On the error of a priori sampling: zero forcing sets and propagation time
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Zero forcing is an iterative process on a graph used to bound the maximum nullity. The process begins with select vertices as colored, and the remaining vertices can become colored under a specific color change rule. The goal is to find a minimum set of vertices such that after iteratively applying the rule, all of the vertices become colored (i.e., a minimum zero forcing set). Of particular interest is the propagation time of a chosen set which is the number of steps the rule must be applied in order to color all the vertices of a graph. We give a purely linear algebraic interpretation of zero forcing: Find a set of vertices S such that for any weighted adjacency matrix A, whenever Ax = 0, the entirety of of x can be recovered using only x_S, the entries corresponding to S. The key here is that S must be chosen before A. In this light, we are able to give a linear algebraic interpretation of the propagation time: Any error in x_S effects the error of x exponentially in the propagation time. This error can be quantitatively measured using newly defined zero forcing-related parameters, the error polynomial vector and the variance polynomial vector. In this sense, the quality of two zero forcing sets can objectively be compared even if the sets are the same size and their propagation time is the same. Examples and constructions are given.
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