通过图像和车辆动力学集成进行轮胎与路面摩擦系数自适应估算

IF 7.9 1区 工程技术 Q1 ENGINEERING, MECHANICAL
Shiyue Zhao , Junzhi Zhang , Yuhong Jiang , Chengkun He , Jinheng Han
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引用次数: 0

摘要

目前用于识别轮胎与路面摩擦系数(TRFC)的方法往往在准确性和多重干扰问题上举步维艰。针对这一问题,本文提出了一种新型 TRFC 估算方法,该方法可适应复杂路况,并通过融合图像和车辆动态信息实现自我诊断。首先,我们建立了一个由大量极端路面图像和相应车辆动态数据组成的综合数据库。然后,我们开发了一种多时态图像融合方法。该方法通过跟踪历史数据,对左侧和右侧车轮的路面图像进行分割和整合,从而确保每张图像都包含足够的路面细节。随后,使用预先训练好的变换器模型识别每一侧的路面状况。图像分析结束后,使用残差自适应无特征卡尔曼滤波器(UKF)实时估算 TRFC。高置信度图像估算结果可作为 UKF 的关键调整器,从而提高估算精度。实车测试结果表明,我们的方法能够准确识别 TRFC,并增强了鲁棒性。此外,这些测试还证实了自适应估算方法能够在模型失真时检测故障并调整稳态值,从而在环境干扰导致图像估算结果下降的情况下仍能有效保持估算精度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Tire-Road friction coefficients adaptive estimation through image and vehicle dynamics integration
Current methods for identifying tire-road friction coefficient (TRFC) often struggle with accuracy and multiple interference issues. Addressing this, this paper proposes a novel TRFC estimation method that adapts to complex road conditions and performs self-diagnosis by the fusion of image and vehicle dynamics information. First, we compiled a comprehensive database comprising numerous images of extreme road surfaces along with corresponding vehicle dynamics data. A multi-temporal image fusion method was then developed. This method enables the segmentation and integration of road surface images for both the left and right-side wheels by tracking historical data, which ensures that each image is enriched with adequate road surface details. Subsequently, the road surface condition for each side is identified using a pre-trained transformer model. Following the image analysis, the TRFC is estimated in real-time using a residual adaptive unscented Kalman filter (UKF). High-confidence image estimation results serve as key adjusters for the UKF, enhancing estimation accuracy. The real vehicle test results demonstrate that our method accurately identifies the TRFC with enhanced robustness. Additionally, these tests confirmed the adaptive estimation method’s ability to detect faults and adjust steady-state values amidst model distortion, effectively maintaining accuracy despite image estimation declines caused by environmental interferences.
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来源期刊
Mechanical Systems and Signal Processing
Mechanical Systems and Signal Processing 工程技术-工程:机械
CiteScore
14.80
自引率
13.10%
发文量
1183
审稿时长
5.4 months
期刊介绍: Journal Name: Mechanical Systems and Signal Processing (MSSP) Interdisciplinary Focus: Mechanical, Aerospace, and Civil Engineering Purpose:Reporting scientific advancements of the highest quality Arising from new techniques in sensing, instrumentation, signal processing, modelling, and control of dynamic systems
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