A Proposal for an Automotive Architecture Framework for Volvo Cars

2016 Workshop on Automotive Systems/Software Architectures (WASA) Pub Date : 2016-04-05 DOI:10.1109/WASA.2016.9

Patrizio Pelliccione, E. Knauss, Rogardt Heldal, Magnus Ågren, Piergiuseppe Mallozzi, Anders Alminger, Daniel Borgentun

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引用次数: 6

Abstract

During the past twenty years vehicles have become more and more robot like, interpreting and exploiting input from various sensors to make decisions and finally commit actions that were previously made by humans. Such features will require continuous evolution and updates to ensure safety, security, and suitability for supporting drivers in an ever changing world. Modern vehicles can have over 100 Electronic Control Units (ECUs), which are small computers, together executing gigabytes of software. ECUs are connected to each other through several networks within the car, and in some cases also to the outside world. This need for addressing ever increasing complexity as well as for offering flexibility, support of continuous evolution, and very late changes in user visible features introduces new challenges for developing and maintaining a suitable electronic architecture. In this paper we report the current investigation of the Volvo Cars to create an architecture framework tailored to the needs of future vehicles.

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一种面向沃尔沃汽车的汽车结构框架方案

在过去的二十年里，车辆变得越来越像机器人，解释和利用来自各种传感器的输入来做出决定，并最终采取以前由人类做出的行动。这些功能将需要不断的发展和更新，以确保在不断变化的世界中支持驱动程序的安全性和适用性。现代汽车可以有超过100个电子控制单元(ecu)，它们是小型计算机，一起执行千兆字节的软件。ecu通过车内的多个网络相互连接，在某些情况下还与外部世界连接。这种处理日益增加的复杂性以及提供灵活性、对持续演进的支持以及用户可见特性的非常晚的更改的需求，为开发和维护合适的电子体系结构带来了新的挑战。在本文中，我们报告了沃尔沃汽车目前的调查，以创建一个适合未来车辆需求的架构框架。

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 Workshop on Automotive Systems/Software Architectures (WASA)

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