Abstract
Heat management plays an important role in engineering. Temperature field reconstruction of heat source systems (TFR-HSS) with limited monitoring tensors, performs an essential role in heat management. However, prior methods with common interpolations usually cannot provide accurate reconstruction. In addition, there exists no public dataset for widely research of reconstruction methods to further boost the field reconstruction in engineering. To overcome this problem, this work construct a specific dataset, namely TFRD, for TFR-HSS task with commonly used methods, including the interpolation methods and the surrogate model based methods, as baselines to advance the research over temperature field reconstruction. First, the TFR-HSS task is mathematically modelled from real-world engineering problem and three types of numerically modellings have been constructed to transform the problem into discrete mapping forms. Besides, this work selects four typical reconstruction problem with different heat source information and boundary conditions and generate the standard samples as training and testing samples for further research. Finally, a comprehensive review of the prior methods for TFR-HSS task as well as recent widely used deep learning methods is given and we provide a performance analysis of typical methods on TFRD, which can be served as the baseline results on this benchmark.
Abstract (translated)
URL
https://arxiv.org/abs/2108.08298
