Electrical computers and digital processing systems: multicomput – Computer network managing
Reexamination Certificate
2000-01-20
2004-11-16
Meinecke-Diaz, Susanna (Department: 3623)
Electrical computers and digital processing systems: multicomput
Computer network managing
Reexamination Certificate
active
06820118
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Technical Field
The present invention relates to a method and system for providing improving interaction between systems management systems and their respective distributed applications running in networked computer systems. In particular, the present invention relates to a method and system for providing an improved consistency between systems management systems and their respective distributed applications.
2. Prior Art
The subject matter of the present invention is applicable to a broad variety of applications, i.e. whenever the availability of an application is monitored by systems management systems, further referred to as SMSs.
It is particularly applicable for applications having a distributed nature and running in a distributed environment on a plurality of workstations hosting some copy of said distributed application.
Further, workflow management systems, referred to herein as WFMSs, are very preferred objects for being subjected to the improvements of the present invention. But basically, every system which is able to be described with the basic structure and terminology of workflow management systems, further referred to as WFMSs herein, can advantageously be improved by applying the method according to the invention. For the single reason of clear terminology, and thus improved clarity, the present invention will be disclosed herein in detail applied to WFMSs and with the terminology of SMS of Tivoli Systems Inc.
A new area of technology with increasing importance is the domain of Workflow-Management-Systems (WFMS). WFMS support the modeling and execution of business processes. Business processes control which piece of work of a network of pieces of work will be performed by whom and which resources are exploited for this work, i.e. a business process describes how an enterprise will achieve its business goals. The individual pieces of work might be distributed across a multitude of different computer systems connected by some type of network.
The process of designing, developing and manufacturing a new product and the process of changing or adapting an existing product presents many challenges to product managers and engineers to bring the product to market for the least cost and within schedule while maintaining or even increasing product quality. Many companies are realizing that the conventional product design process is not satisfactory to meet these needs. They require early involvement of manufacturing engineering, cost engineering, logistic planning, procurement, manufacturing, service and support with the design effort. Furthermore, they require planning and control of product data through design, release, and manufacturing.
The correct and efficient execution of business processes within a company, e.g. development or production processes, is of enormous importance for a company and has significant influence on a company's overall success in the market place. Therefore, those processes have to be regarded similar as technology processes and have to be tested, optimized and monitored. The management of such processes is usually performed and supported by a computer based process or workflow management system.
In D. J. Spoon: “Project Management Environment”, IBM Technical Disclosure Bulletin, Vol. 32, No. 9A, February 1990, pages 250 to 254, a process management environment is described including an operating environment, data elements, and application functions and processes.
In R. T. Marshak: “IBM FlowMark, Object-Oriented Workflow for Mission-Critical Applications”, Workgroup Computing Report (USA), Vol. 17, No. 5, 1994, page 3 to 13, the object character of IBM FlowMark as a client/server product built on a true object model that is targeted for mission-critical production process application development and deployment is described.
In H. A. Inniss and J. H. Sheridan: “Workflow Management Based on an Object-Oriented Paradigm”, IBM Technical Disclosure Bulletin, Vol. 37, No. 3, March 1994, page 185, other aspects of object-oriented modeling on customization and changes are described.
In F. Leymann and D. Roller: “Business Process Management with FlowMark”, Digest of papers, Cat. No. 94CH3414-0, Spring COMPCON 94, 1994, pages 230 to 234, the state-of-the-art computer process management tool IBM FlowMark is described. The meta model of IBM FlowMark is presented as well as the implementation of IBM FlowMark. The possibilities of IBM FlowMark for modeling of business processes as well as their execution are discussed. The product IBM FlowMark is available for different computer platforms and documentation for IBM FlowMark is available in every IBM branch.
In F. Leymann: “A meta model to support the modeling and execution of processes”, Proceedings of the 11
th
European Meeting on Cybernetics and System Research EMCR92, Vienna, Austria, Apr. 21 to 24, 1992, World Scientific 1992, pages 287 to 294, a meta model for controlling business processes is presented and discussed in detail.
The “IBM FlowMark for OS/2”, document number GH 19-8215-01, IBM Corporation, 1994, available in every IBM sales office, represents a typical modern, sophisticated, and powerful workflow management system. It supports the modeling of business processes as a network of activities; refer for instance to “Modeling Workflow”, document number SH 19-8241, IBM Corporation, 1996. As further information on Workflow Management Systems available in IBM sales offices one could mention: IBM MQSeries Concepts and Architecture, document number GH 12-6285; IBM MQSeries Getting Started with Buildtime, document number SH 12-6286; IBM MQSeries Getting Started with Runtime, document number SH 12-6287. This network of activities, the process model, is constructed as a directed, acyclic, weighted, colored graph. The nodes of the graph represent the activities or workitems which are performed. The edges of the graph, the control connectors, describe the potential sequence of execution of the activities. Definition of the process graph is via the IBM FlowMark Definition Language (FDL) or the built-in graphical editor. The runtime component of the workflow manager interprets the process graph and distributes the execution of activities to the right person at the right place, e.g. by assigning tasks to a work list according to the respective person, wherein said work list is stored as digital data within said workflow or process management computer system.
In F. Leymann and W. Altenhuber: “Managing business processes as an information resource”, IBM Systems Journal, Vol. 32(2), 1994, the mathematical theory underlying the IBM FlowMark product is described.
In D. Roller: “Verifikation von Workflows in IBM FlowMark”, in J. Becker und G. Vossen (Hrsg.): “Geschaeftsprozessmodellierung und Workflows”, International Thompson Publishing, 1995, the requirement and possibility of the verification of workflows is described. Furthermore the feature of graphical animation for verification of the process logic is presented as it is implemented withing the IBM FlowMark product.
For implementing a computer based process management system, firstly the business processes have to be analyzed and, as the result of this analysis, a process model has to be constructed as a network of activities corresponding to the business process. In the IBM FlowMark product, the process models are not transformed into an executable form. At run time, an instance of the process is created from the process model, called a process instance. This process instance is then interpreted dynamically by the IBM FlowMark product.
Generally speaking, workflow management, as for example implemented by IBM FlowMark, can be regarded as involving three dimensions.
The first dimension, the process logic dimension describes the actions to be performed, by whom they have to be performed, with which program they have to be performed, and in which sequence they have to be performed.
The second dimension describes the organizational structure, the people and the roles the people are playing.
The third dimension describes the
Leymann Frank
Roller Dieter
Jennings Derek S.
Meinecke-Diaz Susanna
Scully Scott Murphy & Presser
LandOfFree
Method and system for providing a linkage between systems... does not yet have a rating. At this time, there are no reviews or comments for this patent.
If you have personal experience with Method and system for providing a linkage between systems..., we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Method and system for providing a linkage between systems... will most certainly appreciate the feedback.
Profile ID: LFUS-PAI-O-3356252