2016
DOI: 10.1155/2016/6842891
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Cloud Model Approach for Lateral Control of Intelligent Vehicle Systems

Abstract: Studies on intelligent vehicles, among which the controlling method of intelligent vehicles is a key technique, have drawn the attention of industry and the academe. This study focuses on designing an intelligent lateral control algorithm for vehicles at various speeds, formulating a strategy, introducing the Gauss cloud model and the cloud reasoning algorithm, and proposing a cloud control algorithm for calculating intelligent vehicle lateral offsets. A real vehicle test is applied to explain the implementati… Show more

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Cited by 16 publications
(14 citation statements)
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“…In [12], a novel integrated FMEA model based on the cloud model and hierarchical technique was developed to assess and rank the risk of failure modes. Based on the cloud model, Gao et al [13] proposed an intelligent lateral control algorithm, which was designed to calculate intelligent vehicle lateral offsets. Peng and Wang [14] proposed a multicriteria group decision-making method based on the normal cloud model with Zadeh's Z-numbers.…”
Section: Related Work a Cloud Model Applicationsmentioning
confidence: 99%
“…In [12], a novel integrated FMEA model based on the cloud model and hierarchical technique was developed to assess and rank the risk of failure modes. Based on the cloud model, Gao et al [13] proposed an intelligent lateral control algorithm, which was designed to calculate intelligent vehicle lateral offsets. Peng and Wang [14] proposed a multicriteria group decision-making method based on the normal cloud model with Zadeh's Z-numbers.…”
Section: Related Work a Cloud Model Applicationsmentioning
confidence: 99%
“…Additionally, we will consider Convolutional Neural Network (CNN) [52] in our experimentation as this methodology assures negligible loss and best classification accuracy. Other approaches like the Dynamic Bayesian Network (DBN), Gauss Cloud Model, and Cloud Reasoning Algorithm will also be taken into consideration for best classifying accuracy and precision [53][54][55].…”
Section: Future Recommendationsmentioning
confidence: 99%
“…13 Further research apply many intelligent algorithms to model driver behavior for intelligent vehicles such as fuzzy control theory, 14 neural network, 15,16 hidden Markov model, 17 game theory, 18 and other intelligent methods. [19][20][21] The longitudinal driver model mainly studies the speed tracking ability of intelligent vehicles, that is, how to control the vehicle to cruise at a predefined speed or keep a certain distance from the target vehicle ahead. In the actual driving process, the driver's speed control behavior will be affected by various factors such as the vehicle motion state, road environment and personal driving style.…”
Section: Introductionmentioning
confidence: 99%