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Table of Contents

Graph Languages.- Some Remarks on the Generative Power of Collage Grammars and Chain-Code Grammars.- Tree Languages Generated by Context-Free Graph Grammars.- Neighborhood Expansion Grammars.- Neighborhood-Preserving Node Replacements.- Graph Theory.- Complexity Issues in Switching of Graphs.- The Power of Local Computations in Graphs with Initial Knowledge.- Categorical Approaches.- Double-Pullback Graph Transitions: A Rule-Based Framework with Incomplete Information.- Double-Pushout Approach with Injective Matching.- Node Replacement in Hypergraphs: Translating NCE Rewriting into the Pullback Approacht.- Pushout Complements for Arbitrary Partial Algebras.- Concurrency and Distribution.- Unfolding of Double-Pushout Graph Grammars is a Coreflection.- Local Views on Distributed Systems and Their Communication.- Dynamic Change Management by Distributed Graph Transformation: Towards Configurable Distributed Systems.- A Framework for NLC and ESM: Local Action Systems.- Artificial Intelligence.- Redundancy and Subsumption in High-Level Replacement Systems.- Knowledge Representation and Graph Transformation.- Utilizing Constraint Satisfaction Techniques for Efficient Graph Pattern Matching.- Visual Languages.- Conceptual Model of the Graphical Editor GenGEd for the Visual Definition of Visual Languages.- From Formulae to Rewriting Systems.- Hypergraphs as a Uniform Diagram Representation Model.- Specification Concepts.- Story Diagrams: A New Graph Rewrite Language Based on the Unified Modeling Language and Java.- A Fully Abstract Model for Graph-Interpreted Temporal Logic.- More About Control Conditions for Transformation Units.- Integrity Constraints in the Multi-Paradigm Language PROGRES.- Modularity and Refinement.- A Framework for Adding Packages to Graph Transformation Approaches.- Refinements of Graph Transformation Systems via Rule Expressions.- Simple Modules for Grace.- UML Packages for PROgrammed Graph REwriting Systems.- Incremental Development of Safety Properties in Petri Net Transformations.- Software Engineering.- Using Graph Transformation Techniques for Integrating Information from the WWW.- A Model Making Automation Process (MMAP) Using a Graph Grammar Formalism.- Graph-Based Models for Managing Development Processes, Resources, and Products.- Deriving Software Performance Models from Architectural Patterns by Graph Transformations.