes.
Upon being informed, the user enters the time of the burst and the pages of his selection in his local controller 43.
Alternately, it can be arranged so that by the user pressing one button the time of burst and pages of the selection can be electronically fed into the local controller 43 directly from the telephone line. The voice reply may be eliminated, or supplemented by a simple code that is directly acceptable to the local controller.
After the "burst" is received it is stored on video tape in cassette recorder-reproducer 41. At any time thereafter the user can view his selection(s) by simply activating the local controller 43. The turns cassette recorder-reproducer 41 "on" in the reproducing mode, for repeatedly reproducing the one frame at video speed. It appears on a TV display 44, which is a television picture tube with associated scanning circuits.
The reproduced video signal exits cassette recorder-reproducer41 and enters the local controller 43 to extract VI code information necessary to locate the page(s) specified by the user. Optionally, the TV screen may be blanked out for all other pages that may be in the burst. Further, optionally, the page number may be inserted in one corner of the video picture by energizing known means that can be made a part of the local controller. Such an insert is desirable if the user prefers to examine all of the pages in the burst.
The local controller 43 either automatically or manually places cassette recorder-reproducer in the still frame mode to allow continuous viewing of a selected frame, or any frame by a manual over-ride.
Figure 4 is a block diagram of the local controller 43. The main function of the local controller is to locate a specific page of selected video information in the locally recorded "burst" transmission. The structure is similar to that of the central controller 1 shown in Figure 2, except that it is simpler because there are fewer and less changeable duties to perform.
The local controller 43 includes a microprocessor 47, bus 48, ROM 49 and RAM 50 which are similar to equivalent parts of the central controller 1.
Because of the simpler functioning, the entire control program is fixed and is stored within the ROM 49. The RAM 50 may accordingly be smaller than before.
Microprocessor 47 may be an Intel 8085, ROM 49 an Intel 2716, and RAM 50 two Intel 2142.
Machine l/O circuit 51 serves the same function as did circuit 26 before. Circuit 51 controls video cassette recorder-reproducer 41 for video reproduction purposes at the user's location.
A relatively simple control/status panel 52 allows the user to perform basic functions, such as equipment "on", "off", making selections, and initiating control functions.
A panel l/O 53 connects control/status panel 52 to the bus 48, and accomplishes the same function as the panel l/O 25, shown in Figure 2.
A Vl code reader 54 is supplied with the reproduced video signal from VCR record-reproducer 41 via a conductor 55. The reader 54 interprets the vertical interval code from the one or more scanning lines that occur during the vertical blanking interval of the video signal.
The known Society of Motion Picture and Television Engineers code (SMPTE Code) is suitable. It utilizes only one line. The reader 54 is also connected to bus 48. This structure allows the microprocessor 47 to extract the VI code data necessary for its program to locate the desired page.
A time of day clock 46 feeds the bus 48.
A video character generator 56 also accepts the reproduced video signal from the conductor 55. The page number from vertical interval information is formulated into a subsidiary video that is applied to TV display 44 shown in Figure 3. This formulation is accomplished by conventional means utilizing integrated circuits that are the same or are similar to National Semiconductor part No. MM5840. This provides a human readable page number to be inserted in one corner of the television image.
Figure 5A is a flow chart for the microprocessor 14 of the central controller 1; the foreground program.
Figure 5B is the same for the background program.
The microprocessor 14 is arranged for "multitasking"; i.e. a program that simultaneously executes two functions. Typically, this is performed by an interrupt routine that shifts between partially processing one program, then shifts to the other program and processes a portion of it, and then back to the previous program to process a further portion of it, and so on.
The foreground program usually performs the main functions.
In Figures 5A the foreground program starts with "start" 60, the initializing conditions. Thence the function goes to decision point 61, "time to transmit?". This pertains to transmitting a "burst" of picture frames. The answer is "yes" at times, but more often "no". If "no", thence to second decision point 62, "any requests?". If there are no requests the function returns to the beginning, as shown by the arrows on the "no" line. Traverse of this loop is usual, and this occurs several times a second.
When the "requests?" answer is "yes", the re- quested video material is located from among the VTR playbacks 1,2, --- n, and that material is played back. This is the function of "the locate and playback the requested video material" 63.
Thereafter, this video is routed to record VTR 8 and a relevant vertical interval (VI) code is inserted. This is function 64.
Following this, the frame(s) requested is recorded on video tape in VTR 8 immediately following preceding frames. This is function 65.
Thereafter, the request list is decremented; i.e. the request that has just been handled is removed from the lists. This is function 66. Then the function returns to the beginning to enquire "time to trans mit?", 61 and the process repeats.
Less frequently than the request routine, it will be "time to transmit". This "yes" actuates function 67, which is to "rewind tape recorder (VTR 8) to the start of the current burst sequence". The function activity then moves to 68, "playback burst video recording for transmission, route signal to the transmitter".
The transmitter is prepared to accept and transmit the burst.
Thereafter the function progresses to 69, "position tape for next burst and record header video information".
Each burst may be separated from another by a blank frame, although these may be contiguous.
A burst-filled tape may be preserved for a time for historical reference, or the tape may be re-used by the known erasing process.
Concurrently with the above described foreground program, the background program of Figure 5B is also running.
It has a beginning point, "start", 70, when the power is turned "on". The function then moves down to "scan panel" control and status panel 24 in Figure 2. This panel is scanned for the status of the controls entered by the user.
Thereafter, the function moves down to decision point 72, "the there a ring?" The "ring" is discerned through a telephone ringing detection circuit".
Most of the time there will not be a ring, so the function proceeds via the "no" loop, back to the scan of control panel 71.
When the answer to the "is there a ring?" question is "yes", an "auto answer circuit" goes "off-hook".
That is, a load termination is put on the telephone line, causing the ringing of the telephone circuit to cease. This is function 73.
A voice then identifies that the "burst" service facility has been reached, and the user is urged to enter his requests; function 74. This is done by the user operating his touch-tone telephone for the numerical code of his selection(s), despite the fact that he has already reached the telephone number originally called. A computer program will verify that his requests are valid. This is at decision point 75, "request valid?".
If not, should there be too many digits in the request, or a beginning digit is incorrect by being a digit for which there is no catalog number, an appropriate voice message formulated by the central controller 1 and executed by voice synthesis circuit 22 of Figure 2, will ask for a correction of the request.
This is via the "no" function from point 75 to "request correction" 76. The function proceeds back to the input of "request entry" 74, in order to receive the corrected entry.
If the request(s) is valid it will be accepted and a voice message will ask the user if there are further requests for frames. This is the "yes" function from decision point 75 to decision point 77, "additional request?" If the answer is "yes" at point 77, then the function proceeds back to the input of "request entry" 74.
If there are no further requests from that user the function proceeds via "no" from point 77 to "enter queue, computer and assign time and pages" 78.
This is performed by the central controller, which also enters the frame(s) requested at the record VTR 8 in Figure 2.
Avoice message is then given on the telephone line to the user, as to the time and page(s), and a voice sign-off, after which the telephone line at the "burst" facility is returned to "on-hook". This allows the telephone line to be ready for the next call. This is all accompanied at function 79, after which the function returns to "scan panel" at 71. The activity potential for the microprocessor returns to the "start" state.
Figure 6 is a flow chart for the microprocessor 47 of the local controller 43. This is a single program flow chart.
The program starts with "start" 81, the initializing conditions. Thence, "scan the mode select controls" at 82. This function examines the positions of the switches that are a part of control/status panel 52, which determines what the user desired to do.
With this initial guidance the function progresses to first decision point 83, which asks "is the control in the record mode?" If the answer is "no", which is usual, progress is to the next decision point 84, which asks "is the control (82) in the reproduce mode?". If this answer is "no"', the apparatus iis in tthe idlle mode and the function returns to "start" again, scans control 82 again, and so on.
When the user will have put control 82 in the record mode, for example, the answer at 83 will be "yes". Then the function passes on to decision point 85, "is it time to record?". Generally, the answer will be "no" and so the function merely goes round and around point 85 until it is time to record.
When this answer is "yes" step 86, "place the video cassette recorder in record mode", is actuated and the recording of an incoming "burst" is accomplished.
Decision point 87, "is it time forthe recording to end?" is also actuated. This question continues around the "no" loop of the decision point 87 while the recording is continuing. When the recording is ended the answer here is "yes". This actuates "stop recorder and turn on recording complete light", 88.
The recording complete light is shown in control and status panel 52 of Figure 4.
This recording operation having been completed, the function returns to the "start" 81 junction to await the next command.
If the user, on the other hand, had placed control 82 in the "reproduce" mode, the answer at point 84 is "yes". The activity of the function awaits for the user to "enter the desired frame selection" at 89.
This is a page number or frame number of his choice expressed in terms uniform to the whole system.
The function then reads the selection at "read code from video cassette recorder video" 90. This is the vertical interval time code; illustratively, the SMPTE code.
Then, at decision point 91 the question is posed, "does the V.C. recorder code match that of the selection?" Generally the answer is "no", so the function moves to step 92, "move the V.C.R. tape towards selection".
From there the function returns to step 90 to see if the required code match has been accomplished. If not, the activity is repeated to step 92 until a code match is obtained. The answer from decision point 91 is then "yes", and so "playback the selected video" 93 is activated. This energizes the video cassette recorder 41 of Figure 3, to accomplish the playback and the display upon the tV display 44.
Whilst the playback selected video step 93 is activated the question is repeatedly asked at connected decision point 94, "is the playback complete?". Whilst the user is viewing the playback of the selected frame the answer is "no", and so the function continues around the "no" loop. When the user no longer wishes to have the frame displayed he actuates a control on the scan control 82 to register his desire. The answer is then "yes" at point 94. This returns the function to "start" 81, and the user's apparatus stands ready to accept a further compound when it is entered at the control 82.
Data that allows the "is it time to record" decision point 85 to make that decision comes from the RAM memory 50 that is associated with the microprocessor 47. Therein, the time to record has been previously entered in hours, minutes and seconds in the 24 hour format, which is supplied by the time of day clock 46 having been once set to the correct time of day by the user.
When the two times match it is obviously "time to record". The match can be recognized by repeatedly performing arithmetic subtraction between the two times. When the answer to that operation is zero, then the times do match.
The time is entered into the memory by the user, having received this information from the "burst" communications centre by voice announcement.
This occurs following the processing of his request by the computer, as has been previously stated herein.
The alternate mode of entering this time is to arrange the central controller, 1 to transmit the code over the telephone line to the user from the telephone interface 20 directly to the RAM memory 50 of the microprocessor 47 shown in Figure 4, through the intermediary of a second telephone interface.
The duration of recording can be established by the conditions prevailing in the use of the system.
One minute of recording provides 1,800 frames. The duration can be set from that fact, with a nominal excess to take care of minor mistiming of the two clocks involved.
A selection of suitable wide-band transmission channels has been previously stated herein. The major example given has presupposed the joint use of the transmission channel; as with a television program service in which typically less than one minute of channel use would infrequently occur for the "burst" transmissions.
An alternate arrangement involves the use of a "dedicated channel" on a cable television or equivalent system. This is a separate wide band channel that is used exclusively, or nearly exclusively, for the "burst" service.
Because of the different subject matter in each of the successive "burst" still-picture frames the transmission appears as a series of kaleiodoscopic flashes that are unintelligible to any viewer.
This is the opposite to usual television transmissions, in which each frame is invariably nearly the same as the one before and the one after. A motion picture presentation thus results.
With a dedicated channel, although a great amount of use might be made of it and it could be in reasonably continuous use, the transmission, if viewed, is not a television presentation in any sense of the word, but is a series of unintelligible flashes.
A significant difference between the two presentations is the very low concentration of visual information in the television presentation, where thousands of frames may have the same, or nearly the same, subject matter; as compared to the "burst" presentation, where typically every frame is different.
Thus, the efficiency in transmitting meaningful visual subject matter is thousands of times greater with the "burst" system. With the "burst" system a whole magazine can be transmitted in a fraction of a minute. Further, twenty years of a monthly magazine can be transmitted in an hour. Magazines and other periodicals can be "delivered" to subscribers by the "burst" process, with significant savings in paper and transportation costs.
As to apparatus, it will be recognized that large scane digital storage may be used instead of the VTR recorder 41, and other such as 8,3,4 etc., by employing semiconductor or other video storage devices.
The term "empirically schedules basis" signifies that although certain operational constraints may cause a "burst" to be transmitted each half hour, this is not a requirement. The time interval may be shorter or longer, when possible or desired.
With the dedicated channel the time interval between a user's request and his "burst" may be only a very few minutes. This would vary with the amount of traffic in the system at the time.
The "means to form a video signal of one frame" may include a slide projector with television camera, a stop-frame motion picture projector with a television camera, a television camera viewing a scene in real time, or viewing a page of a magazine, a drawing, a photograph, or other.
"Burst" as used herein conontes a plurality of frames of television image format, typically comprised of two interlaced fields, of 625 lines, 25 frames, 50 fields per second. As previously stated the visual subject matter of each frame does not normally bear a relation to that of the preceding and the subsequent frames, such as does occur in normal television.
The term "video speed" means forming a video (television) image signal at a scanning speed such as to support continuity of motion of the subject matter as discerned by the human eye. Although speeds lower or higher can be employed, a recognized speed is of 25 fields, 50 frames per second, two to one interlaced.
The term "user" has been used herein to identify a viewer at television display according to this system.
The term "subscriber" might also be used if the user pays for the service.

Claims (13)

1. The method of reproducing a specified complete image at a distance, which includes the steps of: (a) forming only one frame of video signal of the specified subject matter; (b) transmitting said one frame of video signal over a wide band communication channel at video speed; (c) storing at video speed said one frame of video signal aftertranmission; and (d) upon demand, repeatedly reproducing at the original video speed said one frame of specified subject matter from storage.
2. The method according to Claim 1, in which: (a) plural dissimilar specified images are chosen; (b) each of the above steps is completed for the one frame of the first image, then for the one frame of the second image, and soon, successively; and (c) the video signals representing the plural frames are contiguously assembled before transmission over said wide band communication channel.
3. The method according to Claim 2, which includes the additional steps of: (e) entering a unique code into the video signal representing each of the plural frames chosen; and (f) subsequently matching that code to reproduce only one specified frame from plural such frames.
4. The method according to Claim 2, wherein an accumulated demand of successive dissimilar frames of video signals is inserted as a contiguous burst in the wide band communication channel for transmission thereover.
5. The method according to Claim 4, wherein the burst of frames of video signal is inserted into the wide band communication channel upon an empiric aliy scheduled basis.
6. The method according to Claim 1, which includes the additional step of: (g) inserting on a mutually exclusive basis the one frame of video signal of the specified subject matter into an otherwise continuous video picture transmission.
7. Television apparatus for reproducing at least one complete specified image at a distance, including: (a) means to form a video signal of one frame representing said specified image; (b) television transmitting means having a bandwidth sufficient to transmit said video signal of said specified image at video speed; (c) television receiving means for accepting video signals from said transmitting means; (d) means for storing at video speed at least said video signal representing said one specified image, said means for storing being connected to said television receiving means; (e) means for reproducing television images; and (f) a local controller connected to said means for storing and to said means for reproducing, in order to select said specified image for reproduction.
8. The television apparatus according to Claim 7, wherein said means to form a video signal of said one frame includes a central controller to sequentially output plural requests for plural specified images.
9. The television apparatus according to Claim 8 wherein said central controller includes: (a) plural sources of specified images; and (b) assembler means connected to said central controller in order to form a contiguous video signal representing said specified images.
10. The television apparatus according to Claim 9, wherein said central controller further includes: (c) a microprocessor having memory means; (d) recorded computer program means; (e) means for communicating with the user; (f) means to insert a vertical interval code for each frame into the assembled video signal; and (g) a bus interconnecting the above components of the central controller for control by said microprocessor.
11. The television apparatus according to Claim 7, wherein said local controller further includes: (a) a microprocessor having memory means; (b) vertical interval code reading means connected to said means for storing in order to retrieve the transmitted vertical interval code for control; and (c) a bus interconnecting the above components of the local controller for control by said microp rocessor.
12. The method of reproducing a specified com plete image at a distance substantially as herein described with reference to the accompanying draw ings.
13. Television apparatus for reproducing at least one specified complete image at a distance, con structed substantially as herein described with refer ence to and as illustrated in the accompanying drawings.
GB8201831A 1981-04-01 1982-01-22 Television burst service Withdrawn GB2095949A (en)

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FR (1) FR2503507A1 (en)
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Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
FR2535137A1 (en) * 1982-10-22 1984-04-27 George Van Valkenburg METHOD AND APPARATUS FOR SHAPING AND DISPLAYING VIDEO INFORMATION
FR2575890A1 (en) * 1985-01-08 1986-07-11 Lignes Telegraph Telephon INTERACTIVE METHOD FOR CONSULTING A TELEVISION QUALITY IMAGE BANK THROUGH A SERVER CONNECTED TO AN INFORMATION TRANSMISSION NETWORK AND SYSTEM FOR IMPLEMENTING THE METHOD
FR2581281A1 (en) * 1985-04-29 1986-10-31 Cableshare Inc CABLE TELEVISION SYSTEM SELECTIVELY DISTRIBUTING PRE-RECORDED SOUND AND VIDEO MESSAGES
FR2634963A1 (en) * 1988-08-01 1990-02-02 Video Jukebox Network Viewing method and apparatus with telephone access and with remote monitoring
EP0493099A2 (en) * 1990-12-21 1992-07-01 Gte Laboratories Incorporated System for transferring television programs
EP0507563A2 (en) * 1991-04-02 1992-10-07 Sony Corporation Still image selection and output apparatus having fast access
EP0676896A2 (en) * 1994-04-07 1995-10-11 Siemens Aktiengesellschaft Method of receiving video signals that can be displayed on a screen and device for implementing the method
WO1999022515A1 (en) * 1997-10-27 1999-05-06 Chengeta, Cuthbert Transmission and retrieval of information

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US5689648A (en) * 1992-01-31 1997-11-18 Raychem Corporation Method and apparatus for publication of information
DE19516044A1 (en) * 1994-05-05 1995-11-09 Jens Dr Ing Ott Serial image and text data transmission to receiver by television
DE19522209A1 (en) * 1995-06-22 1997-01-02 Sel Alcatel Ag Communication system for on demand service
US9107030B2 (en) 2000-12-13 2015-08-11 Thomas E. Coverstone Communication system for sending advertisements based on location determination and previously specified user selections

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JPS5632823B2 (en) * 1974-01-21 1981-07-30
JPS53138631A (en) * 1977-05-10 1978-12-04 Fujitsu Ltd Still picture transmission system
JPS5477012A (en) * 1977-12-02 1979-06-20 Hitachi Ltd Service system for picture

Cited By (14)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
FR2535137A1 (en) * 1982-10-22 1984-04-27 George Van Valkenburg METHOD AND APPARATUS FOR SHAPING AND DISPLAYING VIDEO INFORMATION
FR2575890A1 (en) * 1985-01-08 1986-07-11 Lignes Telegraph Telephon INTERACTIVE METHOD FOR CONSULTING A TELEVISION QUALITY IMAGE BANK THROUGH A SERVER CONNECTED TO AN INFORMATION TRANSMISSION NETWORK AND SYSTEM FOR IMPLEMENTING THE METHOD
EP0190550A1 (en) * 1985-01-08 1986-08-13 Alcatel Cit Interactive method for consulting a memory store for television quality pictures by means of a distributor connected with an information transmission network, and system therefor
FR2581281A1 (en) * 1985-04-29 1986-10-31 Cableshare Inc CABLE TELEVISION SYSTEM SELECTIVELY DISTRIBUTING PRE-RECORDED SOUND AND VIDEO MESSAGES
FR2590096A1 (en) * 1985-04-29 1987-05-15 Cableshare Inc FULL VIDEO IMAGE MEMORY AND APPLICATION TO CABLE TELEVISION APPARATUS
FR2634963A1 (en) * 1988-08-01 1990-02-02 Video Jukebox Network Viewing method and apparatus with telephone access and with remote monitoring
EP0493099A2 (en) * 1990-12-21 1992-07-01 Gte Laboratories Incorporated System for transferring television programs
EP0493099A3 (en) * 1990-12-21 1992-12-16 Gte Laboratories Incorporated System for transferring television programs
EP0507563A2 (en) * 1991-04-02 1992-10-07 Sony Corporation Still image selection and output apparatus having fast access
EP0507563A3 (en) * 1991-04-02 1993-01-13 Sony Corporation Still image signal output apparatus
US5293232A (en) * 1991-04-02 1994-03-08 Sony Corporation Apparatus for transmitting still images retrieved from a still image filling apparatus
EP0676896A2 (en) * 1994-04-07 1995-10-11 Siemens Aktiengesellschaft Method of receiving video signals that can be displayed on a screen and device for implementing the method
EP0676896A3 (en) * 1994-04-07 1998-05-20 Siemens Aktiengesellschaft Method of receiving video signals that can be displayed on a screen and device for implementing the method
WO1999022515A1 (en) * 1997-10-27 1999-05-06 Chengeta, Cuthbert Transmission and retrieval of information

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Publication number Publication date
DE3151946A1 (en) 1982-10-28
FR2503507A1 (en) 1982-10-08
AU527893B2 (en) 1983-03-31
NL8200047A (en) 1982-11-01
JPS57166790A (en) 1982-10-14
AU8014582A (en) 1982-10-07

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