Integrated neuro-evolution-based computing solver for dynamics of nonlinear corneal shape model numerically

In this study, bio-inspired computational techniques have been exploited to get the numerical solution of a nonlinear two-point boundary value problem arising in the modelling of the corneal shape. The computational process of modelling and optimization makes enormously straightforward to obtain accurate approximate solutions of the corneal shape models through artificial neural networks, pattern search (PS), genetic algorithms (GAs), simulated annealing (SA), active-set technique (AST), interior-point technique, sequential quadratic programming and their hybrid forms based on GA–AST, PS–AST and SA–AST. Numerical results show that the designed solvers provide a reasonable precision and efficiency with minimal computational cost. The efficacy of the proposed computing strategies is also investigated through a descriptive statistical analysis by means of histogram illustrations, probability plots and one-way analysis of variance.

[1]  Martin Schneider,et al.  Modeling Corneal Surfaces With Rational Functions for High-Speed Videokeratoscopy Data Compression , 2009, IEEE Transactions on Biomedical Engineering.

[2]  Raja Muhammad Asif Zahoor,et al.  A genetic algorithm optimized Morlet wavelet artificial neural network to study the dynamics of nonlinear Troesch's system , 2017, Appl. Soft Comput..

[3]  Raja Muhammad Asif Zahoor,et al.  Comparison of three unsupervised neural network models for first Painlevé Transcendent , 2014, Neural Computing and Applications.

[4]  Antonio Augusto Rodrigues Coelho,et al.  Hybridization of IMC and PID control structures based on filtered GPC using genetic algorithm , 2018 .

[5]  Fabrice Manns,et al.  Age-dependent Fourier model of the shape of the isolated ex vivo human crystalline lens , 2010, Vision Research.

[6]  Muhammad Saeed Aslam,et al.  Bio-inspired computational heuristics to study models of HIV infection of CD4+ T-cell , 2017 .

[7]  Abdul-Majid Wazwaz,et al.  Nature-inspired computing approach for solving non-linear singular Emden–Fowler problem arising in electromagnetic theory , 2015, Connect. Sci..

[8]  William W. Hager,et al.  A New Active Set Algorithm for Box Constrained Optimization , 2006, SIAM J. Optim..

[9]  Abdul-Majid Wazwaz,et al.  Stochastic numerical solver for nanofluidic problems containing multi-walled carbon nanotubes , 2016, Appl. Soft Comput..

[10]  Chiara Corsato,et al.  A one-dimensional prescribed curvature equation modeling the corneal shape , 2014 .

[11]  W. T. Mahavier,et al.  An alternative mathematical algorithm for the photo- and videokeratoscope , 2006 .

[12]  A. Elsheikh Finite element modeling of corneal biomechanical behavior. , 2010, Journal of refractive surgery.

[13]  Dumitru Baleanu,et al.  Design of computational intelligent procedure for thermal analysis of porous fin model , 2019, Chinese Journal of Physics.

[14]  V. Cerný Thermodynamical approach to the traveling salesman problem: An efficient simulation algorithm , 1985 .

[15]  Raja Muhammad Asif Zahoor,et al.  Integrated intelligent computing paradigm for the dynamics of micropolar fluid flow with heat transfer in a permeable walled channel , 2019, Appl. Soft Comput..

[16]  P. R. Rigó,et al.  New Interior-Point Algorithm for Symmetric Optimization Based on a Positive-Asymptotic Barrier Function , 2018, Numerical Functional Analysis and Optimization.

[17]  Raja Muhammad Asif Zahoor,et al.  Intelligent computing approach to solve the nonlinear Van der Pol system for heartbeat model , 2017, Neural Computing and Applications.

[18]  Raja Muhammad Asif Zahoor,et al.  Application of three unsupervised neural network models to singular nonlinear BVP of transformed 2D Bratu equation , 2014, Neural Computing and Applications.

[19]  Raja Muhammad Asif Zahoor,et al.  Design of unsupervised fractional neural network model optimized with interior point algorithm for solving Bagley-Torvik equation , 2017, Math. Comput. Simul..

[20]  Muhammad Saeed Aslam,et al.  Design of nature-inspired heuristic paradigm for systems in nonlinear electrical circuits , 2019, Neural Computing and Applications.

[21]  Robert Michael Lewis,et al.  On the Local Convergence of Pattern Search , 2003, SIAM J. Optim..

[22]  Sohrab Effati,et al.  Artificial neural network approach for solving fuzzy differential equations , 2010, Inf. Sci..

[23]  Dumitru Baleanu,et al.  A new stochastic computing paradigm for the dynamics of nonlinear singular heat conduction model of the human head , 2018, The European Physical Journal Plus.

[24]  M. A. Manzar,et al.  An efficient computational intelligence approach for solving fractional order Riccati equations using ANN and SQP , 2015 .

[25]  Muhammad Asif Zahoor Raja,et al.  Solution of the one-dimensional Bratu equation arising in the fuel ignition model using ANN optimised with PSO and SQP , 2014 .

[26]  Robert Michael Lewis,et al.  Pattern Search Algorithms for Bound Constrained Minimization , 1999, SIAM J. Optim..

[27]  Anupam Yadav,et al.  An efficient algorithm based on artificial neural networks and particle swarm optimization for solution of nonlinear Troesch’s problem , 2015, Neural Computing and Applications.

[28]  Muhammad Awais,et al.  A new stochastic computing paradigm for nonlinear Painlevé II systems in applications of random matrix theory , 2018, The European Physical Journal Plus.

[29]  Abdul-Majid Wazwaz,et al.  Neuro-heuristics for nonlinear singular Thomas-Fermi systems , 2018, Appl. Soft Comput..

[30]  Juan J. Nieto,et al.  On a nonlinear boundary value problem modeling corneal shape , 2014 .

[31]  E. P. Tinnel,et al.  Electron microscope tomography: transcription in three dimensions. , 1983, Science.

[32]  Raja Muhammad Asif Zahoor,et al.  Intelligent computing for numerical treatment of nonlinear prey-predator models , 2019, Appl. Soft Comput..

[33]  Muhammad Awais,et al.  Neuro-evolutionary computing paradigm for Painlevé equation-II in nonlinear optics , 2018, The European Physical Journal Plus.

[34]  Abdul-Majid Wazwaz,et al.  Neuro-heuristic computational intelligence for solving nonlinear pantograph systems , 2017, Frontiers of Information Technology & Electronic Engineering.

[35]  Arthur Ho,et al.  Physical human model eye and methods of its use to analyse optical performance of soft contact lenses. , 2010, Optics express.

[36]  Raja Muhammad Asif Zahoor,et al.  Intelligent computing approach to analyze the dynamics of wire coating with Oldroyd 8-constant fluid , 2017, Neural Computing and Applications.

[37]  C. D. Gelatt,et al.  Optimization by Simulated Annealing , 1983, Science.

[38]  Goldberg,et al.  Genetic algorithms , 1993, Robust Control Systems with Genetic Algorithms.

[39]  Farooq Ashraf,et al.  Bio-inspired computational heuristics to study Lane–Emden systems arising in astrophysics model , 2016, SpringerPlus.

[40]  José de Jesús Rubio,et al.  SOFMLS: Online Self-Organizing Fuzzy Modified Least-Squares Network , 2009, IEEE Transactions on Fuzzy Systems.

[41]  Raja Muhammad Asif Zahoor,et al.  Biologically inspired computing framework for solving two-point boundary value problems using differential evolution , 2017, Neural Computing and Applications.

[42]  David Ricardo Cruz,et al.  Novel Nonlinear Hypothesis for the Delta Parallel Robot Modeling , 2020, IEEE Access.

[43]  Enrique Garcia,et al.  Hessian with Mini-Batches for Electrical Demand Prediction , 2020, Applied Sciences.

[44]  Günther Meschke,et al.  Constitutive modeling of crimped collagen fibrils in soft tissues. , 2009, Journal of the mechanical behavior of biomedical materials.

[45]  Mohamed Achache,et al.  A full-Newton step feasible interior-point algorithm for monotone horizontal linear complementarity problems , 2018, Optimization Letters.

[46]  Shaker K. Ali,et al.  Solving Machine Scheduling Problem under Fuzzy Processing Time using the Simulated Annealing Method , 2018 .

[47]  Raja Muhammad Asif Zahoor,et al.  Neural network methods to solve the Lane–Emden type equations arising in thermodynamic studies of the spherical gas cloud model , 2016, Neural Computing and Applications.

[48]  Anupam Yadav,et al.  Artificial Neural Network Technique for Solution of Nonlinear Elliptic Boundary Value Problems , 2014, SocProS.

[49]  D. Malacara-Hernández,et al.  A Review of Methods for Measuring Corneal Topography , 2001, Optometry and vision science : official publication of the American Academy of Optometry.

[50]  Raja Muhammad Asif Zahoor,et al.  Design of bio-inspired heuristic technique integrated with interior-point algorithm to analyze the dynamics of heartbeat model , 2017, Appl. Soft Comput..

[51]  Muhammad Saeed Aslam,et al.  Novel applications of intelligent computing paradigms for the analysis of nonlinear reactive transport model of the fluid in soft tissues and microvessels , 2019, Neural Computing and Applications.

[52]  ᴌ. Płociniczak,et al.  Nonlinear parameter identification in a corneal geometry model , 2015 .

[53]  M. A. Rosales,et al.  Anterior corneal profile with variable asphericity. , 2009, Applied optics.

[54]  Zhenzhen Zhang,et al.  A simulated annealing algorithm for the capacitated vehicle routing problem with two-dimensional loading constraints , 2018, Eur. J. Oper. Res..

[55]  Łukasz Płociniczak,et al.  A nonlinear mathematical model of the corneal shape , 2012 .

[56]  Jesús Alberto Meda-Campaña,et al.  On the Estimation and Control of Nonlinear Systems With Parametric Uncertainties and Noisy Outputs , 2018, IEEE Access.

[57]  M. Raja Stochastic numerical treatment for solving Troesch’s problem , 2014 .

[58]  Yosi Agustina Hidayat,et al.  A simulated annealing heuristic for the hybrid vehicle routing problem , 2017, Appl. Soft Comput..

[59]  Zhao Yuxin,et al.  Overlapping community detection in complex networks using multi-objective evolutionary algorithm , 2015, Computational and Applied Mathematics.

[60]  W. Yu POSITIVE BASIS AND A CLASS OF DIRECT SEARCH TECHNIQUES , 1979 .

[61]  Wojciech Okrasinski,et al.  Bessel function model of corneal topography , 2013, Appl. Math. Comput..

[62]  Raja Muhammad Asif Zahoor,et al.  Bio-inspired computational heuristics to study the boundary layer flow of the Falkner-Scan system with mass transfer and wall stretching , 2017, Appl. Soft Comput..

[63]  Kevin Anderson,et al.  Application of structural analysis to the mechanical behaviour of the cornea , 2004, Journal of The Royal Society Interface.

[64]  D. R. Iskander,et al.  Optimal modeling of corneal surfaces with Zernike polynomials , 2001, IEEE Transactions on Biomedical Engineering.

[65]  Elyas Shivanian,et al.  Bio-inspired computing platform for reliable solution of Bratu-type equations arising in the modeling of electrically conducting solids , 2016 .

[66]  Raja Muhammad Asif Zahoor,et al.  Reliable numerical treatment of nonlinear singular Flierl-Petviashivili equations for unbounded domain using ANN, GAs, and SQP , 2016, Appl. Soft Comput..

[67]  Paulo Sérgio Sausen,et al.  Parameter estimation of lithium ion polymer battery mathematical model using genetic algorithm , 2018 .

[68]  Sohrab Effati,et al.  Artificial neural network method for solving the Navier–Stokes equations , 2014, Neural Computing and Applications.

[69]  J. Nee,et al.  Nonlinear integral equation from the BCS gap equations of superconductivity , 2010 .

[70]  Reza Tavakkoli-Moghaddam,et al.  New approach based on group technology for the consolidation problem in cloud computing-mathematical model and genetic algorithm , 2018 .

[71]  Robert Hooke,et al.  `` Direct Search'' Solution of Numerical and Statistical Problems , 1961, JACM.