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ITERATIVE TECHNIQUES FOR SOLVING NON-LINEAR SYSTEMS (AND LINEAR SYSTEMS)

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Presentation on theme: "ITERATIVE TECHNIQUES FOR SOLVING NON-LINEAR SYSTEMS (AND LINEAR SYSTEMS)"— Presentation transcript:

1 ITERATIVE TECHNIQUES FOR SOLVING NON-LINEAR SYSTEMS (AND LINEAR SYSTEMS)

2 Jacobi Iterative Technique Consider the following set of equations.

3 Convert the set Ax = b in the form of x = Tx + c.

4 Start with an initial approximation of:

5

6

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8 k0123 0.0000 0.6000 1.0473 0.9326 0.0000 2.2727 1.7159 2.0530 0.0000-1.1000-0.8052-1.0493 0.0000 1.8750 0.8852 1.1309 Results of Jacobi Iteration:

9 Gauss-Seidel Iterative Technique Consider the following set of equations.

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12 k0123 0.0000 0.6000 1.0300 1.0473 1.0065 0.9326 0.0000 2.3272 2.2727 2.0370 1.7159 2.0036 2.0530 0.0000-0.9873 -1.1000 -1.0140 -0.8052 -1.0025 -1.0493 0.0000 0.8789 1.8750 0.9844 0.8852 0.9983 1.1309 Results of Gauss-Seidel Iteration: (Blue numbers are for Jacobi iterations.)

13 It required 15 iterations for Jacobi method and 7 iterations for Gauss-Seidel method to arrive at the solution with a tolerance of 0.00001. The solution is: x 1 = 1, x 2 = 2, x 3 = -1, x 4 = 1

14 Newton’s Iterative Technique Given:

15

16 Jacobian Matrix:

17 Consider the following set of non-linear equation:

18 Make an initial guess:

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23 Example of Gauss-Seidel Iteration

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