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This dissertation presents an application of heuristic computational intelligence for the
solution of non-linear systems in engineering. The design scheme is comprised of
mathematical model based on feed-forward artificial neural network (ANN). The
linear combination of these networks defines the unsupervised error for the system.
The most suitable weights to minimize the error are obtained by training the networks
employing stochastic solvers. These techniques are based on nature inspired heuristics
including Pattern Search (PS), Simulated Annealing (SA), Genetic Algorithm (GA)
and Particle Swarm Optimization (PSO) algorithms. Rapid local convergent
algorithms such as Interior Point (IP) and Active Set (AS) methods are hybridized
with these global search techniques. To validate the scheme, a number of linear and
non-linear initial and boundary value problems have been solved.
The design methodology is also applied to a number of problems having special
applications in engineering including, singular systems based on non-linear Lane
Emden Fowler equation, non-linear van der Pol oscillator with stiff and non-stiff
conditions and systems with high nonlinearity governed by Painlevé transcendent I.
In addition to that, the scheme also provides an alternate solution for biomedical
application like model of heart for low, high and normal blood pressure. It is found
that the proposed results are in good agreement with available exact solution and
numerical solvers like Adomian decomposition method, Homotopy Perturbation
method, Homotopy analysis method and Optimal Homotopy asymptotic method,
ODE15i and Runge Kutta method.
The comparative studies of stochastic solvers are carried out under a stringent
criterion of accuracy, effectiveness, reliability and robustness of the results based on
Monte Carlo simulation and its analysis. The solvers based on SA, PS, GA, PSO, GA
and PSO hybrid with IP or AS algorithms are used for optimization of neural network.
It is found that the GA-IP, GA-AS, PSO-IP and PSO-AS algorithms are the best
stochastic optimizers.
The other perk up of the scheme have in its simplicity of the concept, ease in use,
efficiency and unlike other numerical techniques, it provides the solution on
continuous inputs with finite interval instead of predefine discrete grid of inputs. |
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