The Hairy Ball problem is PPAD-complete
Copyright policy )The Hairy Ball problem is PPAD-complete
The Hairy Ball Theorem states that every continuous tangent vector field on an even-dimensional sphere must have a zero. We prove that the associated computational problem of (a) computing an approximate zero is PPAD-complete, and (b) computing an exact zero is FIXP-hard. We also consider the Hairy Ball Theorem on toroidal instead of spherical domains and show that the approximate problem remains PPAD-complete. On a conceptual level, our PPAD-membership results are particularly interesting, because they heavily rely on the investigation of multiple-source variants of END-OF-LINE, the canonical PPAD-complete problem. Our results on these new END-OF-LINE variants are of independent interest and provide new tools for showing membership in PPAD. In particular, we use them to provide the first full proof of PPAD-completeness for the IMBALANCE problem defined by Beame et al. in 1998.
Journal version
- Department of Computer Science University of Oxford United Kingdom
- Department of Computer Science Spain
- University of Oxford United Kingdom
- University of Oxford
- University of Oxford
FOS: Computer and information sciences, end-of-line problem, Computational Complexity, computational complexity, TFNP, Computational Complexity (cs.CC), 004, 510, Computer Science - Computational Complexity, Computer Science - Computer Science and Game Theory, End-of-Line, Computational difficulty of problems (lower bounds, completeness, difficulty of approximation, etc.), PPAD, Fixed-point theorems on manifolds, Computer Science and Game Theory (cs.GT), ddc: ddc:004
FOS: Computer and information sciences, end-of-line problem, Computational Complexity, computational complexity, TFNP, Computational Complexity (cs.CC), 004, 510, Computer Science - Computational Complexity, Computer Science - Computer Science and Game Theory, End-of-Line, Computational difficulty of problems (lower bounds, completeness, difficulty of approximation, etc.), PPAD, Fixed-point theorems on manifolds, Computer Science and Game Theory (cs.GT), ddc: ddc:004
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