Cloud-Driven Sustainability in Automotive Connectivity: A Scholarly Analysis

Sali, Preeti Chandrakant (2025) Cloud-Driven Sustainability in Automotive Connectivity: A Scholarly Analysis. World Journal of Advanced Engineering Technology and Sciences, 15 (3). pp. 599-606. ISSN 2582-8266

This article examines the transformative role of cloud computing in advancing sustainability within the automotive industry, particularly through enhanced connectivity solutions. Cloud technology enables real-time monitoring and optimization of electric vehicle battery systems, facilitating extended lifecycles and reducing electronic waste. Through intelligent route planning and collaborative fleet management, cloud platforms minimize fuel consumption and emissions while optimizing asset utilization. The integration of comprehensive emissions tracking and driver behavior modification systems provides unprecedented visibility into environmental impacts and promotes eco-friendly driving habits. Furthermore, cloud-based data sharing frameworks foster cross-stakeholder collaboration across the automotive ecosystem, while vehicle-to-grid technologies transform electric vehicles into active participants in renewable energy integration. Together, these applications demonstrate how cloud computing serves as a critical enabler for the automotive industry's transition toward more sustainable operations and reduced environmental footprint.