Determining the Thermal Mode Setting Parameters Based on Output Data
Sh. A. Alimov, N. M. Komilov
Abstract
We consider a mathematical model of the process of heating a cylindrical domain by embedded heat sources under the assumption that heat exchange with the environment occurs on the lateral surface in accordance with Newton’s law. The heating process is controlled by embedding or removing cooling elements. We prove that the time history of the volume of the embedded cooling elements can be uniquely reconstructed based on the output power, which is a function of time representing a weighted average temperature in the domain.
Topics & Concepts
EmbeddingProcess (computing)Domain (mathematical analysis)Function (biology)Volume (thermodynamics)Mode (computer interface)MathematicsThermalPower (physics)Ordinary differential equationHeat exchangerPartial differential equationSurface (topology)Heat equationTime domainApplied mathematicsMechanicsMathematical analysisComputer scienceThermodynamicsGeometryDifferential equationPhysicsEvolutionary biologyArtificial intelligenceComputer visionOperating systemBiologyNumerical methods in inverse problemsStability and Controllability of Differential EquationsAdvanced Mathematical Modeling in Engineering