Universität Karlsruhe

Easy Composition in Future Generation Component Systems

EASYCOMP investigates basic technology for easy component composition in the future information society. EASYCOMP will enable end-users as well as software engineers to compose together components off the shelf (active components, i.e. integrated software and documents) flexibly and powerfully. Such a composition technology will increase reuse of components and productivity of end-users as well as software engineers. The composition technology will be demonstrated it in a web-based composition centre for uniform composition of active components.



Prof. Gerhard Goos
Prof. Uwe Assmann
Dr. Dirk Heuzeroth
Dr. Andreas Ludwig
Dr. Elke Pulvermüller
Mamdouh Abu-Sakran

Software in diesem Projekt

Programmieren in Java --- auf der Metaebene. Programme transformieren leicht gemacht!

Publikationen zum Projekt

Pulvermüller, Speck, XOpT - XML-Based Composition Concept
Heuzeroth, Aspektorientierte Konfiguration und Adaption von Komponenteninteraktionen
Heuzeroth, Löwe, Mandel, Generating Design Pattern Detectors from Pattern Specifications
Van Der Straeten, Speck, Pulvermüller, Clauß, Correctness of Model-Based Software Composition - Proceedings
Speck, Pulvermüller, Heuzeroth, Validation of Business Process Models
Heuzeroth, Löwe, Understanding Architecture Through Structure and Behavior Visualization, Chapter 9 in book: Software-Visualization - From Theory to Practice
Heuzeroth, Holl, Högström, Löwe, Automatic Design Pattern Detection
Schonger, Pulvermüller, Sarstedt, Aspect-Oriented Programming and Component Weaving: Using XML Representations of Abstract Syntax Trees
Pulvermüller, Composition and Correctness
Speck, Pulvermüller, Clauß, Versioning in Software Modeling
Holl, Werkzeuggestützte Erkennung von statischen und dynamischen Mustern in objektorientierter Software
Heuzeroth, Holl, Löwe, Combining Static and Dynamic Analyses to Detect Interaction Patterns
Heuzeroth, Holl, Löwe, Combining Static and Dynamic Analyses to Detect Interaction Patterns
Goerigk, Pulvermüller, Speck, Sprachen, Architekturen und neue objektorientierte Softwaretechniken, TR No. 2018
Pulvermüller, Speck, D'Hondt, DeMeuter, Coplien, Feature Interaction in Composed Systems, ECOOP 2001 - Proceedings, TR No. 2001-14
Speck, Pulvermüller, Versioning in Software Engineering
Mehner, Mezini, Pulvermüller, Speck, Aspektorientierung - Workshop der GI-Fachgruppe 2.1.9 Objektorientierte Software-Entwicklung
Pulvermüller, Speck, Coplien, A Version Model for Aspect Dependency Management
Pulvermüller, Speck, Coplien, D'Hondt, DeMeuter, Position Paper: Feature Interaction in Composed Systems
Speck, Pulvermüller, Feature Modeling
Heuzeroth, Löwe, Ludwig, Assmann, Aspect-Oriented Configuration and Adaptation of Component Communication
Jaeger, Heuzeroth, Assmann, Automating the Management of Reusable System Components
Speck, Pulvermüller, Component Frameworks for Software Generators
Pulvermüller, Generative and Component-Based Software Engineering
Speck, Pulvermüller, Mezini, Reusability of Concerns
Pulvermüller, Rashid, Speck, Supporting Composition using Assertions
Klaeren, Pulvermüller, Rashid, Speck, Aspect Composition applying the Design by Contract Principle
Ludwig, Heuzeroth, Metaprogramming in the Large
Assmann, Aspect Weaving by Graph Rewriting
Heuzeroth, Reussner, A Meta-protocol and Type System for the Dynamic Coupling of Binary Components
Heuzeroth, Reussner, Dynamic Coupling of Binary Components and its Technical Support
Speck, Rashid, Pulvermüller, Chitchyan, Individual Software Development in Generative Programming
Pulvermüller, Aspekte in verteilten Umgebungen
Assmann, Ludwig, Introducing Connections into Classes with Static Metaprogramming
Pulvermüller, Klaeren, Speck, Aspects in Distributed Environments