Sufficient conditions for error bounds

Zili Wu; Jane J. Ye

doi:10.1137/S1052623400371557

Sufficient conditions for error bounds

Zili Wu^*, Jane J. Ye

^*Corresponding author for this work

University of Victoria BC

Research output: Contribution to journal › Article › peer-review

47 Citations (Scopus)

Abstract

For a lower semicontinuous (l.s.c.) inequality system on a Banach space, it is shown that error bounds hold, provided every element in an abstract subdifferential of the constraint function at each point outside the solution set is norm bounded away from zero. A sufficient condition for a global error bound to exist is also given for an l.s.c. inequality system on a real normed linear space. It turns out that a global error bound closely relates to metric regularity, which is useful for presenting sufficient conditions for an l.s.c. system to be regular at sets. Under the generalized Slater condition, a continuous convex system on Rⁿ is proved to be metrically regular at bounded sets.

Original language	English
Pages (from-to)	421-435
Number of pages	15
Journal	SIAM Journal on Optimization
Volume	12
Issue number	2
DOIs	https://doi.org/10.1137/S1052623400371557
Publication status	Published - 2002
Externally published	Yes

Keywords

Abstract subdifferentials
Error bounds
Generalized Slater condition
Inequality systems
Metrical regularity

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10.1137/S1052623400371557

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AB - For a lower semicontinuous (l.s.c.) inequality system on a Banach space, it is shown that error bounds hold, provided every element in an abstract subdifferential of the constraint function at each point outside the solution set is norm bounded away from zero. A sufficient condition for a global error bound to exist is also given for an l.s.c. inequality system on a real normed linear space. It turns out that a global error bound closely relates to metric regularity, which is useful for presenting sufficient conditions for an l.s.c. system to be regular at sets. Under the generalized Slater condition, a continuous convex system on Rn is proved to be metrically regular at bounded sets.

KW - Abstract subdifferentials

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KW - Generalized Slater condition

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Sufficient conditions for error bounds

Abstract

Keywords

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