Abstract: A method and apparatus for valve position state estimation within a conduit or conduit network, comprising: acoustically coupling a plurality of acoustic sensors to a fluid disposed within the conduit or conduit network, wherein one of the plurality of acoustic sensors is disposed upstream of a valve under test and one of the plurality of acoustic sensors is disposed downstream of the valve under test; transmitting a structured acoustic signal from a transmitting acoustic sensor to a receiving acoustic sensor, wherein the structured acoustic signal passes through the valve under test between the transmitting acoustic sensor and the receiving acoustic sensor; at the transmitting acoustic sensor, receiving a reflected structured acoustic signal after the structured acoustic signal is reflected from the valve under test; and, using a two-port analysis, characterizing a flow state of the valve under test based on the structured acoustic signal received at the receiving acoustic sensor and the reflected structured

Abstract: Pipeline networks are ubiquitous for transporting fluids. Failure modes may result in a wide spectrum of negative effects ranging from energy loss to revenue loss to catastrophic failure with loss of life. The present invention introduces innovative technology to detect, identify and locate events representing failure modes and/or precursors to failure modes within a pipeline network. The present invention addresses the issues with the prior art based on the following innovations—exploiting the signal processing enabled by detecting a passive acoustic signal in conjunction with both an active reflected acoustic signal and an active transmitted acoustic signal within a pipeline segment. These measurements can be aggregated to reduce the effects of ambient noise and improve the invention's ability to detect, identify and locate anomalous events representing failure modes and/or precursors to failure modes within a pipeline network.

Abstract: Pipeline networks are ubiquitous for transporting fluids. Failure modes may result in a wide spectrum of negative effects ranging from energy loss to revenue loss to catastrophic failure with loss of life. The present invention introduces innovative technology to detect, identify and locate events representing failure modes and/or precursors to failure modes within a pipeline network. The present invention addresses the issues with the prior art based on the following innovations—exploiting the signal processing enabled by detecting the passive acoustic signal in conjunction with both an active reflected acoustic signal and an active transmittive acoustic signal within a pipeline segment. These measurements can be aggregated to reduce the effects of ambient noise and improve the invention's ability to detect, identify and locate anomalous events representing failure modes and/or precursors to failure modes within a pipeline network.