On the existence of potential landscape in the evolution of complex systems: Research Articles

A recently developed treatment of stochastic processes leads to the construction of a potential landscape for the dynamical evolution of complex systems. Since the existence of a potential function in generic settings has been frequently questioned in literature, here we study several related theoretical issues that lie at core of the construction. We show that the novel treatment, via a transformation, is closely related to the symplectic structure that is central in many branches of theoretical physics. Using this insight, we demonstrate an invariant under the transformation. We further explicitly demonstrate, in one-dimensional case, the contradistinction among the new treatment to those of Ito and Stratonovich, as well as others. Our results strongly suggest that the method from statistical physics can be useful in studying stochastic, complex systems in general. © 2007 Wiley Periodicals, Inc. Complexity 12: 19–27, 2007 This paper was submitted as an invited paper resulting from the “Understanding Complex Systems” conference held at the University of Illinois-Urbana Champaign, May 2005.