Decoding Real-Time Operating Systems in Automotive Software: A Systematic Analysis

Nuthula, Sucharan (2025) Decoding Real-Time Operating Systems in Automotive Software: A Systematic Analysis. World Journal of Advanced Engineering Technology and Sciences, 15 (3). pp. 1547-1553. ISSN 2582-8266

This article examines the critical role of Real-Time Operating Systems (RTOS) in modern automotive software architectures. As vehicles increasingly rely on complex electronic systems to manage everything from basic functionality to advanced driver assistance features, the underlying operating systems must guarantee precise timing and reliability. The article systematically analyzes RTOS principles, implementation challenges, and emerging trends within the automotive context, highlighting how these specialized systems differ from general-purpose operating systems and why they are indispensable for ensuring vehicle safety, reliability, and performance. Key aspects covered include determinism and predictability requirements, task scheduling mechanisms, inter-process communication frameworks, memory management strategies, safety certification standards, and future directions such as multicore processing, virtualization, and security integration. The examination reveals how automotive RTOS provides the foundation for safe and reliable operation in increasingly sophisticated vehicular computing environments.