Exploring the Variability of Interconnected Product Families with Relational Concept Analysis

Proceedings of the 23rd International Systems and Software Product Line Conference - Volume B Pub Date : 2019-09-09 DOI:10.1145/3307630.3342407

Jessie Carbonnel, M. Huchard, C. Nebut

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引用次数: 3

Abstract

Among the various directions that SPLE promotes, extractive adoption of complex product lines is especially valuable, provided that appropriate approaches are made available. Complex variability can be encoded in different ways, including the feature model (FM) formalism extended with multivalued attributes, UML-like cardinalities, and references connecting separate FMs. In this paper, we address the extraction of variability relationships depicting connections between systems from separate families. Because Formal Concept Analysis provides suitable knowledge structures to represent the variability of a given system family, we explore the relevance of Relational Concept Analysis, an FCA extension to take into account relationships between different families, to tackle this issue. We investigate a method to extract variability information from descriptions representing several inter-connected product families. It aims to be used to assist the design of inter-connected FMs, and to provide recommendations during product selection.

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用关联概念分析探讨互联产品族的可变性

在该方案所促进的各种方向中，只要有适当的办法，就特别有价值地采用复杂的产品线。复杂的可变性可以用不同的方式编码，包括用多值属性、类似uml的基数和连接独立FM的引用扩展的特征模型(FM)形式。在本文中，我们解决了可变性关系的提取，描述了来自不同家族的系统之间的联系。由于形式概念分析提供了合适的知识结构来表示给定系统族的可变性，因此我们探讨了关系概念分析的相关性，这是一种考虑不同家族之间关系的FCA扩展，以解决这个问题。我们研究了一种从描述中提取可变性信息的方法，这些描述代表了几个相互关联的产品族。它的目的是用于协助互连FMs的设计，并在产品选择过程中提供建议。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of the 23rd International Systems and Software Product Line Conference - Volume B

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