DE102008046643A1 - Method for displaying raster images - Google Patents

Abstract

The invention relates to a method in which images are generated in the form of vector representations from an image source (1) and at the same time an initialization instruction A1 for transforming the vector representations into raster images having a specific resolution Ix, Iy is output. The invention further relates to an arrangement suitable for practicing such a method. According to the invention, in a method of the aforementioned type, the signal path between the image source (1) and the graphics processor is interrupted, the initialization instruction A1 is intercepted, the initialization instruction A1 is replaced by an initialization instruction A2 for transforming the vector representations into raster images a resolution I'x, I'y which is greater or less than the resolution Ix, Iy, and - the initialization instruction A2 is transmitted together with the vector representations to the graphics processor. In an arrangement according to the invention, a drive circuit (10) for initializing the graphics processor is provided as a function of the changed resolution I'x, I'y.

Description

The The invention relates to a method in which from an image source Pictures are generated in the form of vector representations and at the same time an initialization instruction for transforming the vector representations is output in raster images with a certain resolution. The invention relates continue to exercise one Such a method suitable arrangement.

at known methods and arrangements of the aforementioned type for example, from one to an electronic storage device running application program generated 3D images and as vector representations sent to a graphics processor, the initialization instruction to convert the vector representations in raster images of a certain resolution causes.

there is often the problem that the given Resolution, subsequently referred to as logical resolution, and thus also the resolution the raster images generated by the graphics processor from the physical resolution of the screen on which the raster images are displayed should be.

This In particular, this occurs when application programs of older versions, the one relatively small logical resolution for example 800 × 600 Specify picture elements in connection with modern screens be used, which in comparison to a much higher physical resolution exhibit. When the resolution of the Screen when displaying the program produced by the application program Pictures is to be exploited, there is a need for adaptation the lower logical resolution to the higher one physical resolution. This affects both 2D and 3D representations. Especially but in newer methods for 3D rendering of raster images it is required high resolution To use screens and exploit their capabilities also.

The latter is especially the case when viewing the raster images using provided by LC displays, for the purpose of three-dimensionally perceptible Image reproduction equipped with a parallax barrier screen or a lenticular screen are.

To something present The prior art will adapt a lower logical resolution to the higher one Resolving power of a Screen made by interpolation. In other words: which will be the lower resolution raster image generated by the graphics processor transferred by stretching and / or upsetting in a raster image, the desired physical resolution corresponds, but only a repeated or reduced Display of picture elements is done to adjust the grid. In this case, the viewer is merely faked an altered resolution. It also works This procedure is disadvantageous on the image quality, in particular on the picture sharpness. In addition, the assignment of the original picture elements to places falsified within the grid, which disturbs especially with 3D-representations.

From that The invention is based on the object, a method to create, with those created by an image source as vector representations Images with improved image quality as raster images on screens can be represented whose physical resolution differs from the logical resolution, which is specified by the image source. Furthermore, there is a task the invention in proposing a corresponding arrangement.

The logical resolution lx, ly in the sense of the present invention is defined by from an image source for rendering vector representations in the form number of raster images predetermined in the direction of x and in the direction y pixels to be arranged. The physical resolution px, Py is determined according to the invention by the number of in the direction x and the number of arranged in the direction y and at the playback a raster image involved pixels of a screen.

The Differences between a logical resolution lx, ly and a physical one Resolution px, py can on the total number of pixels or pixels refer or even just to the number in the direction of x or in Direction y arranged pixels or pixels. As a picture element applies the individual, on each one pixel of the screen Information to be displayed on a raster image, such as color and brightness.

• – der Signalweg zwischen der Bildquelle und dem Grafikprozessor unterbrochen wird,
• – die von der Bildquelle ausgehende Initialisierungsanweisung A1 abgefangen wird,
• – die Initialisierungsanweisung A1 ersetzt wird durch eine Initialisierungsanweisung A2 zur Transformation der Vektordarstellungen in Rasterbilder mit einer Auflösung l'x, l'y, die größer oder kleiner ist als die Auflösung lx, ly, und
• – die Initialisierungsanweisung A2 gemeinsam mit den Vektordarstellungen an den Grafikprozessor übermittelt wird.

The object underlying the invention is achieved by a method of the type mentioned by

• The signal path between the image source and the graphics processor is interrupted,
• The initialization instruction A1 originating from the image source is intercepted,
• The initialization instruction A1 is replaced by an initialization instruction A2 for transforming the vector representations into raster images with a resolution l'x, l'y that is greater or smaller than the resolution lx, ly, and
• - The initialization instruction A2 is transmitted together with the vector representations to the graphics processor.

The interception of the initialization statement A1 can be understood in terms of blocking the passing on to the graphics processor. In a preferred embodiment, the initialization instruction A1 is replaced by an initialization instruction A2 for transforming the vector representations into raster images with a resolution l'x, l'y, which corresponds to the physical resolution px, py, in the particularly advantageous case the maximum resolution of the screen.

So For example, it is conceivable that the image source is an initialization instruction A1 for transforming the vector representations into raster images a resolution lx, ly arranged from 800 in the direction of x and 600 in the direction of y Pixels outputs and this is replaced by an initialization statement A2 for transforming the vector representations into raster images a resolution l'x, l'y from 1680 towards x and 1050 arranged in the direction of y pixels arranged on a screen with the physical resolution px, py from 1680 in the direction of x and 1050 in the direction of y arranged pixels, so that everyone Pixel a calculated from the vector representations image information assigned.

The adapted Initialization instruction A2 can be specified manually or automatically from a configuration software associated with the screen be obtained.

• – eine Bildquelle, bevorzugt in Form eines auf einer elektronischen Speichereinheit laufenden Anwendungsprogramms, die ausgebildet ist
• – zur Erzeugung von Bildern in Form von Vektordarstellungen, und
• – zur Ausgabe einer Initialisierungsanweisung A1 zur Transformation der Vektordarstellungen in Rasterbilder einer bestimmten Auflösung lx, ly,
• – einen der Bildquelle nachgeordneten Grafikprozessor, ausgestattet mit einer Funktion zur Transformation der Vektordarstellungen in Rasterbilder mit einer Auflösung, die einer Initialisierungsanweisung entspricht,
• – einen mit dem Grafikprozessor verbundenen Bildschirm, der zur Darstellung von Rasterbildern geeignet ist, und
• – eine in den Informationsübertragungsweg zwischen Bildquelle und Grafikprozessor eingeordnete Ansteuerschaltung, ausgebildet zum Abfangen der Initialisierungsanweisung A1 und zur Weitergabe einer Initialisierungsanweisung A2 zur Transformation der Vektordarstellungen in Rasterbilder mit einer Auflösung l'x, l'y, die größer oder kleiner ist als die Auflösung lx, ly, anstelle der Initialisierungsanweisung A1.

The invention furthermore relates to an arrangement for displaying raster images, comprising:

• An image source, preferably in the form of an application program running on an electronic storage unit, which is designed
• For the generation of images in the form of vector representations, and
• To output an initialization instruction A1 for transforming the vector representations into raster images of a specific resolution lx, ly,
• A graphic processor downstream of the image source, equipped with a function for transforming the vector representations into raster images with a resolution corresponding to an initialization instruction,
• A screen connected to the graphics processor suitable for displaying raster images, and
• A drive circuit arranged in the information transmission path between the image source and the graphics processor, adapted to intercept the initialization instruction A1 and to pass an initialization instruction A2 for transforming the vector representations into raster images having a resolution l'x, l'y which is greater or less than the resolution lx , ly, instead of the initialization instruction A1.

In a preferred embodiment of the arrangement according to the invention is the drive circuit for specifying an initialization instruction A2 for transforming the vector representations into raster images a resolution l'x, l'y trained to be the maximum resolution px, py of the screen.

Of the Graphics processor is advantageously designed as a 3D graphics card and has a vertex unit, a raster unit and a fragment unit. It takes over the vertex unit using a preprogrammed geometry transformation the transfer of the 3D coordinates of the pictorial objects to be reproduced from the vector representation into a 2D coordinate system and passes the corresponding image information to the raster unit, the resulting Raster fragments for generates a raster image with the specified logical resolution. The subsequent fragment unit places the raster fragments in the to display on the subordinate screen raster image one.

The For example, image source can be used to issue an initialization statement A1 for transforming the vector representations into raster images a resolution lx, ly arranged from 800 in the direction of x and 600 in the direction of y Pixels be formed while the screen a maximum Resolving power of 1680 in the direction of x and 1050 in the direction of y arranged pixels having. In this respect, the initialization instruction A2, which the Initialization instruction A1 replaces, preferably on the generation raster images with the resolution from 1680 to 1050 Be directed pixels.

The Initialization instruction A2 can, for example, in one of the drive circuit stored memory assigned, or the drive circuit is with an input device for manually entering the initialization instruction A2 or connected to a signal output of the screen, where the latter serves the information about the physical resolution px, py of the connected video automatically from this or from one refer to the configuration software associated with the screen.

at the application program may be, in particular, a 3D drawing or 3D game program act.

It is understood that the features mentioned above and those explained below can be used not only in the combinations indicated, but also in other combinations or in isolation, without going beyond the scope of the present invention. Of course, this also applies to him Set the initialization instruction A1 by initialization instructions A2, which are directed to the generation of raster images not only with the resolution of 1680 × 1050 pixels, but with any further resolutions limited only by the resolution of the screen.

The inventive method and the described arrangement are in particular for use in Related to LC displays that are equipped with a parallax barrier screen or a Lenticular screen equipped and characterized for a three-dimensional perceptible Display of raster images are designed.

following will be first the prior art, then the invention using an exemplary embodiment explained in more detail. In the accompanying drawings demonstrate:

1 the connection of an image source known from the prior art via a 3D graphics card with a screen,

2 the arrangement according to the invention of a drive circuit between the image source and the graphics processor for adapting the logical resolution lx, ly, which specifies the image source for initialization of the 3D graphics card, to the physical resolution px, py of the screen.

1 shows the sake of clarity simplified principle of connection of an image source 1 , which may be illustratively a running on a storage unit running 3D character or 3D game program, with a 3D graphics card 2 who has a screen 3 is subordinate. The 3D graphics card 2 has - according to the state of the art - a vertex unit 4 , a raster unit 5 and a fragment unit 6 ,

The image source 1 generates images of 3D objects to be displayed in the form of vector representations electronically via a signal path 7 to the 3D graphics card 2 be passed on.

• – eine logische Auflösung lx/ly, die von der 3D-Grafikkarte 2 bei der Umwandlung der Vektordarstellungen in Rasterbilder verwendet werden soll, und
• – ein Viewport für die Rastertransformation in Form eines Bereiches eines 2D-Koordinatensystems, in dessen Koordinaten die als Rasterfragmente vorliegenden Bildelemente einzuordnen sind.

At the same time, from the image source 1 generates an initialization instruction A1 and via a signal path 8th to the 3D graphics card 2 transmitted. The initialization instruction A1 specifies:

• - a logical resolution lx / ly, that of the 3d graphics card 2 to be used in the conversion of the vector representations into raster images, and
• A viewport for the raster transformation in the form of an area of a 2D coordinate system, in the coordinates of which the picture elements present as raster fragments are to be arranged.

• – die Vertex-Unit 4 entsprechend einer vorprogrammierten Geometrietransformation die 3D-Koordinaten der bildlich wiederzugebenden Objekte aus der Vektordarstellung in ein dem Viewport entsprechendes 2D-Koordinatensystem überführt,
• – die Raster-Unit 5 Rasterfragmente für Rasterbilder mit der vorgebenden logischen Auflösung lx/ly erzeugt, und
• – mittels der Fragment-Unit 6 die Rasterfragmente in die zur Darstellung auf dem nachgeordneten Bildschirm 3 auszugebenden Rasterbilder eingeordnet werden.

With the transmission of the initialization instruction A1, the 3D graphics card 2 initialized, whereupon

• - the vertex unit 4 in accordance with a preprogrammed geometry transformation, the 3D coordinates of the objects to be reproduced from the vector representation are converted into a 2D coordinate system corresponding to the viewport,
• - the raster unit 5 Rasterfragmente for raster images with the specified logical resolution lx / ly generated, and
• - by means of the fragment unit 6 the raster fragments into the on-screen display 3 to be outputted raster images.

For example, the 3D graphics card 2 for transforming the vector representations into raster images with the resolution lx, ly of 800 pixels in the direction of the coordinate x and 600 pixels in the direction of the coordinate y. The picture elements are assigned to coordinates of the pixels of the screen 3 over the signal path 9 to the screen 3 passed.

Has the screen 3 via a resolution or a physical release px, py, which is greater than the predetermined resolution lx, ly, as described above in the screen 3 an interpolation, wherein the grid is filled with pixels and thus the raster images are stretched to the physical resolution px, py, in the special case the maximum possible resolution of the screen 3 can be.

Only the same picture elements are repeatedly shown in the grid, which adversely affects the image quality, especially on the image sharpness. As such, in such cases, there is a need for methods and arrangements that substantially improve image quality in displaying raster images on the screen 3 is achieved.

In this regard shows 2 the inventive arrangement of a drive circuit 10 in the information transfer path between the image source 1 and the 3D graphics card 2 , which is designed to intercept the initialization instruction A1 and to specify a different initialization instruction A2, namely to transform the vector representations into raster images with a resolution l'x, l'y which is greater or smaller than that originally from the image source 1 given resolution lx, ly.

source 1 , 3D graphics card 2 and screen 3 are trained as well as already 1 explained.

When operating the arrangement according to the invention via the signal paths 7.1 and 7.2 the one from the image source 1 generated images of the 3D objects to be displayed electronically in the form of vector representations of the 3D graphics card 2 transmitted.

• – eine logische Auflösung l'x/l'y, die der physikalischen Auflösung px/py entspricht und nunmehr anstelle der logischen Auflösung lx, ly von der 3D-Grafikkarte 2 bei der Umwandlung der Vektordarstellungen in Rasterbilder verwendet werden soll, und
• – einen an die geänderte Auflösung l'x/l'y angepaßten Viewport für die Rastertransformation in Form eines Bereiches eines 2D-Koordinatensystems, in dessen Koordinaten die nun als Rasterfragmente vorliegenden Bildelemente einzuordnen sind.

The from the image source 1 outgoing initialization instruction A1 is via the signal path 8.1 to the drive circuit 10 transmitted. The drive circuit 10 intercepts the initialization instruction A1 and replaces it with a deviating initialization instruction A2. The initialization instruction A2 is via the signal path 8.2 to the 3D graphics card 2 transmits and states:

• - a logical resolution l'x / l'y, which corresponds to the physical resolution px / py and now instead of the logical resolution lx, ly of the 3D graphics card 2 to be used in the conversion of the vector representations into raster images, and
• A viewport for the raster transformation adapted to the changed resolution I x / I y in the form of an area of a 2D coordinate system in whose coordinates the picture elements now present as raster fragments are to be arranged.

• – durch die Vertex-Unit 4 entsprechend der vorprogrammierten und unverändert gebliebenen Geometrietransformation die 3D-Koordinaten der bildlich wiederzugebenden Objekte aus der Vektordarstellung in ein dem geänderten Viewport angepaßtes 2D-Koordinatensystem überführt,
• – durch die Raster-Unit 5 Rasterfragmente für Rasterbilder mit der jetzt vorgebenden logischen Auflösung l'x/l'y erzeugt, und
• – mittels der Fragment-Unit 6 die Rasterfragmente in das zur Darstellung auf dem nachgeordneten Bildschirm 3 auszugebende Rasterbild eingeordnet.

With the transmission of the initialization instruction A1, the 3D graphics card 2 initialized in a different way. Here are, as already based 1 explained in the 3D graphics card 2

• - through the vertex unit 4 in accordance with the preprogrammed and unchanged geometry transformation, the 3D coordinates of the objects to be reproduced from the vector representation are converted into a 2D coordinate system adapted to the changed viewport,
• - through the grid unit 5 Rasterfragmente for raster images generated with the now given logical resolution l'x / l'y, and
• - by means of the fragment unit 6 the raster fragments into the on-screen display 3 arranged to be output raster image.

Thus it is achieved that, despite the original of the image source 1 outgoing instruction to generate 800x600 resolution raster images from the 3D graphics card 2 Now raster images with the resolution 1680 x 1050 are generated, the most advantageous exactly the resolution of the screen 3 correspond. This means that each pixel available on the screen is assigned an image information calculated exactly from the vector representations.

Embodiments are included in the concept of the invention, in which the transmission of the vector representations to the 3D graphics card 2 not via signal paths 7.1 and 7.2 and thus via the control unit 10 but directly via a separate, not graphically represented, but the drive unit 10 immediate signal path takes place.

Furthermore, it is within the scope of the invention, the information about the physical resolution px, py of the connected screen 3 by means of the image source 1 from a the screen type and the screen brand associated configuration software. Alternatively or additionally, however, an input device for manually inputting the physical resolution px, py can be provided (not shown in the drawing) with the image source 1 or the drive circuit 10 communicates.

Of the Advantage of the invention is that the maximum screen resolution to a representation of the raster image with one in contrast to State of the art used significantly improved image quality This can be because the raster image rendered with the actual screen resolution and also with this resolution is output for display. The task of the invention underlying, is solved.

Especially is so the presentation of even with older application programs generated images on 3D LC display's possible the viewer without the aid of a three-dimensional perception of the image content, such as with a parallax barrier screen or a lenticular screen equipped LCD display, in which the of Display outgoing light separated to both eyes of an observer arrives.

With the method according to the invention can the 3D representation but also by means of a projector on one reflective screen (with the help of 3D glasses for the viewer) or on a holographic screen.

1

source

2

3D graphics card

3

screen

4

Vertix unit

5

Scanning Unit

6

Fragment Unit

7, 7.1, 7.2, 8, 8.1, 8.2, 9

signaling pathways

10

drive circuit

Claims (11)

Method of displaying raster images, in which - from an image source ( 1 ), preferably from an application program running on an electronic storage unit, generates images in the form of vector representations - and an initialization instruction A1 for transforming the vector representations into raster images with a specific resolution lx, ly is output, - the vector representations and the initialization instruction A1 are transmitted to a graphics processor having a function for transforming the vector representations into raster images of a given resolution , and - the raster images generated by the graphics processor to a screen ( 3 ), characterized in that - the signal path between the image source ( 1 - the initialization instruction A1 is intercepted, - the initialization instruction A1 is replaced by an initialization instruction A2 for transforming the vector representations into raster images with a resolution l'x, l'y which is greater or smaller than the resolution lx , ly, and - the initialization instruction A2 is transmitted together with the vector representations to the graphics processor. Method according to Claim 1, in which the initialization instruction A1 is replaced by an initialization instruction A2 for transforming the vector representations into raster images with a resolution l'x, l'y corresponding to the maximum resolution of the screen ( 3 ) corresponds. Method according to one of the preceding claims, in which the image source ( 1 ) outputs an initialization instruction A1 for transforming the vector representations into raster images with a resolution lx, ly of 800 pixels arranged in the direction x and 600 in the direction y. Method according to one of the preceding claims, in the initialization instruction A1 is replaced by an initialization instruction A2 for transforming the vector representations into raster images a resolution l'x, l'y from 1680 towards x and 1050 pixels arranged in the direction y. Arrangement for displaying raster images, comprising: an image source ( 1 ), preferably from an application program running on an electronic storage unit, designed to generate images in the form of vector representations, and to output an initialization instruction A1 for transforming the vector representations into raster images with a specific resolution lx, ly, one of the image source 1 a subordinate graphics processor equipped with a function for transforming the vector representations into raster images with a resolution which corresponds to a predetermined initialization instruction, and a screen connected to the graphics processor ( 3 ), which is designed to display raster images, characterized by - one in the information transmission path between the image source ( 1 ) and the graphics processor arranged drive circuit ( 10 ) adapted to intercept the initialization instruction A1 and to specify an initialization instruction A2 for transforming the vector representations into raster images with a resolution l'x, l'y that is greater or smaller than the resolution lx, ly. Arrangement according to claim 5 with a drive circuit ( 10 ), which is designed to specify an initialization instruction A2 for transforming the vector representations into raster images with a resolution l'x, l'y corresponding to the maximum resolution px, py of the screen ( 3 ) corresponds. Arrangement according to claim 6, in which - the graphics processor is a 3D graphics card ( 2 ) and equipped with a vertex unit ( 4 ), a raster unit ( 5 ) and a fragment unit ( 6 ). Arrangement according to one of Claims 5 to 7, in which the image source is designed to output an initialization instruction A1 for transforming the vector representations into raster images with a resolution lx, ly of 800 pixels arranged in the direction x and 600 in the direction y, 10 ) for outputting an initialization instruction A2 for transforming the vector representations into raster images with a resolution l'x, l'y which corresponds to the resolution of the screen ( 3 ), and - the screen ( 3 ) has a resolution px, py of 1680 in the direction of x and 1050 in the direction of y arranged pixels. Arrangement according to one of Claims 5 to 8, in which the drive circuit ( 10 ) - has a memory in which the initialization instruction A2 is stored, or - is equipped with a control input provided with an input device for manual specification of the initialization instruction A2 or with a signal output of the screen ( 3 ) connected is. Arrangement according to one of Claims 5 to 9, in which the image source ( 1 ) is provided a memory unit with a running application program, in particular a 3D character or 3D game program. Use of the method according to one of claims 1 to 4 and / or an arrangement according to egg Nem of claims 5 to 10 in connection with the presentation of raster images on LC displays that are equipped with a parallax barrier screen or a lenticular screen and thereby designed for a three-dimensionally perceptible display of raster images.