通过绕过基于最坏情况的调整技术实现基于学习的高保真运动提示算法

Mohammad Reza Chalak Qazani , Houshyar Asadi , Zoran Najdovski , Shehab Alsanwy , Muhammad Zakarya , Furqan Alam , Hassen M. Ouakad , Chee Peng Lim , Saeid Nahavandi
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引用次数: 0

摘要

运动提示算法(MCA)可在平台限制范围内生成车辆运动,从而增强模拟器驾驶体验的真实感。现有的 MCA 通常针对最坏情况进行调整,从而限制了其对中速或慢速驾驶运动的效率。本研究提出了一种使用基于学习的模型的综合 MCA 单元,以克服这一问题,并在所有驾驶场景中有效利用模拟器工作空间。对数据样本进行再生,以涵盖各种运动信号水平,并对三个经典冲洗滤波器进行调整,以提取最佳运动信号。利用这些提取的数据集训练多层感知器(MLP),形成基于人工智能的 MCA,为任何场景提供高保真驾驶运动,同时优化平台工作空间。Simulink/MATLAB 用于建模和评估。结果表明,所提出的模型性能优越,运动感觉误差更低,感应运动信号之间的相关性更高,平台工作空间的使用效率更高。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
High-fidelity learning-based motion cueing algorithm by bypassing worst-case scenario-based tuning technique

The motion cueing algorithm (MCA) enhances the realism of simulator driving experiences by generating vehicle motions within platform limitations. Existing MCAs are typically tuned for worst-case scenarios, limiting their efficiency for medium or slow driving motions. This study proposes a comprehensive MCA unit using learning-based models to overcome this problem and efficiently utilise the simulator workspace for all driving scenarios. Data samples are regenerated to cover various motion signal levels, and three classical washout filters are tuned to extract optimal motion signals. A multilayer perceptron (MLP) is trained with these extracted datasets, forming an AI-based MCA that provides high-fidelity driving motions for any scenario while optimising the platform workspace. Simulink/MATLAB is used for modelling and evaluation. Results demonstrate the proposed model's superior performance, with lower motion sensation errors, a higher correlation between sensed motion signals, and more efficient platform workspace usage.

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