Design of Lightweight Driver-Assistance System for Safe Driving in Electric Vehicles

Ahmad, Shabir; Malik, Sehrish; Park, Dong-Hwan; Kim, Do‐Hyeun

doi:10.3390/s19214761

Cited by 7 publications

(5 citation statements)

References 36 publications

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“…The focus should be on the development of mobile digital technologies in car sharing. It seems that the development of car sharing may be one of the realistic alternatives for solving the environmental problems of a metropolis (Ahmad et al, 2019;Masloya et al, 2020).…”

Section: Discussionmentioning

confidence: 99%

Dynamic Analysis of the Traffic of Vehicles Used in Car Sharing

Сергеев

Bozhuk

Pletneva

et al. 2021

Int J Math, Eng, Manag Sci

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During digitalization of transport service segment people use modern facilities such as geolocation, M2M connectivity, online payments, customer identification. We can also see a high competition here. The task of car sharing managers is to search for the optimal methods of doing business. As the regulations of business, ecological standards and technology environment of the main players is almost similar because of using the same mobile and cloud resources, it is possible to get a competitive advantage by the development of mobile apps for the employee’s PCs and smartphones of customers. The math model shown in this article is developed for implementing in digital platforms of such kind of business. This gives the opportunity to offer customers more attractive car sharing services and to reduce costs by following the environmental restrictions at the same time.

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Section: Discussionmentioning

confidence: 99%

Dynamic Analysis of the Traffic of Vehicles Used in Car Sharing

Сергеев

Bozhuk

Pletneva

et al. 2021

Int J Math, Eng, Manag Sci

View full text Add to dashboard Cite

show abstract

“…Apart from optimize the power and battery life, researchers have conducted studies on how to facilitate drivers with assistance systems to reduce accidents and fatalities. One way to prove this is shown in [20]. The paper describes a system to assist drivers in vital tasks such a braking system thanks to the implementation of a simulator and an automated control algorithm.…”

Section: Literature Reviewmentioning

confidence: 99%

A Long-Distance Smart Driving Service Based on Floating Car Data and Open Data

et al. 2022

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The purpose of this manuscript is to present the Smart Driving Service (SDS), a customized mobile application and a complex microservices framework that is intended for not only professional drivers but also for novel people that need help during the driving time in their long-distance journeys. The European regulation about driving times, breaks and rest periods for drivers engaged in the carriage of freight is implemented into the system. Additionally, it is necessary to have a feedback report to detect the behavior of the drivers and what to do differently to drive better. This issue is addressed by implementing a Route Performance Index (RPI) to measure the drivers' compliances. The proposed service has been running in a production stage for 6 months with a reduction of the consumption of 2 liters/100km. Having into account that the company runs more than 100M km per year, the savings in fuel is very relevant apart from the environment impact reduction.

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“…Compared with traditional vehicles that use internal combustion engines as power sources, future electric vehicles (EVs) have higher economy, controllability, and intelligence [1,2]. As an advanced technology in the automotive industry, future EVs have attracted growing attention due to their significant advantages, which can be further developed as autonomous and intelligent vehicles.…”

Section: Introductionmentioning

confidence: 99%

Robust Speed Tracking Control for Future Electric Vehicles under Network-Induced Delay and Road Slope Variation

Zhang

Fan

Wang

et al. 2022

Sensors

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Integrated motor-transmission (IMT) powertrain systems are widely used in future electric vehicles due to the advantages of their simple structure configuration and high controllability. In electric vehicles, precise speed tracking control is critical to ensure good gear shifting quality of an IMT powertrain system. However, the speed tracking control design becomes challenging due to the inevitable time delay of signal transmission introduced by the in-vehicle network and unknown road slope variation. Moreover, the system parameter uncertainties and signal measurement noise also increase the difficulty for the control algorithm. To address these issues, in this paper a robust speed tracking control strategy for electric vehicles with an IMT powertrain system is proposed. A disturbance observer and low-pass filter are developed to decrease the side effect from the unknown road slope variation and measurement noise and reduce the estimation error of the external load torque. Then, the network-induced delay speed tracking model is developed and is upgraded considering the damping coefficient uncertainties of the IMT powertrain system, which can be described through the norm-bounded uncertainty reduction method. To handle the network-induced delay and parameter uncertainties, a novel and less-conservative Lyapunov function is proposed to design the robust speed tracking controller by the linear matrix inequality (LMI) algorithm. Meanwhile, the estimation error and measurement noise are considered as the external disturbances in the controller design to promote robustness. Finally, the results demonstrate that the proposed controller has the advantages of strong robustness, excellent speed tracking performance, and ride comfort over the current existing controllers.

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Design of Lightweight Driver-Assistance System for Safe Driving in Electric Vehicles

Cited by 7 publications

References 36 publications

Dynamic Analysis of the Traffic of Vehicles Used in Car Sharing

Dynamic Analysis of the Traffic of Vehicles Used in Car Sharing

A Long-Distance Smart Driving Service Based on Floating Car Data and Open Data

Robust Speed Tracking Control for Future Electric Vehicles under Network-Induced Delay and Road Slope Variation

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