An Incremental V-Model Process for Automotive Development

2016 23rd Asia-Pacific Software Engineering Conference (APSEC) Pub Date : 1900-01-01 DOI:10.1109/APSEC.2016.040

Bohan Liu, He Zhang, Saichun Zhu

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引用次数: 16

Abstract

V-model and its variants have become the most common process models adopted in automotive industry guiding the development of systems on a variety of refinement levels. Along with the exponentially growing complexity of modern vehicle systems, however, the late verification and validation in the conventional V-model expand in uncontrollable ways that result in higher cost of development and higher risk of failure than ever. This paper describes an inc-V development process for automotive industry that improves the conventional V-model and variants by introducing and institutionalizing early and continuous integrated verification enabled by simulation-based development. We developed a continuous simulation model of the inc-V process, and the initial version is used to investigate the characteristics of the inc-V compared to V. The preliminary finding from the simulations of an example project is that the inc-V process is able to improve the traditional V process by saving effort, shortening duration, and increasing product quality. The finding also show how the advance of development technology impacts the systems engineering processes.

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汽车开发的增量v模型过程

v模型及其变体已成为汽车工业中最常用的过程模型，用于指导各种细化级别的系统开发。然而，随着现代车辆系统的复杂性呈指数级增长，传统v型模型的后期验证和验证以不可控的方式扩展，从而导致更高的开发成本和更高的失败风险。本文描述了汽车行业的集成- v开发过程，通过引入和制度化基于仿真的开发支持的早期和持续集成验证，改进了传统的v模型和变体。我们开发了一个连续的模拟模型，并使用初始版本来研究与传统的V工艺相比，inc-V工艺的特点。从一个示例项目的模拟中初步发现，inc-V工艺能够通过节省工作量，缩短工期和提高产品质量来改进传统的V工艺。该发现还显示了开发技术的进步如何影响系统工程过程。

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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2016 23rd Asia-Pacific Software Engineering Conference (APSEC)

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