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1037
INTEGRATED PROCESSING OF TERRESTRIAL
LASER SCANNER DATA AND FISHEYE-CAMERA IMAGE DATA
D. Schneider, E. Schwalbe
Technische Universität Dresden, Institute of Photogrammetry and Remote Sensing, 01062 Dresden, Germany -
(danilo.schneider, ellen.schwalbe)@tu-dresden.de
TS-68: SS-16 - Terrestrial Laser Scanning Calibration Techniques
KEY WORDS: Laser scanning, fisheye lens, bundle adjustment, calibration, registration
ABSTRACT:
The paper presents the integration of a geometric model of fisheye lenses and a geometric terrestrial laser scanner model in a bundle
block adjustment. The model allows for a full integration of hemi-spherical fisheye imagery into terrestrial laserscanner data
processing schemes. Both the laserscanner and fisheye geometric model are extended by additional parameters to compensate for
deviations from the ideal model and to optimize the accuracy potential. The results of the combined bundle adjustment are analyzed
and the advantages of the proposed approach will be discussed in detail. For this purpose, several laser scans with a Riegl LMS-
Z420i as well as several fisheye images were recorded in a calibration room equipped with ca. 100 reference points. The laser scans
and the fisheye images were processed in different configurations, the resulting standard deviation of the calculated object point
coordinates are analyzed and compared. Finally the calibration results of both terrestrial laser scanner and fisheye lens camera as
well as the accuracy of the observations resulting from the variance component estimation will be presented. The results show that
the 3D coordinate determination precision can be enhanced significantly by the integrated processing, and that scanner and camera
aid one another in the self-calibration.
1. INTRODUCTION
The combination of terrestrial laser scanner and image data
presents an interesting option in many applications, as both
types of data can be used for the analysis simultaneously and
their properties are largely complementary (e.g. Jansa et. al.,
2004; Ronnholm et. al., 2007). While a laser scanner produces
precise and reliable 3D information, cameras record colour
information with a high visual interpretability and a high lateral
resolution and accuracy. The combination of point clouds and
image information is therefore supported by several software
packages. Besides the pure colorizing of point clouds, images
are used to texturize 3D models for example in cultural heritage
applications, or to facilitate the interpretation of complex point
clouds in industrial applications. In each case a strict geometric
description and subsequently a precise calibration are necessary
for an accurate geometric referencing between laser scanner and
image data.
Figure 1. Laser scanner and camera: Riegl LMS-Z420Ì with
Nikon D100 (Riegl, 2007): FARO LS 880 with Nikon D200
and Fisheye lens (Faro, 2005); Nikkor Fisheye lens 8 mm
Terrestrial laser scanners, which are currently available on the
market, are often classified by their field of view. There are
camera-view scanners and panoramic-view scanners covering a
360° horizontal field of view. Many panoramic-view scanners
allow for recording of nearly 180° vertically, which means the
coverage of a full sphere (apart from the bottom area). If a
digital camera is mounted on a laser scanner with a hemispheric
field of view (Figure 1) in order to record image information
simultaneously, only a fisheye lens camera is able to record the
same vertical field of view in one image. Therefore the
combination of a laser scanner and a hemi-spherical fisheye
lens camera is desired (e.g. terrestrial laser scanner FARO LS
880 (Faro, 2005)). Early photogrammetric applications of
fisheye lenses are presented in (Beers, 1997). The combination
of laser scan data and image data in a bundle adjustment is a
promising method concerning the accuracy of data registration,
instrument (self-)calibration, reliability and precision of 3D
object geometry determination. The integration of central
perspective image and laser scanner data in a combined
adjustment is also investigated in (Wendt & Heipke, 2006;
Ullrich et. al., 2003). (Schneider & Maas, 2007) describe the
integrated bundle adjustment of laser scanner data and 360°
panoramic imagery.
2. GEOMETRIC MODELS
The combined processing of different scans and fisheye images
requires a superior coordinate system, in which object points as
well as the exterior orientation are defined. The transformation
between this coordinate system and the individual coordinate
system of each scan or image is given by:
