358 research outputs found
From Symmetry to Geometry: Tractable Nonconvex Problems
As science and engineering have become increasingly data-driven, the role of
optimization has expanded to touch almost every stage of the data analysis
pipeline, from the signal and data acquisition to modeling and prediction. The
optimization problems encountered in practice are often nonconvex. While
challenges vary from problem to problem, one common source of nonconvexity is
nonlinearity in the data or measurement model. Nonlinear models often exhibit
symmetries, creating complicated, nonconvex objective landscapes, with multiple
equivalent solutions. Nevertheless, simple methods (e.g., gradient descent)
often perform surprisingly well in practice.
The goal of this survey is to highlight a class of tractable nonconvex
problems, which can be understood through the lens of symmetries. These
problems exhibit a characteristic geometric structure: local minimizers are
symmetric copies of a single "ground truth" solution, while other critical
points occur at balanced superpositions of symmetric copies of the ground
truth, and exhibit negative curvature in directions that break the symmetry.
This structure enables efficient methods to obtain global minimizers. We
discuss examples of this phenomenon arising from a wide range of problems in
imaging, signal processing, and data analysis. We highlight the key role of
symmetry in shaping the objective landscape and discuss the different roles of
rotational and discrete symmetries. This area is rich with observed phenomena
and open problems; we close by highlighting directions for future research.Comment: review paper submitted to SIAM Review, 34 pages, 10 figure
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