On-board reassessment of sea conditions for marine operations by Christophe Capitant (presented by Christophe Maisondieu) PrISM_MSEM System
The context : SAR operations at sea Most of the time in rough sea conditions Require ability to predict the response of ships and other systems with accuracy and in a reliable way « Trial and error » : not an option Quick investigation of many alternatives PrISM_MSEM System
The current maritime situation : Factors that produce maritime incidents : Diversity of older vessels and state-of-the-art ships Reduced crew Areas of high density shipping Increasing levels of traffic and higher transit speeds Commercial requirements force ‘ short-cuts ’ PrISM_MSEM System
Increased risk in marine operations due to : Severely limited ‘ sea sense ’ when in rough sea conditions and/or hazardous situations such as towing, rescue operations, damage control, etc…. Management of multiple and concurrent navigation issues : (security, ship motion, structural stress, transit speed optimisation, etc…) Difficulty to provide all the relevant information to the final human deciders in a useful form. PrISM_MSEM System
The current requirements : Choice of the best course under meteorological and operational constraints : Assess the consequences of the various options in extreme situations before taking the decision Shorten the decision process Increase navigation accuracy Limit ship fatigue and risk of failure Avoid serious damage and possible pollution PrISM_MSEM System
Our option : Enhance local sea-state forecast. Use EO enhanced forecast to predict the ship or system response to further enhance the local forecast by comparing with observed ship response. to simulate the ship behaviour even after a change in the course. PrISM_MSEM System
The mean :PrISM a system developed for helicopter deck-landing operations and adapted to other marine operations. Main features : Implementation of cutting-edge maritime environmental data and ship motion models Use of Artificial Intelligence : System adapts automatically to the real time measured sea-state using genetic algorithms Emulation of the human decision-making process by use of fuzzy logic Implementation of highly efficient optimisation algorithms (multi-parameters: roll, bending moment, towline tension,...) PrISM_MSEM System
PrISM main results : Operational simulations show : Significant reduction of the inaccuracies in the local sea-state models Reduction of the global ‘energy density spectrum’ of the response of the ship when selecting the solution recommended by the system, i.e. : reduced ship motion reduced structural stress Optimisation of the navigation course in terms of safety PrISM_MSEM System
The Ship and Marine Environment Model Interface PrISM_MSEM System
The Self-Adaptation of the Sea-State Interface PrISM_MSEM System
The Motion and Structure Management Interface PrISM_MSEM System
The Route Optimisation Management Interface PrISM_MSEM System
The Navigation Management Interface PrISM_MSEM System
Projects : CAMMEO Co-Ordinated Approach to Markets for Marine Earth Observations Would assimilation of Earth Observations measurements in forecast enhance the ability of the PrISM_MSEM system to accurately evaluate the local Sea-state ? PrISM_MSEM System ForecastForecast +EO Best Local Sea-State PrISM_MSEM
Projects : CAMMEO Assessment and validation tests on-board R/V THALASSA November 2004 Bay of Biscaye PrISM_MSEM System
Proposal : SARASSEN SAR ASSistant for Enhancement of Navigation Develop, install and test a full system on-board SAR vessels : PrISM_MSEM System FORECAST Sea-State Input Data HYDRODYNAMICS SOLVER (Tow-line and assisted ship dynamics) PrISM_MSEM Local Sea-State Best course/speed options