Abstract
Abstract. In marine biology the shape, morphology, texture and dimensions of the shells and organisms like sponges and gorgonians are very important parameters. For example, a particular type of gorgonian grows every year only few millimeters; this estimation was conducted without any measurement instrument but it has been provided after successive observational studies, because this organism is very fragile: the contact could compromise its structure and outliving. Non-contact measurement system has to be used to preserve such organisms: the photogrammetry is a method capable to assure high accuracy without contact. Nevertheless, the achievement of a 3D photogrammetric model of complex object (as gorgonians or particular shells) is a challenge in normal environments, either with metric camera or with consumer camera. Indeed, the successful of automatic target-less image orientation and the image matching algorithms is strictly correlated to the object texture properties and of camera calibration quality as well. In the underwater scenario, the environment conditions strongly influence the results quality; in particular, water’s turbidity, the presence of suspension, flare and other optical aberrations decrease the image quality reducing the accuracy and increasing the noise on the 3D model. Furthermore, seawater density variability influences its refraction index and consequently the interior orientation camera parameters. For this reason, the camera calibration has to be performed in the same survey conditions. In this paper, a comparison between the 3D models of a Charonia Tritonis shell are carried out through surveys conducted both in dry and underwater environments.
Highlights
INTRODUCTION & MOTIVATIONSThe Underwater Photogrammetry is a survey technique that allows the extraction of 3D model and complex measurement from a dataset of photos
Others applications of underwater photogrammetry have been referred to different fields as marine biology, no-contact inspections and reverse-modeling
The goal of this study is to investigate the reliability results of 3D modeling in underwater environment employing an automatized procedure suitable for a non-expert photogrammetric user like a biologist
Summary
The Underwater Photogrammetry is a survey technique that allows the extraction of 3D model and complex measurement from a dataset of photos. This technique is widely used in archeological excavations in order to obtain a detailed documentation of the underwater archeological sites (Drap, 2012), (Bruno et al.,2013). Others applications of underwater photogrammetry have been referred to different fields as marine biology, no-contact inspections and reverse-modeling. Stereo-vision systems are used to measure and monitor fishes (Harvey et al, 2002), (Shortis et al 2013), and to evaluate marine organisms diversity and abundance in special areas (Cappo et al, 2003). Underwater photogrammetry was chosen to survey the growth of Mediterranean red coral; in order to quantify the size structure of these organisms with high precision a multi-view approach was adopted (Drap et al, 2013)
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