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@article{178034,
        author = {m mukesh kumar and Mr. Manoharan and K Jothilingam and Gowtham J and Paarichandiran G},
        title = {Pre- E-Vehicle Battery Burning Detection and Alert System},
        journal = {International Journal of Innovative Research in Technology},
        year = {2025},
        volume = {11},
        number = {12},
        pages = {7730-7737},
        issn = {2349-6002},
        url = {https://ijirt.org/article?manuscript=178034},
        abstract = {Electric vehicles (EVS) use lithium-ion batteries, which can be too hot and even catch fire if not managed properly. The purpose of this project is to make EVS safe by creating a system that closely looks at the battery and warns if something is wrong. It uses the sensor to check the voltage, current and temperature of the battery. These sensors send data to a small computer (NodeMCU), which seeks warning signs of problems such as overheating. If something seems wrong, it quickly sends an alert to the owner through a mobile app so that they can take action before it becomes dangerous. System also sends battery data to the cloud using ThingSpeak, where it can be seen anytime on a website. This helps people not only see the current battery position, but also how it behaves with time. In this way, users can better understand the health of their battery and may require maintenance. Overall, the project helps to make electric vehicles safe and more reliable, while showing how smart technology (IOT) can improve transportation. This solution not only enhances immediate safety measures, but also supports the future maintenance. It helps to create confidence in EV technology by ensuring reliable battery performance over time. The integration of the system with cloud services enables the real -time view of continuous data logging and battery parameters. This empowers users to monitor the battery health and promote informed decisions, eventually to promote safe and efficient operation of electric vehicles.},
        keywords = {Electric Vehicles (EVs), Lithium-ion Battery, Battery Safety, Battery Fault Detection, Thermal Runaway, Real-time Monitoring, Node MCU, MCP3008, DHT11 Sensor, Internet of Things (IoT), Thing Speak API, Cloud Monitoring, Battery Health Analysis, Fire Prevention, Smart Transportation.},
        month = {May},
        }