Download PDFOpen PDF in browserComparative Analysis of Various Techniques of IOT in Electric VehicleEasyChair Preprint 450011 pages•Date: November 4, 2020AbstractElectric Vehicles are increasing day by day across the globe [3]. Electric vehicles, also known as EVs, are steadily gaining in popularity. Research has shown that electric cars are better for the environment. Electrical Vehicles (EVs) appeared as a solution to reduce CO2 emissions. They emit less greenhouse gases and air pollutants over their life than a petrol or diesel car. Energy storage systems, usually batteries, are essential for hybrid electric vehicles (HEVs), plug-in hybrid electric vehicles (PHEVs), and all-electric vehicles (EVs). Batteries for electric vehicles are characterized by their relatively high power-to-weight ratio, specific energy and energy density; smaller, lighter batteries are desirable because they reduce the weight of the vehicle and therefore improve its performance. Most plug-in hybrids and all-electric vehicles use lithium-ion batteries. In the report, BNEF outlines that electric vehicles (EVs) will hit 10% of global passenger vehicle sales in 2025, with that number rising to 28% in 2030 and 58% in 2040. According to the study, EVs currently make up 3% of global car sales. Through their entire lifetime, electric cars are better for the climate. In the manufacturing process, electric vehicles will produce more global warming emissions than the average gasoline vehicle, because lithium-ion batteries require a lot of materials and energy to build. The Internet of Things (IoT) technology has immense potential for application in improvement and development of Smart Grid. Dynamic electrical energy storage system viz., Keyphrases: Arduino, Internet of Things, MQTT, SOC Estimation, battery monitoring system
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