Philipp Schuegraf scite author profile

Philipp Schuegraf

4Publications

39Citation Statements Received

86Citation Statements Given

How they've been cited

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Affiliations

German Aerospace Center, Munich University of Applied Sciences

Publications

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Automatic Building Footprint Extraction from Multi-Resolution Remote Sensing Images Using a Hybrid FCN

Schuegraf

Bittner

2019

IJGI

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Recent technical developments made it possible to supply large-scale satellite image coverage. This poses the challenge of efficient discovery of imagery. One very important task in applications like urban planning and reconstruction is to automatically extract building footprints. The integration of different information, which is presently achievable due to the availability of high-resolution remote sensing data sources, makes it possible to improve the quality of the extracted building outlines. Recently, deep neural networks were extended from image-level to pixel-level labelling, allowing to densely predict semantic labels. Based on these advances, we propose an end-to-end U-shaped neural network, which efficiently merges depth and spectral information within two parallel networks combined at the late stage for binary building mask generation. Moreover, as satellites usually provide high-resolution panchromatic images, but only low-resolution multi-spectral images, we tackle this issue by using a residual neural network block. It fuses those images with different spatial resolution at the early stage, before passing the fused information to the Unet stream, responsible for processing spectral information. In a parallel stream, a stereo digital surface model (DSM) is also processed by the Unet. Additionally, we demonstrate that our method generalizes for use in cities which are not included in the training data.

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An Evolutionary Algorithm for Fast Intensity Based Image Matching Between Optical and Sar Satellite Imagery

Fischer

Schuegraf

Merkle

et al. 2018

ISPRS Ann. Photogramm. Remote Sens. Spatial Inf. Sci.

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ABSTRACT:This paper presents a hybrid evolutionary algorithm for fast intensity based matching between satellite imagery from SAR and very high-resolution (VHR) optical sensor systems. The precise and accurate co-registration of image time series and images of different sensors is a key task in multi-sensor image processing scenarios. The necessary preprocessing step of image matching and tie-point detection is divided into a search problem and a similarity measurement. Within this paper we evaluate the use of an evolutionary search strategy for establishing the spatial correspondence between satellite imagery of optical and radar sensors. The aim of the proposed algorithm is to decrease the computational costs during the search process by formulating the search as an optimization problem. Based upon the canonical evolutionary algorithm, the proposed algorithm is adapted for SAR/optical imagery intensity based matching. Extensions are drawn using techniques like hybridization (e.g. local search) and others to lower the number of objective function calls and refine the result. The algorithm significantely decreases the computational costs whilst finding the optimal solution in a reliable way.

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Vertex Aided Building Polygonization from Satellite Imagery Applying Deep Learning

Schuegraf

Bittner

2023

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Building extraction is an important task in many fields. The use of convolutional neural networks has been proven to be of great success in building extraction from satellite images. This paper presents a deep learning based vertex aided building polygonization method, which takes RGB satellite images as input and outputs building polygons. Unlike other methods which rely on vertex extraction followed by polygonization, our method requires neither pre-defined number of vertices nor thresholding to obtain extracted vertices. The proposed method has the advantage of simplicity in sense of model complexity, and achieved good performance with average precision of 48.1% and intersection over union of 84.1%.

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Deep Learning for the Automatic Division of Building Constructions Into Sections on Remote Sensing Images

Schuegraf

Zorzi

Fraundorfer

et al. 2023

IEEE J. Sel. Top. Appl. Earth Observations Remote Sensing

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