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Multistep methods previous methods use information at xi to predict yi+1 multistep methods use information from xi-1, xi-2, etc. leads to better results.

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Presentation on theme: "Multistep methods previous methods use information at xi to predict yi+1 multistep methods use information from xi-1, xi-2, etc. leads to better results."— Presentation transcript:

1 Multistep methods previous methods use information at xi to predict yi+1 multistep methods use information from xi-1, xi-2, etc. leads to better results

2 Simple 2nd order method to start Look at Heun method Euler predictor - O(h 2 ) Trapezoid corrector - O(h 3 )

3 To improve predictor, use third order Euler along with same old corrector iterated until converged

4 Can make one more modification - a predictor modifier Comes from error analysis of y i+1 0

5 So sequence is predict adjust prediction correct convereged? if not, correct again

6 Example of non-self starting Heun method Need two initial conditions

7 Non-self starting Heun method is O(h3) accurate in predictor and corrector Uses midpoint method for predictor (open) trapezoid method for corrector (closed) Try higher order methods

8 We have a number of options Newton-Cotes formulas open closed Adams formulas open (Adams-Bashforth) closed (Adams-Moulton)

9 Newton-Cotes approach - Open methods Given can write n is order of interpolating polynomial

10 n=1 (midpoint method) n=2 n=3

11 Newton-Cotes -- Closed methods General form Integral evaluated using closed Newton-Cotes formulas

12 n=1 n=2 (trapezoid rule) (Simpson’s 1/3 rule)

13 Adams formulas Open formulas - Adams Bashforth Example: How to get 2nd order Adams- Bashforth Taylor series rewrite

14 Use backwards difference for derivative and substitute

15 End up with second order Adams-Bashforth with error term Can do the same proceedure on other order Taylor series, other finite differences Get higher order Adams Bashforth

16 General form for Adams-Bashforth The b ’s are listed in your book Example: 4th order

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