posted on 2014-06-12, 09:26authored bySultan Shair, Jim Chandler, Victor J. Gonzalez Villela, Robert M. Parkin, Michael Jackson
The application of aerial and satellite imagery for
mobile robot path planning and navigation has shown potential in
recent years. These uses vary from identifying terrain properties
for creating traversability maps to extracting landmarks for
autonomous navigation. With the freely available differential
positioning system WAAS/EGNOS, the use of the Global
Positioning System with aerial images providing valuable
contextual data, demonstrates potential in waypoint-based
navigation of mobile robots. However, important issues relating
to the spatial accuracies of image, waypoint and GPS derived
data, vital for obtaining accurate navigation results, are often
overseen. This paper defines the causes of spatial inaccuracies in
order to develop optimal waypoint navigation parameters and
provides researchers with sufficient knowledge to reproduce
similar results. An improvement of up to 48% in the number of
waypoints reached, depending on the radius, was determined for
the positional correction of the GPS. The reader is presented with
a method for easily creating waypoints from aerial images,
yielding results to a similar level of accuracy to conventional and
often tedious manual methods. The results are shown with a
simulated synchronous drive robot in Matlab’s
Simulink®environment.
Funding
This work is supported by the
Engineering and Physical Sciences Research Council (EPSRC), UK, and the
Innovative Manufacturing and Construction Research Centre (IMCRC),
Loughborough University, UK.
History
School
Mechanical, Electrical and Manufacturing Engineering
Published in
IEEE-ASME TRANSACTIONS ON MECHATRONICS
Volume
13
Issue
6
Pages
692 - 699 (8)
Citation
SHAIR, S. ... et al, 2008. The use of aerial images and GPS for Mobile Robot Waypoint Navigation. IEEE - ASME Transactions on Mechatronics, 13 (6), pp.692-699.