Markus Horn scite author profile

We address the problem of vehicle selflocalization from multi-modal sensor information and a reference map. The map is generated off-line by extracting landmarks from the vehicle's field of view, while the measurements are collected similarly on the fly. Our goal is to determine the autonomous vehicle's pose from the landmark measurements and map landmarks. To learn this mapping, we propose DeepLocalization, a deep neural network that regresses the vehicle's translation and rotation parameters from unordered and dynamic input landmarks. The proposed network architecture is robust to changes of the dynamic environment and can cope with a small number of extracted landmarks. During the training process we rely on synthetically generated ground-truth. In our experiments, we evaluate two inference approaches in real-world scenarios. We show that DeepLocalization can be combined with regular GPS signals and filtering algorithms such as the extended Kalman filter. Our approach achieves state-of-the-art accuracy and is about ten times faster than the related work.

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DeepCLR: Correspondence-Less Architecture for Deep End-to-End Point Cloud Registration

Horn

Engel

Belagiannis

et al. 2020

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This work addresses the problem of point cloud registration using deep neural networks. We propose an approach to predict the alignment between two point clouds with overlapping data content, but displaced origins. Such point clouds originate, for example, from consecutive measurements of a LiDAR mounted on a moving platform. The main difficulty in deep registration of raw point clouds is the fusion of template and source point cloud. Our proposed architecture applies flow embedding to tackle this problem, which generates features that describe the motion of each template point. These features are then used to predict the alignment in an end-to-end fashion without extracting explicit point correspondences between both input clouds. We rely on the KITTI odometry and ModelNet40 datasets for evaluating our method on various point distributions. Our approach achieves state-of-the-art accuracy and the lowest run-time of the compared methods.

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Anomaly Detection in Radar Data Using PointNets

Griebel

Authaler

Horn

et al. 2021

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Extrinsic Infrastructure Calibration Using the Hand-Eye Robot-World Formulation

Horn

Wodtko

Buchholz

et al. 2023

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Markus Horn

Online Extrinsic Calibration Based on Per-Sensor Ego-Motion Using Dual Quaternions

DeepLocalization: Landmark-based Self-Localization with Deep Neural Networks

DeepCLR: Correspondence-Less Architecture for Deep End-to-End Point Cloud Registration

Anomaly Detection in Radar Data Using PointNets

Extrinsic Infrastructure Calibration Using the Hand-Eye Robot-World Formulation

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