Automated Generation and Integration of AUTOSAR ECU Configurations

Automotive Open System Architecture (AUTOSAR) is a system-level standard that is formed by the worldwide partnership of the automotive manufacturers and suppliers who are working together to develop a standardized Electrical and Electronic(E/E) framework and architecture for automobiles. The AUTOSAR methodology has two main activities: system configuration and the Electronic Control Unit (ECU) configuration. The system configuration is the mapping of the software components to the ECUs based on the system requirements. The ECU configuration process is an important part of the ECU software integration and generation. ECU specific information is extracted from the system configuration description and all the necessary information for the implementation such as tasks, scheduling, assignments of the runnables to tasks and configuration of the Basic Software (BSW) modules, are performed. This activity allows the ECU to modify the configuration parameters based on the vendor-specific requirements. Due to the high complexity and redundancy of this process, it has to be supported by different tool-related editors that can automatically generate source files like *.c and *.h for the configuration. In this thesis, we propose a method to automate the ECU configuration process for AUTOSAR. We use configuration templates written in xtend programming language along with a BSW generator tool developed at APAG Elektronik. This tool can extract the configuration parameters and automatically generate the required ECU module configuration. The Watchdog module will be used as an example to generate and integrate the ECU configuration. This enables the seamless generation of the software configurations from the system level requirements to the software implementation and therefore ensures consistency, correctness, cost efficiency and reduces the work done by the developer to generate the configuration

AUTOSAR and SysML – A Natural Fit?

International audienceThis paper should give some ideas on how the UML 2 and the SysML can help defining the different AUTOSAR artifacts and later applying the specified AUTOSAR part to real implementations. The AUTOSAR definitions are currently being defined on top of the UML 2.0. In parallel, the OMG started in 2003 a Request for Proposal to define a UML-based visual modeling language for Systems Engineering. This SysML is also an addition to the UML 2.0, so comparing the aims and ideas from AUTOSAR and from SysML is an obvious idea. This paper will show that using the AUTOSAR concepts for automotive modeling and adding SysML concepts will lead to complete picture of the automotive domain

Towards Cloud-supported Automotive Software Development and Test

The development of automotive software has been an evolving process for the last decades. As a result, the paradigm of software development which is independent of the target hardware platform has been adopted in almost all parts of the automotive industry. Deploying software to a hardware platform is now controlled by an enormous parameter set stored in a mapping configuration. This led to the creation of numerous vendor-specific tools for electronic control unit (ECU) development. While this approach simplifies and supports the re-usability of vehicle functions it also increases the complexity as well as the difficulty for integration tests and error localization. In this paper, we present a conceptual platform which allows to establish references between different development and test phase items in a developer-friendly way. It revolves around two self-developed tools supported by an extensive AUTOSAR knowledge base. The system creates inter-connectivity so that it becomes easier to locate the actual origin of a misbehavior or to find a test error manifestation in the actual end system for developers and testers alike

Design of module for demonstration and testing of system basis chips NCV7471

Práce se zabývá návrhem automobilové elektronické řídicí jednotky (ECU) s funkcí partial networking definovanou normou ISO 11898-6. Cílem je navrhnout a vytvořit demonstrační ECU s použitím system basis chip NCV7471. Protože NCV7471 obsahuje standardní CAN transceiver, funkce partial networking je realizována pouze softwarem řídicí jednotky. Práce zvažuje možné způsoby realizace jak HW, tak SW části, tak aby byla zajištěna nízká spotřeba ECU v různých operačních módech, a snaží se sledovat současné trendy v automobilovém průmyslu.The thesis deals with the design of automotive ECU with partial networking (PN) functionality according to ISO 11898-6. Aim is to design and create evaluation electronic control unit (ECU) using system basis chip NCV7471. Since NCV7471 integrates standard CAN transceiver without HW PN support, the PN functionality is realized by ECU software. This thesis considers possible ways of realization in HW and SW domain to maintain low power consumption of the ECU in different operational modes in order to follow current trends in automotive industry.

Is Europe in the Driver's Seat? The Competitiveness of the European Automotive Embedded Systems Industry

This report is one of a series resulting from a project entitled ¿Competitiveness by Leveraging Emerging Technologies Economically¿ (COMPLETE), carried out by JRC-IPTS. Each of the COMPLETE studies illustrates in its own right that European companies are active on many fronts of emerging and disruptive ICT technologies and are supplying the market with relevant products and services. Nevertheless, the studies also show that the creation and growth of high tech companies is still very complex and difficult in Europe, and too many economic opportunities seem to escape European initiatives and ownership. COMPLETE helps to illustrate some of the difficulties experienced in different segments of the ICT industry and by growing potential global players. This report reflects the findings of a study conducted by Egil Juliussen and Richard Robinson, two senior experts from iSuppli Corporation on the Competitiveness of the European Automotive Embedded Software industry. The report starts by introducing the market, its trends, the technologies, their characteristics and their potential economic impact, before moving to an analysis of the competitiveness of the corresponding European industry. It concludes by suggesting policy options. The research, initially based on internal expertise and literature reviews, was complemented with further desk research, expert interviews, expert workshops and company visits. The results were ultimately reviewed by experts and also in a dedicated workshop. The report concludes that currently ICT innovation in the automotive industry is a key competence in Europe, with very little ICT innovation from outside the EU finding its way into EU automotive companies. A major benefit of a strong automotive ICT industry is the resulting large and valuable employment base. But future maintenance of automotive ICT jobs within the EU will only be possible if the EU continues to have high levels of product innovation.JRC.DDG.J.4-Information Societ

Developing Automotive Products Using the EAST-ADL2, an AUTOSAR Compliant Architecture Description Language

International audienceCurrent development trends in automotive software feature increasing standardization of the embedded software structure. But it still remains the critical issue of the overall engineering information management to control the system definition and manage its complexity. System modeling based onan Architecture Description Language (ADL) is a way to keep these assets within one information structure. The original EAST-ADL was developed in the EAST-EEA project (www.east-eea.org) and basic concepts were reused in the AUTOSAR standardization initiative. The original EAST-ADL is currently refined in the ATESST project (www.atesst.org) to EAST-ADL2. This paper presents the results of the language extension provided by the EAST-ADL2 domain model and focuses on its possible extension of the AUTOSAR standard to support decomposition of E/E automotive systems

Conformance Testing for the AUTOSAR Standard

International audienceThe paper presents why AUTOSAR conformance tests are required, what has been achieved, and how 3 car manufacturers will use conformance tests as part of their vehicle E/E engineering process. Important topics covered are the need for conformance testing when developing a standard, the relationship between conformance and interoperability, the need for interoperability of ECUs in a vehicle, and the need to avoid diverging implementation of a standard