268 research outputs found
Oil spill identification in visible sensor imaging using automated cross correlation with crude oil image filters
An algorithm for detection of crude oil spills in visible light images has been developed and tested on 50 documented crude oil spill images from Shell Petroleum Development Company (SPDC) Nigeria. A set of three 25 x 25 pixels crude oil filters, with unique red, green, and blue (RGB) colour values, homogeneity, and power spectrum density (PSD) features were cross-correlated with the documented spill images. The final crude oil spill Region of Interest (ROI) was determined by grouping interconnected pixels based on their proximity, and only selecting ROIs with an area greater than 5,000 pixels. The crude oil filter cross correlation algorithm demonstrated a sensitivity of 84% with a False Positive per Image (FPI) of 0.82. Future work includes volume estimation of detected spills using crude oil filters, and utilizing this information in the recommendation of appropriate spill clean-up and remediation procedures for the detected spills.
Keywords: Crude Oil Spill Detection, Crude oil image filters, Cross correlation, Visible sensor imaging, Oil Spill Segmentation
Offshore oil spill detection using synthetic aperture radar
Among the different types of marine pollution, oil spill has been considered as a major threat to the sea ecosystems. The source of the oil pollution can be located on the mainland or directly at sea. The sources of oil pollution at sea are discharges coming from ships, offshore platforms or natural seepage from sea bed. Oil pollution from sea-based sources can be accidental or deliberate. Different sensors to detect and monitor oil spills could be onboard vessels, aircraft, or satellites. Vessels equipped with specialised radars, can detect oil at sea but they can cover a very limited area. One of the established ways to monitor sea-based oil pollution is the use of satellites equipped with Synthetic Aperture Radar (SAR).The aim of the work presented in this thesis is to identify optimum set of feature extracted parameters and implement methods at various stages for oil spill detection from Synthetic Aperture Radar (SAR) imagery. More than 200 images of ERS-2, ENVSAT and RADARSAT 2 SAR sensor have been used to assess proposed feature vector for oil spill detection methodology, which involves three stages: segmentation for dark spot detection, feature extraction and classification of feature vector. Unfortunately oil spill is not only the phenomenon that can create a dark spot in SAR imagery. There are several others meteorological and oceanographic and wind induced phenomena which may lead to a dark spot in SAR imagery. Therefore, these dark objects also appear similar to the dark spot due to oil spill and are called as look-alikes. These look-alikes thus cause difficulty in detecting oil spill spots as their primary characteristic similar to oil spill spots. To get over this difficulty, feature extraction becomes important; a stage which may involve selection of appropriate feature extraction parameters. The main objective of this dissertation is to identify the optimum feature vector in order to segregate oil spill and ‘look-alike’ spots. A total of 44 Feature extracted parameters have been studied. For segmentation, four methods; based on edge detection, adaptive theresholding, artificial neural network (ANN) segmentation and the other on contrast split segmentation have been implemented. Spot features are extracted from both the dark spots themselves and their surroundings. Classification stage was performed using two different classification techniques, first one is based on ANN and the other based on a two-stage processing that combines classification tree analysis and fuzzy logic. A modified feature vector, including both new and improved features, is suggested for better description of different types of dark spots. An ANN classifier using full spectrum of feature parameters has also been developed and evaluated. The implemented methodology appears promising in detecting dark spots and discriminating oil spills from look-alikes and processing time is well below any operational service requirements
Computational Techniques of Oil Spill Detection in Synthetic Aperture Radar Data: Review Cases
In this chapter, a major role of environmental assessment is an oil spill identifies or detected from the coastal region surfaces or marine surroundings. Normally, the oil spills on the coastal regions impact their characteristics of environmental activities. However, these activities are monitoring through several radar satellites and sensor. For those achievable activities detecting or identifying, many researchers developed several approaches. Particularly, this chapter discusses about the detection of oil spill current operational effects on coastal region surfaces. In addition, the current research operations of oil spill characterizations and quality of its impacts, effects of current environmental bio-systems, their control measurement strategies, and its surveillance operations are discussed. Finally, the oil spill detection is done through the SAR image region classification based on its feature extraction. This could be monitored from the image dark region selection through remote sensing techniques
SAR Remote Sensing of Canadian Coastal Waters using Total Variation Optimization Segmentation Approaches
The synthetic aperture radar (SAR) onboard Earth observing satellites has been acknowledged as an integral tool for many applications in monitoring the marine environment. Some of these applications include regional sea-ice monitoring and detection of illegal or accidental oil discharges from ships. Nonetheless, a practicality of the usage of SAR images is greatly hindered by the presence of speckle noises. Such noise must be eliminated or reduced to be utilized in real-world applications to ensure the safety of the marine environment. Thus this thesis presents a novel two-phase total variation optimization segmentation approach to tackle such a challenging task. In the total variation optimization phase, the Rudin-Osher-Fatemi total variation model was modified and implemented iteratively to estimate the piecewise smooth state by minimizing the total variation constraints. In the finite mixture model classification phase, an expectation-maximization method was performed to estimate the final class likelihoods using a Gaussian mixture model. Then a maximum likelihood classification technique was utilized to obtain the final segmented result. For its evaluation, a synthetic image was used to test its effectiveness. Then it was further applied to two distinct real SAR images, X-band COSMO-SkyMed imagery containing verified oil-spills and C-band RADARSAT-2 imagery mainly containing two different sea-ice types to confirm its robustness. Furthermore, other well-established methods were compared with the proposed method to ensure its performance. With the advantage of a short processing time, the visual inspection and quantitative analysis including kappa coefficients and F1 scores of segmentation results confirm the superiority of the proposed method over other existing methods
A Sensitivity Study of L-Band Synthetic Aperture Radar Measurements to the Internal Variations and Evolving Nature of Oil Slicks
This thesis focuses on the use of multi-polarization synthetic aperture radar (SAR) for characterization of marine oil spills. In particular, the potential of detecting internal zones within oil slicks in SAR scenes are investigated by a direct within-slick segmentation scheme, along with a sensitivity study of SAR measurements to the evolving nature of oil slicks. A simple, k-means clustering algorithm, along with a Gaussian Mixture Model are separately applied, giving rise to a comparative study of the internal class structures obtained by both strategies. As no optical imagery is available for verification, the within-slick segmentations are evaluated with respect to the behavior of a set of selected polarimetric features, the prevailing wind conditions and weathering processes. In addition, a fake zone detection scheme is established to help determine if the class structures obtained potentially reflect actual internal variations within the slicks. Further, the evolving nature of oil slicks is studied based on the temporal development of a set of selected geometric region descriptors. Two data sets are available for the investigation presented in this thesis, both captured by a full-polarization L-band airborne SAR system with high spatial- and temporal resolution. The results obtained with respect to the zone detection scheme developed supports the hypothesis of the existence of detectable zones within oil spills in SAR scenes. Additionally, the method established for studying the evolving nature of oil slicks is found convenient for accessing the general behavior of the slicks, and simplifies interpretation
OIL SPILL ALONG THE TURKISH STRAITS SEA AREA; ACCIDENTS, ENVIRONMENTAL POLLUTION, SOCIO-ECONOMIC IMPACTS AND PROTECTION
The Turkish Straits Sea Area (TSSA) is a long water passage that is consisted of the Sea of Marmara, an inland sea within Turkey's borders, and two narrow straits connected to neighboring seas. With a strategic location between the Balkans and Anatolia, the Black Sea and the Mediterranean, and dominated by the continental climate, the region hosted many civilizations throughout the centuries. This makes the region among the busiest routes in the world, with sea traffic three times higher than that in the Suez Canal. The
straits are the most difficult waterways to navigate and witnessed many hazardous and
important collisions and accidents throughout history. In addition, this area has vital roles as a biological corridor and barrier among three distinctive marine realms. Therefore, the region is rather sensitive to damages of national and international maritime activities, which may cause severe environmental problems.
This book addresses several key questions on a chapter basis, including historical accidents, background information on main dynamic restrictions, oil pollution, oil spill detection, and clean-up recoveries, its impacts on biological communities, socioeconomic aspects, and subjects with international agreements. This book will help readers, public, local and governmental authorities gain a deeper understanding of the status of the oil spill, mostly due to shipping accidents, and their related impacts along the TSSA, which needs precautionary measures to be protected.CONTENTS
INTRODUCTION
CHAPTER I - HISTORY OF ACCIDENTS AND REGULATIONS
Remarkable Accidents at the Istanbul Strait
Hasan Bora USLUER and Saim OĞUZÜLGEN …………………………………...... 3
History of Regulations before Republican Era along the Turkish Straits Sea Area
Ali Umut ÜNAL …………………………………………………………………….. 16
Transition Regime in the Turkish Straits during the Republican Era
Osman ARSLAN ……….……………………………………………………….……26
26
The Montreux Convention and Effects at Turkish Straits
Oktay ÇETİN ………………………………………………………………….…….. 33
Evaluation of the Montreux Convention in the Light of Recent Problems
Ayşenur TÜTÜNCÜ ………………………………………………………………… 44
A Historical View on Technical Developments on Ships and Effects
of Turkish Straits
Murat YAPICI ………………………………………………………………………. 55
CHAPTER II - GEOGRAPHY, BATHYMETRY AND
HYDRO-METEOROLOGICAL CONDITIONS
Geographic and Bathymetric Restrictions along the Turkish Straits Sea Area
Bedri ALPAR, Hasan Bora USLUER and Şenol AYDIN ……………………..…… 61
Hydrodynamics and Modeling of Turkish Straits
Serdar BEJİ and Tarkan ERDİK ………………………………………………….… 79
Wave Climate in the Turkish Sea of Marmara
Tarkan ERDİK and Serdar BEJİ …………………………………………………..… 91
CHAPTER III - OIL POLLUTION, DETECTION AND RECOVERY
Oil Pollution at Sea and Coast Following Major Accidents
Selma ÜNLÜ ……………………………………………………………………….101
Forensic Fingerprinting in Oil-spill Source Identification at the Turkish Straits
Sea Area
Özlem ATEŞ DURU ……………………………………………………………… 121
xi
Oil Spill Detection Using Remote Sensing Technologies-Synthetic
Aperture Radar (SAR)
İbrahim PAPİLA, Elif SERTEL, Şinasi KAYA and Cem GAZİOĞLU ……..……. 140
The Role of SAR Remote Sensing to Detect Oil Pollution and Emergency Intervention
Saygın ABDIKAN, Çağlar BAYIK and Füsun BALIK ŞANLI ……….….……….. 157
Oil Spill Recovery and Clean-Up Techniques
Emra KIZILAY, Mehtap AKBAŞ and Tahir Yavuz GEZBELİ …………………… 176
Turkish Strait Sea Area, Contingency Planning, Regulations and Case Studies
Emra KIZILAY, Mehtap AKBAŞ and Tahir Yavuz GEZBELİ …………………... 188
Dispersant Response Method to Incidental Oil Pollution
Dilek EDİGER, Leyla TOLUN and Fatma TELLİ KARAKOÇ ………………….... 205
CHAPTER IV - THE EFFECTS / IMPACTS OF OIL SPILL ON
BIOLOGICAL COMMUNITIES – INCLUDING SAMPLING
AND MONITORING
Marine Microorganisms and Oil Spill
Sibel ZEKİ and Pelin S. ÇİFTÇİ TÜRETKEN …………...………………………… 219
Estimated Effects of Oil Spill on the Phytoplankton Following “Volgoneft-248”
Accident (Sea of Marmara)
Seyfettin TAŞ ………………………………..…………………………………….... 229
Interactions between Zooplankton and Oil Spills: Lessons Learned from Global
Accidents and a Proposal for Zooplankton Monitoring
İ. Noyan YILMAZ and Melek İŞİNİBİLİR ……………………………………..….. 238
The Effects of Oil Spill on the Macrophytobenthic Communities
Ergün TAŞKIN and Barış AKÇALI …………………………….…………….……. 244
Potential Impacts of Oil Spills on Macrozoobenthos in the Turkish
Straits System
Güley KURT-ŞAHİN …………………………………………………………….… 253
The Anticipated Effects of Oil Spill on Fish Populations in Case of an Accident
along the Turkish Straits System – A review of Studies after Several Incidents
from the World
M. İdil ÖZ and Nazlı DEMİREL …………………………………………………….261
Estimated Impacts of an Oil Spill on Bird Populations along the Turkish
Straits System
Itri Levent ERKOL …………………………………………………………….…… 272
The Effect of Oil Spills on Cetaceans in the Turkish Straits System (TSS)
Ayaka Amaha ÖZTÜRK ………………………………………………………….. 277
Changes in the Ichthyoplankton and Benthos Assemblages following
Volgoneft-248 Oil Spill: Case Study
Ahsen YÜKSEK and Yaprak GÜRKAN …………………………………….……. 280
Assessing the Initial and Temporal Effects of a Heavy Fuel Oil Spill
on Benthic Fauna
Yaprak GÜRKAN, Ahsen YÜKSEK ………………………………………..…….. 287
CHAPTER V - SOCIO-ECONOMIC ASPECTS
Socio-economic Aspects of Oil Spill
Özlem ATEŞ DURU and Serap İNCAZ ……………………………………….…… 301
Effects of Oil Spill on Human Health
Türkan YURDUN ………………………………………………………………..…. 313
Crisis Management of Oil Spill, A Case Study: BP Gulf Mexico Oil Disaster
Serap İNCAZ and Özlem ATEŞ DURU …………………………….………….……324
CHAPTER VI - CONVENTIONS RELATING TO PREVENTION
OF OIL SPILL
International Convention for the Prevention of Pollution of the Sea by Oil
(OILPOL), 1954 and its Situation Related with Turkey
Emre AKYÜZ, Metin ÇELİK and Ömer SÖNER …………………………...……... 334
International Convention for the Prevention of Pollution from Ships, 1973, as
Modified by the Protocol of 1978 Relating Thereto and by the Protocol of 1997
(MARPOL)
Özcan ARSLAN, Esma UFLAZ and Serap İNCAZ ………………………….……. 342
Applications of MARPOL Related with Oil Spill in Turkey
Emre AKYÜZ, Özcan ASLAN and Serap İNCAZ ………………………………… 356
Ship Born Oil Pollution at the Turkish Straits Sea Area and MARPOL 73/78
Duygu ÜLKER and Sencer BALTAOĞLU………………………….…………….. 363
International Convention Relating to Intervention on the High Seas in Cases
of Oil Pollution Casualties (INTERVENTION 1969) and its Applications
Related with Oil Spill in Turkey
Şebnem ERKEBAY ……………………………….……………………………….. 371
International Convention on Oil Pollution Preparedness, Response and
Co-operation (OPRC) 1990 and its Applications Related with Oil Spill in Turkey
Kadir ÇİÇEK ………………………………………………………………………. 381
Protocol on Preparedness, Response and Co-operation to Pollution
Incidents by Hazardous and Noxious Substances, 2000 (OPRC-HNS Protocol)
and its Effects in Turkey
Aydın ŞIHMANTEPE and Cihat AŞAN ……………….…………………………. 392
The International Convention on Salvage (SALVAGE) 1989 Related with
Oil Spill in Turkey
İrşad BAYIRHAN ……………………………………….………………..……….. 408
CHAPTER VII - CONVENTIONS COVERING LIABILITY AND
COMPENSATION RELATED WITH OIL SPILL
International Convention on Civil Liability for Oil Pollution Damage
(CLC), 1969 and its Applications
Serap İNCAZ and Pınar ÖZDEMİR ……………………………………..………… 416
1992 Protocol to the International Convention on the Establishment of
an International Fund for Compensation for Oil Pollution Damage
(FUND 1992) and its Applications Related with Oil Spill in Turkey
Ali Umut ÜNAL and Hasan Bora USLUER …………………………….………… 424
International Convention on Liability and Compensation for Damage
in Connection with the Carriage of Hazardous and Noxious Substances
by Sea (HNS), 1996 (and its 2010 Protocol) and its Applications Related
with Oil Spill in Turkey
Bilun ELMACIOĞLU ……………………………………………………………… 437
Bunkering Incidents and Safety Practices in Turkey
Fırat BOLAT, Pelin BOLAT and Serap İNCAZ …………………………………... 447
"Nairobi International Convention on the Removal of Wrecks 2007" and
its Effects on Turkey
Şafak Ümit DENİZ and Serap İNCAZ ……………………….……………………. 457
Assessing the potential of sentinel-1 and sentinel-2 satellite imagery for shoreline classification in support of oil spill preparedness and response
Coastal zones are critical ecosystems that provide important habitat for marine animals, fish, shellfish, birds, and many other species. However, there is a risk of mineral oil impacting in these areas due to human activities offshore. Shoreline classification is the first step to establishing response contingency plans in case of an oil spill.
This study estimates the potential of using open-access, high-resolution Sentinel-1 and Sentinel-2 imagery for the mapping of shoreline types in support of oil spill preparedness and response activities. The two classification maps, depicting shoreline and coastal land cover, were produced using an advanced object-based Random Forest (RF) algorithm. Various features extracted from multi-source data, including spectral, texture, ratio, polarimetric features, and digital elevation model (DEM), were analyzed to identify the most valuable features for discrimination between different shoreline types. Multiple classification scenarios with the most useful features were then assessed and compared to find the best classification model.
The developed algorithm achieved accuracies of 87.10% and 84.75% of coastal land cover and shoreline maps. These results demonstrated the high potential of using freely available Sentinel-1 and -2 satellite data for coastal mapping
Remote Sensing of the Oceans
This book covers different topics in the framework of remote sensing of the oceans. Latest research advancements and brand-new studies are presented that address the exploitation of remote sensing instruments and simulation tools to improve the understanding of ocean processes and enable cutting-edge applications with the aim of preserving the ocean environment and supporting the blue economy. Hence, this book provides a reference framework for state-of-the-art remote sensing methods that deal with the generation of added-value products and the geophysical information retrieval in related fields, including: Oil spill detection and discrimination; Analysis of tropical cyclones and sea echoes; Shoreline and aquaculture area extraction; Monitoring coastal marine litter and moving vessels; Processing of SAR, HF radar and UAV measurements
Remote Sensing Applications in Coastal Environment
Coastal regions are susceptible to rapid changes, as they constitute the boundary between the land and the sea. The resilience of a particular segment of coast depends on many factors, including climate change, sea-level changes, natural and technological hazards, extraction of natural resources, population growth, and tourism. Recent research highlights the strong capabilities for remote sensing applications to monitor, inventory, and analyze the coastal environment. This book contains 12 high-quality and innovative scientific papers that explore, evaluate, and implement the use of remote sensing sensors within both natural and built coastal environments
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