Basic mathematical theory of Optimal Homotopy
Asymptotic Method OHAM is used to the following equation:
To better understand our hypothesis test results, we perform simulations to evaluate the performance of our hypothesis tests for nested alternative return distributions, some with
asymptotic tail dependence, and others that are asymptotically tail independent.
The next step in the
asymptotic procedure is to choose the scales of the coordinates.
In section 5,
asymptotic distribution and computational complexity of the proposed test statistic are given.
The goal of the study is to construct the parametric representation of surface from a given pseudo null curve and derive the necessary and sufficient conditions for the given pseudo null curve to be an isoparametric and
asymptotic on the parametric surface.
(iii) Based on the
asymptotic analysis of the outage probability, we propose a power allocation scheme to improve the system's performance and the proposed scheme can lead to SNR performance gains of more than 1dB compared to the equal power allocation scheme.
This direct method is given theoretical justification by
asymptotic theory of the penalized spline estimator.
In this paper, we construct an
asymptotic approximation uniformly valid in the long time interval t ~ [[epsilon].sup.-1] and determine the appearance conditions of the resonant wave interactions.
In order to derive the
asymptotic expansion of F(x) for large x, it is convenient to rewrite F(x) in the form
Herisanu, "Application of optimal homotopy
asymptotic method for solving nonlinear equations arising in heat transfer," International Communications in Heat and Mass Transfer, vol.
Recently, Su and Zheng [16] present a unified saturated PD control framework to achieve
asymptotic stabilization.