Full text: Papers accepted on the basis of peer-reviewed abstracts (Part B)

In: Wagner W., Szekely, B. (eds.): ISPRS TC VII Symposium - 100 Years ISPRS, Vienna, Austria, July 5-7, 2010, IAPRS, Vol. XXXVIII, Part7B 
MONITORING OF BEACHES AND SAND DUNES USING DIGITAL AERIAL 
PHOTOGRAPHY WITH DIRECT GEOREFERENCING 
J. A. Gon9alves a,b *, L. Bastos a,b , Perez, B. a , Magalhaes, A. a 
a University of Porto - Science Faculty, Rua Campo Alegre, 4169-007, Porto, Portugal 
b CIIMAR - Centre for Marine and Environmental Research, Rua dos Bragas, 4050-123, Porto, Portugal 
j agoncal@fc. up .pt 
Commission VII 
KEY WORDS: Photogrammetry, Change Detection, Matching, DEM/DTM, Georeferencing, Direct 
ABSTRACT: 
This paper presents an efficient methodology for coastal monitoring based on digital aerial photography acquired periodically, using 
a Zeiss-Intergraph DMC camera, with a spatial resolution of 10 cm. Images are delivered with exterior orientation given by the 
direct georeferencing system used by the company providing the images. An assessment of those exterior orientation parameters was 
done using field check points. It could be concluded that the positional accuracy of 3D coordinates determined by photogrammetric 
means using the exterior orientation elements has root mean square errors better than 30 cm, which can be accepted for the purposes 
of this type of work. This level of accuracy was achieved for four different flights. It was decided not to do an aerial triangulation. 
DSMs were obtained by stereo-matching (least-squares with region growing) using program DPCOR of the software package 
BLUH. Sand areas are normally very bright and difficult for the matching. Since images were acquired with relatively small sun 
elevation the automatic extraction of a DSM was very successful. Using check points the vertical accuracy of the DSMs was found 
to be 30 cm or better. Orthoimages were created using the extracted DSM. The resulting datasets for the four different dates were 
integrated in a GIS and the method proved to be a very useful tool for the detection of areas where significant volumetric changes 
occurs and for the quantification of those beach changes. 
1. INTRODUCTION 
The western part of the Portuguese coast is subject to 
significant degradation due to the action of the ocean (Ferreira, 
et al., 1995). Coastal areas are also under a strong anthropic 
pressure, which have as consequence the destruction of dunes 
and other natural protections. Significant morphodynamic 
changes occur in short periods of time which need to be 
monitored. In order to detect and quantify those changes and 
foresee the near term evolution of the coastal areas, both for 
safety and economic reasons, very frequent surveys, are 
required. 
Field survey monitoring programmes are carried, using GPS, in 
sensible coastal areas in Portugal, in order to detect and 
quantify changes (Baptista et al., 2008, Gonpalves et al., 2009). 
However, they are still time consuming and usually applied in 
small areas if surface models are to be obtained. 
Airborne surveying techniques are more cost effective and can 
achieve a positional accuracy appropriate for coastal evolution 
assessment. Elevation changes in beach landforms, due to 
natural or antropic origin, can be of several meters, even in 
short periods. Elevation errors of a few decimetres in digital 
surface models (DSMs) are therefore still acceptable for the 
detection of essential relief changes in coastal areas. 
Laser scanning is nowadays a commonly used technique for 
coastal monitoring. It has an important advantage in that the 
final DSM/DTM is obtained essentially in an automatic manner 
(Baltsavias, 1999). However, besides being still quite 
expensive, laser scanning alone does not provide the image 
component, which is also very important for the interpretation 
and detection of the morphodynamic changes. 
Aerial photography, especially with the recent digital aerial 
cameras, can provide important information to the assessment 
of changes while allowing a high degree of automation. That is 
the case if direct georeferencing (DG) can be accurate enough 
to avoid aerial triangulation and if the DSM generation can be 
fully automated by stereo matching. 
Images of sandy areas may be difficult to treat in terms of 
standard photogrammetric procedures. For example, for the 
purpose of aerial triangulation, in the absence of man made 
features, well defined ground control points (GCPs) may be 
difficult to obtain, especially in the case of high resolution 
images. When large parts of the images are occupied by water 
also tie points cannot be obtained. These are additional reasons 
to use the exterior orientation data given by DG, if it is accurate 
enough. 
This paper describes the exploitation of aerial photography 
acquired in the scope of a coastal monitoring program in the 
Portuguese northwest coast through the referred methodology . 
Part of the area does not have man made features to be used as 
GCPs. There is usually a need for fast data production 
immediately after image acquisition, so there is a strong interest 
in relying on DG. One of the objectives of this study is to 
determine the best accuracy achievable using image data 
provided by a private company. 
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