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arxiv: 2508.16561 · v1 · pith:A6ZXLEECnew · submitted 2025-08-22 · 🧮 math.OC

Complexity Analysis of the Regular Simplicial Search Method with Reflection and Shrinking Steps for Derivative-Free Optimization

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keywords complexitymethodsimplex-typeworst-casealgorithmanalysisboundsconvergence
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Simplex-type methods, such as the well-known Nelder-Mead algorithm, are widely used in derivative-free optimization (DFO), particularly in practice. Despite their popularity, the theoretical understanding of their convergence properties has been limited, and until very recently essentially no worst-case complexity bounds were available. Recently, Cao et al. provided a sharp error bound for linear interpolation and extrapolation and derived a worst-case complexity result for a basic simplex-type method. Motivated by this, we propose a practical and provable algorithm -- the regular simplicial search method (RSSM), that incorporates reflection and shrinking steps, akin to the original method of Spendley et al. We establish worst-case complexity bounds in nonconvex, convex, and strongly convex cases. These results provide guarantees on convergence rates and lay the groundwork for future complexity analysis of more advanced simplex-type algorithms.

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