Full text: Technical Commission VII (B7)

2012 
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International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, Volume XXXIX-B7, 2012 
XXII ISPRS Congress, 25 August — 01 September 2012, Melbourne, Australia 
TESTING THE GENERALIZATION EFFICIENCY OF OIL SLICK CLASSIFICATION 
ALGORITHM USING MULTIPLE SAR DATA FOR DEEPWATER HORIZON OIL SPILL 
C. Ozkan!, B. Osmanoglu', F. Sunar’, G. Staples”, K. Kalkan’, F. Balik Sanl1° 
! Erciyes University, Engineering Faculty, Geodesy and Photogrammetry Engineering Dept., 38039 Kayseri, Turkey, 
cozkan@erciyes.edu.tr 
? University of Alaska - Fairbanks, P.O. Box 757320, Fairbanks AK 99775, bosmanoglu@alaska.edu 
? Istanbul Technical University, Civil Engineering Faculty, Geomatics Engineering Dept., 34469 Maslak Istanbul, 
Turkey, fsunar@itu.edu.tr, kalkank@itu.edu.tr 
^ MDA,13800 Commerce Parkway, Richmond, V7S 1L5, Canada, gstaples@mdacorporation.com 
* Yildiz Technical University, Civil Engineering Faculty, Geodesy and Photogrammetry Engineering Dept., Davutpasa 
Campus, 34220 Esenler, Istanbul, Turkey, fbalik@yildiz.edu.tr 
  
Commission VII, WG VII/2 
KEYWORDS: Marine pollution, Oil spill classification, Generalization, SAR 
ABSTRACT: 
Marine oil spills due to releases of crude oil from tankers, offshore platforms, drilling rigs and wells, etc. are seriously affecting the 
fragile marine and coastal ecosystem and cause political and environmental concern. A catastrophic explosion and subsequent fire in 
the Deepwater Horizon oil platform caused the platform to burn and sink, and oil leaked continuously between April 20th and July 
15th of 2010, releasing about 780,000 m? of crude oil into the Gulf of Mexico. Today, space-borne SAR sensors are extensively used 
for the detection of oil spills in the marine environment, as they are independent from sun light, not affected by cloudiness, and more 
cost-effective than air patrolling due to covering large areas. In this study, generalization extent of an object based classification 
algorithm was tested for oil spill detection using multiple SAR imagery data. Among many geometrical, physical and textural 
features, some more distinctive ones were selected to distinguish oil and look alike objects from each others. The tested classifier was 
constructed from a Multilayer Perception Artificial Neural Network trained by ABC, LM and BP optimization algorithms. The 
training data to train the classifier were constituted from SAR data consisting of oil spill originated from Lebanon in 2007. The 
classifier was then applied to the Deepwater Horizon oil spill data in the Gulf of Mexico on RADARSAT-2 and ALOS PALSAR 
images to demonstrate the generalization efficiency of oil slick classification algorithm. 
INTRODUCTION The backscatter energy level for oil-spilled areas received in 
| E. ; SAR systems is too low since the oil dampens the capillary 
Marine oil spills, a form of pollution, caused by releases of waves of the sea surface. However, there is a serious problem 
crude oil from tankers, offshore platforms, drilling rigs and that the other natural phenomenas also dampen the short 
wells, etc. can seriously affect the fragile marine and coastal waves and create dark areas on the sea surface due to 
ecosystem and cause political and environmental concern. suspension of Bragg scattering mechanism depending to 
The amount of oil spilled annually worldwide has been ocean and/or atmospheric conditions, (Solberg et al. 2007). 
estimated at more than 4.5 million tons (Bava et al., 2002). Thus, the dark image regions of which the probabilities of 
The Deepwater Horizon oil spill (also referred to as the Gulf being either oil spill or alike are high must be segmented. 
of Mexico oil spill) happened on April 20, 2010, is the largest These segmented parts of original images are used to obtain 
accidental marine oil spill in the history of the USA the features of shape, contrast and textural characteristics. In 
petroleum industry. The resulting oil slick quickly expanded terms of these features, some classification algorithms based 
to cover hundreds of square miles of ocean surface, being a on statistical, neural, fuzzy, rule based, boosting algorithms 
threat to marine life and adjacent coastal wetlands and to the etc. are used for identification of the dark areas in a manner 
Gulfs fishing and tourism industries. of binary classification, i.e. oil or alike (Fiscella et al., 2000; 
; Del Frate et al., 2000; Solberg et al., 1999; Keramitsoglou et 
For rapid emergency response activities, four basic issues; i) al., 2006; Ramalho and Medeiros, 2006). 
prevention ii) alarm, iii) monitoring and iv) damage 
quantification, should be planned carefully (Bava et al., 
2002). In order to lessen its effect, the improvement of its 
detection and continuous monitoring are the most important 
In this study, segmentation of dark objects was done by 
eCognition software. Among many geometrical, physical and 
C ; textural features, some more distinctive ones were selected to 
issues to effectively plan countermeasures responses. Today, distinguish oil and look alike objects from each others. The 
PURE ANR Being d am pr pow tested classifier was constructed from a Multilayer Perceptron 
over He Past decade Symmenc Aperture Radar (SAR) Artificial Neural Network trained by Artificial Bee Colony 
satellites are often preferred to optical sensors due to the all (ABC), Levenbera-Marguardt (LM). and. Backpropagntion 
Weather and ell dav camaialifies aud Dens used tQ detect th e (BP) optimization algorithms. The training data to train the 
oil spills discharged into the sea with sufficient accuracies classifier were constituted ‘from SAR data consisting of oil 
Cabas à à 2007) Oir Spi doipotion procedures m SAR spill originated from Lebanon in 2007. The classifier was 
data generally comprise segmentation, feature extraction and then applied to the Deepwater Horizon oil spill data in the 
classification stages (Solberg et al, 2007; Brekke and Gulf of Mexico ‘on RADARSAT-2 and ALOS PALSAR 
Solberg, 2005). 
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