The real driving cycle (RDC), which aims to reflect the real driving behaviour of vehicles, plays an important role in evaluating the performance or pollution of vehicles. At present, the related researches most focus on developing RDCs of different functions or regions, while the influence factors and the rules of RDC construction are not involved. In this study, through statistical analysis and theoretical analysis of RDC construction process, the influence factors of candidate RDC are explored. These factors include statistical characteristics, common factors number, cluster number, number selection principle, and order principle. A different value of factors means a different candidate RDC and different proximity of RDCs to the real driving data. Through the dynamic time warping index, the proximity of candidate RDCs is calculated, then the factors rules and the optimum RDC are obtained. When the slope is added as one statistical characteristic, the common factors number is set as 5, the cluster number is set as 6, the number selection principle is set as ratio principle, and order principle chooses positive sequence, the candidate RDC is the optimal cycle which is closest to the real vehicles driving conditions.
Research on the influence factors of real driving cycle with statistical analysis and dynamic time warping
IET Intelligent Transport Systems ; 13 , 2 ; 286-292
2018-10-26
7 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
vehicle dynamics , optimum RDC , statistical characteristic , driving data , RDC construction process , statistical analysis , cluster number , influence factors , order principle , common factors number , optimal cycle , driving cycle , factors rules , dynamic time , real vehicles driving conditions , number selection principle , driving behaviour
Metadata by IET is licensed under CC BY 3.0
Wiley | 2019
|Quantifying Repeatability of Real-World On-Road Driving Using Dynamic Time Warping
British Library Conference Proceedings | 2022
|Quantifying Repeatability of Real-World On-Road Driving Using Dynamic Time Warping
SAE Technical Papers | 2022
|