#4 – Computer software analysis of continuous quality management based on fractional differential equation algorithm of generalized function Laplace transform

Tao Li. Computer software analysis of continuous quality management based on fractional differential equation algorithm of generalized function Laplace transform
Dynamic Systems and Applications 29 (2020) No. 4,1077-1085

https://doi.org/10.46719/dsa20202944

ABSTRACT.
This paper mainly introduces the fractional derivative of differential equation, fractional calculus and the related knowledge of Laplace transformation, which is widely used in various fields of society. There may be unreasonable factors in delay differential equations, so Laplace transformation method should pay attention to the use of integral inequality Gronwall in the process of solving the fractional order of constant coefficients. According to the calculation accuracy and time division standard, the differences between iterative and linear interpolation methods are compared in the computer software analysis of continuous quality management. The results show that the iterative method is better in both aspects, while in the linear interpolation method, the higher accuracy is Parabola interpolation method, the time cost is more dominant is the linear interpolation method, the research results are scientific, in the actual continuous quality management computer software selection can be used as a reference [1].

Keywords: generalized functions; Continuous quality management; Computer software analysis.