Abstract
This paper proposes a novel driving cycle construction method in consideration of velocity, road slope, and passenger load, based on a real-world bus route with a plug-in hybrid electric bus (PHEB). The main purpose is to address the disadvantage that an inaccurate reflection of the real-world driving characteristics for city buses will be caused when ignoring the passenger load in the course of a driving cycle synthesis. Two contributions are supplemented to distinguish from the previous research. Firstly, a novel station-based method is proposed aiming at developing a driving cycle with high accuracy. The kinematic segments are partitioned according to the distance of adjacent bus stops, while a two-dimensional Markov chain Monte Carlo method is employed to synthesize driving cycle between each interval of adjacent bus stops. Secondly, the random passenger load for different bus stops is treated as a discrete Markov chain model, according to the correlation analysis of the measured passenger data which are distinguished for off-peak and peak hours. Meanwhile, Monte Carlo simulation and maximum likelihood estimation are utilized to determine the most likely number of passengers for each bus stop. At last, the fuel consumption of the PHEB is simulated with the best-synthesized driving cycle and contrasted to the mean fuel consumption of the later measured data which is composed of the velocity, road slope, and the passenger load. The results demonstrate that the synthesized driving cycle has a higher accuracy on fuel consumption estimation.
Highlights
Academic Editor: Monica Menendez is paper proposes a novel driving cycle construction method in consideration of velocity, road slope, and passenger load, based on a real-world bus route with a plug-in hybrid electric bus (PHEB). e main purpose is to address the disadvantage that an inaccurate reflection of the real-world driving characteristics for city buses will be caused when ignoring the passenger load in the course of a driving cycle synthesis
It is noteworthy that there is a conspicuous difference in the fuel consumption (FC) for different passenger loads. e FC under no-load, half-load, and fullload are, respectively, 6.23 L, 7.44 L, and 8.75 L, where the maximum deviation can reach up to 40.45% between the full-load and no-load. erefore, it is of great challenge to give an accurate estimation of the FC in the course of the PHEB design, when the selected driving cycle does not take into account the passenger changes
The passenger load has a distinct influence on the driving mode, where the PHEB with no-load has longer distance travel under the CD mode compared to the half-load and full-load. e results indicate that the passenger load has a considerable impact on the FC and the control strategy of the PHEB, and it is of great significance to synthesize a driving cycle containing the passengers via an effective methodology
Summary
E collected driving data are mainly constituted by the signal of vehicle velocity, acceleration, traveled distance, and road altitude with the sampling time interval of 5 s. It is of great necessity to determine the appropriate sampling number, aiming at constructing a more accurate driving cycle via less measured data. Four characteristic parameters are analyzed to determine the saturation of the collected driving data, which are composed of the mean velocity vm, mean driving velocity (i.e., not including the idle time) vm d, maximum acceleration am, and minimum acceleration ad. The percentages of acceleration time, deceleration time, idle time, and cruise time are considered, which are respectively expressed as Ta, Td, Ti, and Tc. As shown in Figures 2(a)–2(c), the selected 8 characteristic parameters tend to be stabilized as the number of samples is increased. 35 groups of valid driving data are employed for the construction of the driving cycle to ensure reliability and stability
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