Abstract
In design, development, and operation of crucial engineering systemssubjected to high heat fluxes, it is often necessary to observe the thermal state of the object in real time. The authors suggest an approach that is based on the methodology of solution of inverse heat-conduction problems (IHCP) and is a special adaptation of these methods for solution of observation problems. The approach is based on the idea of the possibility of identifying the current thermal state of the object with the use of measurements that are chronologically close to the current time, which leads to formulation of the retrospective boundary-value IHCP in a local time interval. A solution to this problem is considered, and results and estimates of the accuracy of simulation are presented.
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