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AU711781B2 - Apparatus for the creation of video test signals - Google Patents
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AU711781B2 - Apparatus for the creation of video test signals - Google Patents

Apparatus for the creation of video test signals Download PDF

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Publication number
AU711781B2
AU711781B2 AU83119/98A AU8311998A AU711781B2 AU 711781 B2 AU711781 B2 AU 711781B2 AU 83119/98 A AU83119/98 A AU 83119/98A AU 8311998 A AU8311998 A AU 8311998A AU 711781 B2 AU711781 B2 AU 711781B2
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Australia
Prior art keywords
test pattern
pattern generator
foreground
display
test
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Ceased
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AU83119/98A
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AU8311998A (en
Inventor
Jonathan Fall
Victor Steinberg
Chi Long Tsang
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Snell Advanced Media Ltd
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Snell and Wilcox Ltd
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Priority claimed from GB9403983A external-priority patent/GB9403983D0/en
Application filed by Snell and Wilcox Ltd filed Critical Snell and Wilcox Ltd
Priority to AU83119/98A priority Critical patent/AU711781B2/en
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Description

S F Ref: 318066D1
AUSTRALIA
PATENTS ACT 1990 COMPLETE SPECIFICATION FOR A STANDARD PATENT
ORIGINAL
b.
Name and Address of Applicant: Actual Inventor(s): Address for Service: Invention Title: Snell Wilcox Limited Durford Mill Petersfield Hampshire GU31 UNITED KINGDOM Victor Steinberg, Jonathan Fall, Chi Long Tsang Spruson Ferguson, Patent Attorneys Level 33 St Martins Tower, 31 Market Street Sydney, New South Wales, 2000, Australia Apparatus for the Creation of Video Test Signals The following statement is a full description of this invention, including the best method of performing It known to me/us:- 5845 -1- Apparatus for the creation of video test signals This invention relates to the creation and generation of video test signals.
It is essential in the design, testing, maintenance and calibration of high quality video equipment to have access to precise test signals. The nature of the test signals that are required will vary widely from application to application and, whilst a large number of standard test patterns are available, there is a continual need for fresh test patterns to be created for specific applications.
Historically, the more complex test patterns were created optically and 10 scanned whenever a test signal was required. More recently, digital test ooooo pattern generators have become available, and the more useful of these are ooooo **programmable. Test signals are then created and stored as digital data files.
The test pattern generator stores one or more such files and converts any one of them into a video signal corresponding to a stationary video test pattern or signal. A particularly useful form of test pattern generator is disclosed in WO-A-93/20659.
0 Software systems have been devised to simplify the creation of test signal data files. Existing systems may permit the user to specify the signal level at various sample sites along the video line or may allow him to 20 construct a video line from a number of basic signal components such as "0 sine waves, cosine 2 pulses, colour bars and the like. Such systems may also allow the user to work at a terminal which displays a representation of the waveform enabling interactive amendment of the line signal. Once one or a number of line signals have been satisfactorily created, the corresponding data file is transferred to a test pattern generator and the test signal displayed on a video monitor. If the resulting test pattern is unsatisfactory, the data files can be re-loaded for editing in the software-driven creation system.
It will be recognised that the creation of a complex test pattern can be a time-consuming exercise even with the benefit of existing software tools.
-2- It is one object of the present invention to provide improved apparatus for the creation of video test signals, which enables complex line-based test signals to be produced simply and quickly.
According to one aspect of the present invention there is provided a test pattern generator comprising background image store means for storing a background image; foreground image store means for storing a foreground image; control means for selecting a series of display locations for the foreground image relative to the background image and means for generating from said background image store means and said foreground image store means, a series of display frames comprising the foreground image superimposed upon the background image at successive ones S" respectively of said display locations thereby to create for test purposes a video pattern apparently containing motion.
Since the present invention enables each line signal or group of line signals to S.be viewed directly in picture representation, it can be seen immediately whether the *o* 15 waveforms that have been created will result in the desired test pattern. It is not V. necessary each time to load the test signals into a test pattern generator and view the pattern on a video monitor.
Advantageously, editing means are provided for interactive editing of each line S"signal from one and preferably both of the waveform and picture displays.
In a preferred form of the invention, the line signals are created in a broadcast standard-independent representation, and convertor means are provided to convert said representation. Test signals can be provided in component or composite form; in PAL formats, NTSC, SECAM or indeed other formats; and optionally in analogue or digital form.
[N:\LIBPP]01174:BFD -3- The test pattern elements may be individual lines but could be other pattern elements.
In a number of important applications, it would be beneficial to have a test pattern which combined the accuracy of conventional test patterns with a degree of movement.
Thus, it is an object of a further form of this invention to provide a test pattern generator which is capable in a simple manner of providing a test pattern incorporating the appearance of movement, whilst not imposing excessive demands on memory.
Accordingly, the present invention consists in a further aspect in a test :pattern generator comprising background image store means for storing a o* *background image; foreground image store means for storing a foreground image; control means for selecting a series of display locations for the foreground image relative to the background image and means for generating a series of display frames comprising the foreground image *.*.*superimposed upon the background image at successive ones respectively of said display locations.
Preferably, said control means is adapted to select display locations displaced one from the next by pixel displacements such as to simulate movement of the foreground image along a path relative to the background :image.
Suitably, said path is continuous.
The present invention will now be described by way of example with reference to the accompanying drawings in which:- Figure 1 is a block diagram illustrating apparatus according to the present invention for the creation of video test signals,; Figure 2 is a diagram in flow chart form illustrating the operation of apparatus according to Figure 1; Figure 3 is a diagram illustrating a process according to a further embodiment of the present invention showing the creation, editing, and display of line files; Figure 4 is a diagram similar to Figure 3, showing the creation, I -4editing, and display of frames; and Figure 5 is a series of diagrams illust.ating the operation of.a test pattern generator according to a further aspect of the present invention.
Referring first to Figure 1, a processor (10) has access to a component library This library holds a collection of basic signal components such as sine waves, cosine 2 pulses colour bars and the like.
With the user interacting through keyboard the processor serves the function of creating a video line file taking basic signal components from the component library (12) with appropriately chosen parameters such as amplitude, frequency, colour, time-constant and so on. Each completed line file is held in line file store The processor is also able to take an o: existing line file from store (16) and through an editing operation create a new line file.
To facilitate the creation and editing of line files, the processor communicates with a CRT or other display (18) through a wave form Sgenerator This generator is adapted to convert a line file received from the processor (10) into a display file comprising a wave form representation of the video line. This enables the user, interactively, to monitor the voltage wave form of the line as parameters are changed or components added.
A frame is constructed as an address list of selected lines in the line field store The address list is held in frame store As indicated :symbolically in Figure 1, the frame store (22) is capable of storing the address list for a current frame but also address lists for previously composed frames.
The processor (10) communicates with the display (18) additionally through a picture generator This serves the purpose of converting a line file into a display file which comprises a picture representation (rather than a wave form representation) of the video line. Thus, the display file is such that what appears on the display, for each line file, is the visual analogue of what will appear on a television screen in response to the video line in question. Ordinarily, the picture generator (24) will receive a series of line files corresponding to the frame, or the partial frame which is under 1 construction and which corresponds to the address list held in the current segment of store Accordingly, the picture generator (24) will produce a series of display files, a number of which may be duplicates, which result in the display of a picture.
Processor (10) further communicates with a compiler This serves the function of taking a succession of line files corresponding with the current address list in store (22) or a previously created address list and compiling a video test pattern signal for communication through port (28) with a test pattern generator.
The operation of apparatus according to this aspect of the present invention can be further understood with reference to Figure 2 which is in flow-chart form.
oo.o.: It will be observed that the initial step is to edit the selection and parameters of signal components to produce a video test line. This can be viewed in wave form representation and the editing process continued interactively. Once a satisfactory video test line has been achieved, data is saved as source and output object files. The source files contain "descriptions" about the components in a line and are not format-dependent.
These include amplitudes, phases, positions and the like. Object files are pure binary files which are produced from the source files after sampling and filtering and are format-dependent. These files are stored in line file store (16).
Once a satisfactory library of line files has been created, it is possible to view and compose a video frame using the picture generator This viewing procedure may indicate the need for modification of one or more line files in the line file store (16) or, indeed, the creation of new and different line files. On completion of a satisfactory frame, the frame description is saved in the form of a link file or address list in store The subsequent procedure involves compiling the link file into the form of a down-loadable picture file which can be transferred to a test pattern generator using the parallel port (28).
-6- Whilst the opportunity which the present invention provides of viewing a frame or a collection of lines in picture form, will considerably improve upon the "trial and error' of the prior art, there will still be circumstances in which the picture file down-loaded to the test pattern generator is not exactly in the desired form. Figure 2 accordingly includes the additional procedure of viewing the test pattern on the test pattern generator and, if it is not satisfactory, recomposing the frame by choosing different line files or editing one or more of the line files comprised within the frame.
An alternative embodiment of the present invention, similar in approach but differing in detail from that described above, is shown in Figures 3 and 4.
Turning first to Figure 3, a modification processor (30) utilises a temporary line memory (32) to build a test line description (TLD) file in a line O store The TLD file contains a list of signal components together with appropriate parameters such as amplitude, duration and frequency. It also has a header which includes format information, an indication of whether there are syncs and the number of components making up the line.
At the start of an edit procedure, a TLD file is loaded into the line memory (32) which provides temporary storage. In the case where a new line is to be created, a "null line" file is generated from a template. Under operator control, through a keyboard (36) and a mouse or other pointing device the component list is modified. This can be achieved through a numerical (or absolute) editing procedure in which the parameters of a particular component are replaced by fresh numerical values or different components are selected. An alternative, graphical editing procedure is preferably also available. Under this graphical procedure, using a mouse or other pointing device, components can be moved, replicated, deleted or changed in visual form. For example, the visual form of a component can be "stretched" or "compressed" in time or in amplitude. A combination of such graphical and numerical procedures can provide extremely powerful line editing tools which are nonetheless easy to use and speedy.
-7- The TDL file undergoes a rendering process in rendering unit (40) by which the file is first converted to a set of voltage level samples. These sample values are further processed to generate waveform display data or picture data in array form. These data arrays can be displayed on line display The waveform display data array will be more frequently used in this line context but the ability to display a single line in picture form will be useful in certain situations.
Once the operator is satisfied with the line, the modification processor replaces the original line file in store (34) with the contents of the temporary line memory (32).
Turning now to Figure 4, the modification processor (30) utilises a temporary linkfile memory (44) to build a link file in link file store This o°°o° link file comprises-a set of line files (addressed by file name) and their positions in the frame. The modification processor reads a link file (LNK) from store (46) into the temporary memory Under operator control, the identity and relative position of the lines can be modified. The TLD files identified by file name in the link file are converted by the rendering unit into a video data array which can displayed in frame display (48) as a "picture, that is to say in the form in which the pattern will eventually appear on a television screen. If the displayed picture for a frame (or part of a frame under construction) is not satisfactory, the link file can be modified to 2. call up different lines or to change the position of lines already in the frame.
Once the operator is satisfied with the displayed picture in the frame modification procedure, the contents of the temporary memory are added to the link file store (46).
To output a completed test pattern to the test pattern generator or other external device, the link file is loaded into memory (44) and the line files named in that link file are loaded into memory The rendering unit then provides the pattern in sampled voltage form at the selected standard to an output port The present invention encompasses the generation of two test pattern images or part-images which can be used in a test pattern generator -8according to the invention, to simulate a moving test image. This can be done, moreover, without sacrificing test pattern accuracy.
Referring to Figure 5, diagrams 5A and 5B illustrate respectively the content of background and foreground stored test patterns or images. The background image shown schematically in Figure 5A at (50) includes a defined region The foreground image as shown in Figure 5B has an image object (54) within a rectangular frame (56).
A succession of display frames are generated each comprising the foreground image object (54) superimposed upon the background image (50) at different locations within the defined region 52. This is illustrated in Figures 5C to 5E. Repetitive display of a number of these frames (three only being shown for the sake of clarity) will result in a test pattern sequence having the appearance of movement.
o The manner in which the series of display locations of the foreground S 15 image relative to the background image are selected may be varied to create the desired visual effect. It will usually be appropriate to select display locations displaced one from the next by pixel displacements such as to simulate movement of the foreground image object along a path relative to the background image. That path might be vertical, horizontal or diagonal. The variation in pixel displacement might be linear or simulating simple harmonic motion. The displacements of the foreground image might be effected on a field-by-field basis; on a frame-by-frame basis to simulate a film look; or in a sequence of 3 field and 2 fields to simulate the results of 3:2 pull-down in NTSC telecine.
It will thus be recognised that with minimal storage requirements, a wide range of movement effects can be created.
In the case where the foreground image is small, the option may exist of storing a plurality of foreground images each representing the same foreground image object (54) at respective different locations within the frame These locations will ordinarily differ in sub-pixel increments. AN example is shown schematically in Figure 5F. It will then be possible not only to vary the pixel displacement of the foreground image, but also by -9selecting different ones of the foreground images in turn, to vary to sub-pixel accuracy the location of the foreground image object. This will be.useful in particular applications demanding extremely smooth movement.
The manner in which the foreground image is superimposed upon the background image might involve direct substitution of the foreground pixel for the background pixel at the corresponding location. An alternative is to flag pixels in the foreground image, outside the foreground image object, as "transparent". Background image pixels which would otherwise be substituted by such "transparent" foreground pixels' will retain their original value. Still further variations will occur to those skilled in the art.

Claims (8)

1. A test pattern generator comprising background image store means for storing a background image; foreground image store means for storing a foreground image; control means for selecting a series of display locations for the foreground image relative to the background image and means for generating from said background image store means and said foreground image store means, a series of display frames comprising the foreground image superimposed upon the background image at successive ones respectively of said display locations thereby to create for test purposes s 10 a video pattern apparently containing motion. .:oo0 .*oo0
2. A test pattern generator according to claim 1, wherein said control means comprises a selector enabling operator selection between at least a video mode in which the display location changes between successive fields and a film mode in which S 15 said display location changes between successive frames.
3. A test pattern generator according to claim 2, wherein said control means enables operator selection of an NTSC telecine mode in which the display location changes at alternating intervals of three fields and two fields.
4. A test. pattern generator according to claim 1, wherein said control means is adapted to select display locations displaced one from the next by pixel displacements such as to simulate movement of the foreground image along a path relative to the background image.
A test pattern generator according to claim 4, wherein said path is continuous. [N:\LIBPP]01174:BFD I -11
6. A test pattern generator according to any one of claims 1 to wherein said foreground image store means is adapted to store a plurality of foreground images comprising, respectively, an object with a displacement varying between the foreground images and wherein said means for generating a series of display frames operates to superimpose the foreground images sequentially at the respective locations.
7. A test pattern generator according to claim 6, wherein said displacements vary by sub pixel intervals.
8. A test pattern generator substantially as herein described with o reference to any one of the embodiments as illustrated in the accompanying drawings. DATED this Third Day of September 1998 S ~Snell Wilcox Limited Patent Attorneys for the Applicant SPRUSON FERGUSON [N:\LIBPP101174:BFD
AU83119/98A 1994-03-02 1998-09-04 Apparatus for the creation of video test signals Ceased AU711781B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
AU83119/98A AU711781B2 (en) 1994-03-02 1998-09-04 Apparatus for the creation of video test signals

Applications Claiming Priority (4)

Application Number Priority Date Filing Date Title
GB9403983A GB9403983D0 (en) 1994-03-02 1994-03-02 Video test signals
GB9403983 1994-03-02
AU76220/94A AU692176B2 (en) 1994-03-02 1994-09-16 Apparatus for the creation of video test signals
AU83119/98A AU711781B2 (en) 1994-03-02 1998-09-04 Apparatus for the creation of video test signals

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AU76220/94A Division AU692176B2 (en) 1994-03-02 1994-09-16 Apparatus for the creation of video test signals

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AU711781B2 true AU711781B2 (en) 1999-10-21

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Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP0122124A2 (en) * 1983-04-08 1984-10-17 Sony Corporation Test signal generator
EP0501732A1 (en) * 1991-03-01 1992-09-02 Tektronix Inc. Testing of video codecs with a three-dimensional test signal

Patent Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP0122124A2 (en) * 1983-04-08 1984-10-17 Sony Corporation Test signal generator
EP0501732A1 (en) * 1991-03-01 1992-09-02 Tektronix Inc. Testing of video codecs with a three-dimensional test signal

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