WO2000004704A1

WO2000004704A1 - Method for controlling devices in the field of reproduction techniques

Info

Publication number: WO2000004704A1
Application number: PCT/DE1999/001699
Authority: WO
Inventors: Joern Kowalewski
Original assignee: Heidelberger Druckmaschinen Ag
Priority date: 1998-07-17
Filing date: 1999-06-10
Publication date: 2000-01-27
Also published as: DE19832245A1

Abstract

The present invention relates to a method for controlling devices used in the field of reproduction techniques, wherein a plurality of devices are arranged in a processing line where image data is processed and where the devices are actuated. A user's plane, which can be accessed by the user and which is divided into control segments, is determined for the control of the devices. A separation between the user's command sequence and the machine command sequence is made in the user's plane. Control parameters are transmitted to the execution segments of the device plane from the individual control segments of the user's plane. These parameters act on the execution segments where they further act, independently from the user, on the functions of the individual devices, the corresponding machine commands of the devices being executed.

Description

Process for operating devices in reproduction technology

The invention relates to a method to operate devices in reproduction technology, in particular image data acquisition devices, Bilddatenver- _c processing devices, image output devices and image transmission devices, wherein a plurality of devices are disposed in a processing chain, are processed in the image data and in which the devices with the requirements of the user the devices are acted upon for the execution of the functions, wherein the functions in the individual devices are performed by machine instructions and wherein _ι a sequence of _n instructions of the user (user logic) into a sequence of

Machine commands are implemented, on the basis of which a sequence of processing steps is carried out on the individual devices.

Today's devices in reproduction technology, in particular image data acquisition devices ₍ such as scanners, image data processing devices, image output devices such as

Imagesetters or recorders or devices for image transmission over lines or over data networks, for example by means of fax machines or modems, are often arranged in a processing chain in which the individual functions are carried out. This processing chain may also intangible devices, that include realized in processing stations ₂ Q software, such as digital Bildatenfilterung for sharpness enhancement or stations for converting the image data from vector representation in a bitmap representation and vice versa. In particular, the image data are present as information blocks within such a chain, which are processed by the individual devices on the basis of the specifications of the user through the ₂₅ machine commands. The individual devices are operated one by one by the operator, the operator's specifications being converted directly into machine commands and the machine commands being executed in the order in which the operator enters them. For each device there is therefore an operating layer for the operator in which the parameters of the individual devices are activated for the execution of the individual machine commands. The operator must, for example, for the operation of scanners commands switch Auflichtabtaster an enter switch transmission scanner, or a _C, for example, an indication of the operating mode such as color, or black and white for the device. It is irrelevant whether the parameters on the device are set on individual control elements such as buttons or in operator software that runs on a workstation assigned to the device. This type of operation can be described as "device-centric". In this type of Bedie- _Q voltage, the operator must know every single function of each device carefully. He must know the effects of a function of a single device on the functions of the other devices and must enter the entire sequence of commands required to run the image processing through the entire chain in a logical sequence from start to finish. This logical π sequence accesses the individual machine commands during the sequence and must be coordinated in its sequence with the individual machine commands, which presupposes that the operator knows the individual machine commands precisely and also addresses them in the correct order. So he has to create a sequence of specifications and enter them. This requires a lot of specialist knowledge from the operator, firstly about the functions of the individual devices and the individual machine commands, about the interaction of the functions within a device and about the execution and consequences of the machine commands as well as about the expected result of a single device and about the overall result at the end of the Device chain. This requires a highly qualified operator who has ₅ direct influence in the processing process without errors. Errors can easily occur, be it by entering incorrect values or an incorrect sequence. As a result, the quality of the initial result can often not be optimal or the result can even be unusable. Since there are many interdependencies Given the differences between the individual functions, errors in operation cannot always be recognized in advance and are difficult to identify later. The object of the present invention is therefore to provide a new method for operating reproductive devices which significantly simplifies operation, simplifies the work for the operator, brings more security for the end result and can be used to achieve higher quality in a simple manner.

The invention achieves this by the features specified in claim 1. Advantageous further developments of the inventors are specified in subclaims 10 2 to 4.

The invention is explained in more detail below with reference to the figure.

The figure shows a schematic representation of the operating method.

Λ ₅ A user level 1 is defined to which the operator has access, ie he can act on this level in accordance with the workflow provided for the processing process separately from the machine commands, in accordance with his intentions, in individual operating segments 2. These operating segments relate in the event that it is electronic image processing

_{20 should} act, for example the properties of the original image,

Changes to the original image, the desired result and the way or the destination to which the result is to go. Changes to the original can include, for example, changes in taste as well as improvements in defective images or compositions of several images into one

₂₅ overall picture. In the segment for determining the application, it can be determined, for example, whether it is a color reproduction under supervision as a hard copy, a color separation for the pre-press, a fax or an archive document. In the segment route, destination, for example, a printer, a modem. Imagesetter or an archive for storing the image can be specified.

This ensures that the usual sequence of user commands is separated from the sequence of machine commands, i.e. the rigid coupling between the sequence of the logic of the user is removed from the sequence of the machine commands. Instead, the individual operating segments give operating parameters to the execution segments of the device level, which act on the execution segments and act on the functions of the individual devices in a manner detached from the operator.

A device level 3 is furthermore defined for the execution of the processing process, which is subdivided into execution segments 4 which act on the individual functions of the devices which are involved in the processing chain. These can concern the original, changes to the original, the application in which the original is used or the path the original is supposed to take and / or the destination to which the original is to be reached. In the further process, operating parameters 5 are transferred from the individual operating segments 2 of the operating level 1 to the execution segments 4 of the device level 3, which act on the execution segments 4 and act there detached from the operator on the functions of the individual devices by the corresponding machine commands of the Devices are running. In this case, parameters can go from one operating segment to different execution segments without the operator explicitly determining and specifying this.

In order to differentiate the operation, the operating segments 2 are divided into several input categories at the user level, for example, which are available to the operator and can be addressed by him depending on the desired sequence. This can be, for example, for naming the properties of the original image, the type of the original, such as a photo, negative, slide, film type, newspaper, or real things. In the segment changes, or desired changes of the original image during image processing, the categories of what type should be changes in taste, for example, the internal properties of a scene, a landscape or a portrait are too dark, overexposed, color cast, etc.

In the application segment or naming the application of the end result, e.g. Specify whether the end product should be a copy, a fax, a print template, a web image or an archive picture or e.g. what size is desired.

In the segment route, destination, or naming the route or destination that the result should take, e.g. Printer, modem archive, retouching, etc. can be specified.

At the device level, the execution segments are divided into several execution categories 41. For example, Execution segments for scanning, image processing and further processing may be provided.

The segment scanning or image scanning can be divided into different categories, such as the different design options for image scanning by one or more scanning units, different scanning modes, such as color, gray tone image, incident light or transmitted light. The image processing segment can comprise categories of different variants of image processing, e.g. Implementation of image changes and / or image improvements such as filtering, descreening, color corrections or color transformations, or taste corrections.

The further processing segment can provide different categories for the further processing of the image data, such as output, storage and / or transmission of the image data, for example data formatting and transfer of the data also being able to be provided as execution categories. The device level thus addresses the technical processes directly, without the operator feeling that his inputs are related to a specific device and the workflows that are controlled by the device level are determined by the workflow.

Claims

claims

1. Method for operating devices in reproduction technology, in particular image data acquisition devices, image data processing

₅ devices, image output devices and image transmission devices, several

Devices are arranged in a processing chain, are processed in the image data and in which the devices with the requirements of the user for executing the functions of the devices are subjected, _Q are the functions in the individual devices performed by machine instructions and wherein a sequence of instructions the user (user logic) is converted into a sequence of machine commands, on the basis of which a sequence of processing steps is carried out on the individual devices (logic of the machine sequence), characterized in that

- A user level 1 to which the 5 operators have access is defined for operating the devices, the user level being divided into operating segments 2

- Within the user level, the sequence of the commands of the user (logic of the user) is separated from the sequence of machine commands (logic of the machine sequence) and 0 - from the individual operating segments of the operating level

Operating parameters 5 are given to the execution segments 4 of the device level, which act on the execution segments 4 and act there detached from the operator on the functions of the individual devices by executing the corresponding machine commands of the devices 5.

2. The method according to claim 1, characterized in that operating segments 2 consist of individual input categories 21.

3. The method according to claim 2, characterized in that the following input categories 21 are provided, which are available to the operator: naming the properties of the original image,

Naming desired changes to the original image during image processing,

Name the use case of the end result and

Name of the path the result should take.

4. The method according to any one of claims 1 to 3, characterized in that the execution segments 4 at the device level are divided into execution categories 41 which execute the device commands.

5. The method according to claim 4, characterized in that the following execution categories 41 are provided:

Execution of the image scanning by one or more scanning units for different scanning modes,

Image processing for the scanned image data in the form of carrying out image changes and / or image improvements, and

Further processing of the image data, in particular output, storage and / or transmission of the image data.