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Lipschitz Continuous Ordinary Differential Equations are Polynomial-Space Complete

Published 26 Apr 2010 in cs.CC, cs.NA, and math.CA | (1004.4622v1)

Abstract: In answer to Ko's question raised in 1983, we show that an initial value problem given by a polynomial-time computable, Lipschitz continuous function can have a polynomial-space complete solution. The key insight is simple: the Lipschitz condition means that the feedback in the differential equation is weak. We define a class of polynomial-space computation tableaux with equally weak feedback, and show that they are still polynomial-space complete. The same technique also settles Ko's two later questions on Volterra integral equations.

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