1 research outputs found
Optimal Maintenance Policy for a Compound Poisson Shock Model
Engineered and infrastructure systems deteriorate (e.g., loss capacity) as a
result of adverse environmental or external conditions. Modeling deterioration
is essential to define optimum design strategies and inspection and maintenance
(intervention) programs. In particular, the main purpose of maintenance is to
increase the system availability by extending the life of the system. Most
strategies for maintenance optimization focus on defining long term strategies
based on the system's condition at the decision time (e.g., ). However,
due to the large uncertainty in the system's performance through life, an
optimal maintenance policy requires both permanent monitoring and a
cost-efficient plan of interventions. This paper presents a model to define an
optimal maintenance policy of systems that deteriorate as a result of shocks.
Deterioration caused by shocks is modeled as a compound Poisson process and the
optimal maintenance strategy is based on an impulse control model. In the model
the optimal time and size of interventions are executed according the the
system state, which is obtained from permanent monitoring