"2"^^ . "Transformation of Binary Relationships with Particular Multiplicity"@en . "Proceedings of the Dateso 2011 Annual International Workshop on DAtabases, TExts, Specifications and Objects" . . "RIV/00216208:11320/11:10099402" . "11320" . "13"^^ . "[D644F6480B8B]" . "P\u00EDsek, Czech Republic" . . . . . "Transformation of Binary Relationships with Particular Multiplicity" . . . . "P(GA201/09/0990), S, Z(MSM6840770014)" . . "Vysok\u00E1 \u0161kola b\u00E1\u0148sk\u00E1 - Technick\u00E1 univerzita Ostrava" . . "RIV/00216208:11320/11:10099402!RIV12-GA0-11320___" . "2011-04-20+02:00"^^ . "Multiplicity; Particular; with; Relationships; Binary; Transformation"@en . . . . . "Richta, Karel" . "Transformation of Binary Relationships with Particular Multiplicity" . "The paper deals with one small step in the process of model driven development (MDD) or model driven architecture (MDA) - widely used terms nowadays. Many CASE tools provide automated support for generating programming language code (ISM) from e.g. UML models (PIM). This task is referred to as forward engineering. Many tools provide automated support for generating UML models (PIM) from programming language code (ISM) or platform specic description (PSM). This task is referred to as reverse engineering. Some tools also support round-trip engineering, which involves both forward and reverse engineering steps such that software artifacts (model and code) become synchronized. This paper describes basic principles and restrictions for transformations of binary relationships and transformations of binary relationships with the particular multiplicity from PIM level into PSM level. The idea is illustrated on examples."@en . . "Rybola, Zden\u011Bk" . "235796" . . "978-80-248-2391-1" . "Transformation of Binary Relationships with Particular Multiplicity"@en . "The paper deals with one small step in the process of model driven development (MDD) or model driven architecture (MDA) - widely used terms nowadays. Many CASE tools provide automated support for generating programming language code (ISM) from e.g. UML models (PIM). This task is referred to as forward engineering. Many tools provide automated support for generating UML models (PIM) from programming language code (ISM) or platform specic description (PSM). This task is referred to as reverse engineering. Some tools also support round-trip engineering, which involves both forward and reverse engineering steps such that software artifacts (model and code) become synchronized. This paper describes basic principles and restrictions for transformations of binary relationships and transformations of binary relationships with the particular multiplicity from PIM level into PSM level. The idea is illustrated on examples." . . . . . "1"^^ . . . "Ostrava-Poruba" . .