Subjects: Nuclear Science and Technology >> Nuclear Detection Technology and Nuclear Electronics submitted time 2022-08-08
Abstract:
A simpler and improved utility approximate point scattered function for thin-fifilm converters currently used in neutron photographic devices is proposed as a correction method to produce clearer, more realistic images. The validity of the model was demonstrated through a simulation experiment. Based on the results, an error analysis was carried out, certain corrections were made to the original model, and the fifinal model achieved a very low relative error in the simulation experiment. The model can also be optimized for quantitative neutron photographic analysis using iterative algorithms to obtain realistic neutron photographic images more quickly. At the end of the article, the model is extended to consider the case of energy spectrum hardening by introducing a temperature correction parameter.
Peer Review Status:Awaiting Review
Subjects: Mathematics >> Modeling and Simulation submitted time 2021-04-23
Abstract: Grey system model is widely used in mathematical modeling and approximate calculation because of its simplicity and clear mathematical background. The principle of grey system model can be summarized as the use of time response function to simulate the evolution of data series. Among them, GM (1,1) model is the most basic and can reflect the idea of grey modeling most widely. The time response function of the traditional GM (1,1) model is constructed by the exponent of natural constant . Also, for this characteristic, the GM (1,1) model has strong limitations. In practical application, people often modify the time response function of GM (1,1) model. One of the most important correction methods is to couple the original time response function with other functions that can describe the properties of data series. For example, for data series with certain periodicity or quasi periodicity, the original time response function can be coupled with trigonometric function to form GM (1,1) - trigonometric function coupling model. In this paper, the feasibility of this model is deeply discussed, and the estimation method of the parameters in the time response function of the coupled model and the error analysis are proposed.
Peer Review Status:Awaiting Review