Add to ORKGWe consider the inverse boundary value problem in the case of discrete electrical networks containing nonlinear (non-ohmic) resistors. Generalizing work of Curtis, In-german, Morrow, Colin de Verdière, Gitler, and Vertigan, we characterize the circular planar graphs for which the inverse boundary value problem has a solution in this generalized non-linear setting. The answer is the same as in the linear setting. Our method of proof never requires that the resistors behave in a continuous or monotone fashion; this allows us to recover signed conductances in many cases. We apply this to the problem of recovery in graphs that are not circular planar. We also use our results to make a frivolous knot-theoretic statement, and to slightly general...
In this work, we present an algorithm to the recovery of the conductance of a n –dimensional grid. T...
A modified form of Roth's transformation diagram for a linear graph is used to illustrate the soluti...
Abstract. In this paper, we discuss the inverse problem for electrical net-works, and give sufficien...
Abstract. We consider an electrical network where each edge is con-sists of resistor, inductor, and ...
AbstractWe consider circular planar graphs and circular planar resistor networks. Associated with ea...
AbstractWe consider circular planar graphs and circular planar resistor networks. Associated with ea...
We discuss several parametrizations of the space of circular planar electrical networks. For any cir...
In this work, we present an overview of the work developed by the authors in the context of inverse ...
One driving focus in network theory is to understand the inner workings of a network given only inco...
One driving focus in network theory is to understand the inner workings of a network given only inco...
One driving focus in network theory is to understand the inner workings of a network given only inco...
Following de Verdière-Gitler-Vertigan and Curtis-Ingerman-Morrow, we prove a host of new results on...
Abstract. It is known that a critical circular planar network can be recovered if conducitivies are ...
In this work, we present an algorithm to the recovery of the conductance of a n –dimensional grid. T...
In this paper, we discuss the inverse problem of identifying the connectivity and the conductivity o...
In this work, we present an algorithm to the recovery of the conductance of a n –dimensional grid. T...
A modified form of Roth's transformation diagram for a linear graph is used to illustrate the soluti...
Abstract. In this paper, we discuss the inverse problem for electrical net-works, and give sufficien...
Abstract. We consider an electrical network where each edge is con-sists of resistor, inductor, and ...
AbstractWe consider circular planar graphs and circular planar resistor networks. Associated with ea...
AbstractWe consider circular planar graphs and circular planar resistor networks. Associated with ea...
We discuss several parametrizations of the space of circular planar electrical networks. For any cir...
In this work, we present an overview of the work developed by the authors in the context of inverse ...
One driving focus in network theory is to understand the inner workings of a network given only inco...
One driving focus in network theory is to understand the inner workings of a network given only inco...
One driving focus in network theory is to understand the inner workings of a network given only inco...
Following de Verdière-Gitler-Vertigan and Curtis-Ingerman-Morrow, we prove a host of new results on...
Abstract. It is known that a critical circular planar network can be recovered if conducitivies are ...
In this work, we present an algorithm to the recovery of the conductance of a n –dimensional grid. T...
In this paper, we discuss the inverse problem of identifying the connectivity and the conductivity o...
In this work, we present an algorithm to the recovery of the conductance of a n –dimensional grid. T...
A modified form of Roth's transformation diagram for a linear graph is used to illustrate the soluti...
Abstract. In this paper, we discuss the inverse problem for electrical net-works, and give sufficien...