STOPFIRE
Work-packages
The project is highly interdisciplinary in nature in its approach and outcomes that covers a wide range of disciplines including computer science, information technology and VR. It will not only support the career development of the ER, but also enhance her individual competence in terms of interdisciplinary skill acquisition. Scientists with expertise in offshore safety and artificial intelligence are important for society, especially if they have excellent problem-solving abilities, team working skills and a good standard of verbal and written communication. These skills will be fostered by the interdisciplinary nature of this project and associated requirement for advanced in-depth technical training and a commitment to life-long learning.
WP 1 Identification on typical fire scenarios and spatial-temporal evolution law of offshore platform fires
WP 2 Coupling between fire and personnel behaviour -Fires evacuation simulation
WP 3 Development of dynamic risk assessment and real-time risk warning of evacuation in fire scenarios
WP 4 Development of dynamic evacuation optimization and emergency decision support system for offshore platform fires
Deliverables
D1. Report indicating the identification methodologies and statistical analysis of historical data
D2. Report on spatial-temporal evolution simulation of fire for offshore platforms
D3. Report on the detailed Interactions between fire development and human behaviour
D4. Paper about fire evacuation simulation by coupling fire and human behaviour
D5. Report on the methodology for dynamic risk assessment of fire evacuation
D6. Report on the methodology for real-time risk warning of fire evacuation
D7. Paper indicating the dynamic optimization of evacuation decision
D8. The design of the dynamic EDSS for offshore platform fires