A5031434454- Fatigue and fracture mechanics
- Nuclear reactor physics and engineering
- Structural Health Monitoring Techniques
- Machine Fault Diagnosis Techniques
- Spacecraft and Cryogenic Technologies
- Integrated Energy Systems Optimization
- Fault Detection and Control Systems
- Structural Integrity and Reliability Analysis
- Value Engineering and Management
- Animal Disease Management and Epidemiology
- Viral Infections and Vectors
- Risk and Safety Analysis
- Occupational Health and Safety Research
- Construction Project Management and Performance
- Vector-Borne Animal Diseases
- Probabilistic and Robust Engineering Design
University of Liège
2021-2023
Livestock Breeding and Veterinary Department
2018
Nanyang Technological University
2008
Purpose – Recent changes in corporate environment coupled with emerging challenges as a result of turbulent economy have exposed participants the construction industry to more and surprises project management. As result, has witnessed significant particularly procurement methods clients allocating greater risks contractors, making risk management necessity, organizations needing look across whole life from inception occupancy. To minimize or optimize all these risks, formulating an effective...
Offshore wind structures are exposed to a harsh marine environment and subject deterioration mechanisms throughout their operational lifetime. Even if the evolution of structural elements can be estimated through physics-based models, uncertainties involved in process hurdle selection lifecycle management decisions, e.g., lifetime extension. In this scenario, collection relevant information an efficient monitoring system enables reduction uncertainties, ultimately driving more optimal...
Exposed to the cyclic action of wind and waves, offshore structures are subject fatigue deterioration processes throughout their operational life, therefore constituting a structural failure risk. In order control risk adverse events, physics-based models, which often contain significant uncertainties, can be updated with information collected from inspections, thus enabling decision-makers dictate more optimal informed maintenance interventions. The identified decision rules are, however,...
Offshore wind structures are subject to deterioration mechanisms throughout their operational lifetime. Even if the evolution of structural elements can be estimated through physics-based models, uncertainties involved in process hurdle selection lifecycle management decisions. In this scenario, collection relevant information an efficient monitoring system enables reduction uncertainties, ultimately driving more optimal However, a full instrumentation implemented on all turbines farm might...