Extending Automotive SPICE 3.0 for the use in ADAS and future self‐driving service architectures

Messnarz, Richard; Kreiner, Christian; Macher, Georg; Walker, Alastair

doi:10.1002/smr.1948

Cited by 14 publications

(6 citation statements)

References 9 publications

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“…However, due to the distributed structure of automotive projects where expert teams working in one project come from different countries, it is expected that the 57% will further grow. The car functionality complexity will further grow in the future, 5,13–15 which will lead to more integration of experts from different places in the future. An online assessment strategy allows to connect these experts from different locations.…”

Section: Discussionmentioning

confidence: 99%

The impacts of the COVID‐19 pandemic and the globalization on how automotive assessments will be performed in the future

Sameh¹,

Meza

Ekert³

et al. 2023

J Software Evolu Process

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Until 2019 the VDA (German Automotive Association) did not accept online assessments. Then the pandemic of COVID‐19 led to a situation where for a certain time, travel and cooperation on site were not allowed any more. The VDA then allowed online assessments and hybrid assessments. Hybrid means that part of the assessment team is on place and part of the team is online connected. However, also full online assessments were allowed. In 2022, the impact of COVID‐19 decreased and still the online setup of assessments maintained. This paper will discuss this situation and outline a study from Valeo, which gives feedback about these online assessments and their effectiveness.

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Section: Discussionmentioning

confidence: 99%

The impacts of the COVID‐19 pandemic and the globalization on how automotive assessments will be performed in the future

Sameh¹,

Meza

Ekert³

et al. 2023

J Software Evolu Process

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“…Principle 'use dynamic and adaptable models as needed' Do integrate different norms into one V-model so that with one assessment and improvement all norms can be handled. [5][6][7][8][9][10]42,43 Do not create thousands of templates and one template per different norm, letting projects drown in formalism. Do define a structured portfolio of functions (see Figure 3) and map them to customer project releases.…”

Section: Cross-organisational Teamsmentioning

confidence: 99%

“…Do integrate different norms into one V‐model so that with one assessment and improvement all norms can be handled 5–10,42,43 …”

Section: Automotive Improvement Strategy Related Success Criteria Gro...mentioning

confidence: 99%

Process improvement guidance for successful automotive SPI implementation

Messnarz¹,

Wegner

Ekert³

et al. 2021

J Software Evolu Process

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The Verein der Deutschen Automobilindustrie (VDA) guidelines used for the interpretation of Automotive SPICE 3.1 contain many rules and recommendations and assessors apply them to check the consistency of ratings in an assessment. The VDA guidelines contain detailed procedures and templates to be used in planning, performing and reporting an assessment. However, an assessment is only a small part compared with the support and effort needed to implement improvements and to establish a company‐wide process improvement programme based on best practices. Whereas the VDA guidelines define the assessment process in detail, the ISO norm ISO/IEC 33014:2013 (Information technology—Process assessment—Guide for process improvement) defines a process improvement process. This paper analyses the ISO/IEC 33014:2013 norm and interprets it for the automotive sector and describes a state of the art improvement strategy typical of the automotive industry. Also, the SOQRATES group experiences about good and bad practices in implementing improvement programmes are shared and mapped onto the SPI manifesto principles. The paper concludes with a recommendation to add an improvement strategy‐related appendix to the VDA guidelines.

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“…the weather conditions. This means that all these registered data are connected to each other which implies that the car becomes a data cloud [5,6,18,25,26].…”

Section: The Change Of a Car To A Pool Of Data And Vehicle Functionsmentioning

confidence: 99%

“…Volkswagen defined vehicle functions (FUN principle for function based vehicle development) and each supplier maps their own subfunctions/features, and system requirements to these vehicle functions [11,23]. Automobile manufacturers apply assessments to check the traceability, safety, and security of those functions by assessments [12][13][14][17][18][19]. The fulfilment of the related norms requires the definition of such functional designs, effect chains and dynamic views.…”

Section: The Change Of a Car To A Pool Of Data And Vehicle Functionsmentioning

confidence: 99%

Cross-Cutting Approach to Integrate Functional and Material Design in a System Architectural Design – Example of an Electric Powertrain

Messnarz¹,

Ekert²,

Grunert

et al. 2019

Communications in Computer and Information Science

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The automotive industry is currently undergoing tremendous changes. Vehicles get connected and autonomous, the powertrain gets electrified. Intelligent service architectures for future e-mobility services are created. The production is more and more automated, decentralized and controlled by robots. The CO 2 emissions have to be reduced as a contribution to stop the global warming. To meet the requirements of an electric car in the future, it is essential to combine different approaches with each other. In this integrated system the consideration of system, software and material improvements is required. Up to now, there are software functions which are part of system functions which in turn are connected to the vehicle level functions. For the future, the connection of material functions of a vehicle with system and software functions seems to be a promising approach to develop a tailor-made electric car to meet the upcoming requirements. This paper uses the example of a car with an electronic powertrain to explain how material design (tire design, weight of materials, etc.), software, and electronic design need to be combined to come up with optimised functions on vehicle level (e.g. achieving longer distance drive with electric vehicles combined with reduced CO 2 emissions).

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Extending Automotive SPICE 3.0 for the use in ADAS and future self‐driving service architectures

Cited by 14 publications

References 9 publications

The impacts of the COVID‐19 pandemic and the globalization on how automotive assessments will be performed in the future

The impacts of the COVID‐19 pandemic and the globalization on how automotive assessments will be performed in the future

Process improvement guidance for successful automotive SPI implementation

Cross-Cutting Approach to Integrate Functional and Material Design in a System Architectural Design – Example of an Electric Powertrain

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