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Journal articles on the topic 'Coastal system'

Author: Grafiati
Published: 4 June 2021
Last updated: 18 February 2022

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1

Kubryakov, A. I., G. K. Korotaev, V. L. Dorofeev, et al. "Black Sea coastal forecasting system." Ocean Science 8, no. 2 (2012): 183–96. http://dx.doi.org/10.5194/os-8-183-2012.

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Abstract. The Black Sea coastal nowcasting and forecasting system was built within the framework of EU FP6 ECOOP (European COastalshelf sea OPerational observing and forecasting system) project for five regions: the south-western basin along the coasts of Bulgaria and Turkey, the north-western shelf along the Romanian and Ukrainian coasts, coastal zone around of the Crimea peninsula, the north-eastern Russian coastal zone and the coastal zone of Georgia. The system operates in the real-time mode during the ECOOP project and afterwards. The forecasts include temperature, salinity and current ve
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2

Kubryakov, A. I., G. K. Korotaev, V. L. Dorofeyev, et al. "Black Sea coastal forecasting systems." Ocean Science Discussions 8, no. 3 (2011): 1055–88. http://dx.doi.org/10.5194/osd-8-1055-2011.

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Abstract. The Black Sea coastal nowcasting and forecasting system was built within the framework of EU FP6 ECOOP project for five regions: the south-western basin along the coasts of Bulgaria and Turkey, the North-Western shelf along the Romanian and Ukrainian coasts, coastal zone around of the Crimea peninsula, the north-eastern Russian coastal zone and the coastal zone of Georgia. The system operates in the real-time mode during the ECOOP project and afterwards. The forecasts include temperature, salinity and current velocity fields. Ecosystem model operates in the off-line mode near the Cri
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3

Sabino, André, Pedro Poseiro, Armanda Rodrigues, et al. "Coastal risk forecast system." Journal of Geographical Systems 20, no. 2 (2018): 159–84. http://dx.doi.org/10.1007/s10109-018-0266-5.

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4

Nadal-Caraballo, Norberto C., Madison O. Campbell, Victor M. Gonzalez, Marissa J. Torres, Jeffrey A. Melby, and Alexandros A. Taflanidis. "Coastal Hazards System: A Probabilistic Coastal Hazard Analysis Framework." Journal of Coastal Research 95, sp1 (2020): 1211. http://dx.doi.org/10.2112/si95-235.1.

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5

Shibaki, Hidenori, Nobuhiko Hara, and Masaki Mimura. "APPLICATION OF INSPECT SYSTEM FOR THE ANALYSIS OF TIDE, WAVE, TSUNAMI AND STORM SURGE ON THE COASTS OF SHIKOKU ISLAND, JAPAN." Coastal Engineering Proceedings 1, no. 32 (2011): 21. http://dx.doi.org/10.9753/icce.v32.management.21.

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The INSPECT (Integrated Numerical research System for Prevention and Estimation of Coastal disasTer) system was developed for numerical analysis of oceanographical disaster phenomena in coastal and estuarine areas. The INSPECT consists of three numerical simulation models (Wave, Storm Surge and Tsunami models), their supporting sub-systems and supporting databases. With this system, various coastal protection works can be more reliable designed. The paper presents an outline of the design, basic theory of numerical research and applications of the system. The analysis of tide, Wave, Tsunami an
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6

Zhu, Zheng-Tao, Feng Cai, Shen-Liang Chen, et al. "Coastal Vulnerability to Erosion Using a Multi-Criteria Index: A Case Study of the Xiamen Coast." Sustainability 11, no. 1 (2018): 93. http://dx.doi.org/10.3390/su11010093.

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The assessment of coastal vulnerability to erosion is urgently needed due to increasing coastal erosion globally. Based on the coastal characteristics of the Xiamen artificial coastline, which accounts for more than 80% of the coastline in this area, this study provides an integrated approach based on a multi-criteria index. The evaluation index system of the local coastal vulnerability to the erosion of Xiamen includes 12 indexes based on natural (coastal characteristics, coastal forcing), and socio-economic factors (coastal infrastructure, disaster reduction). The spatial differentiation cha
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7

Kolesnikovas, A., and K. Macijauskas. "Sea and Coastal Surveillance System." IFAC Proceedings Volumes 31, no. 24 (1998): 70–75. http://dx.doi.org/10.1016/s1474-6670(17)38509-9.

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8

Baird, Alfred J. "The Japan coastal ferry system." Maritime Policy & Management 27, no. 1 (2000): 3–16. http://dx.doi.org/10.1080/030888300286644.

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9

Yasir, Muhammad, Sheng Hui, Huang Binghu, and Sami Ur Rahman. "Coastline extraction and land use change analysis using remote sensing (RS) and geographic information system (GIS) technology – A review of the literature." Reviews on Environmental Health 35, no. 4 (2020): 453–60. http://dx.doi.org/10.1515/reveh-2019-0103.

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AbstractCoastlines mapping techniques or the coastline automated analyses have been sought after. In practice, various sorts of seacoasts, for example, biological, silty, arenaceous, artificial, and bedrock coasts, have their own attributes, which force various degrees of intricacy on coastline mapping. As an extraordinary kind of complex artificial coast, aquaculture coast is shaped by the farming of aquatic organisms on silt tidal flats. With the rapid growth of coastal aquaculture in recent years, aquaculture coasts have increased in some developing countries. It has been estimated that aqu
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10

Inghilesi, R., F. Catini, G. Bellotti, L. Franco, A. Orasi, and S. Corsini. "Implementation and validation of a coastal forecasting system for wind waves in the Mediterranean Sea." Natural Hazards and Earth System Sciences 12, no. 2 (2012): 485–94. http://dx.doi.org/10.5194/nhess-12-485-2012.

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Abstract. A coastal forecasting system was implemented to provide wind wave forecasts over the whole Mediterranean Sea area, and with the added capability to focus on selected coastal areas. The goal of the system was to achieve a representation of the small-scale coastal processes influencing the propagation of waves towards the coasts. The system was based on a chain of nested wave models and adopted the WAve Model (WAM) to analyse the large-scale, deep-sea propagation of waves; and the Simulating WAves Nearshore (SWAN) to simulate waves in key coastal areas. Regional intermediate-scale WAM
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11

Gaztelumendi, Santiago, Joseba Egaña, Pedro Liria, Manuel Gonzalez, José Antonio Aranda, and Pedro Anitua. "The new Euskalmet coastal–maritime warning system." Advances in Science and Research 13 (June 10, 2016): 91–96. http://dx.doi.org/10.5194/asr-13-91-2016.

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Abstract. This work presents the main characteristics of the Basque Meteorology Agency (Euskalmet) maritime–coastal risk warning system, with special emphasis on the latest updates, including a clear differentiation on specific warning messages addressing sea conditions for navigation purposes in the first 2 nautical miles, and expected coastal impacts. Some details of the warning bulletin for maritime and coastal risk situations are also presented, together with other communication products and strategies used in coastal and maritime severe episodes at the Basque coast. Today, three different
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12

Lemmen, Carsten, Richard Hofmeister, Knut Klingbeil, et al. "Modular System for Shelves and Coasts (MOSSCO v1.0) – a flexible and multi-component framework for coupled coastal ocean ecosystem modelling." Geoscientific Model Development 11, no. 3 (2018): 915–35. http://dx.doi.org/10.5194/gmd-11-915-2018.

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Abstract. Shelf and coastal sea processes extend from the atmosphere through the water column and into the seabed. These processes reflect intimate interactions between physical, chemical, and biological states on multiple scales. As a consequence, coastal system modelling requires a high and flexible degree of process and domain integration; this has so far hardly been achieved by current model systems. The lack of modularity and flexibility in integrated models hinders the exchange of data and model components and has historically imposed the supremacy of specific physical driver models. We
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13

Widyantara, I. Made Oka, I. Made Dwi Asana Putra, and Ida Bagus Putu Adnyana. "COVIMOS: A Coastal Video Monitoring System." Journal of Electrical, Electronics and Informatics 1, no. 1 (2017): 1. http://dx.doi.org/10.24843/jteei.v01i01p01.

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This paper intends to explain the development of Coastal Video Monitoring System (CoViMoS) with the main characteristics including low-cost and easy implementation. CoViMoS characteristics have been realized using the device IP camera for video image acquisition, and development of software applications with the main features including detection of shoreline and it changes are automatically. This capability was based on segmentation and classification techniques based on data mining. Detection of shoreline is done by segmenting a video image of the beach, to get a cluster of objects, namely la
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14

Widyantara, I. Made Oka, I. Made Dwi Asana Putra, and Ida Bagus Putu Adnyana. "COVIMOS: A Coastal Video Monitoring System." Journal of Electrical, Electronics and Informatics 1, no. 1 (2017): 1. http://dx.doi.org/10.24843/jeei.2017.v01.i01.p01.

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This paper intends to explain the development of Coastal Video Monitoring System (CoViMoS) with the main characteristics including low-cost and easy implementation. CoViMoS characteristics have been realized using the device IP camera for video image acquisition, and development of software applications with the main features including detection of shoreline and it changes are automatically. This capability was based on segmentation and classification techniques based on data mining. Detection of shoreline is done by segmenting a video image of the beach, to get a cluster of objects, namely la
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15

Widyantara, I. Made Oka, I. Made Dwi Asana Putra, and Ida Bagus Putu Adnyana. "COVIMOS: A Coastal Video Monitoring System." Journal of Electrical, Electronics and Informatics 1, no. 1 (2017): 1. http://dx.doi.org/10.24843/jeei.v01i01p01.

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This paper intends to explain the development of Coastal Video Monitoring System (CoViMoS) with the main characteristics including low-cost and easy implementation. CoViMoS characteristics have been realized using the device IP camera for video image acquisition, and development of software applications with the main features including detection of shoreline and it changes are automatically. This capability was based on segmentation and classification techniques based on data mining. Detection of shoreline is done by segmenting a video image of the beach, to get a cluster of objects, namely la
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16

Govindasamy, Praveen Kumar, Saravanan Rajagopal, and Alberto Coronas. "Integrated polygeneration system for coastal areas." Thermal Science and Engineering Progress 20 (December 2020): 100739. http://dx.doi.org/10.1016/j.tsep.2020.100739.

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17

Nicholls, Robert J., Andy Bradbury, Helene Burningham, et al. "iCOASST – INTEGRATING COASTAL SEDIMENT SYSTEMS." Coastal Engineering Proceedings 1, no. 33 (2012): 100. http://dx.doi.org/10.9753/icce.v33.sediment.100.

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UK coasts are subject to widespread erosion in part due to the cumulative effect of human intervention on soft coastlines, and further threatened due to more rapid change due to climate change, especially sea-level rise. At the same time, Shoreline Management now requires predictions of coastal evolution up to 100 years in the future. This leads to the challenge of predicting coastal geomorphic behaviour at the mesoscale (10 to 100 km and 10 to 100 years). Currently, this is often based on expert judgement. However, relevant components for mesoscale coastal simulation are emerging, including:
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18

Vorovka, Volodymyr. "System-forming factors of the organization of coastal paradynamic landscape systems." Physical Geography and Geomorphology 89, no. 1 (2018): 60–69. http://dx.doi.org/10.17721/phgg.2018.1.09.

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The basis of system-forming factors of the organization of coastal paradynamic landscape system is composed of natural factors associated with characteristics of geographic distribution of the coast, its configuration, tectonic, morphometric, hydrological, climatic and other indices, along with characteristics of the surrounding land. Paradynamic interactions are formed on the basis of exchange of matter, energy and information between spatially adjacent contrasting complexes. The main system-forming factor of the coastal paradynamic landscape system is the relationship of its structural compl
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19

Gouldman, Carl, Mark Wiegardt, Sue Cudd, and Jessica Geubtner. "United States Integrated Ocean Observing System and the Shellfish Growers Partnership." Marine Technology Society Journal 45, no. 1 (2011): 39–42. http://dx.doi.org/10.4031/mtsj.45.1.8.

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AbstractThis scientific note provides a summary of a new partnership developing between two groups who have found a common area of interest focused on the value of building a better network for real-time coastal ocean observing data and information and how such a network may inform research on ocean acidification. The note examines the development of the partnership over the past year, which is providing mutually beneficial opportunities for interaction. Shellfish growers are able to learn about a federal and regional framework providing integrated data along our coasts, and the Integrated Oce
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20

Quetzalcóatl, O., M. González, V. Cánovas, et al. "SMC , a coastal modeling system for assessing beach processes and coastal interventions: Application to the Brazilian coast." Environmental Modelling & Software 116 (June 2019): 131–52. http://dx.doi.org/10.1016/j.envsoft.2019.03.001.

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21

Narayan, S., S. Hanson, R. J. Nicholls, et al. "A holistic model for coastal flooding using system diagrams and the Source-Pathway-Receptor (SPR) concept." Natural Hazards and Earth System Sciences 12, no. 5 (2012): 1431–39. http://dx.doi.org/10.5194/nhess-12-1431-2012.

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Abstract. Coastal flooding is a problem of increasing relevance in low-lying coastal regions worldwide. In addition to the anticipated increase in likelihood and magnitude of coastal floods due to climate change, there is rapid growth in coastal assets and infrastructure. Sustainable and integrated coastal flood management over large areas and varying coastline types cannot be simply treated as local combinations of flood defences and floodplains. Rather, a system level analysis of floodplains is required to structure the problem as a first step before applying quantitative models. In this pap
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22

Mavrommati, Georgia, Kostas Bithas, and Panayiotis Panayiotidis. "Operationalizing sustainability in urban coastal systems: A system dynamics analysis." Water Research 47, no. 20 (2013): 7235–50. http://dx.doi.org/10.1016/j.watres.2013.10.041.

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23

YUANITA, NITA, ALAMSYAH KURNIAWAN, MUHAMMAD LUQMAN AL HAKIM, KRISNA REYNALDI IRAWAN, and NOVIANTO WONO SAPUTRA. "PHYSICAL MODEL OF NATURAL COASTAL PROTECTION SYSTEM: GEOBAG-DYKE PERFORMANCE TO EFFECTIVENESS OF NATURAL COASTAL PROTECTION SYSTEM." Journal of Sustainability Science and Management 15, no. 6 (2020): 85–99. http://dx.doi.org/10.46754/jbsd.2020.08.008.

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One of the potential hazards that can cause major problems in coastal areas is erosion. In order to solve this problem, the notion of sustainable coastal development has garnered growing attention around the world. Coastal zone management mechanisms aim to ensure the sustainability of resources and the environment. For example, natural coastal protection using vegetation such as mangrove trees is currently preferred in many places in the world. However, there are challenges in the development of this natural form of coastal protection, e.g. mangrove seedling trees can be damaged by the waves o
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24

Baschek, Burkard, Friedhelm Schroeder, Holger Brix, et al. "The Coastal Observing System for Northern and Arctic Seas (COSYNA)." Ocean Science 13, no. 3 (2017): 379–410. http://dx.doi.org/10.5194/os-13-379-2017.

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Abstract. The Coastal Observing System for Northern and Arctic Seas (COSYNA) was established in order to better understand the complex interdisciplinary processes of northern seas and the Arctic coasts in a changing environment. Particular focus is given to the German Bight in the North Sea as a prime example of a heavily used coastal area, and Svalbard as an example of an Arctic coast that is under strong pressure due to global change.The COSYNA automated observing and modelling system is designed to monitor real-time conditions and provide short-term forecasts, data, and data products to hel
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25

Kourafalou, V. H., P. De Mey, M. Le Hénaff, et al. "Coastal Ocean Forecasting: system integration and evaluation." Journal of Operational Oceanography 8, sup1 (2015): s127—s146. http://dx.doi.org/10.1080/1755876x.2015.1022336.

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26

Fricker, A., and D. L. Forbes. "A system for coastal description and classification." Coastal Management 16, no. 2 (1988): 111–37. http://dx.doi.org/10.1080/08920758809362052.

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27

Fernandez, Pepito R., Yoshiaki Matsuda, and Rodelio F. Subade. "Coastal Area Governance System in the Philippines." Journal of Environment & Development 9, no. 4 (2000): 341–69. http://dx.doi.org/10.1177/107049650000900402.

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28

Torres, Marissa J., Norberto C. Nadal-Caraballo, Efrain Ramos-Santiago, et al. "StormSim-CHRPS: Coastal Hazards Rapid Prediction System." Journal of Coastal Research 95, sp1 (2020): 1320. http://dx.doi.org/10.2112/si95-254.1.

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29

Juma, Ibrahim Mohammad, Noora Mohammed Hokal, and Gagan Kumar Jena. "OPERATIONAL FORECASTING SYSTEM FOR DUBAI COASTAL WATERS." Coastal Engineering Proceedings, no. 36 (December 30, 2018): 23. http://dx.doi.org/10.9753/icce.v36.waves.23.

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The abstract is based on decision support system for Dubai Coastal Zone and Waterway Operations. This is a sophisticated project to couple a suite of meteorology and ocean models with data management infrastructure and web-based tools to deliver data and decision support information to Dubai Municipality as well as public users. The latest open-source modeling technology available from the research and academic communities to build an operational forecast system that is a suite of interconnected components that allows for seamless interaction of different models, real-time data, and custom web
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30

McEligot, Kim, and Peggy Brouse. "System Engineering Strategies for Coastal Flooding Mitigation." INCOSE International Symposium 28, no. 1 (2018): 1508–18. http://dx.doi.org/10.1002/j.2334-5837.2018.00564.x.

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31

Cervone, Guido, Menas Kafatos, Domenico Napoletani, and Ramesh P. Singh. "An early warning system for coastal earthquakes." Advances in Space Research 37, no. 4 (2006): 636–42. http://dx.doi.org/10.1016/j.asr.2005.03.071.

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32

Taborda, Rui, and Ana Silva. "COSMOS: A lightweight coastal video monitoring system." Computers & Geosciences 49 (December 2012): 248–55. http://dx.doi.org/10.1016/j.cageo.2012.07.013.

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33

Daniel, J. R. K. "The chenier plain coastal system of Guyana." Marine Geology 90, no. 4 (1989): 283–87. http://dx.doi.org/10.1016/0025-3227(89)90130-8.

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34

Haerens, Piet, Paolo Ciavola, Óscar Ferreira, Ap Van Dongeren, Mark Van Koningsveld, and Annelies Bolle. "ONLINE OPERATIONAL EARLY WARNING SYSTEM PROTOTYPES TO FORECAST COASTAL STORM IMPACTS (CEWS)." Coastal Engineering Proceedings 1, no. 33 (2012): 45. http://dx.doi.org/10.9753/icce.v33.management.45.

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Extreme coastal storms have a destructive impact on coastal areas and directly affect people living in the coastal zone, being this emphasized by recent events (e.g. Katrina, Xynthia) which reminded the world of the vulnerability of coastal areas. The economic constraints and the increasing vulnerability of coastal areas (due to sea level rise and to increased occupation) make it impossible to continue with a coastal zone management strategy based solely on engineering schemes to protect vulnerable coastal areas across Europe. Development tools and methods that improve today’s forecasting, pre
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35

Loinenak, Frida Aprilia, Agus Hartoko, and Max Rudolf Muskananfola. "Mapping of Coastal Vulnerability using the Coastal Vulnerability Index and Geographic Information System." International Journal of Technology 6, no. 5 (2015): 819. http://dx.doi.org/10.14716/ijtech.v6i5.1361.

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36

Vallega, A. "The coastal use structure within the coastal system. A sustainable development-consistent approach." Journal of Marine Systems 7, no. 1 (1996): 95–115. http://dx.doi.org/10.1016/0924-7963(94)00039-5.

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37

Deidda, M., C. Musa, and G. Vacca. "A GIS OF SARDINIA'S COASTAL DEFENSE SYSTEM (XVI – XVIII CENTURY)." ISPRS - International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences XL-4/W7 (June 30, 2015): 17–22. http://dx.doi.org/10.5194/isprsarchives-xl-4-w7-17-2015.

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The use of GIS as a tool for archival, analysis and representation of geographic information has become significantly popular in many scientific fields that are directly concerned with the "territory" as their object of study. The field of application of GIS, however, has expanded also in other areas, such as those related to humanities and architecture, in which the territory is studied in an "indirect" mode because it constitutes a kind of substrate on which to develop a specific spatial analysis for particular purposes. Among these areas are to be included certainly archeology and restorati
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38

Bamford, Holly A., and Carol Kavanagh. "The National Ocean Service: Positioning America for the Future." Marine Technology Society Journal 49, no. 2 (2015): 10–22. http://dx.doi.org/10.4031/mtsj.49.2.13.

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AbstractThe National Ocean Service (NOS), a line office of the National Oceanic and Atmospheric Administration (NOAA), is the nation's ocean and coastal agency. Our activities span a broad range that includes charting our nation's coastline; defining the National Spatial Reference System; providing the national network of coastal tide and water level sensors; serving as the lead federal agency of the U.S. Integrated Ocean Observing System; administering the Coastal Zone Management Program; providing the scientific foundation and socioeconomic information to local, state, and regional decision
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39

Khalilieh, Hassan. "The Ribât System and Its Role In Coastal Navigation." Journal of the Economic and Social History of the Orient 42, no. 2 (1999): 212–25. http://dx.doi.org/10.1163/1568520991446811.

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AbstractThe article deals with the role of the coastal defense system, called ribât in medieval Islam, in coastal navigation. The issues emerge through this discussion are the distance between each one of the watching points along the coastal frontiers, inhabitants of the ribats, and the civil functions of the ribâts. The article proves that these fortresses located along the Islamic coastal frontiers along the Mediterranean as well as the Indian Ocean functioned as a refuge for attacked Muslim merchant ships by foreign powers and pirates. Our evidence came from written sources and archeologic
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40

Liu, Hong Biao, and Hong Nan Li. "Health Monitoring System Design of Coastal High-Piled Wharf." Applied Mechanics and Materials 578-579 (July 2014): 1064–68. http://dx.doi.org/10.4028/www.scientific.net/amm.578-579.1064.

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There is little research on health monitoring technology of coastal ports at present. Based on the characteristics of high-piled wharf in coastal ports and staying in particular environment, the mechanical properties of coastal high-piled wharf is analyzed, and the health monitoring parameters are proposed. Finally, the health monitoring system of coastal high-piled wharf is constructed. And the appropriate structural health monitoring system is designed for standardized front segment of a high-piled wharf in the Tianjin port. The monitoring parameters are proposed, and the sensors and specifi
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41

Fennel, Katja, and Jeremy M. Testa. "Biogeochemical Controls on Coastal Hypoxia." Annual Review of Marine Science 11, no. 1 (2019): 105–30. http://dx.doi.org/10.1146/annurev-marine-010318-095138.

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Aquatic environments experiencing low-oxygen conditions have been described as hypoxic, suboxic, or anoxic zones; oxygen minimum zones; and, in the popular media, the misnomer “dead zones.” This review aims to elucidate important aspects underlying oxygen depletion in diverse coastal systems and provides a synthesis of general relationships between hypoxia and its controlling factors. After presenting a generic overview of the first-order processes, we review system-specific characteristics for selected estuaries where adjacent human settlements contribute to high nutrient loads, river-dominat
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Sloop, Robert, Jacqueline Branyon, and Matthew Trowbridge. "COASTAL RESILIENCY: MULTI-TIER PROTECTION SYSTEM & RISK MANAGEMENT STRATEGY." Coastal Engineering Proceedings, no. 36 (December 30, 2018): 48. http://dx.doi.org/10.9753/icce.v36.risk.48.

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North Atlantic hurricanes pose a significant threat to Caribbean islands and their low-lying coastal communities through storm surge, long period swells, coastal flooding, and duration wind and rain events. The increasing intensity and frequency of these damaging storms and rising sea levels require advances in the traditional approaches to coastal protection systems and risk management strategies. Adaptation strategies for coastal locations that do not have the option of mitigated retreat due to the significant infrastructure investment require innovative and tailored solutions to combat the
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43

Armstrong, Louis J., and Iwan Gunawan. "DEVELOPING AN OIL SPILL MANAGEMENT SYSTEM FOR INDONESIA." International Oil Spill Conference Proceedings 2001, no. 2 (2001): 1055–58. http://dx.doi.org/10.7901/2169-3358-2001-2-1055.

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ABSTRACT Indonesia is a major player in the world's oil and gas development. Much of the oil and gas exported from Indonesia is produced in the coastal and offshore areas. Protection and management of coastal resources are therefore high priorities for the government of Indonesia. Given the high priority of protecting the coast, an integrated oil spill management system has been developed for the East Kalimantan area of Indonesia. The system is comprised of a Geographical Information System (GIS) for management and interpretation of marine, coastal, and oil production/transportation data integ
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44

Xie, Shileng, Qihua Zuo, and Xiping Dou. "THE ADVANCE ON CHINA COASTAL ENGINEERING." Coastal Engineering Proceedings 1, no. 32 (2011): 1. http://dx.doi.org/10.9753/icce.v32.keynote.1.

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An overall introduction is made in this paper to the progress of coastal engineering in the mainland of China during the last two decades, covering the regulation engineering and training effects of the deep navigation channel of the Yangtze River estuary and the Pearl River estuary; the coast protection standards, beach protection and reclamation engineering as well as various types of structures; ports construction and development; the key technology achievements in hydrodynamics of the silty and sand coasts and radial sandbanks; and the main technological development of several large-size c
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45

Lai, Lu Yan. "Development and Evaluation of the Sustainable Management Index System for Fujian Coastal Shelterbelt." Advanced Materials Research 1073-1076 (December 2014): 1162–65. http://dx.doi.org/10.4028/www.scientific.net/amr.1073-1076.1162.

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Sustainable management means the operation and construction of coastal shelterbelt, Sustainable management for the establishment of the index system is the premise of sustainable management of coastal protection forest management research. This paper, based on Fujian Coastal Shelterbelt management practice and using the AHP and expert investigation method, gives a description on coastal shelterbelt sustainable management index system which contains 26 indicators at 4 levels and 12 variables. Then the current condition of Fujian coastal shelterbelt sustainable management has been evaluated with
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46

Malvarez, G., O. Ferreira, F. Navas, J. A. G. Cooper, F. J. Gracia-Prieto, and L. Talavera. "Storm impacts on a coupled human-natural coastal system: Resilience of developed coasts." Science of The Total Environment 768 (May 2021): 144987. http://dx.doi.org/10.1016/j.scitotenv.2021.144987.

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47

Dixon, Doug, and Greg Hughes. "Coastal Cruise Ship Waste Management." Marine Technology and SNAME News 37, no. 04 (2000): 216–22. http://dx.doi.org/10.5957/mt1.2000.37.4.216.

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A review of the current regulations and a typical design of systems aboard a 300-ft (91 m) coastal cruise vessel accommodating 300 people are presented. Also presented is a review of the Alaska Marine Highway System equipment in order to help understand waste management practices aboard these vessels. Through an understanding of the current regulations and capabilities available both on existing vessels and new designs, it is hoped educated decisions can be made about future regulations.
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48

Malone, Thomas, and Muriel Cole. "Toward a Global Scale Coastal Ocean Observing System." Oceanography 13, no. 1 (2000): 7–11. http://dx.doi.org/10.5670/oceanog.2000.48.

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49

Ramesh, Madipally, Leela Sheela Nair, Kizhur Kandathil Ramachandran, and Thirumali Nageshrao Prakash. "Development of Video Monitoring System for Coastal Applications." Journal of Coastal Research 89, sp1 (2020): 118. http://dx.doi.org/10.2112/si89-020.1.

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50

Guy, T., and JB Kirkpatrick. "Vegetation change on an urban coastal dune system." Papers and Proceedings of the Royal Society of Tasmania 152 (2018): 1–8. http://dx.doi.org/10.26749/rstpp.152.1.

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