A Paradigm for Decentralized Process Modeling
A Paradigm for Decentralized Process Modeling presents a novel approach to decentralized process modeling that combines both trends and suggests a paradigm for decentralized PCEs, supporting concerted efforts among geographically-dispersed teams - each local individual or team with its own autonomous process - with emphasis on flexible control over the degree of collaboration versus autonomy provided. A key guideline in this approach is to supply abstraction mechanisms whereby pre-existing processes (or workflows) can be encapsulated and retain security of their internal artifacts and status data, while agreeing with other processes on formal interfaces through which all their interactions are conducted on intentionally shared information.
This book is primarily intended to provide an in-depth discussion of decentralized process modeling and enactment technology, covering both high-level concepts and a full-blown realization of these concepts in a concrete system. Either the whole book or selected chapters could be used in a graduate course on software engineering, software process, or software development environments, or even for a course on workflow systems outside computer science (e.g., in a classical engineering department for engineering design, or in a business school for business practices or enterprise-wide management, or in the medical informatics department of a health science institution concerned with computer-assistance for managed care). Selected portions of the book, such as section 2.2 on Marvel, could also be employed as a case study in advanced undergraduate software engineering courses.
A Paradigm for Decentralized Process Modeling is a valuable resource for both researchers and practitioners, particularly in software engineering, software development environments, and software process and workflow management, but also in electrical, mechanical, civil and other areas of engineering which have analogous needs for design processes, environmental support and concurrent engineering, and beyond to private and public sector workflow management and control, groupware support, and heterogeneous distributed systems in general.
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access control approach architecture atomicity chains attributes automatically automation autonomy backward chaining binding built-in cache CFILE client collaboration common sub-process communication communication protocol concurrency control configuration connection database Connection Server consists constraints context context switch coordinating SubEnv cross-site links CSCW Data Definition Language data model decentralized defined definition delegatees delegation discussed DstSubEnv dynamic enable evolution example execution export Figure file system forall formal forward chaining groupware heterogeneity implementation implies import Initialized instantiated interaction interface interoperability invalidation invocation invoked involves issue Marvel mechanism modeling and enactment MODULE multi-site activity multi-user tools multiple objectbase operation parameters performed phase possible post-Summit predicates problem process engine process model process steps query remote objects remote servers remote SubEnvs request require ReviewRequested schema Section semantics server-to-server set_of shared solution specific strategy string SubEnv objects Summit activities Summit rule superclass task tion transaction manager Treaty update valid XView