Supporting feature-oriented evolution in industrial automation product lines

Daniel Hinterreiter, L. Linsbauer, Kevin Feichtinger, Herbert Prähofer, P. Grünbacher
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引用次数: 12

Abstract

In the domain of industrial automation companies nowadays need to serve a mass market while at the same time customers demand highly customized solutions. To tackle this problem, companies frequently define software product lines (SPLs), which allow to automatically derive and further customize individual solutions based on a common platform. SPLs rely on defining common and variable platform features together with mappings, which define how the features are realized in implementation artifacts. In concurrent engineering such a feature-oriented process is challenged by the evolution of features, the complexity of feature-to-artifact mappings, and the diversity of the implementation artifacts. To address these challenges this paper introduces an approach supporting feature-oriented development and evolution in industrial SPLs. We outline the key elements and operations of our approach, including an implementation in a development environment. We report results of evaluating our approach regarding functional correctness, usefulness, and scalability based on a case study of a Pick-and-Place Unit (PPU) and an industrial case system.
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支持工业自动化产品线中面向功能的演进
在工业自动化领域,如今的公司需要服务于大众市场,同时客户需要高度定制的解决方案。为了解决这个问题,公司经常定义软件产品线(SPLs),它允许自动派生并进一步定制基于公共平台的单个解决方案。SPLs依赖于定义公共的和可变的平台特性以及映射,映射定义了如何在实现构件中实现这些特性。在并行工程中,这样一个面向特征的过程受到了特征演化、特征到工件映射的复杂性以及实现工件的多样性的挑战。为了解决这些挑战,本文介绍了一种支持面向功能的工业spc开发和演变的方法。我们概述了我们的方法的关键元素和操作,包括在开发环境中的实现。我们报告了基于一个取放单元(PPU)和一个工业案例系统的案例研究,评估我们的方法在功能正确性、有用性和可扩展性方面的结果。
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