Realistic Ultrasonic Environment Simulation Using Conditional Generative Adversarial Networks

计算机科学 汽车工业 冗余(工程) 一套 人工神经网络 超声波传感器 工具箱 生成语法 人工智能 机器人 生成模型 机器学习 声学 工程类 物理 考古 历史 程序设计语言 航空航天工程 操作系统
作者
Maximilian Pöpperl,Raghavendra Gulagundi,Senthil Yogamani,Stefan Milz
出处
期刊:Cornell University - arXiv [Cornell University]
标识
DOI:10.48550/arxiv.1902.09842
摘要

Recently, realistic data augmentation using neural networks especially generative neural networks (GAN) has achieved outstanding results. The communities main research focus is visual image processing. However, automotive cars and robots are equipped with a large suite of sensors to achieve a high redundancy. In addition to others, ultrasonic sensors are often used due to their low-costs and reliable near field distance measuring capabilities. Hence, Pattern recognition needs to be applied to ultrasonic signals as well. Machine Learning requires extensive data sets and those measurements are time-consuming, expensive and not flexible to hardware and environmental changes. On the other hand, there exists no method to simulate those signals deterministically. We present a novel approach for synthetic ultrasonic signal simulation using conditional GANs (cGANs). For the best of our knowledge, we present the first realistic data augmentation for automotive ultrasonics. The performance of cGANs allows us to bring the realistic environment simulation to a new level. By using setup and environmental parameters as condition, the proposed approach is flexible to external influences. Due to the low complexity and time effort for data generation, we outperform other simulation algorithms, such as finite element method. We verify the outstanding accuracy and realism of our method by applying a detailed statistical analysis and comparing the generated data to an extensive amount of measured signals.
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