@inproceedings{springerlink:10.1007/978-3-642-33678-2_4,
Author = {Läsche, Christoph and Böde, Eckard and Peikenkamp, Thomas},
Title = {A Method for Guided Hazard Identification and Risk Mitigation for Offshore Operations},

Year = {2012},
Volume = {7612},
Pages = {37-48},
Month = {9},
Publisher = {Springer Berlin / Heidelberg},
Series = {Lecture Notes in Computer Science},
Booktitle = {Computer Safety, Reliability, and Security},
Organization = {Otto von Guericke Universität Magdeburg},
Url = {http://dx.doi.org/10.1007/978-3-642-33678-2_4},
type = {inproceedings},
note = {One of the effects of the radically changing energy market is that more and more offshore wind turbines are being constructed. To meet the increasing demand for renewable energy, many new companies with different levels of experience are entering the mark},
Abstract = {One of the effects of the radically changing energy market is that more and more offshore wind turbines are being constructed. To meet the increasing demand for renewable energy, many new companies with different levels of experience are entering the market. As the construction and maintenance of large offshore wind farms is a complex task, safety aspects of these operations are of crucial importance to avoid accidents. To this end, we introduce a method that assists in (1) identifying and precisely describing hazards of a scenario of an offshore operation, (2) quantifying their safety impact, and (3) developing risk mitigation means. Based on a guided hazard identification process, a formalization of hazardous scenarios will be proposed that unambiguously describes the risks of a given offshore operation. We will demonstrate the feasibility of our approach on a specific offshore scenario.}
}
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