DE102005016804A1 - Variable object`s image generating method, involves creating and assigning graphic data for matrix dataset, and automatically configuring data for plane, if required based on determination for type of graphic processing - Google Patents

Abstract

The method involves disintegrating an illustrated object in logical plane, and determining and assigning functions (F1) for the plane. A matrix of functions and parameters for the plane is created, where the functions are characterized by the parameters. Graphic data is created and assigned for the matrix dataset. The data for the plane is automatically configured, if required based on determination for type of graphic processing. An independent claim is also included for a computer program and system for generating image of a variable object.

Description

The The present invention relates to a method and a computer system for graphic generation for the representation of variant-rich objects and for graphic data storage and transmission.

at The graphics production becomes conventional - for example with Adobe Photoshop software from Adobe Systems Incorporated - one Graphically structured by level. These are picture or font elements Leveled on several levels, each with a transparent background, the addition of the layers creates the desired graphics.

On Each level can be imagined with several levels. Become now All variants of layer addition needed can have a high total number to graphics. This leaves one hand the effort in creating the graphics is rising and requires on the other hand, a complex administration to the targeted access to allow for a particular graphic.

task The invention is to automate the process of graphic production and a parameter dependent To allow access to the graphics.

These Task is solved by a method according to claim 1 or 2 and a computer program and system according to claim 3.

For this purpose, the object to be displayed is resolved into logical levels. In 1 this is exemplified on a cube, which is resolved into the visible sides E1, E2 and E3.

Each level can be determined by one or more functions. In 1 For example, the function F1 (hatching) is assigned to the plane E1. An identical assignment for the levels E2 and E3 is not shown.

Each function may be characterized by one or more parameters. In 1 By way of example, the parameters P1 to P6 are assigned to the function F1.

The Definition and assignment of levels and functions is on one Computer system performed and preferably realized in a database, as are the Parameters defined and assigned to the functions. It is in this Context of course, that at Storing data in a database is usually a representation data by primary and foreign keys chosen becomes.

levels, Functions and parameters are preferably added to a ranking. This is particularly necessary if the non-transparent Parts of the layers superimpose each other, and makes sense for it by to set each level a preference or default score.

Preferably, in a database, a matrix is generated for each level. This can be done automatically by multiplying the number of functions of the level by the number of parameters of the respective function and assigning each generated data record to the relevant levels, functions and parameters, as in 2 shown.

In Another processing step will be conventional Way graphic data for created every record of each layer matrix. This can be done with commercial Software by leveling all the required variants For example, be saved as a file. All areas, that do not belong to the plane, created transparently. As graphic format is under the GIF format (Graphics Interchange Format, Compuserv, Columbus, Ohio).

The graphic data thus created are preferably assigned in a database to the corresponding data records of the level matrix, as in 3 is shown.

The described central computer system Z can according to the invention communicate with further decentralized systems D1 to Dn by way of data transmission, which enable a visual output of graphic data on the decentralized system Dx and an interaction with the computer system Z, as in FIG 4 is shown. A preferred type of connection is, for example, a connection via intranet or internet, a preferred type of output is the output of the graphic data on the screen of a decentralized system Dx.

An interaction takes place in that a user sends the request for a specific graphic to the computer system Z via a decentralized system Dx. The determination of the graphics is made by selecting one or more desired functions and parameters of one or more levels by a user of the distributed system Dx. These information determined by the user are supplemented by the computer system Z with all further information on levels, functions and parameters necessary for the complete definition of the object and in the computer system Z as above described as default values are known.

In a preferred embodiment becomes the possibility described above, to make a selection of levels, functions and parameters, restricted by the system instructions. So could For example, be set that when selecting the hatching P2 for the plane E1 this hatching for the levels E2 and E3 can no longer be selected. This statement could serve that the three levels each have to receive a different hatching.

By the selection of one or more desired functions and parameters one or more levels, the computer system Z is caused, per level with the information on functions and parameters from the matrix the associated To determine graphics data, the graphics data to an image processing program to convey by the image processing program, the graphic data in the predetermined one Let the sequence be composed and the composite graphic by way of data transmission deliver to the requesting user.

When Image processing program comes into consideration commercial software, about Alagad Image Component of the company Alagad Inc., 43222 Chokeberry Sq., Ashburn VA, 20147.

The Graphics data generated by the computer system Z are preferably stored as a file or in a database under an identifier that a finding in dependence of objects, layers, functions and parameters. This allows the computer system Z to check on each request whether the graphic in question has already been processed, in which case the graphic can be delivered without regeneration. This serves to reduce the processor load on the computer system Z.

Around to further minimize the processor load on computer system Z, For example, the system may be designed so that the graphics data can be read as both File or cache as well as stored in a database. In this case checks the system first, whether the requested graphics data as a file or Cache, and delivers them directly if necessary. Otherwise is checked, whether the graphics data is in a database, in this case the data are taken from the database. Only if here too If there is no data, the graph will be as described above generated, stored and delivered. In this context it makes sense to save graphics as a file only temporarily.

Around the size of the database of the computer system Z, the system can also go there be interpreted that the Graphic data in dependence be deleted from their last request time. A corresponding Establishment leads to the effect that frequently asked Requests can be delivered without regeneration, rarely however, requested graphics data will be generated upon request. These embodiment is only in connection with a storage described above the graphics data makes sense.

In a preferred embodiment The invention provides for the computer system Z for selected levels specify a start or default graphic that will be processed if there are no other instructions. This information is derived preferably from the above ranking for levels, functions and parameters from. This informs the user of the distributed system Dx at the Initial request a complete Presentation of the object transmitted.

In another preferred embodiment add information to layers, functions or parameters the image processing program used regulations for the type of Provide image processing per processing step, for example Position, rotation angle, transparency or hue shift.

In a further preferred embodiment The computer system Z is not affected by an interaction with a computer decentralized system Dx causes Generating a graph, but generating it for specific or all graphics scripted. This embodiment is only in connection with a storage described above the graphics data makes sense.

Claims (3)

Method for generating the image variant rich Objects consisting of the steps - Resolution of the object to be displayed in logical levels, - Determination and assignment of functions per level, - Determination and assignment the parameter per function, - Create a matrix Functions and parameters per level, - Creation and assignment graphic data per matrix data set, - automated composition the graphics data per level, if necessary depending on provisions on the type graphic editing. Method for obtaining specific images of variant-rich objects, comprising the steps - requesting the image by transmitting ei selection of identifiers or the representation of identifiers for levels, functions and parameters depending on any optional statements, - delivery of the image from newly generated or retained data. Computer program and system for generating and Obtaining certain images of variant rich objects according to claim 1 and 2.