Deep Learning for Vanishing Point Detection Using an Inverse Gnomonic Projection

Florian Kluger, Hanno Ackermann, Michael Ying Yang, Bodo Rosenhahn

2017-07-08Camera Calibration Horizon Line Estimation

Abstract

We present a novel approach for vanishing point detection from uncalibrated monocular images. In contrast to state-of-the-art, we make no a priori assumptions about the observed scene. Our method is based on a convolutional neural network (CNN) which does not use natural images, but a Gaussian sphere representation arising from an inverse gnomonic projection of lines detected in an image. This allows us to rely on synthetic data for training, eliminating the need for labelled images. Our method achieves competitive performance on three horizon estimation benchmark datasets. We further highlight some additional use cases for which our vanishing point detection algorithm can be used.

Results

Task	Dataset	Metric	Value	Model
Horizon Line Estimation	Eurasian Cities Dataset	AUC (horizon error)	86.26	DL-IGP
Horizon Line Estimation	Horizon Lines in the Wild	AUC (horizon error)	57.31	DL-IGP
Horizon Line Estimation	York Urban Dataset	AUC (horizon error)	94.27	DL-IGP

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