SIMULATION AND TRAINING
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MARINE OPERATIONS SIMULATION AND TRAINING AS A TOOL FOR LEARNING AND INNOVATION IN THE MARITIME CLUSTER Regional industry: Offshore Ship Activity 213 Corporations: • 15 Ship design • 19 Ship owners • 14 Ship yards • 165 Ships equipment Turnover 55 billion NOK 2012 Global innovation and knowledge hub Global Value Chain Global value chains Global Value Chain INNOVATION SPEED Ship Global Value Chain Owners Ship Yards Global Value Chain Our vision To become a leading knowledge and innovation hub in marine operations Faculty of Marine Technology and Operations • Ships design, BSc + MSc • Product- and system design, BSc + MSc • Nautical Science, BSc • Shipping and logistics, BSc • Managing demanding maritime operations, MSc (in process) • Marine Engineering, BSc (in process) Faculty of Engineering and Natural Sciences • Automation (BSc) • Computer Engineering Training Portfolio AHO/ PSV / Subsea/Seismic 0 Introduction 1 Operational Training 2 Team Performance 3 Managing Risk SCTH – Safe Cargo Transport and handling on offshore vessels Costal Navigation for apprentice Pilot Exemption Dynamic Positioning, DP Position References ECDIS/ AIS Fast Craft Applied Risk Management BRM / CRM Stability on offshore vessels Train the trainer Language and culture MSc Managing demanding marine operations 1. semester Module 1. Integrated operations I: Sp. 2. semester 10.0 Module 3. Integrated operations II: Management of Demanding Operations Sp. 7.5 Risk Management Module 2. Industrial Psychology and Human Resources Management 7.5 Module 4. Human Factors 7.5 Module 5. Integrated operations III: 7.5 Module 7. Integrated operations IV: 7.5 Cross-cultural understanding and communications Management of the Unpredictable Module 6. Scientific Theory and Methods 5.0 Module 10. Master thesis 15 Module 8. Offshore Operation Logistics 7,5 15 How can we expect people to perform correct in a situation they have never encountered? blogs.reuters.com Designing the complete solution Ships & Systems Integrated operation Control Physics-In-The-Loop Human-In-The-Loop Operation-In-The-Loop 2005 Training for Advanced Marine Operations Ships & Systems Integrated operation Control Physics-In-The-Loop Human-In-The-Loop Operation-In-The-Loop 2005 2011 Integrated operations - Ship – Rig - Crane what’s next - inside the crystal ball Ships & Systems Integrated operation Control Physics-In-The-Loop Human-In-The-Loop Operation-In-The-Loop 2005 2011 2016 Virtual prototypes Prototyping marine operations Verifying ship & equipment Verifying crew performance Verifying plan & procedure Lessons learned? 80 60 Focus on technical errors 40 Focus on human behavior 20 80 % Human Error 0,45 0 1959 2010 Pedagogy and facilities Challenging the reference frame Improvement within existing frame Risk Team Management Performance “Control” Prudence Rich evinronments Plan & Execution Procedures Accuracy Basics Skills Situation step-by-step competence 3 2 Risk Management 1 0 Basics SKILLS Operation Planning and Execution PROCEDURES Team Performance (BRM / CRM) TEAM PRUDENCE MANAGEMENT & CONTROL Simulating the shelf Well intervention Deck, drilling, crane FPSO Decks, FPSO Crane, Bridges PSV Deck, Crane, Bridges vessel, Bridge rig & Engine room AHT Deck Vessels and rig, Vessel Bridges, Bridge rig & Engine room Subsea ROV, Crane, Deck, LARS, Bridge & Engine Room Seismic Deck, Crane, Bridges HAZID - HAZOP - SJA Toolbox Feasibility • Two tugger winch stations • Debriefing room • Team training • Cross training Limitations • One camera view • One brace (not the replaced one) • No wind and current forces • Crane operator chare “hard coded” • Limited feasibility on the tugger winches Acceptance test Deepocean - OSC - HiALS • Feed back • Even better communication • Minor adjustments Performing • Mission briefing • Divided in to two team 4 + 4 person, one CO and DF in each team • 4 Cases 1. Familiarizing 2. Deploy 3. Recover 4. “Worst case” • Debriefing • Coaching by MBA Campus Ålesund Campus Ålesund, - centre for demanding marine operations Campus Ålesund, - centre for demanding marine operations • Utdanning og trening • Stimulere innovasjon • Forskning • Samarbeid og klyngeutvikling • Attraktivitet AMO labs & ongoing projects •Ship Operation Lab (Halse) • Integrated Marine Operations • Virtual prototyping of marine operations Virtual prototyping AMO labs & ongoing projects • Human Factor Lab (Sashi) • Utvikling av menneske-maskin grensesnitt for økt treningsutbytte i simulatortrening basert på gester • Ulstein Bridge Vision, 2010• Utilisation of integrated simulator facilities for safety risk and performance assessment of demanding marine operations AMO labs & ongoing projects Mechatronics Lab (Zhang) • A Flexible and Common Control Architecture for Marine Cranes and Robotic Arms • A Novel Integrated Anti-sway System for Rolls-Royce Marine Shipboard Cranes • A Novel Climbing Robotic System for Ship Anti-fouling, Cleaning and Inspection AMO labs & ongoing projects • Simulation Training Lab (Norvald) • The virtual continental shelf Well interven tion FPSO Decks, FPSO Crane, Bridges Deck, drilling, crane PSV Deck, Crane, Bridges vessel, Bridge rig & Engine room AHT Subsea ROV, Crane, Deck, LARS, Bridge & Deck Vessels and rig, Vessel Bridges, Bridge rig & Engine room Seismi c Deck, Crane, Bridges AMO labs & ongoing projects •Machinery System Lab (Vilmar) • Integrated Machinery Systems • Chief engineer
