Enhancing Software-Defined Vehicles with Service-Oriented Architecture: A Framework for Scalable and Modular Mobility Solutions

• Author(s): Ankush Keskar
• Paper ID: 1702521
• Page: 90-102
• Published Date: 30-11-2020
• Published In: Iconic Research And Engineering Journals
• Publisher: IRE Journals
• e-ISSN: 2456-8880
• Volume/Issue: Volume 4 Issue 5 November-2020

Abstract

The new paradigm in the automotive industry is Software Vehicles (SDV), the concept where Software is used to realize functionalities rather than Hardware with the functionalities. The service-oriented architecture (SOA) framework evolved from existing SOA practices and enables modular, scalable, and adaptive vehicle systems. In this article, the basic principles of the SOA and its application in the SDVs are being reviewed, revealing how they can increase flexibility, allow for fast iterations, and decrease productivity. We can see what SOA in mobility can do in real-world implementations, such as Tesla’s software ecosystem and autonomous driving systems. However, SOA adoption has issues with legacy system integration, cybersecurity, and data complexity. With new standardization efforts, improved middleware, and new security solutions addressing these barriers, the industry can unlock the potential of SOA-based SDVs. Last but not least, the integration of SOA within SDVs will serve as the seeds of tomorrow's automated, connected, and green intelligent mobility systems for the worldwide revolution of transportation.

Keywords

Software-defined vehicles (SDVs), Service-Oriented Architecture (SOA), Modular mobility solutions, Over-the-air (OTA) updates, Autonomous driving systems, Connected vehicles

Citations

IRE Journals:
Ankush Keskar "Enhancing Software-Defined Vehicles with Service-Oriented Architecture: A Framework for Scalable and Modular Mobility Solutions" Iconic Research And Engineering Journals Volume 4 Issue 5 2020 Page 90-102

IEEE:
Ankush Keskar "Enhancing Software-Defined Vehicles with Service-Oriented Architecture: A Framework for Scalable and Modular Mobility Solutions" Iconic Research And Engineering Journals, 4(5)