Power of Events The
An Introduction to Complex Event Processing in Distributed Enterprise Systems (paperback)
(Sprache: Englisch)
Complex Event Processing (CEP) is a defined set of tools and techniques for analyzing and controlling the complex series of interrelated events that drive modern distributed information systems. This emerging technology helps IS and IT professionals...
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Produktinformationen zu „Power of Events The “
Klappentext zu „Power of Events The “
Complex Event Processing (CEP) is a defined set of tools and techniques for analyzing and controlling the complex series of interrelated events that drive modern distributed information systems. This emerging technology helps IS and IT professionals understand what is happening within the system, quickly identify and solve problems, and more effectively utilize events for enhanced operation, performance, and security. CEP can be applied to a broad spectrum of information system challenges, including business process automation, schedule and control processes, network monitoring and performance prediction, and intrusion detection.
The Power of Events introduces CEP and shows specifically how this innovative technology can be utilized to enhance the quality of large-scale, distributed enterprise systems. The book describes the challenges faced by today's information systems, explains fundamental CEP concepts, and highlights CEP's role within a complex and evolving contemporary context. After thoroughly introducing the concept, the book moves on to a more detailed, technical explanation of CEP, featuring the Rapide(TM) event pattern language, reactive event pattern rules, event pattern constraints, and event processing agents. It offers practical advice on building CEP-based solutions that solve real world IS/IT problems.
Readers will learn about such essential topics as:
Managing the open electronic enterprise in the "global event cloud"
Process architectures and on-the-fly process evolution
Events, timing, causality, and aggregation
Event patterns and event abstraction hierarchies
Causal event tracking and information gaps
Multiple views and hierarchical viewing
Dynamic process architectures
The Rapide event pattern language
Event pattern rules, constraints, and agents
Event processing networks (EPNs)
Causal models and event pattern maps
Implementing event abstraction hierarchiesSeveral comprehensive case studies illustrate the
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benefits of CEP, as well as key strategies for applying the technology. Examples include the real-time monitoring of events flowing between the business processes of collaborating enterprises, and a hierarchically organized set of event-driven views of a financial trading system. One of the case studies shows how to apply CEP to network viewing and intrusion detection.
The book concludes with a look at building an infrastructure for CEP, showing how the technology can provide a significant competitive advantage amidst the myriad of event-driven, Internet-based applications now coming onto the market.
0201727897B05172002
The book concludes with a look at building an infrastructure for CEP, showing how the technology can provide a significant competitive advantage amidst the myriad of event-driven, Internet-based applications now coming onto the market.
0201727897B05172002
... weniger
Inhaltsverzeichnis zu „Power of Events The “
Preface. Acknowledgments. I. A SIMPLE INTRODUCTION TO COMPLEX EVENT PROCESSING. 1. The Global Information Society and the Need for New Technology. Distributed Information Systems Everywhere. The Global Communication Spaghetti Pot. Event Causality. Electronic Archeology: Layers upon Layers. A Layered Enterprise System. Vertical Causality: Tracking Events up and down the Layers. Event Aggregation: Making High-Level Sense out of Low-Level Events. The Gathering Storm of New Activities on the Web. Global Electronic Trade. Agile Systems. Cyber Warfare and the Open Electronic Society. Summary: Staying ahead of Chaos. 2. Managing the Electronic Enterprise in the Global Event Cloud. How the Global Event Cloud Forms. The Open Enterprise. The Global Event Cloud. The Electronic Enterprise. Operating in the Global Event Cloud. Going Beyond Workflow. Parallel and Asynchronous Processes. On-the-Fly Process Evolution. Exceptions Must Be First-Class Citizens in Process Design. Summary: Managing the Electronic Enterprise. 3. Viewing the Electronic Enterprise-Keeping the Human in Control. Today's Event Monitoring Is Too Primitive. System Monitoring Focuses on the Network Layer. Network-Level Monitoring Doesn't Even Solve Network Problems. An Example of Causal Tracking. Information Gaps. Examples of Information Gaps. Problem-Relevant Information. Viewing Enterprise Systems. Creating and Coordinating Multiple Views. Hierarchical Viewing. An Example of Hierarchical Viewing. Summary: Viewing the Electronic Enterprise. 4. Designing the Electronic Enterprise. Process Architectures. Roles of Architecture in the Process Lifecycle. Constituents of Process Architectures. Annotations. Architectural Structure. Interface Communication Architectures. Architecture Diagrams. Behavior Specification. Design Constraints. Examples of Informal Annotations. Dynamic Process Architectures. Diagrams for Dynamic Architectures? Layered Architectures and Plug-and-Play. Abstraction Principle. Summary: Technology
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to Support Process Architecture. 5. Events, Timing, and Causality. What Events Are. How Events Are Created. Time, Causality, and Aggregation. The Cause-Time Axiom. Genetic Parameters in Events. Timestamps. Causal Vectors. Time. Causality and Posets. Causal Event Executions-Real-Time Posets. Orderly Observation. Observation and Uncertainty. Summary. 6. Event Patterns, Rules, and Constraints. Common Kinds of Pattern Searching. Event Patterns. A Strawman Pattern Language. Pattern Matching. Writing Patterns in STRAW-EPL. Event Pattern Rules. Constraints. Summary. 7. Complex Events and Event Hierarchies. Aggregation and Complex Events. Creating Complex Events. Event Abstraction Hierarchies. Viewing a Fabrication Line. Building Personalized Concept Abstraction Hierarchies. Viewing Network Activity. Viewing Stock-Trading Activity. Summary. II. BUILDING SOLUTIONS WITH CEP. 8. The RAPIDE Pattern Language. Event Pattern Languages-Basic Requirements. Features of Rapide. Types. Predefined Types. Structured Types. Event Types. Execution Types. Subtyping of Executions. Attributes of Events. Basic Event Patterns. Placeholders and Pattern Matching. Matching Basic Event Patterns. Placeholder Bindings. Notation to Aid in Writing Patterns. Relational Operators and Complex Patterns. Relational Operators. Guarded Patterns. Content-Based Pattern Matching. Context-Based Pattern Matching. Temporal Operators. Repetitive Patterns. Pattern Macros. Summary. 9. CEP Rules and Agents. Overview. Event Pattern Rules. Definition of Event Pattern Rules. Rule Bodies. Context and Visibility Laws. Semantics of Event Pattern Rules. Examples of Rules. Event Processing Agents. Definition of EPAs. Semantics of EPAs. Event Pattern Filters. Definition of Filters. Semantics of Filters. Action Name Filters. Content Filters Context Filters. Event Pattern Maps. Definition of Maps. Semantics of Maps. Event Pattern Constraints. Definition of Constraints. Semantics of Constraints. Examples of Constraints. Other Classes of EPAs. Summary. 10. Event Processing Networks. Common Structures of EPNs. Flexibility of Event Processing Networks. Connecting Event Processing Agents. Basic Connections. Guarded Connections. Multiple Basic Connections. Dynamic Event Processing Networks. Class Connections. Creation and Termination Rules. Connection Generators. Architectures and Event Processing Networks. Architecture Classes. Semantics of Architecture Classes. Examples of EPNs and Architectures. Case Study: EPNs for Network Viewing. Visual Tools for Constructing EPNs. Security. Scalability. Summary. 11. Causal Models and Causal Maps. Causality between Events, Revisited. Why We Need Causal Models. What Causal Models Are. Defining a Causal Model and a Causal Map. Using Pattern Pairs to Specify Causal Models. Using Causal Rules. Resolving Ambiguities. Causal Maps. A Small Example of a Causal Map. A Second Example of a Causal Map. Developing Accurate Causal Models. Summary. 12. Case Study: Viewing Collaboration between Business Processes. A Collaborative Business Agreement. An Interface Communication Architecture. Causal Model. Causal Map. Examples of Causal Rules. Examples of Constraints. Analysis of Examples of Posets. Constraint Checking Becomes Part of the Collaboration. 13. Implementing Event Abstraction Hierarchies. The Accessible Information Gap. Event Abstraction Hierarchies, Revisited. Induced Causality. Abstraction Effect on Constraints. Modifiability. Bridging the Information Gaps. Steps to Apply a Hierarchy to a Target System. A Hierarchy for a Fabrication Process. Personal Views. Implementation. Diagnostics. 14. Case Study: Viewing a Financial Trading System. A Small Stock-Trading System. The Information Gap for STS. An Event Abstraction Hierarchy for STS. Building the Event Abstraction Hierarchy. Level 1. Level 2. Level 3. Implementing Hierarchical Viewing for STS. Three Steps toward Human Control. Drill-Down Diagnostics. Detecting Constraint Violations. The Abstraction Effect. Summary. 15. Infrastructure for Complex Event Processing. Examples of Forms of Observed Events. Interfacing CEP Infrastructure to Target Systems. CEP Adapters. CEP Runtime Infrastructure. Infrastructure Interfaces and Components. Functionality of the Interface. Off-the-Shelf Infrastructure. Event Pattern Languages. Complex Event Pattern Matchers. Quest for Scalability. The Naive View of Pattern Matchers. What Pattern Matchers Really Do. Design Structure. Rules Management. Analysis Tools. Summary. Bibliography. Index. 0201727897T04252002
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Autoren-Porträt von David Luckham
David Luckham is Professor Emeritus at Stanford University, where he directs the Program Analysis and Verification Project. He played a significant role in the founding of Rational Software in 1981, supplying both the Ada compiler from which the company's first products were developed and serving as a member of the initial software development team. Dr. Luckham is an acknowledged leader in high-level, multiprocessing programming languages; annotation languages; and event-based simulation systems for both hardware and software architectures. He has published more than one hundred technical articles, two of them winning ACM/IEEE Best Paper Awards, as well as three books on the design of Specification Languages and their application to software testing and verification, and hardware simulation. 0201727897AB04252002
Bibliographische Angaben
- Autor: David Luckham
- 2002, 400 Seiten, Maße: 18,9 x 23,4 cm, Kartoniert (TB), Englisch
- Verlag: Addison-Wesley
- ISBN-10: 0321951832
- ISBN-13: 9780321951830
Sprache:
Englisch
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