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Security and privacy issues in VANET
Published in Muhammad Arif, Guojun Wang, Mazin Abed Mohammed, Md Tabrez Nafis, Vehicular Ad Hoc Networks, 2023
Aqeel Khalique, M. Afshar Alam, Imran Hussain, Safdar Tanweer, Tabrej A. Khan
VANET mainly consists of connected vehicles having access to the internet for sharing data with smart devices inside the car and with smart objects outside the car. Smart objects outside the car include other cars, traffic lights, road sensors, roadside units (RSUs), etc. A connected car is an important entity of the VANET. Connected cars have huge computing power and data processing of 25 GB/h. Connected cars can optimize their operation and maintenance prioritizing the convenience and comfort of passengers. Connected cars use onboard sensors and internet connectivity for data processing and data transmission. In 2019, major automobile manufacturers are focusing on the growth of connected cars. These major automobile manufacturers are General Motors, BMW, Audi, Mercedes Benz, Tesla, Volkswagen, Jaguar, Porche and Nissan. By 2020, we may have 380 million connected cars (IoV) on the roads [12]. By 2021, close to 90 million connected cars will be shipped according to Business Insider [13]. The global growth of connected cars can be seen in Figure 6.2 [14].
Automotive Grade Linux
Published in P. Sivakumar, B. Vinoth Kumar, R. S. Sandhya Devi, Software Engineering for Automotive Systems, 2022
P. Sivakumar, A Neeraja Lakshmi, A. Angamuthu, R. S. Sandhya Devi, B. Vinoth Kumar, S. Studener
A connected car is one that has its own internet connection as shown in Figure 6.1, usually via a wireless local area network (WLAN) that allows the car to share internet access and data with other devices inside and outside the vehicle. Internet service is typically connected to the network of the surrounding city. Many analysts say connected vehicles plays a major role in Smart city (Sivakumar et al., 2020). Internet networks can have traffic warning networks, crashes, and other security warnings communicated between the vehicles (Noah et al., 2013). Connected cars provide a broader variety of communication possibilities than many other mobile vehicles. As well as allowing their users to obtain real-time access to all kinds of information, they can facilitate communication between the car and the dealership and warn the emergency services if you've been involved in an accident.
Internet of Things (IoT) Applications with Blockchain Technique
Published in Brojo Kishore Mishra, Sanjay Kumar Kuanar, Sheng-Lung Peng, Daniel D. Dasig, Handbook of IoT and Blockchain, 2020
Connected CarsThe automotive digital technology has focused on optimizing vehicles’ internal functions. But now this attention is growing toward enhancing the in-car experience.A connected car is a vehicle which is able to optimize its own operation and maintenance as well as the comfort of passengers by using onboard sensors and internet connectivity.Most large auto makers as well as some brave startups are working on connected car solutions. Major brands like Tesla, BMW, Apple, and Google are working on bringing the next revolution in automobiles.
A review on the impacts of connected vehicles on pavement management systems
Published in International Journal of Pavement Engineering, 2023
Mohammad Saleh Entezari, Amir Golroo
The main principle of CVs is to enable wireless connectivity among vehicles, infrastructure, and traffic components. Accordingly, a connected car can be explained as a car equipped with devices that connect it to outside services and networks (Jadaan et al. 2017). Traffic data can be exchanged among intelligent vehicles and their surroundings to allow for a superior vehicle awareness, consequently resulting in less road fatalities and safer driving experience. The applications include transmission of safety warnings, real-time navigation and routing, remote diagnostics, fleet management, accident avoidance, and advanced driver assistance systems (Abdelkader et al. 2021). Another practical implementation of CVs is transportation infrastructure monitoring (Wright et al. 2014). They can be used for continuous evaluation of roads.
Toward Intelligent Vehicle Intrusion Detection Using the Neural Knowledge DNA
Published in Cybernetics and Systems, 2018
Fei Li, Haoxi Zhang, Juan Wang, Yong Liu, Lulu Gao, Xiang Xu, Cesar Sanin, Edward Szczerbicki
The convergence of automobile and IT is a rapidly rising paradigm of modern vehicles, in which an electronic control unit (ECU) controls the vehicle electrical systems. The controller area network (CAN), an in-vehicle network, is commonly used to construct an efficient system of ECUs. Fatally, security issues have not been tackled properly in CAN, although CAN control messages could be life-critical. With the appearance of the connected car environment, in-vehicle networks are now well connected to the outside world, which gives the hackers chances to perform cyberattacks using CAN vulnerabilities. This security problem has drawn great attention of industry and academic communities.