Live Over-the-Air update for distributed embedded systems

Rajagopal, Kayalvizhi (2025) Live Over-the-Air update for distributed embedded systems. World Journal of Advanced Engineering Technology and Sciences, 15 (3). pp. 299-306. ISSN 2582-8266

Distributed embedded systems are increasingly deployed in critical infrastructure, automotive, industrial, and IoT applications. Ensuring these systems stay updated with security patches, feature enhancements, and bug fixes is essential. This article proposes a live over-the-air (OTA) update framework designed specifically for distributed embedded networks. The framework enables non-disruptive, secure, and reliable software updates with minimal downtime and system risk. It implements a hierarchical architecture with centralized orchestration, decentralized execution, and multi-layered security mechanisms. The system employs redundancy management through a clustered topology with N-1 redundancy principles, allowing updates to proceed in parallel across clusters while maintaining operational continuity. The solution addresses key challenges including network instability through resumable downloads and redundant paths, power interruptions via checkpointing mechanisms, security threats with end-to-end encryption and code signing, and version compatibility through pre-update validation. Testing in real-world environments demonstrated exceptional reliability, minimal downtime, and robust recovery from anomalies. The framework significantly enhances the manageability and security posture of distributed embedded systems across multiple application domains.