Some methods of training radial basis neural networks in solving the Navier‐Stokes equations

Sinchev, Bakhtgerey; Sibanbayeva, Saulet Erbulatovna; Mukhanova, Axulu Mukhambetkaliyevna; Nurgulzhanova, Assel N.; Zaurbekov, N. S.; Imanbayev, Kairat Sovetovish; Gagarina, Nadezhda Lvovna; Baybolova, L. K.

doi:10.1002/fld.4470

Cited by 10 publications

(7 citation statements)

References 19 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…In this paper, we consider a specific class of ANNs, called single layer perceptrons (SLPs), which is a widespread and mathematically convenient choice due to their simplicity (e.g. Aarts & Van Der Veer, 2001; Funahashi & Nakamura, 1993; Mai et al., 2016; Sinchev et al., 2018; Wu et al., 2005). They are the most simple form of ANNs as they correspond to a weighted sum of basis functions

f

, more formally

\begin{matrix} s (X, Y, . . .) = & β_{0} + β_{1} f false(β_{10} + β_{11} X + β_{12} Y + . . . false) \\ + β_{2} f false(β_{20} + β_{21} X + β_{22} Y + . . . false) + . . . \\ + β_{i} f false(β_{i 0} + β_{i 1} X + β_{i 2} Y + . . . false), \end{matrix}

where

β_{ij}

are the parameters of the network.…”

Section: Methodsmentioning

confidence: 99%

“…Hybrid approaches combining ANNs and ODEs have been applied with success in the past across a range of fields. For example, physicists have recently applied approaches combining partial differential equations (PDEs) and ANNs to model fluid dynamics (Sinchev et al., 2018), and to discover governing physical equations from data (Berg & Nyström, 2019). Neuroscientists have modelled the activation dynamics of interacting populations of neurons in an Ape with a NODE‐like system, faithfully reproducing the behaviour of motoneurons (Sussillo et al., 2015).…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Neural ordinary differential equations for ecological and evolutionary time‐series analysis

2021

View full text Add to dashboard Cite

show abstract

f

, more formally

\begin{matrix} s (X, Y, . . .) = & β_{0} + β_{1} f false(β_{10} + β_{11} X + β_{12} Y + . . . false) \\ + β_{2} f false(β_{20} + β_{21} X + β_{22} Y + . . . false) + . . . \\ + β_{i} f false(β_{i 0} + β_{i 1} X + β_{i 2} Y + . . . false), \end{matrix}

where

β_{ij}

are the parameters of the network.…”

Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Neural ordinary differential equations for ecological and evolutionary time‐series analysis

2021

View full text Add to dashboard Cite

show abstract

“…e basic implementation process of this step is as follows: for individuals, s = (C1, C2, CN, CN + 1). However, it is not very easy for such individuals to code [17]. Because if the coding is not correct, the illegal student sequence or invalid solution will appear when the crossover or neuron transfer operation is implemented.…”

Section: Realization Steps Of Innovative Teaching Model Of National V...mentioning

confidence: 99%

Research on Discrete Dynamic System Modeling of Vocal Performance Teaching Platform Based on Big Data Environment

Gong

2022

Discrete Dynamics in Nature and Society

View full text Add to dashboard Cite

The traditional teaching model of national vocal music in colleges and universities has some problems, such as low quality of teaching, poor diversity of teaching, and low interest of students. Based on this, this study studies the innovation of the teaching model of national vocal music in colleges and universities based on the deep recurrent neural network algorithm and designs the teaching quality evaluation model based on the deep recurrent neural network algorithm. The collection of data and information is realized from the aspects of students’ class state, vocal music examination results, classroom interaction, etc., and the comprehensive analysis is carried out using the deep recursive neural network algorithm, to realize the multiple analysis and objective evaluation of the whole process of different teaching modes of national vocal music in music colleges and universities, according to the different characteristics and teaching objectives of the teaching process of national vocal music in music colleges and universities The standard requires accurate analysis and evaluation. The results show that the optimization model based on the deep recurrent neural network algorithm has the advantages of high feasibility, high intelligence, and wide range of applications. The experiments show that the deep recurrent neural network algorithm can analyze the effectiveness of the innovation model, and the fuzzy evaluation method can realize the comprehensive evaluation of the innovation mode, which is conducive to the improvement of students’ vocal music learning ability.

show abstract

“…The shaft seal is an isolation device to prevent the leakage of reactor coolant pumps (RCP) (Salant et al, 2018), which is directly related to the safe operation of the nuclear power plant (Nilsson et al, 2009;Baraldi et al, 2011;Feng et al, 2016;Kok and Benli, 2017;Luqman et al, 2019). As one of the key components of shaft seals, the mechanical seal (Harp and Salant, 1998;Clark et al, 2002;Simon, 2018) plays a vital role in the safety and reliability of the entire structure, where different shapes of its end face lead to the different hydraulic effects (hydrodynamic and hydrostatic effects). In comparison with the hydrostatic seals, hydrodynamic seals can reach better performance owing to its hydrodynamic effect (Pascovici and Etsion, 1992;Batten et al, 2008).…”

Section: Introductionmentioning

confidence: 99%

“…Most of the previous works on mechanical seals are mainly based on the bearing lubrication theory, in which the Reynolds equation (Chandramoorthy, Hadjiconstantinou;Gustafsson et al, 2017) is often used as the governing equation to solve the pressure distribution of the liquid film in the seal ring gap. The Reynolds equation is a simplified approximation of the Navier-Stokes equation (Temam, 2001;Pietarila Graham et al, 2008;Sinchev et al, 2018;Danchin and Mucha, 2019) to solve the narrow gap laminar flow. In this approximation, the pressure change along the film thickness direction is neglected by assuming that the thickness of the seal ring gap liquid film is small enough.…”

Section: Introductionmentioning

confidence: 99%

Characteristics of the Waviness End-Face Mechanical Seal in Reactor Coolant Pump Considering the Viscosity-Temperature Effect

Ma¹,

Wang²,

Zhou

et al. 2021

Front. Energy Res.

View full text Add to dashboard Cite

Mechanical seals prevents flow leakages in reactor coolant pumps thus playing an important role in their operational safety. However, their operational performance depends on different parameters, the seal geometrical design and the sealing medium characteristics among others. This study investigates the main performances of the waviness end-face mechanical seal, considering the effect of fluid flow and thermal characteristics. The involved coupled thermal-hydraulic process is simulated using the OpenFOAM, based on the coupled Navier-Stokes and energy balance equations. Study results showed that the viscosity-temperature effect may increase the flow leakage, and decrease both the opening force and the liquid film stiffness. The later may be decreased to negative values under specific conditions. It’s therefore generally found that visco-thermal characteristics of the sealing medium may negatively affect mechanical seal’s operational stability. On the other hand, from the perspective of liquid film temperature rise, the visco-thermal effect may lead to the regulation of the temperature rise in the liquid film, which improves the mechanical seal’s operational safety in some aspects. Through a comprehensive analysis, the optimal structural parameters of the waviness mechanical seal investigated in this study are found to be hi = 2.5μm, β = 900μrad (Rd-Ri)/(Ro-Ri) = 0.2, α = 0.8, and k = 9.

show abstract

Some methods of training radial basis neural networks in solving the Navier‐Stokes equations

Cited by 10 publications

References 19 publications

Neural ordinary differential equations for ecological and evolutionary time‐series analysis

Neural ordinary differential equations for ecological and evolutionary time‐series analysis

Research on Discrete Dynamic System Modeling of Vocal Performance Teaching Platform Based on Big Data Environment

Characteristics of the Waviness End-Face Mechanical Seal in Reactor Coolant Pump Considering the Viscosity-Temperature Effect

Contact Info

Product

Resources

About