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  • Broschiertes Buch

The increasing popularity of modeling has attracted the attention to create, handle and transform customizable, but precise visual languages. This book addresses issues of customizable visual language definition and transformation. The novel results - presented in the book - can be divided into three main parts. The first contribution deals with the definition of visual languages. A new, formal attribute structure is introduced and a new method is provided, which can model the appearance by using a special visual language and map appearance definitions to topological definitions by model…mehr

Produktbeschreibung
The increasing popularity of modeling has attracted the attention to create, handle and transform customizable, but precise visual languages. This book addresses issues of customizable visual language definition and transformation. The novel results - presented in the book - can be divided into three main parts. The first contribution deals with the definition of visual languages. A new, formal attribute structure is introduced and a new method is provided, which can model the appearance by using a special visual language and map appearance definitions to topological definitions by model transformation. The second contribution deals with constraints of visual languages, it extends one of the most popular constraint languages, OCL to support the n-layer attribute structure. Moreover, optimization methods are provided for OCL-based constraint handling. The third contribution focuses on the transformation of visual languages. A new model transformation approach is presented that supports executing transformations in parallel. Practical validation of the theoretical results are presented as well.
Autorenporträt
Gergely Mezei received his Ph.D degree in 2008. He is Associate Professor at the Department of Automation and Applied Informatics of the Budapest University of Technology and Economics. His research field is visual language engineering, domain-specific modeling, metamodeling and efficient graph transformations.