The content presents a comprehensive methodology to identify damage to offshore jacket platforms while also considering the optimal sensor placement (OSP). The proposed framework consists of two models: an OSP model and a damage identification model.
The OSP model adopts the multi-objective Lichtenberg algorithm (MOLA) to perform the sensor number and location optimization, balancing the sensor cost and the modal calculation accuracy. Four well-known modal criteria (Effective Independence, Kinetic Energy, Eigenvalue Vector Product, and Information Entropy) are used as the optimization objectives.
The damage identification model uses the Markov Chain Monte Carlo (MCMC)-Bayesian method to calculate the structural damage ratios based on the modal information obtained from the sensory measurements, where the uncertainties of the structural parameters are quantified.
The proposed method is validated using an offshore jacket platform case study. The analysis results demonstrate efficient identification of the structural damage location and severity, even in the presence of measurement noise. The framework provides a comprehensive solution for the digital twin-based structural health monitoring of offshore jacket platforms.
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arxiv.org
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