(1) Operation process hierarchy Figure 4 JDF tree structure hierarchy Figure 5 JDF tree/network diagram · Continuous processing (overall resources are continuous production and consumption, the simplest business chain) · Overlap processing (simultaneous production and consumption of resources) Parallel processing (resource decomposition control and sharing) Iterative processing (recursive loop iterations to generate resources) (2) MIS integration To co-ordinate the equipment of different manufacturers requires a great deal of effort. Although the XML language has the ability to encode multiple languages, it is not completely available. Moreover, the biggest and most important obstacle in the printing workflow is that there is a big problem in communication between the management information system (MIS) responsible for planning and controlling work and the production service system responsible for the operation. In other words, there is no automatic, coordinated, effective two-way communication between these two aspects. All data that lists plans, arrangements, processing results, work status, and job tracking must be passed from the production department to the MIS before MIS can process feed-in instructions. JDF provides a mechanism for controlling and tracking jobs for natural production systems, and provides information delivery services between MIS and production. During the execution of jobs, the results of each processing process are stored for better tracking. The system defines a series of standard information, information formats, and equipment implementation agreements. It also provides a range of information. The minimum acceptance amount is zero. In the absence of information selection, the controller must check the JDF to determine the outcome of the processing. In addition to information capacity, JDF includes different audit records for each process, which provides details of the processing plan and actual results. Most devices will choose to support different levels of information capacity. The equipment must support the command function. If the equipment selects the command function, the controller can issue instructions to interrupt the current work, restart a job or change the priority of the work. In addition to communication, JDF can also support the controller to collect each process. The execution data is transmitted to the tracking system for use by a job accounting system. JDF defines a message architecture that includes message formats, semantics, and communication protocols. The JDF driver uses this architecture to communicate information with systems that control production equipment. System providers also have greater flexibility in choosing message mechanisms. JDF provides a good opportunity for MIS integration. (3) JDF library and simulator In cooperation with Wuppertal University and Heidelberg, the Java class library for writing and interpreting JDF has been implemented. The library will be announced by the CIP4 Alliance as a common resource repository for members of the CIP4 so that the open source library-based agents, controllers, and equipment can be effectively developed. Figure 7 At the top of the library there is a Java-based simulation tool used to model the JDF workflow. This tool was also developed by the Wuppertal University. Users can use the WEB interface to put the JDF into the hot folder as the output information of the simulator and process the information. Through JDF to different production resources, these simulation resources can be processed on a single computer or as a distributed system (based on TCP/IP). When the simulator runs discrete events, the generated production status, error information, etc. will be used as work messages. Is sent to the controller, in the future even "real" JDF controller is integrated into the simulation environment for testing. Figure 8 In this way, advanced methods for testing new agents, new controllers, and new devices will be implemented so that early testing does not require a real production environment. (4) Conclusions and Prospects XML can realize the automatic transmission of data between independent computer systems. In this way, it reduces the amount of work information flow from quoting, receiving livework, work order arrangement, production, work order tracking, product delivery, invoice development, and collection process. The complete re-entry of data, the purpose of exposing the XML and JDF standards is to make workflow integration easier, although we now see that these processes are only implemented on a single provider's equipment, such as Prinect, Agfa's in Heidelberg. Apogee and ScreenNet's TrueNet, etc., JDF still promised to pave the way for multiple providers to work together, but it is simple to say. It is difficult to guarantee that all equipment providers will develop equipment that adapts to the same JDF. That is, only when both systems adapt to the JDF standard can they be successfully connected. So, two years ago, Creo announced the establishment of the Networked Graphic Producion (NGP). The founding members of the organization are committed to defining, developing, testing, and providing JDF-based integration of their systems, in order to ensure that different providers achieve better For integration, NGP members decided to define and use a standard set of JDF interfaces. NGP now has more than 25 members, including software providers (Adobe); MIS (DiMS!, Printcafe, Primac, Prism, Radius and Streamline Solutions); digital printing providers (Xerox); printing press providers (KBA, Komori, MAN Roland and MBO).
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The JDF job consists of a series of nodes that specify the production steps. The nodes are connected by input and output and arranged in a hierarchical tree structure. The nodes describe the final product and different parts of the production, such as the cover and insert in Figure 3. . The tree information contained in the nodes becomes more detailed and accurate. Each child node defines a component of production and has a series of unique features, such as different media, different physical dimensions, or different color requirements. The nodes represent a set of operations required to produce parts of the product. Each node near the tip of the branch represents a separate operation. The child node cover and inserts in the example all have very different requirements. Therefore, the two nodes need to better describe the activity elements in a broad sense, and there are black and white pages and color pages on the inner page. This requires different methods of operation, and further branching is necessary.
Because the output resources of many JDF nodes are input resources of other nodes at the same time, many nodes do not start working until their resources are all in place, which means that the nodes need to work in a well-defined order. For example, the output resource plate of the plate making process is the input resource required for the next printing process. In the JDF hierarchical tree structure, the upper node represents a higher level and more abstract operation, and the opposite approaching the bottom represents a more detailed and specific operation. The operation. In particular, the nodes near the top of the tree only represent the meaning of the various components of the product. The leaf node provides specific detailed operation instructions for the device.
In this hierarchical structure of node trees, nodes are connected to the service chain by their respective resources. The output resource of one node is the input resource of the next node. This relationship is called resource connection. With a resource connection, you can build a complex business network.
Because the output resources of many JDF nodes are input resources of other nodes at the same time, many nodes do not start working until their resources are all in place, which means that the nodes need to work in a well-defined order. For example, the output resource plate of the plate making process is the input resource required for the next printing process. In the JDF hierarchical tree structure, the upper node represents a higher level and more abstract operation, and the opposite approaching the bottom represents a more detailed and specific operation. The operation. In particular, the nodes near the top of the tree only represent the meaning of the various components of the product. The leaf node provides specific detailed operation instructions for the device.
In this hierarchical structure of node trees, nodes are connected to the service chain by their respective resources. The output resource of one node is the input resource of the next node. This relationship is called resource connection. With a resource connection, you can build a complex business network.
The business connection in JDF does not clearly indicate that the nodes do not have abstract schedules and instructions. For example, the color printing node must be before the RIP node, but it is implicitly defined in the exchange of input and output. Business network, all business execution is driven by these compliance, a resource compliance may contain multiple business path scripts, MIS uses the relevant local constraints to determine the appropriate solution, so MIS write JDF job proxy server It should also be consistent with these local constraints, such as the predominance of prepress software, prepress equipment and printing distance, print load and delivery time, etc. should be taken into account. All these factors come together to describe the production process. To help the proxy server define the workflow, JDF provides four different types of basic service routing mechanisms that can be combined in any combination:
Figure 6
In addition, the entire job information can be transmitted to a job accounting system. The system then checks the audit record to determine the cost of the entire job. Each individual project manager selects one or more operations to complete each individual job. At the beginning of the first version, JDF was unrelated to the equipment provider. This ensures that all providers can use the JDF development system, and that no provider is at a disadvantage in the competition.
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