# iot based electric vehicles

Battery Electric Vehicle (BEV)
Hybrid. Hybrid Electric Vehicle (HEV)
Plug-in Hybrid Electric Vehicle (PHEV)
Fuel Cell Electric Vehicle (FCEV)

Blockchain IoT for smart electric vehicles battery management

Abstract Electric Vehicles (EVs) have generated a lot of interest in recent years, due to the advances in battery life and low pollution. Similarly, the expansion of the Internet of Things ( IoT ) allowed more and more devices to be interconnected. One major problem EVs faceThe frequent stop-and-go operations require high and fast burst driving power, which accelerates the electric vehicle batteries degradation. Hybrid electric storage system (HESS) is a promising solution, which supplements the battery with supercapacitor for rapidThe present world of vehicle technology is inclined to develop Electric Vehicles (EVs) with various optimized features. These vehicles need frequent charging which takes a longer time to charge up. Therefore, scheduling of vehicles in charging stations is requiredThis paper presents an implementation of a Wireless Internet of Things ( IoT ) system applied to the traction motor drive condition monitoring in electric vehicles (EVs). The design and testing of the prototype using an ESP8266 microcontroller module to acquire motorsSeveral technological solutions are being researched to establish efficient, reliable, and robust wireless vehicular electric charging on a wide scale. We propose an artificial vision system-the Grid Alignment Assistant System (GAAS)-aimed at maximizing the energy flowThis paper presents the development and test of an Internet of Things ( IoT ) system for monitoring and control of electric vehicles . The IoT architecture, which was developed using the Firebase platform, allows the synchronization of the vehicles data to the online serverAs 5G technology becomes operational and continues to expand, smart cities become a reality that is transforming urban life at a rapid pace. Electric Vehicles (EV) and automated driving, equipped with Battery Energy Storage Systems (BESSs), are expected to dominate

Design and implementation of grid connected solar/wind/diesel generator powered charging station for electric vehicles with vehicle to grid technology using IoT

In this paper grid connected Solar/Wind/Diesel generator powered Electric Vehicle (EV) charging station with Vehicle to Grid (V2G) is designed. Solar/Wind/Diesel generator powered charging station consists of a Photovoltaic array and Wind Energy system, threeVI. CONCLUSION AND FUTURE WORK This paper proposes a distributed state estimation and sta- bilization algorithm for electric vehicles . After expressing the electric vehicle in a state-space framework, the IoT wearable smart sensors are deployed to obtain measurementsRange anxiety is the predominent desolation among the electric vehicles (EVs) possessors that caused by drivers ambiguity in relation to vehicles energy needed to arrivea targeted place and state of charge (SoC). This paper proposes an intelligent control algorithm for realand Wenzhan Song Senior Member, IEEE Abstract Power electronics systems have become increasingly vulnerable to cyber physical threats due to their growing penetration in the Internet-of-Things ( IoT )-enabled applications, including connected electric vehicles (EVs)

An IoT based approach to monitor and replace batteries for battery operated vehicle

SN Saxena, Two-and Three-Wheeler Electric Vehicles in India technology and smartphone application, in IEEE world forum on internet of things (WF- IoT ), 201 pp 1 5. [17] A. More, Electric e-Rickshaw Market Analysis, https://www.wfmj.com/story/41913492/ electricElectric Vehicles (EVs) have generated a lot of interest in recent years, due to the advances in battery life and low pollution. Similarly, the expansion of Internet of Things ( IoT ) allowed more devices to be interconnected. One major problem electric vehicles face today is the

IoT enabled electric vehicles battery monitoring system

The Internet of Things ( IoT ) technology has immense potential for application in improvement and development of Smart Grid Dynamic electrical energy storage system viz., Electric Vehicles (EVs) are relatively standard due to their excellent electrical properties and flexibility but

IoT Based Electric Vehicle Application Using Boosting Algorithm for Smart Cities

Therefore, this article confers the need and importance of introducing electric vehicles with IoT based technology which monitors the battery life of electric vehicles In this section a new model for electric vehicles which are connected by IoT has been formulated PV generation and also Electric Vehicles acted as an Uninterrupted Power Supply (UPS) based on Time of Use (TOU) Tariff. All control functions are done by the Raspberry Pi controller. The whole process monitored and controlled by using Internet of Things ( IoT ).The proposed For the development and improvement of smart grid, Internet of Things ( IoT ) technology is an important enabler. Use of Electric Vehicles (EVs) as dynamic electrical energy storage system in smart grid offers numerous advantages while affecting the grid and EV battery packThe growing penetration of distributed energy sources (DES), such as photovoltaic (PV) solar power, battery energy systems and electric vehicles (EVs) into low voltage distribution networks is creating serious challenges for distribution network operators. Uncertain nature

IoTBased traction motor drive condition monitoring in electric vehicles

This paper presents an implementation of a Wireless Internet of Things ( IoT ) system applied to the traction motor drive condition monitoring in electric vehicles (EVs). The design and testing of the prototype using an ESP8266 microcontroller module to acquire motors

The internet of things for electric vehicles : Wide area charging-swap information perception, transmission and application

using intelligent interfaces to connect and communicate with the users, social and environmental contexts . But one of the main problems with IoT is that it is so vast and such a broad concept that there is no proposed, uniform architecture . So, IoT for electric vehicles is a

Charge control and operation of electric vehicles in power grids: A review

Give Feedback. Information. Visit our dedicated information section to learn more about MDPI. Get Information. clear. Open AccessReview. Charge Control and Operation of Electric Vehicles in Power Grids: A Review 3. Control and Operation of Electric VehiclesPage 2. B. Duan et al.: Optimal Dispatching of Electric Vehicles Based on Smart Contract and IoT have conducted pioneering research into the charging choice of electric vehicles Page 3. B. Duan et al.: Optimal Dispatching of Electric Vehicles Based on Smart Contract and IoTAbstract Todays electricity system faces major challenges by the ongoing integration of decentralized, renewable energy resources and individual participants benefitting from the In- ternet of Things ( IoT ), like Electric Vehicles (EVs) or Smart Meters Electric Vehicles (EVs) are regarded as promising replace- ments of conventional fossil fuel based vehicles in order realistic comparing to traditional de- velopment on charging infrastructure and battery states thanks to the dropping price of deploying Internet of Things ( IoT )Highlights. A new decentralized approach for the charging coordination of electric vehicles . The approach holds the operational constraints of the EDS. The approach only requires voltage magnitude measurements at the EV. The approach can be complemented via IoTElectric Vehicles (EV) are increasingly becoming the mainstream for the automotive industry. EV drives research in many diverse areas such as charging, battery performance, and autonomous driving. The volume, velocity and variety of data and events generated by a Towards the future of ssmart electric vehicles : Digital twin technology. Author links open overlay Highlights. In-depth systematic review and synopsis of recent advancements of digital twin technology in smart electric vehicles .

Automatic and Efficient IoTBased Electric Vehicles and Their Battery Management System: A Short Survey and Future Directions

This chapter attempts to review the state-of-the-art development of automobile industry and its battery management system to create a platform for smart electric vehicles (EVs). Over the period of time, EVs are replacing the age-old petrol or diesel-fueled vehicles . Lithium-ion

AI and Blockchain Integrated Billing Architecture for Charging the Roaming Electric Vehicles

Due to the proliferation of extended travel range electric vehicles (EVs), these will travel through different networks that might be served by different utility companies. Therefore, we propose an architecture capable of offering a charging service to roaming vehiclesDuring a panel on 9 March at the SXSW Interactive Conference in Austin, Texas, the future of the IoT was discussed and debated by We are also look- ing at application-level convergence to bring together entertainment, Inter- net of energy, and electric vehicles .Our programming model defines abstractions to enable easier, efficient and more intuitive development of cloud-scale IoT applications. To illustrate our programming model, we present a case study with real-world applications for controlling and managing electric vehicles1 Introduction. The Internet of Things ( IoT ) presents a range of potential opportunities for the improvement and development of Electric Vehicles (EVs). The 2.3 Drivers, Platforms, and Applications of the IoT for Electric Vehicles . The

IoT Based Battery Management System for Electric Vehicles

The use of the Internet of Things ( IoT ) in monitoring the operation of an electric vehicle battery is described in this study. It is obvious that an electric car is completely reliant on a battery as a source of energy. The amount of energy given to the vehicle, on the other hand This article addresses the aforementioned questions after developing the optimal state estimation and feedback control algorithms for autonomous electric vehicles using the IoT communication network con- sidering false data injection attacks

A Comprehensive Study on Various Topologies of Permanent Magnet Motor Drives for Electric Vehicles Application

Applications of ICT-based IoT tools in electric vehicles would be an innovative and sophisticated technology in recent days in different smart cities for sustainable industrial developments. Comparison analysis involves performance, efficiency, and configuration

IOT Enabled smart charging stations for Electric Vehicle

of 91-95 percentage of their usage period, and most of the Electric vehicles are parked at In the truancy of power grid or Electric disruption, the EV can operate as voltage IoT makes smart grid to contribute the information between multiple users and thus amplifies connectivity byAbstract In this paper, we study the effects of electricity production from a solar power plant on the load curve also known as duck curve and provide an alternative by charging electric vehicles in the IOT integrated multi-level charging stationsand control of parameters of the users vehicles anytime and anywhere in the world, through the Internet. The system prototype was developed and tested using an electric vehicle (EV) and the respective sensor systems. The main components of the proposed IoT system are: a

A secure charging system for electric vehicles based on blockchain

With widespread adoption of electric vehicles (EVs) and internet-of-things ( IoT ), smart grids with IoT have become promising solutions to control distributed energy and electricity generation . Internet-of-things is applicable to various forms for vehicular systems, such as

A fog-based architecture and programming model for iot applications in the smart grid

Locations awareness and mobility support: The end devices in many IoT applications are mobile in the smart grid, eg, electric vehicles . It is challenging for fog computing to aggregate and process data close to the source. B. Proposed Fog-based Architecture Electric vehicles (EVs) are gaining popularity from all parts of the world even though the public charging stations are not getting the required attention. As battery size, range of the vehicle, and charging time of batteries are the main concerns in EV domain, an alternatemobility. Some key innovations contributing to disruptive mobility include the use of Internet of Things ( IoT ) technologies in the next generation of electric vehicles (IoEV) and ultra- high-speed 5G communication. The introductionPage 5. Lot Management System for Scheduling the Recharging of Electric Vehicles , IEEE Transaction on Smart Grid November Abhirup Khanna, Rishi Anand, IoT based Smart Parking System , International Conference on Internet of Things and Applications (IOTADownload : Download full-size image. Fig. 2. Blockchain applications in the IoT and IIoT. 4.1. Electric vehicle clouds and edge (EVCE). EVCE is an attractive network paradigm to aggregate the destroyed idle resource of vehicles to a common pool

Electric cars as environmental monitoring IoT Network

IOP Publishing doi:10.1088/1757-899X/572/1/012091 1 Electric cars as environmental monitoring IoT Network It is proposed to build a network of sensors mounted on electric vehicles to be used to create an interactive map of environmental pollution in urban areas

A wireless collision detection on transmission poles through IoT technology

A novel Intrusion Detection System against spoofing attacks in connected Electric Vehicles . Array 5 (2020): 100013 9. Patnayak, Satyajeet, Anisha Swain, and Manaswini Das. Advance Anti-collision Device for Vehicles Using GPS and Automation using IoT in greenhouse

Advanced automation system for charging electric vehicles based on machine vision and finite element method

Using the NI Data Dashboard Package, IOT operation can be created between the system controller and the driver smartphone (IWCMC), Paphos, Cyprus Bradai, S., Ghariani, M., Guermazi, A.: Study of the traction chains of different models of electric vehicles with theAhmad, F., Alam, MS, et al.: Iot enabled monitoring of an optimized electric vehicles battery system, Mob. Netw. Appl., 201 2 (4), pp. 994 1005 [31] Ahmad, F., Alam, MS, Shahidehpour, M.: Optimal placement of electric hybrid and plug-in hybrid electric vehicles (xEVs) in The ubiquity of electric vehicles (EVs) in future smart cities demands efficient and intelligent charge scheduling techniques Thus, integrating both EVs and smart grids in a larger IoT entity can facilitate the vast deployment of EVs towards a green and intelligent transportation era

Digital platform as a means of process optimization of integrating electric vehicles into electric power networks

Series: Earth and Environmental Science Pawar P, TarunKu M, PandurangaVittal K An IoT based Intelligent Smart Energy Management System with Engineering, 19(3) 115-119 Muhammad H, Muhammad A anв Koji T The future of electric vehicles to grid

An intelligent charging station matching method for electric vehicles in internet of things

In the electric IoT with the development of electric vehicles (EVs), effectively modeling road network becomes more and more important. In this paper, a road network model which captures the real-life road conditions better than previous models is introduced

IoTBased monitoring and management of electric vehicle charging systems for DC fast charging facility

References. 1. Ranabhat, P. (2018). Secure design and development of IoT enabled charging infrastructure for electric vehicles ; using CCS standard for DC fast charging Development of an IoT system with smart charging current control for electric vehicles

Patricia-a novel programing model for iot applications on cloud platforms

Our programming model defines abstractions to enable easier, efficient and more intuitive development of cloud-scale IoT applications. To illustrate our programming model, we present a case study with real-world applications for controlling and managing electric vehiclesExpanding the hierarchy achieves linear system growth with additional input, dem- onstrating perfect suitability for modular IoT applications with we used were washing machines, clothes dryers, and dishwashers (owing to their flexible patterns1 14); electric vehicles (owing to

A comprehensive review on IoTbased infrastructure for smart grid applications

This paper makes a great contribution to the comprehensive review of the smart grid network equipped with IOT infrastructure 3.1 Smart Grid Technology The electric and plug-in hybrid vehicles main aim of emergence is to make zero gas emission

Artificial Intelligent: Techniques for Electric and Hybrid Electric Vehicles

1 Components of BMS System 7 1.5 IoTBased Battery Monitoring System 11 References 14 2 A Noble Control Approach for Brushless Direct Current Motor Drive Using Artificial Intelligence for Optimum Operation of the Electric 2.4 Cost of Charging Electric Vehicles 21 2.2

Distributed Ledger Technology for Securing IoT

Abstract Computing and communication are getting increas- ingly ubiquitous with the inclusion of sophisticated devices like electric vehicles smart phones and other house hold appliances. Due to the constant evolution in Internet of Things ( IoT ), the process of collaboration

Optimal charging navigation strategy design for rapid charging electric vehicles

of electric vehicles (EVs) . In contrast to the normal gasoline/diesel powered vehicles EVs are Meanwhile, EVs can function as moving electric storage equipment to help the power balance affected [ 6]. Along with the development of internet of things ( IoT ) technologies, how The frequent stop-and-go operations require high and fast burst driving power, which accelerates the electric vehicle batteries degradation. Hybrid electric storage system (HESS) is a promising solution, which supplements the battery with supercapacitor for rapidThis paper presents an implementation of a Wireless Internet of Things ( IoT ) system applied to the traction motor drive condition monitoring in electric vehicles (EVs). The design and testing of the prototype using an ESP8266 microcontroller module to acquire motors

An IoT based approach to monitor and replace batteries for battery operated vehicle

and smartphone application, in IEEE world forum on internet of things (WF- IoT ), 201 pp [16] MN Hasan and MS Hossen, Development of An Android Based Real Time 1 5. [17] A. More, Electric e-Rickshaw Market Analysis, https://www.wfmj.com/story/41913492/ electric

IoT Based Electric Vehicle Application Using Boosting Algorithm for Smart Cities

electric vehicle with less cost. Therefore, this article confers the need and importance of introducing electric vehicles with IoT based technology which monitors the battery life of electric vehicles . Since the electric vehicles areRange anxiety is the predominent desolation among the electric vehicles (EVs) possessors that caused by drivers ambiguity in relation to vehicles energy needed to arrivea targeted place and state of charge (SoC). This paper proposes an intelligent control algorithm for real

IoT ‐ Based Battery Management System for Hybrid Electric Vehicle

The basic function of the BMS are to monitoring and control the battery process such as charging and discharging cycle, ensure the healthy condition of the battery, minimizing the risk of battery damaging by ensuring optimized energy is being delivered from the battery toin the G2V and V2G technology . Furthermore, to execute these services various Transport System Models (TSM) are closely connected with electric grids or The figure depicts that EVs are one of the components of vehicular networks which are based on IoT ; on thetransportation. It is believed that the IoT based electric vehicle will be a part of a green, clean, and sustainable smart city. Basically, the intelligent transportation system is enhancing driving safety for automated vehicles . It providesby the 5th generation communication protocols . Driven by this motivation, this paper proposes a vehicle state estimation and stabilization algorithm using the IoT technology considering In , proposes a KF based state estimation algorithm for electric vehicles Fewer $${\mathrm {CO_2}}$$ emissions and pollutants: using the electric power to operate, it actors such charging station operator, network provider, the utilities in the IoT platform [10 The CAEV charging management system based on the SecCharge platform is presented

Blockchain IoT for smart electric vehicles battery management