Autonomous uav-based 3d-reconstruction of structures for aerial physical interaction

B. Sirmacek; R. Rashad; P. Radl

doi:10.5194/isprs-archives-XLII-2-W13-601-2019

Autonomous uav-based 3d-reconstruction of structures for aerial physical interaction

B. Sirmacek
, R. Rashad^*
, P. Radl

^*Corresponding author for this work

Research output: Contribution to journal › Conference article › peer-review

4 Scopus citations

Abstract

We introduce a fully automated only path planning approach especially for drones. This novel method relies on usage of a stereo camera mounted at the bottom of a hexagonal drone for real-time point cloud reconstruction and localization. The real-time point cloud is analyzed in a software loop where the entropy of the point cloud and the surface normals are calculated. The low entropy positions (which indicate the 3D areas with less point density and less information) and the surface normals are used for calculating the next inspection point which can be targeted by the drone in order to enhance the point cloud best. Path planning to these automatically selected target points is done during the flight (quite real-time) and automatically. The initial experiments are performed on Gazebo simulation environment within the ROS system using realistic parameters of our real drone and real stereo camera.

Original language	English
Pages (from-to)	601-605
Number of pages	5
Journal	International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences - ISPRS Archives
Volume	42
Issue number	2/W13
DOIs	https://doi.org/10.5194/isprs-archives-XLII-2-W13-601-2019
State	Published - 4 Jun 2019
Externally published	Yes
Event	4th ISPRS Geospatial Week 2019 - Enschede, Netherlands Duration: 10 Jun 2019 → 14 Jun 2019

Bibliographical note

Publisher Copyright:
© Authors 2019.

Keywords

3D segmentation
Autonomous navigation
Path planning
SLAM
UAV

ASJC Scopus subject areas

Information Systems
Geography, Planning and Development

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10.5194/isprs-archives-XLII-2-W13-601-2019

Cite this

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title = "Autonomous uav-based 3d-reconstruction of structures for aerial physical interaction",

abstract = "We introduce a fully automated only path planning approach especially for drones. This novel method relies on usage of a stereo camera mounted at the bottom of a hexagonal drone for real-time point cloud reconstruction and localization. The real-time point cloud is analyzed in a software loop where the entropy of the point cloud and the surface normals are calculated. The low entropy positions (which indicate the 3D areas with less point density and less information) and the surface normals are used for calculating the next inspection point which can be targeted by the drone in order to enhance the point cloud best. Path planning to these automatically selected target points is done during the flight (quite real-time) and automatically. The initial experiments are performed on Gazebo simulation environment within the ROS system using realistic parameters of our real drone and real stereo camera.",

keywords = "3D segmentation, Autonomous navigation, Path planning, SLAM, UAV",

author = "B. Sirmacek and R. Rashad and P. Radl",

note = "Publisher Copyright: {\textcopyright} Authors 2019.; 4th ISPRS Geospatial Week 2019 ; Conference date: 10-06-2019 Through 14-06-2019",

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doi = "10.5194/isprs-archives-XLII-2-W13-601-2019",

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AU - Sirmacek, B.

AU - Rashad, R.

AU - Radl, P.

N1 - Publisher Copyright: © Authors 2019.

PY - 2019/6/4

Y1 - 2019/6/4

N2 - We introduce a fully automated only path planning approach especially for drones. This novel method relies on usage of a stereo camera mounted at the bottom of a hexagonal drone for real-time point cloud reconstruction and localization. The real-time point cloud is analyzed in a software loop where the entropy of the point cloud and the surface normals are calculated. The low entropy positions (which indicate the 3D areas with less point density and less information) and the surface normals are used for calculating the next inspection point which can be targeted by the drone in order to enhance the point cloud best. Path planning to these automatically selected target points is done during the flight (quite real-time) and automatically. The initial experiments are performed on Gazebo simulation environment within the ROS system using realistic parameters of our real drone and real stereo camera.

AB - We introduce a fully automated only path planning approach especially for drones. This novel method relies on usage of a stereo camera mounted at the bottom of a hexagonal drone for real-time point cloud reconstruction and localization. The real-time point cloud is analyzed in a software loop where the entropy of the point cloud and the surface normals are calculated. The low entropy positions (which indicate the 3D areas with less point density and less information) and the surface normals are used for calculating the next inspection point which can be targeted by the drone in order to enhance the point cloud best. Path planning to these automatically selected target points is done during the flight (quite real-time) and automatically. The initial experiments are performed on Gazebo simulation environment within the ROS system using realistic parameters of our real drone and real stereo camera.

KW - 3D segmentation

KW - Autonomous navigation

KW - Path planning

KW - SLAM

KW - UAV

UR - https://www.scopus.com/pages/publications/85067464865

U2 - 10.5194/isprs-archives-XLII-2-W13-601-2019

DO - 10.5194/isprs-archives-XLII-2-W13-601-2019

M3 - Conference article

AN - SCOPUS:85067464865

SN - 1682-1750

VL - 42

SP - 601

EP - 605

JO - International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences - ISPRS Archives

JF - International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences - ISPRS Archives

IS - 2/W13

T2 - 4th ISPRS Geospatial Week 2019

Y2 - 10 June 2019 through 14 June 2019

ER -

Autonomous uav-based 3d-reconstruction of structures for aerial physical interaction

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

Access to Document

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Cite this