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851.
Eunjae Lee Hojin Jung Seibum Choi 《International Journal of Automotive Technology》2018,19(4):669-676
As for the tire analysis, lateral tire force is a fundamental factor that describes the stability of vehicle handling. Attempts to analyze the vehicle stability have been made based on various objective test methods and some specific factors such as yaw, lateral acceleration and roll angle. However, the problem to identify which axle is lack of the tire grip at a certain situation still remains. Since indoor tire force measurement system cannot represent a real road and vehicle conditions, tire force measurement through a real vehicle test is inevitable. Due to the high price of the tire force measurement device, tire force estimator can be an alternative toward cost reduction and device failure. In this paper, nonlinear planar full car model combined with tire model is proposed. Then, using discrete-time extended Kalman-Bucy filter (EKBF), individual tire lateral force are estimated with modified relaxation length model. 相似文献
852.
Jan Pfluger Rene Savelsberg Thomas Hülshorst Stefan Pischinger Jakob Andert 《International Journal of Automotive Technology》2018,19(4):643-650
In this paper, a Field Programmable Gate Array (FPGA) was used to implement a real-time cylinder pressure analysis. The goal of the project was to improve the accuracy of calculated heat release and center of combustion calculations to enhance the precision of engine control functions. Compared to today’s real-time pressure analysis systems, several additional physical effects were taken into account for this objective. The wall heat transfer was calculated based on the approach published by Hohenberg. A chemical equilibrium with six substances was assumed for the mixture composition and a real-time calculation method was developed. Furthermore, a two-zone model was adapted and implemented for this realtime analysis. The validation of the results and the rating of the improvement in precision were based on GT-SUITE simulation results as an offline reference tool. Compared to state-of-the-art analysis systems, it was possible to reduce the average error of the center of combustion position from 1.6° to 0.5° crank angle (CA) by taking the investigated effects into account. Moreover, it was possible to significantly reduce the time required for the calculation from one complete combustion cycle to 0.2°CA at an engine speed of 3,000 rpm by using a continuous calculation method on the FPGA. This led to an additional improvement of the ability to control the engine, especially under highly dynamic operation conditions. 相似文献
853.
Wook-Han Choi Youngmyung Lee Jong-Min Yoon Yong-Ha Han Gyung-Jin Park 《International Journal of Automotive Technology》2018,19(2):291-299
A roof crush test has been utilized to reduce passengers’ injuries from a vehicle rollover. The Federal Motor Vehicle Safety Standards (FMVSS) 216 and the Insurance Institute for Highway Safety (IIHS) perform actual vehicle tests and evaluate the vehicle’s ratings. Nonlinear dynamic response structural optimization can be employed not only for achievement of a high rating but also minimization of the weight. However, the technique needs a huge computation time and cost because many nonlinear dynamic response analyses are required in the time domain. A novel method is proposed for nonlinear dynamic response structural optimization regarding the roof crush test. The process of the proposed method repeats the analysis domain and the design domain until the convergence criteria are satisfied. In the analysis domain, the roof crush test is simulated using a high fidelity model of nonlinear dynamic finite element analysis. In the design domain, a low fidelity model of linear static response structural optimization is utilized with enforced displacements that come from the analysis domain. Correction factors are employed to compensate the differences between a nonlinear dynamic analysis response and a linear static analysis response with enforced displacement. A full-scale vehicle problem is optimized with a constraint on the rigid wall force from the analysis in the design domain. 相似文献
854.
Seongjin Yim 《International Journal of Automotive Technology》2018,19(2):263-270
This paper presents a method to select the actuator combination in integrated chassis control using Taguchi method. Electronic stability control (ESC), active front and rear steering (AFS/ARS) are used as an actuator, which is needed to generate a control tire force. After computing the control yaw moment in the upper-level controller, it is distributed into the control tire forces, generated by ESC, AFS and ARS in the lower-level controller. In this paper, the weighted pseudo-inverse control allocation (WPCA) with variable weights is used to determine the control tire forces of each actuator. Taguchi method is adopted for sensitivity analysis on variable weights of WPCA in terms of the control performances such as the maneuverability and the lateral stability. For sensitivity analysis, simulation is performed on a vehicle simulation package, CarSim. From sensitivity analysis, the most effective actuator combination is selected. 相似文献
855.
Jae Woo Chung Nam Ho Kim Deok Jin Kim Seong Sik Jang 《International Journal of Automotive Technology》2018,19(2):209-220
Recently, to improve vehicle fuel economy, as well as the performance of internal combustion engines, optimized system matching between a vehicle’s drivetrain and engine has become a very important technical issue. For this reason, the need for simulation research on engine and vehicle performance improvement has increased. But in general, since both engine simulation and vehicle simulation require initial engine calibration map input, a simple engine calibration method is required for the efficient configuration of various virtual engine calibration map setups. On this background, in this study, an example of waste gate turbocharger (WGT) cooled — exhaust gas recirculation (EGR) Diesel engine calibration using a test-based mean value engine model is presented as a suitable engine calibration map setting method. Also, the feasibility of an engine calibration model is confirmed through various engine tests. Using the simple model presented here, it is possible for diverse engine operating conditions and engine performance maps to be acquired. 相似文献
856.
This article is part of a special issue that provides insight into global conservation science by analyzing a 5-year, $12.5 million global marine conservation science and policy program. In this article, we summarize the development of the program in Belize, which concentrated its effort in the southern portion of the country. The marine managed areas that developed in Belize took a variety of different forms, and involved a number of different government and private sector agencies and organizations. 相似文献
857.
K. Six A. Meierhofer G. Müller P. Dietmaier 《Vehicle System Dynamics: International Journal of Vehicle Mechanics and Mobility》2015,53(5):635-650
Friction within the wheel–rail contact highly influences all aspects of vehicle–track interaction. Models describing this frictional behaviour are of high relevance, for example, for reliable predictions on drive train dynamics. It has been shown by experiments, that the friction at a certain position on rail is not describable by only one number for the coefficient of friction. Beside the contact conditions (existence of liquids, solid third bodies, etc.) the vehicle speed, normal loading and contact geometry are further influencing factors. State-of-the-art models are not able to account for this sufficiently. Thus, an Extended-Creep-Force-Model was developed taking into account effects from third body layers. This model is able to describe all considered effects. In this way, a significant improvement of the prediction quality with respect to all aspects of vehicle–track interaction is expected. 相似文献
858.
为了研究折线地基上路堤变形规律,找到监测敏感点,进而基于变形规律对其安全状况进行评价,采用有限元软件PLAXIS对折线地基上路堤在填筑期、正常运营期以及降雨入渗情况下的变形规律进行数值模拟。结果表明:填筑期路堤监测敏感点主要分布在每层填筑的坡顶;运营期路堤会由于土体力学参数衰减而发生圆弧滑动破坏,监测敏感点位于坡顶拉裂区及坡脚滑动剪出口处;降雨条件下路堤会随着降雨深度的增加而发生局部滑动破坏,此时监测敏感点主要分布在雨水入渗范围内路堤的上部。最后依据路堤在变形发展过程中位移量的大小确定了路堤所处的风险等级。 相似文献
859.
D. W. Pi N. Chen J. X. Wang B. J. Zhang 《International Journal of Automotive Technology》2011,12(3):391-399
This paper presents a method for estimating the vehicle side slip angle, which is considered as a significant signal in determining
the vehicle stability region in vehicle stability control systems. The proposed method combines the model-based method and
kinematics-based method. Side forces of the front and rear axles are provided as a weighted sum of directly calculated values
from a lateral acceleration sensor and a yaw rate sensor and from a tire model according to the nonlinear factor, which is
defined to identify the degree of nonlinearity of the vehicle state. Then, the side forces are fed to the extended Kalman
filter, which is designed based on the single-track vehicle model associated with a tire model. The cornering stiffness identifier
is introduced to compensate for tire force nonlinearities. A fuzzy-logic procedure is implemented to determine the nonlinear
factor from the input variables: yaw rate deviation from the reference value and lateral acceleration. The proposed observer
is compared with a model-based method and kinematics-based method. An 8 DOF vehicle model and Dugoff tire model are employed
to simulate the vehicle state in MATLAB/SIMULINK. The simulation results shows that the proposed method is more accurate than
the model-based method and kinematics-based method when the vehicle is subjected to severe maneuvers under different road
conditions. 相似文献
860.
S. H. Lee T. W. Park K. H. Chung K. H. Choi K. K. Kim K. H. Moon 《International Journal of Automotive Technology》2011,12(1):75-82
HILS (Hardware In the Loop Simulation) and RBT (Requirement-Based Testing) are widely used to evaluate the performance and
reliability of automotive ECUs (Electronic Control Units). The HILS method is used to predict the behavior of ECU-installed
vehicles and to evaluate the performance of ECU controllers. RBT evaluates whether the embedded system satisfies the pre-defined
requirements. In this study, the behavior of a vehicle is regarded as a system requirement, and an embedded system test procedure
that evaluates the system requirement is proposed. In particular, a new method is introduced, which integrates HILS with RBT.
Using the proposed method, the behavior of an articulated vehicle equipped with an AWS (All Wheel Steering) ECU is evaluated
with RBT software. 相似文献