Towards autonomous airborne mapping of urban environments

Author

Adler, Benjamin ; Xiao, Junhao

Author_Institution

Fachbereich Inf., Tech. Aspekte Multimodaler Syst. (TAMS), Univ. of Hamburg, Hamburg, Germany

fYear

2012

fDate

13-15 Sept. 2012

Firstpage

77

Lastpage

82

Abstract

This work documents our progress on building an unmanned aerial vehicle capable of autonomously mapping urban environments. This includes localization and tracking of the vehicle´s pose, fusion of sensor-data from onboard GNSS receivers, IMUs, laserscanners and cameras as well as realtime path-planning and collision-avoidance. Currently, we focus on a physics-based approach to computing waypoints, which are subsequently used to steer the platform in three-dimensional space. Generation of efficient sensor trajectories for maximized information gain operates directly on unorganized point clouds, creating a perfect fit for environment mapping with commonly used LIDAR sensors and time-of-flight cameras. We present the algorithm´s application to real sensor-data and analyze its performance in a virtual outdoor scenario.

Keywords

aerospace computing; autonomous aerial vehicles; cameras; collision avoidance; computer graphics; control engineering computing; optical radar; radio receivers; satellite navigation; sensor fusion; tracking; trajectory control; IMU; LIDAR sensor; autonomous airborne mapping; collision-avoidance; environment mapping; information gain; laserscanner; onboard GNSS receiver; physics-based approach; point cloud; realtime path-planning; sensor trajectory; sensor-data fusion; time-of-flight camera; unmanned aerial vehicle; urban environment; vehicle pose localization; vehicle pose tracking; virtual outdoor scenario; Computational complexity; Computational modeling; Geometry; Physics; Simultaneous localization and mapping; Trajectory;

fLanguage

English

Publisher

ieee

Conference_Titel

Multisensor Fusion and Integration for Intelligent Systems (MFI), 2012 IEEE Conference on

Conference_Location

Hamburg

Print_ISBN

978-1-4673-2510-3

Electronic_ISBN

978-1-4673-2511-0

Type

conf

DOI

10.1109/MFI.2012.6343030

Filename

6343030