The most complicated aspect of large software projects is not the implementation, it is the real world domain that the software serves. Domain Driven Design is a vision and approach for dealing with highly complex domains that is based on making the domai
Auf Basis eines PDFs von einem 11 stöckigen realen Gebäude - über den Zwischenschritt eines XML-basierten SVGs (Scalable Vector Graphics) und PHP Script - wurde es möglich, dass sich dieses Gebäude in Second Life quasi selbst herstellt.
At the Venice Biennale, the mæve installation connects the entries of the EveryVille student competition and puts them into the larger context of MACE content and metadata. By placing physical project cards on an interactive surface, the visitors can explore an organic network of projects, people and media.
Business Process Management (BPM) und Business Rules Management (BRM) zusammen in einer service-orientierten Architektur (SOA) sind die methodischen und technischen Voraussetzungen, um Geschäftsprozesse zu industrialisieren und agil zu sein. BPM schafft die Automatisierung und Standardisierung von Geschäftsprozessen, BRM die Standardisierung und Transparenz von Management-Politiken und -Prinzipien. Und eine SOA bringt die Service-Orientierung, die uns erlaubt zwischen spezifischen Logiken einzelner Prozesse und prozessübergreifenden Logiken gebündelter Kompetenzen und Dienstleistungen sauber zu trennen. Das schafft Agilität zusammen mit Industrialisierung.
Most BREs today are deployed as “decision services”, and are used in “stateless” transactions to make “decisions” as a part of a business process. A CEP application is instead processing multiple event streams and sources over time, which requires a “stateful” rule service optimized for long running. This is an important distinction, as a stateful BRE for long-running processes needs to have failover support - the ability to cache its working memory for application restarting or distribution. And of course long-running processes need to be very particular over issues like memory handling - no memory leaks allowed!
TOGAF 9 encompasses the entire enterprise architecture life cycle, which is important as architecture is a never ending journey, always changing and evolving. The figure below depicts the TOGAF Architecture Development Method (ADM) which covers the entire architecture life cycle.
Rob sees three key areas where rules can help:
Tighter warranty controls
Claims processing is improved because financial limits, detailed coverage types, materials return and more can be automated and rapidly changed when necessary. The rules also allow “what-if” testing and impact analysis.
Better built vehicles
The decision making is tracked very closely thanks to rules so you can analyze specific repair types, specific VINs and so on. More effective parts return and generally better information also contribute.
Lower cost repairs
Rules allow goodwill repairs, labor-only repairs and specific kinds of repairs to be managed very precisely. Rules-driven decisioning can reduce the variation of costs between dealers and help intervene, rejecting or editing claims that seem overly expensive. The ability of rules to deploy data mining and predictive analytics can also really help here.
The Zachman Framework is a framework for enterprise architecture, which provides a formal and highly structured way of viewing and defining an enterprise.
The Framework in practice is used for organizing enterprise architectural "artifacts" in a way that takes into account both:
who the artifact targets for example, business owner and builder, and
what particular issue for example, data and functionality is being addressed.
These artifacts may include design documents, specifications, and models.[3]
The Framework is in essence a matrix,[4]. It is named after its creator John Zachman, who first developed the concept in the 1980s at IBM. It has been updated several times ever since.[5]
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