Toward Higher Automation and Flexibility
In Commercial Digital Photogrammetric System
Younian Wang, Xinghe Yang, Mladen Stojic, Brad Skelton
Leica Geosystems, GIS & Mapping Division
2801 Buford Highway, Atlanta; GA, USA
younian. wang@gis.leica-geosystems.com
IC WG IVIV
KEY WORDS: Digital, Photogrammetry, Mapping, Software, Softcopy, Automation, Algorithms, GIS.
ABSTRACT
After about 20 years research and development in digital photogrammetric systems, commercial software systems have become
more aid more powerful and capable of solving most photogrammetric mapping problems. On the other hand, user demands for
higher automation and more flexibility for digital photogrammetric systems keep increasing, especially with the use of various new
high-resolution airborne and space-borne cameras. In order to meet the market demands and challenge, a new digital
photogrammetric system has been developed. It is called Leica Photogrammetry Suite. This paper introduces the major
characteristics and functionality d Leica Photogrammetry Suite. The various techniques to increase the automation and productivity
are introduced. The design philosophy and implementation strategy for ease-of-use and high flexibility are explained. The powerful
features for sensor modelling, DTM extraction and editing, and cartographic feature collection are introduced. The algorithms for
automatic interior orientation, automatic point measurement, automatic DTM extraction, and automatic image mosaic are
demonstrated. Several examples and independent test results show that Leica Photogrammetry Suite is a powerful and reliable digital
photogrammetric system for both advanced photogrammetrists and GIS professionals.
1 INTRODUCTION imagery into usable spatial data. LPS consists a core part and
several add-on modules. The major functions of the core
After about 20 years research and development in digital include project setup, sensor modeling, control point
photogrammetric systems, commercial software systems measurement, automatic tie point collection, triangulation,
become more and more powerful and capable of solving most automatic terain model extraction, orthorectification and
photogrammetric mapping problems. On the other hand, user mosaicking as shown in Fig. 1. The add-on modules consist of
demands for higher automation and more flexibility for digital stereoscopic terrain editing, ORIMA orientation management
photogrammetric systems keep increasing, especially with the and triangulation, PRO600 stereo feature collection for
use of various new high-resolution airborne and space-borne Microstation, GPro ADS40 image ground processing station,
cameras. [n order to meet the market demands and challenge, Image Equalizer, GeoVault image database, StereoAnalyst
Leica Geosystems GIS & Mapping division has developed a feature collection for ArcGIS etc. Fig. 2 shows these modules
new digital photogrammetric workstation called Leica in an architectural relationship.
Photogrammetry Suite™ (LPS). It has used the previous
product OrthoBASE™ as a foundation, and added many new
modules and functionality and boosted both quality and
performance. It can handle a very wide range of image sources
such as scanned or digital frame camera image, IKONOS,
QuickBird, SPOT, IRS-1C, EROS, Aster, and many more.
Based on sensor geometry and available meta-data, there are
many sensor models to choose from, including single
perspective camera model, orbital pushbroom sensor model,
polynomial-based pushbroom model, and rational functions
based sensor model. A mixed sensor model is also supported in ee
LPS. The functionality of Leica Photogrammetry Suite Tr LPS STERFO
LPS CORE.
Figure 2: LPS Core and add-on modules
In this shortened paper only some of the automation functions
of LPS will be explained and demonstrated.
EN
“Extra
2 AUTOMATIC INTERIOR ORIENTATION
Automatic interior orientation is necessary for scanned aerial
Figure 1: LPS CORE functional modules frame camera photographs to establish the relationship between
image and the internal camera film coordinates. The major
ere A acnecte © Arc ^. 7 y spatia * . — .
covers all aspects that users may need to convert geo-spatial work here is to measure the coordinates of fiducial marks. In
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