@article{ref1, title="Typical-driving-style-oriented personalized adaptive cruise control design based on human driving data", journal="Transportation research part C: emerging technologies", year="2019", author="Zhu, Bing and Jiang, Yuande and Zhao, Jian and He, Rui and Bian, Ning and Deng, Weiwen", volume="100", number="", pages="274-288", abstract="Reflecting different driving styles in Adaptive Cruise Control (ACC) is of great importance for its market acceptance. A novel data-based method is presented for designing a Personalized Adaptive Cruise Control (PACC) system in this paper. First, a driving-data-acquisition platform is established, and a large amount of real-world driving data from 84 human drivers is collected. To measure the similarity of human drivers quantitatively, the driving data of every driver are regarded as a specific distribution of some features, fitted with a Gaussian mixture model (GMM). Kullback-Leibler (KL) divergence is introduced as the driving similarity index. After that, an unsupervised clustering algorithm is realized in this paper, and these drivers are grouped into three separate groups. A practical PACC structure is designed in the second stage based on the grouped driving data to include different driving characteristics, mainly in three aspects: speed control, distance control, and the switching rule. Then real-vehicle experiments are carried out.

RESULTS demonstrate the capabilities of the proposed PACC algorithm to reflect different driving styles.

Language: en

", language="en", issn="0968-090X", doi="10.1016/j.trc.2019.01.025", url="http://dx.doi.org/10.1016/j.trc.2019.01.025" }