驾驶风险预测的多假设可能盲点估计

Takayuki Sugiura, Tomoki Watanabe
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引用次数: 3

摘要

我们提出了一种从单一视图中估计盲点中自由空间和障碍物的方法。对盲点的了解有助于自动驾驶汽车做出更好的决策,比如避免可能发生的碰撞风险。估计不可观测区域是否被唯一地分配为自由空间或被占用空间,本质上是病态的。因此,我们的框架被设计成能够基于盲点环境的后验分布从单帧输入生成可能的多假设占用网格地图(OGM)。与确定的单一结果相比,即使在不确定的区域,每个假设OGM也能明确地显示其他可能的环境。为了解决这个问题,我们引入了生成对抗网络(GANs)和蒙特卡罗采样的组合。我们的深度卷积神经网络(CNN)被训练成具有对抗性损失和辍学层的近似后验分布。当在推理阶段激活dropout时,网络通过蒙特卡罗采样从分布中采样产生多种多假设ogm。我们证明了所提出的方法可以从二维(2D)距离传感器测量或单目相机图像中估计多假设ogm中不同的被遮挡自由空间和障碍物。我们的方法还可以在真实的室外数据集中检测车辆前方的盲点作为驾驶风险。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Probable Multi-hypothesis Blind Spot Estimation for Driving Risk Prediction
We present a method for estimating free spaces and obstacles in blind spots occluded from a single view. Knowledge about blind spots helps autonomous vehicles make better decisions, such as avoiding a probable collision risk. It is essentially ill-posed to estimate whether unobservable areas are uniquely assigned as free or occupied spaces. Therefore, our framework is designed to be able to produce probable multi-hypothesis occupancy grid maps (OGM) from a single-frame input based on posterior distribution of blind spot environments. Compared to deterministic single result, each hypothesis OGM can show other probable environments explicitly even in uncertain areas. In order to handle this, we introduce a combination of generative adversarial networks (GANs) and Monte Carlo sampling. Our deep convolutional neural network (CNN) is trained to model an approximate posterior distribution with an adversarial loss and dropout layers. While activating dropout even at inference step, the network generates diverse multi-hypothesis OGMs sampled from the distribution by Monte Carlo sampling. We demonstrate that the proposed method estimates diverse occluded free spaces and obstacles in multi-hypothesis OGMs from either a two-dimensional (2D) range sensor measurement or a monocular camera image. Our method can also detect blind spots ahead of vehicle as driving risks in real outdoor dataset.
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