Title :
Autonomous Gas-Sensitive Microdrone: Wind Vector Estimation and Gas Distribution Mapping
Author :
Neumann, Patrick P. ; Asadi, Sahar ; Lilienthal, Achim J. ; Bartholmai, Matthias ; Schiller, Jochen H.
Author_Institution :
BAM Fed. Inst for Mater. Res. & Test, Berlin, Germany
fDate :
3/1/2012 12:00:00 AM
Abstract :
This article presents the development and validation of an autonomous, gas sensitive microdrone that is capable of estimating the wind vector in real time using only the onboard control unit of the microdrone and performing gas distribution mapping (DM). Two different sampling approaches are suggested to address this problem. On the one hand, a predefined trajectory is used to explore the target area with the microdrone in a real-world gas DM experiment. As an alternative sampling approach, we introduce an adaptive strategy that suggests next sampling points based on an artificial potential field (APF). Initial results in real-world experiments demonstrate the capability of the proposed adaptive sampling strategy for gas DM and its use for gas source localization.
Keywords :
aircraft control; autonomous aerial vehicles; gas sensors; microrobots; statistical analysis; trajectory control; adaptive sampling strategy; artificial potential field; autonomous gas-sensitive microdrone; gas DM experiment; gas distribution mapping; gas source localization; onboard control unit; predefined trajectory; sampling points; wind vector estimation; Delta modulation; Gas detectors; Mobile communication; Real time systems; Robot sensing systems;
Journal_Title :
Robotics & Automation Magazine, IEEE
DOI :
10.1109/MRA.2012.2184671
