Mean-Square Stability of Split-Step Theta Milstein Methods for Stochastic Differential Equations

Eissa, Mahmoud A.; Zhang, Haiying; Xiao, Yu

doi:10.1155/2018/1682513

Cited by 6 publications

(3 citation statements)

References 24 publications

(41 reference statements)

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“…SPSS 25.0 was employed to perform ANOVA to analyse the influence of spray pressure, air velocity and nozzle orifice size on D v0.1 , D v0.5 , D v0.9 , the proportion of spray volume contained in droplets with a diameter below 150 µm (% < 150 µm), relative span (RS) and coefficient of variance (CV). F and P values were used, as they are very important indices for assessing ANOVA results [27].…”

Section: Analysis Of Variance (Anova)mentioning

confidence: 99%

Analysis of the Influence of Different Parameters on Droplet Characteristics and Droplet Size Classification Categories for Air Induction Nozzle

et al. 2020

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Droplet characteristics are identified as essential factors in agricultural spray application. The aims of this study were to analyse the influence of spray parameters on droplet characteristics and to determine possible candidate sprays that would produce the same droplet size categorizations as the American Society of Agricultural and Biological Engineers (ASABE) standard S-572.1 for air induction nozzles (AINs). Six different orifice sizes of the Billericay Farm Services (BFS) air induction (AI) flat fan hydraulic nozzles (the air bubblejet) were examined at different spray pressures (200 kPa, 300 kPa, 400 kPa, 500 kPa, 600 kPa and 700 kPa) and concurrent air velocities (2 m/s, 3 m/s, 4 m/s and 5 m/s). The influences of spray parameters on the droplet characteristics were analysed using analysis of covariance (ANCOVA) and analysis of variance (ANOVA). Results showed that: (1) The values of droplet characteristics and the results of ANOVA were significantly different before and after eliminate the influence of dynamic surface tension (DST) on droplet characteristics by ANCOVA; (2) (a) the reduction rates of the droplet diameter sizes decreased with increasing spray pressure; (b) air velocities of 2 m/s and 5 m/s resulted in smaller droplets reports, and air velocities of 3 m/s and 4 m/s are more suitable for agricultural spray applications; (c) a larger nozzle orifice size not always result in a larger droplet size and (3) Fine, Medium, Coarse, Very Coarse and Extremely Coarse droplet classification categories as the ASABE S-572.1 standard categorizations were determined to classify AINs.

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Section: Analysis Of Variance (Anova)mentioning

confidence: 99%

Analysis of the Influence of Different Parameters on Droplet Characteristics and Droplet Size Classification Categories for Air Induction Nozzle

et al. 2020

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“…Although Kahl [11] shows the different ways to avert the numerical negativity, the balanced implicit method (BIM) method and the Milstein method have proven that the numerical method based on the Euler scheme is a finite time for all SDE (i.e., the numerical methods do not preserve positivity of the solution of SDEs), recently published research still considers numerical methods based on the Euler scheme in order to approximate the paths of stochastic models with respect to delay dependence in financial mathematics [5,12]. Based on Kahl's work, there are few works in the literature discussing this issue; for example, the fundamental analysis of Milstein-type methods with respect to non-negativity has been discussed for a family of financial models [13][14][15][16][17][18][19]. Moreover, classes of the BIM method were provided in [20][21][22].…”

Section: Introductionmentioning

confidence: 99%

Improve Stock Price Model-Based Stochastic Pantograph Differential Equation

Eissa

Elsayed

2022

Symmetry

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Although the concept of symmetry is widely used in many fields, it is almost not discussed in finance. This concept appears to be relevant in relation, for example, to mathematical models that can predict stock prices to contribute to the decision-making process. This work considers the stock price of European options with a new class of the non-constant delay model. The stochastic pantograph differential equation (SPDE) with a variable delay is provided in order to overcome the weaknesses of using stochastic models with constant delay. The proposed model is constructed to improve the evaluation process and prediction accuracy for stock prices. The feasibility of the proposed model is introduced under relatively weak conditions imposed on its volatility function. Furthermore, the sensitivity of time lag is discussed. The robust stochastic theta Milstein (STM) method is combined with the Monte Carlo simulation to compute asset prices within the proposed model. In addition, we prove that the numerical solution can preserve the non-negativity of the solution of the model. Numerical experiments using real financial data indicate that there is an increasing possibility of prediction accuracy for the proposed model with a variable delay compared to non-linear models with constant delay and the classical Black and Scholes model.

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“…Stochastic ordinary di erential equations (SODEs) play a pivotal role in explaining some physical phenomena such as chemical reactions [9], nancial mathematics [10], mathematical ecology [11], epidemiology [12], medicine [13], and population dynamics [14]. Generally, SODEs cannot be solved analytical, but many numerical solutions can be found, for instance, the split-step theta Milstein method [15], the least-squares method [16], the discrete Temimi-Ansari method [17], the improved Euler-Maruyama method [18], the ve-stage Milstein method [19], the split-step Milstein method [20], the split-step Adams-Moulton Milstein method [21], the split-step forward Milstein method [22], and the Runge-Kutta method [23,24].…”

Section: Introductionmentioning

confidence: 99%

Improvement of Split-Step Forward Milstein Schemes for SODEs Arising in Mathematical Physics

Ranjbar

Nouri

Torkzadeh

2022

Mathematical Problems in Engineering

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In the present investigation, new explicit approaches by the Milstein method and increment function of the Jacobian derivative of the drift coefficient are designed. Several numerical tests such as Cox–Ingersoll–Ross process, stochastic Brusselator, and Davis-Skodje system are presented to illustrate the accuracy and the efficiency of our schemes. Furthermore, we show that the strong convergence rate of our procedures is approximately one.

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Mean-Square Stability of Split-Step Theta Milstein Methods for Stochastic Differential Equations

Cited by 6 publications

References 24 publications

Analysis of the Influence of Different Parameters on Droplet Characteristics and Droplet Size Classification Categories for Air Induction Nozzle

Analysis of the Influence of Different Parameters on Droplet Characteristics and Droplet Size Classification Categories for Air Induction Nozzle

Improve Stock Price Model-Based Stochastic Pantograph Differential Equation

Improvement of Split-Step Forward Milstein Schemes for SODEs Arising in Mathematical Physics

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