Stable Design Patterns for Software and Systems

Auteur

Dr. M.E. Fayad is a full professor of Computer Engineering at San Jose State University. He was a J.D. Edwards Professor in Computer Science & Engineering at the University of Nebraska, Lincoln, from 1999 to 2002, and an associate professor at the computer science and computer engineering faculty at the University of Nevada from 1995 - 1999. He has more than 15 years of industrial experience. Dr. Fayad is an IEEE Distinguished Speaker, and an associate editor, editorial advisor, a columnist for The Communications of the ACM and his column is Thinking Objectively; a columnist for Al-Ahram Egyptians Newspaper; an editor-in-chief for IEEE Computer Society Press - Computer Science and Engineering Practice Press (1995-1997); a general chair of IEEE/Arab Computer Society International Conference on Computer Systems and Applications (AICCSA 2001), Beirut, Lebanon; and the founder and president of Arab Computer Society (ACS) from April 2004 to April 2007.

Dr. Fayad is a known and well recognized authority in the domain of theory and the applications of software engineering. Fayad's publications are in the very core, archival journals and conferences in the software engineering field.

Dr. Fayad has published more than 218 papers, 84 advanced articles in refereed conferences, more than 20 well-received and cited journal columns, 16 blogged columns; 11 well-cited theme issues in prestigious journals and flagship magazines, 24 different workshops in very respected conferences, and over 125 tutorials, seminars, and short presentations in more than 30 different counties. Dr. Fayad has also filed for eight patents and has developed over 800 stable software patterns. Dr. Fayad received an MS and a PhD in computer science from the University of Minnesota at Minneapolis. His research topic was OO Software Engineering: Problems & Perspectives. He is the lead author of several classic Wiley books.

Texte du rabat

Software stability has great promise for promoting software reuse and lifecycle improvement. These innovative concepts produce unique models that are both stable over time and across various paradigm shifts within a given application context. This book presents novel, pragmatic approaches to understanding and solving software stability challenge

Contenu

Introduction. Impact of Stability on Design Patterns' Implementation. Pitfalls Categories Overview: Pitfalls in Traditional Software Patterns-The Factor of Immaturity. Engineering Stable Atomic Knowledge Patterns. Stable Analysis and Design Patterns: Unified Software Engine. SDPs' Detailed Documentation Template*. AnyActor Stable Design Pattern. AnyParty Stable Design Pattern. AnyEntity Stable Design Pattern. AnyData Stable Design Pattern. AnyEvidence Stable Design Pattern. AnyPrecision Stable Design Pattern. AnyCorrectiveAction Stable Design Pattern. AnyDebate Stable Design Pattern. *SDPs' Mid-Size Documentation Template. AnyHypothesis Stable Design Pattern. AnyConstraint Stable Design Pattern. AnyInteraction Stable Design Pattern. AnyTranslation Stable Design Pattern. AnyArchitecture Stable Design Pattern. SDPs' Short-Size Documentation Template. AnyDecision Stable Design Pattern. AnyConflict Stable Design Pattern. AnyView Stable Design Pattern. AnyModel Stable Design Pattern. AnyReason Stable Design Pattern. AnyConsequence Stable Design Pattern. AnyImpact Stable Design Pattern. AnyHype Stable Design Pattern. AnyCause Stable Design Pattern. AnyCriteria Stable Design Pattern. AnyMechanism Stable Design Pattern. AnyMedia Stable Design Pattern. AnyLog Stable Design Pattern. AnyEvent Stable Design Pattern. Conclusions.