International Journal of Innovative Research in Computer and Communication Engineering
ISSN Approved Journal | Impact factor: 8.771 | ESTD: 2013 | Follows UGC CARE Journal Norms and Guidelines
| Monthly, Peer-Reviewed, Refereed, Scholarly, Multidisciplinary and Open Access Journal | High Impact Factor 8.771 (Calculated by Google Scholar and Semantic Scholar | AI-Powered Research Tool | Indexing in all Major Database & Metadata, Citation Generator | Digital Object Identifier (DOI) |
| TITLE | VOLTHIVE CONNECT: Comprehensive Intelligent Hybrid EV Charging Platform with Peer To Peer Charging Sharing Ecosystem |
|---|---|
| ABSTRACT | The accelerated adoption of Electric Vehicles (EVs) has prompted extensive research into developing efficient, reliable, and secure charging infrastructures. Existing studies have explored multiple dimensions of EV charging from security-centric multi-station management to hardware reliability and fault-tolerant charging architectures. The Hybrid-Electric Vehicle Charging Management and Security (H-EVCMS) framework focused on optimizing load distribution, pricing, and communication security using the Open Charge Point Protocol (OCPP), ensuring scalable performance across multiple charging stations. Similarly, the 36-ported charging configuration model emphasized the physical reliability of charging ports, evaluating failure rates and maintenance costs to improve voltage stability and system longevity. However, these frameworks, while effective within their respective domains, lack end-to-end integration between user experience, real-time monitoring, payment security, and data-driven decision-making. To address these limitations, this review introduces the Smart EV Charging and Sharing Platform (SEVCSP) — a unified IoT and cloud-based framework that combines user-centric access, real-time station updates, secure payment-before-charging mechanisms, and automated maintenance management. Through a comparative analysis, this paper highlights how SEVCSP enhances the capabilities of prior systems by merging OCPP-based backend communication, cloud-level analytics, and IoT-enabled station monitoring into a modular and scalable architecture. The study concludes that integrating smart connectivity with secure financial and operational layers significantly improves charging efficiency, system reliability, and sustainability in large-scale EV networks. |
| AUTHOR | SIDDHESH SUNIL GADGE, NIKITA RAJENDRA CHIKANE, SAYONI PRABHAKAR PADEKAR, VAISHNAVI KAILAS PANSARE, SIDDHI RAVINDRA WAKCHAURE |
| VOLUME | 176 |
| DOI | DOI: 10.15680/IJIRCCE.2025.1311040 |
| pdf/40_VOLTHIVE CONNECT Comprehensive Intelligent Hybrid EV Charging Platform with Peer To Peer Charging Sharing Ecosystem.pdf | |
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