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<math>\therefore \ Constraint: 2u(0) + 2u(1) + 2u(2) = 6 </math> | <math>\therefore \ Constraint: 2u(0) + 2u(1) + 2u(2) = 6 </math> | ||
| + | Let <math>f(u) = u^2(0) + u^2(1) + u^2(2), h(u) = 2u(0) + 2u(1) + 2u(2) - 6 </math> | ||
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| + | Let u* be a local minimizer. Lagrange theorem says there exists a λ such that: | ||
| + | |||
| + | <math>\nabla f(u*) + \lambda \nabla h(u*) = 0 \\ | ||
| + | h(u*) = 0 </math> | ||
[[ QE2013 AC-3 ECE580|Back to QE2013 AC-3 ECE580]] | [[ QE2013 AC-3 ECE580|Back to QE2013 AC-3 ECE580]] | ||
Revision as of 10:47, 27 January 2015
QE2013_AC-3_ECE580-4
(i)
Solution:
$ x(3) = x(2) + 2u(2) = x(1) + 2u(1) + 2u(2) = x(0) + 2u(0) + 2u(1) + 2u(2) $
$ \because x(0) = 3, x(3) = 9 $
$ \therefore \ Constraint: 2u(0) + 2u(1) + 2u(2) = 6 $
Let $ f(u) = u^2(0) + u^2(1) + u^2(2), h(u) = 2u(0) + 2u(1) + 2u(2) - 6 $
Let u* be a local minimizer. Lagrange theorem says there exists a λ such that:
$ \nabla f(u*) + \lambda \nabla h(u*) = 0 \\ h(u*) = 0 $ Back to QE2013 AC-3 ECE580
