NL1021652C2 - Image generating system, sends digital information from first computer to second computer for loading directly into frame buffer - Google Patents

Abstract

A first computer (A) is used to generate digital information comprising the medium to be generated and this information is suitable for loading essentially directly into a computer frame buffer. This information can be sent via a communication link (2) from the first computer to a second computer (B) which is used to load the received information essentially directly into a frame buffer (KB) in the second computer.

Description

Title: System for producing a medium, such as an image.

The invention relates to a system for producing a medium, such as an image.

Such a system is known from practice and comprises a computer which is provided with a computer frame buffer. This frame buffer 5 comprises a computer memory in which digital information containing the medium is stored for substantially continuous and synchronized transmission to a medium producer connected to the computer, so that the medium producer can produce the medium without interruptions. The information loaded in the frame buffer can then be sent substantially directly in digital form to the medium producer or, for example, be converted by an DA converter into an analog medium signal for a producer who is adapted to receive an analog signal. The content of the frame buffer is usually filled and changed by a computer unit. Because the frame buffer 15 transmits the information loaded in that buffer substantially continuously to the medium producer, the computer only needs to change something about the content of the frame buffer when a change in the medium to be produced is desired, which saves computing capacity of the said calculation unit. The medium can for instance comprise an image and / or a sound.

When the medium to be generated comprises an image, the medium producer may, for example, be in the form of a monitor and / or an LCD display. In that case the frame buffer comprises a digital video memory in which the image to be displayed, at least the pixels from which that image is composed, is stored. Said computer unit of calculation can then for instance comprise a microprocessor and / or a graphic processor. The image information stored in this video frame buffer is transmitted to the monitor substantially continuously and synchronously, for example by means of an analog VGA video signal if the monitor is a VGA monitor.

A drawback of the known system is that said computer unit is heavily loaded when a relatively complicated medium is to be produced, for example when the medium comprises a three-dimensional image of a virtual, real-time changing environment. Such a virtual environment is used, for example, in computer simulations and / or games. The virtual environment can comprise an existing environment and / or a fantasy environment. Due to the heavy load on the computer during the calculation of such a complicated medium, the computer is not available to perform other tasks, for example the execution of a computer program when the computer is a CPU of the computer. Furthermore, the medium to be produced can be so complicated that the computer is not even able to calculate parts of the medium within a set calculation time, so that the medium cannot be produced without error, for example with hitches. In computer simulations, for example, very high image refresh rates of simulation images are usually desired, which places a very heavy load on the computer unit as a result of a corresponding relatively short calculation time per simulation image.

It is an object of the invention to eliminate the disadvantages of the known system while maintaining the advantages thereof. In particular, the invention contemplates a system in which the computer, in particular a computer computing unit, is relatively lightly loaded when the computer produces a medium with a medium producer.

To this end, the system according to the invention is provided with at least a first computer and a second computer, the first computer being adapted to generate digital information such that this information is suitable for inserting substantially directly into a computer frame buffer (IJL '3 are loaded, the digital information including the medium to be produced, the first computer being adapted to transmit said digital information via a communication link to the second computer, the second computer being adapted to receive said, received from the first computer load information substantially directly into a frame buffer of the second computer.

The first computer generates said digital information containing the medium and transmits this information to the second computer. The information is loaded substantially directly into the frame buffer of the second computer so that a medium producer can produce the medium when the producer is directly or indirectly coupled to that frame buffer. The second computer is therefore substantially not or relatively lightly charged for the generation of the medium. This is advantageous when the second computer has a relatively small computing power while the medium to be produced is so complicated that the generation of the information containing the medium requires a lot of computing power. In that case, the first computer preferably has a relatively large computing power, so that the first computer has relatively little difficulty in generating said digital information. Examples of a medium to be produced whose computer generation requires a relatively large amount of computing power have already been given in the introduction and include, for example, real-time animations and / or simulations of a virtual environment.

An additional advantage of the invention is that the first and second computers can be situated at a relatively large distance from each other without loss of quality of the medium to be produced, since the information containing the medium is transmitted in digital form from the first to the second computer. sent.

Said digital information generated by the first computer may, for example, comprise frame buffer information which is directly output via, for example, data channels from the second computer; cumpuitn nan wuxueu geiauen. vbxuci nau uc geuuemue information generated by the first computer comprises compressed frame buffer information, which must first be decompressed by the second computer before the information is suitable for loading into the frame buffer of the second computer. For this purpose, the second computer may, for example, be provided with suitable digital decompression means, for example an MPEG2 or MP3 decoding chip when the frame buffer information is transmitted by the first computer in MPEG2 or MPEG2. MP3 format is compressed. By compressing the digital information, a communication connection with a relatively low data capacity between the first and second computer can be used without loss of transport speed of said digital information transmitted via that connection.

The first computer can be arranged in various ways to generate said digital information. Thus, first computer can be arranged such that said digital information to be sent to the second computer comes substantially directly from a frame buffer of the first computer, which can be made relatively simple and inexpensive.

Furthermore, the first computer may be provided with a DA converter connected to the frame buffer of that computer and adapted to generate an analog signal which is dependent on the content of that frame buffer, the first computer being provided with a DA converter. converter-connected frame generator means adapted to generate said digital information to be sent to the second computer from the analog signal received from the DA converter. This is advantageous if the first computer is already provided with both a frame buffer and a DA converter connected to the frame buffer, which is often customary in practice. The frame generator means can generate the said digital information to be sent to the second computer relatively easily from the analog signal originating from the DA converter.

In addition, the first computer can be arranged to substantially completely calculate said digital information to be sent to the second computer. This is advantageous when, for example, the first computer is not provided with a frame buffer from which said digital information can be obtained directly or indirectly, or when the frame buffer of the first computer is to be used only for purposes which are not related to the medium to be produced .

According to a further elaboration of the invention, the second computer is adapted to send a control signal to the first computer via a communication connection, the first computer being adapted to generate and / or adapt the medium to be produced depending on the received control signal .

In this way the generation of the medium to be produced can be controlled in a simple manner with the aid of the second computer. As a result, a user of the second computer can, for example, determine which medium is produced and / or influence the medium, which is desired, for example, when the user operates a computer game or simulation related to the medium via the second computer. To this end, the second computer can be provided with operating means, wherein the second computer is arranged such that a user can influence said control signal by operating the operating means. The operating means can for instance comprise a keyboard, mouse, touchscreen, voice recognition means or the like means.

Further elaborations of the invention are described in the subclaims.

The invention will now be discussed with reference to a few exemplary embodiments and the drawing. Therein: FIG. 1 a first exemplary embodiment of the invention;

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Fig. 2 shows a second exemplary embodiment of the invention; Fig. 3 is a schematic representation of a further elaboration of the exemplary embodiment shown in Fig. 1; Fig. 4 shows a schematically shown first alternative elaboration of the exemplary embodiment shown in Fig. 1; and Fig. 5 is a diagrammatically shown second alternative elaboration of the exemplary embodiment shown in Fig. 1;

FIG. 1 shows a first exemplary embodiment of a system for producing an image. The system is provided with a first computer 10 A and a second computer B. The first and second computer A, resp. B are connected to each other via a communication network. In the present exemplary embodiment, the network is provided with a first network connection 2, 4 and a second connection 1, 3. A network server C, D is included in each connection. These servers C, D can, for example, be arranged for communication via the first and second connection 2, 4 and 4, respectively. 1, 3 between the two computers A, B.

The first computer A is arranged to generate digital information such that this information is suitable for being loaded substantially directly into a computer video frame buffer. The digital information contains the image to be produced. The first computer A further adapted to send the said digital information via the first communication link 2, 4 to the second computer B. The second computer B is provided with a video frame buffer KB not shown in Figure 1, to which a monitor M is coupled via means not shown in this Figure 1. The second computer B is arranged to load the said information received from the first computer A substantially directly into the video frame buffer KB of the second computer B. As a result, during use, the first computer A can easily generate said digital information containing the image and send it to the second computer B via the first communication link 2, 4. The second computer B loads the received information substantially directly into the video frame buffer KB of that computer IB, so that the monitor M can display the image. The displayed network 1, 2, 3, 4 may comprise, for example, a telephone network, a UMTS network, Internet and / or a combination of these or other communication networks. Since the information containing the medium is in digital form from the first to the second computer A, resp.

If I B is transmitted, these computers A, B can be arranged at a very large distance from each other without loss of image quality of the image to be produced.

Figure 2 shows an alternative elaboration of the system, in which it is provided with several computers A, F, M which are each adapted to generate said digital information containing the image and this information via the displayed network 1, 2,3, 4. The system is further provided with different computers B, I, E, N which are each adapted to receive the information transmitted via the network 1, 2, 3, 4 and substantially directly in a frame buffer of the computer B in question, E, N to charge. In this way, different computers A, F, M can be used to calculate different images I which can be displayed via different other computers B, E, N. It can thereby be avoided that those other I computers are loaded relatively high during the generation of the digital I information which contains the images.

Figures 3-5 show further elaborations of at least the system shown in Figure 1 I. Figure 3 shows a system in which the first computer A is provided with a calculating unit GA, a video frame buffer KA, I a computer memory HA, communication means Q connected to said network and a database I. These parts of the I computer are electronically connected to each other via with arrows

I data channels 10, 11, 13, 15, 17, 18, 19. The second computer B

I 30 is also provided with a calculation unit GB, a video frame buffer KB, I 02 02 652 uuii geuc ugcu xixjy up net iiclwcijl aaiigeoiutcii uuiuiuuuiuaticiuiuueieii u ell data channels 12, 16, 21. The monitor M of the second computer B is via a analog video connection 14 coupled to a DA converter LB of that computer B. This converter LB is adapted to convert a digital signal received from the video frame buffer KB from that computer B into an analog video signal and to transmit it to the monitor M via said video connection 14. The video frame buffer KB and DA converter LB of the second computer B can, for example, be located on a graphic card J of that computer B.

In the elaboration of the system shown in Fig. 3, the first computer A is arranged such that the said digital information to be sent to the second computer B comes substantially directly from the video frame buffer KA of the first computer A. video frame buffer KA loaded by the calculating unit GA of the first computer 15 with information containing the image to be produced. For this purpose, for example, a computer program stored in the database I and / or the memory HA can be executed by the computer GA of the first computer A. The information stored in the frame buffer KA is transmitted via the communication means Q and the network 1, 2, 3, 4 to the second computer B. Here, the information can first be stored in the computer memory HA of the first computer A and compressed by the computer unit GA of that computer A, before the information is sent to the second computer B.

The second computer B loads the digital information containing the image received from the first computer A substantially directly into the video frame buffer KB of the second computer B. When the information is compressed, the second computer B can first decompress this information using the computing unit GB and computer memory HB of that computer B. Because the digital information 30 is loaded in the frame buffer KB, the image stored in that information can be converted by the DA converter LB into an analog image signal and transmitted to the monitor M for displaying the image.

Figure 4 shows an alternative elaboration of the system, wherein the first computer A is provided with at least one DA converter LA connected to the frame buffer KA of that computer A. This converter LA is adapted to generate an analog signal which is dependent on the content of that frame buffer KA of the first computer A. Furthermore, the first computer A is provided with frame generator means R connected to this DA converter LA 10 and adapted to generating said digital information to be sent to the second computer B from the analog signal received from the DA converter L. In the exemplary embodiment, this information is first loaded by the frame generator means R into the memory HA of the first computer A 15, before the information is transmitted to the second computer B in compressed or uncompressed form.

Figure 5 shows a second alternative embodiment, wherein at least the calculating unit GA of the first computer A is arranged to substantially completely calculate said digital information to be sent to the second computer B. In this calculation, the calculation unit can, for example, use the database I and / or the computer memory HA. The calculated information can be sent directly by the computer via the network 2, D, 4 to the second computer.

It is self-evident that the invention is not limited to the exemplary embodiments described. Various changes are possible within the scope of the invention as set forth in the following claims.

The medium can comprise an image, a sound or a combination of these or other media. Each of said computers A, B may further be provided with at least one frame buffer, for example at least one video and / or audio frame buffer.

Furthermore, the second computer B may be adapted to send a control signal to the first computer A via the network, the first computer A being adapted to generate and / or adjust the medium to be produced depending on the received control signal. In this case, for example, a computer program to be executed by the first computer A for generating the medium can be started, influenced or terminated by the control signal.

In addition, the second computer B can comprise a mobile communication device, in particular a mobile telephone. As a result, the mobile communication device can produce a complicated medium, wherein the device does not have to be provided with relatively large and heavy mobility-limiting computer components for the laborious calculation of the complicated medium. This calculation is simply carried out by the first computer and sent to the mobile communication device in the form of said digital information, so that the information is loaded substantially directly into a frame buffer of that device for the production of the medium.

In addition, the second computer can for instance be a PC with a relatively small computing power.

The frame buffer can furthermore be designed with various microelectronic components and comprise, for example, RAM chips, VRAM or DRAM chips or other memory chips.

In addition, the output signal from the frame buffer can be brought to the medium producer via various known computer connections, for example via a USB, firewire, serial port, parallel port, audio / video cable, VGA connection, Bluetooth or the like, depending on the medium to be generated and the medium producer.

1021652

Claims (13)

A system for producing a medium, such as an image, wherein the system is provided with at least a first computer (A) and a second computer (B), the first computer (A) being adapted to generate such digital information that this information is adapted to be loaded substantially directly into a computer frame buffer, the digital information containing the medium to be produced, the first computer (A) being adapted to send said digital information via a communication connection (2) to the sending a second computer (B), the second computer (B) being arranged to load said information received from the first computer (A) substantially directly into a frame buffer (KB) of the second computer (B). 2. System as claimed in claim 1, wherein the first computer (A) is arranged such that said digital information to be sent to the second computer (B) comes substantially directly from a frame buffer (KA) of the first computer ( A). The system according to claim 1, wherein the first computer (A) is provided with a DA converter (LA) connected to the frame buffer (KA) of said computer (A) and adapted to generate an analog signal dependent on the content of said frame buffer (KA), wherein the first computer (A) is provided with frame generator means (R) connected to the DA converter (LA) and adapted to send said digital to the second computer (B) generate information from the analog signal received from the DA converter (L). 4. System as claimed in claim 1, wherein the first computer (A) is arranged to substantially completely calculate said digital information to be sent to the second computer (B). The system of any one of the preceding claims, wherein said digital information comprises uncompressed frame buffer information. 6. System according to any of claims 1-5, wherein said digital information comprises only compressed frame buffer information, wherein the first computer (A) is arranged to compress frame buffer information to that information, wherein the second computer (B) is arranged to decompress that information. 7. System as claimed in any of the foregoing claims, wherein the second computer (B) is adapted to send a control signal to the first computer (A) via a communication connection (3), the first computer (A) being arranged to to generate and / or adjust the medium to be produced depending on the received control signal. 8. System as claimed in claim 7, wherein the second computer (B) is provided with operating means, wherein the second computer (B) is arranged such that a user can influence said control signal by operating the operating means. The system of any one of the preceding claims, wherein the medium comprises a three-dimensional image. System as claimed in any of the foregoing claims, wherein the first and second computer are in communication connection (2; 3.) via at least one computer network (C; D), in particular a UMTS network. 11. System as claimed in any of the foregoing claims, wherein the medium comprises a virtual environmental image. A system according to any one of the preceding claims, wherein the second computer (B) comprises a mobile communication device, in particular a mobile telephone. 13. System as claimed in any of the claims 1-11, wherein the second computer (B) is a PC with a relatively small computing power.