Название | Multi-parametric Optimization and Control |
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Автор произведения | Efstratios N. Pistikopoulos |
Жанр | Математика |
Серия | |
Издательство | Математика |
Год выпуска | 0 |
isbn | 9781119265191 |
2.1.1 Local Properties
Consider a fixed, nominal point
(2.3a)
(2.3b)
Remark 2.3
In the case where the set
Together with the equality constraints, which have to be satisfied for any
(2.4a)
(2.4b)
(2.4c)
Note that
(2.5a)
(2.5b)
(2.5c)
Based on Eq. (2.5), the following statements regarding the solution around
The optimization variables are affine functions of the parameter .
In the case of mp‐LP problems, the values of the Lagrange multipliers and do not change as a function of around a nominal point .
The square matrix is invertible since the SCS and LICQ conditions of Chapter 1 have to hold.
In order for Eq. (2.5) to remain the optimal solution around a nominal point , it needs to be feasible, i.e.(2.6a) (2.6b) Note that since the values of the Lagrange multipliers do not change as a function of , the optimality requirement from the Karush‐Kuhn‐Tucker conditions can be omitted from the construction of the feasible region.
Thus, the optimal solution of problem (2.2) around
Based on Eq. (2.7), the following Lemmata result:
Lemma 2.1
Every critical region is uniquely defined by its active set.
Proof
By inspection of Eq. (2.7), it is clear that the differences between any two critical regions are the values of
Lemma 2.2
The maximum number of critical regions,
(2.8)
Proof
Consider