Sensor positioning with non-dispersive guided waves for pipeline corrosion monitoring

What is claimed is: 1. An ultrasonic sensor assembly for testing a pipe, the ultrasonic sensor assembly comprising: an array of plural transmitters, each transmitter of the array of transmitters being attached to the pipe and being operatively configured to transmit waves longitudinally along the pipe, the array of transmitters being spaced about the circumference of the pipe; an array of plural receivers, the array of receivers being different from the array of transmitters and spaced longitudinally from the array of transmitters along the pipe, each receiver of the array of receivers being attached to the pipe and being operatively configured to receive the waves that are transmitted along the pipe and operatively configured to output a signal indicative of characteristics of the received waves, the array of receivers being spaced about the circumference of the pipe; and a controller operatively connected to the array of transmitters and operatively connected to the array of receivers, the controller being configured to control the array of transmitters to transmit the waves along the pipe and the controller being configured to process the signals from the array of receivers and being configured to determine a relative circumferential position of at least one of the receivers of the array of receivers with respect to the circumferential position of at least one of the transmitters of the array of transmitters, which is a measure of offset circumferential distance of the at least one of the receivers from longitudinal alignment with the at least one of the transmitters, based on the characteristics of the waves from the at least one transmitters received by the at least one of the receivers. 2. An ultrasonic sensor assembly as set forth in claim 1 , wherein the controller is operatively connected to the array of transmitters via a wired connection. 3. An ultrasonic sensor assembly as set forth in claim 1 , wherein the controller is operatively connected to the array of receivers via a wired connection. 4. An ultrasonic sensor assembly as set forth in claim 1 , wherein the controller is operatively connected to the array of transmitters via a wireless connection. 5. An ultrasonic sensor assembly as set forth in claim 1 , wherein the controller is operatively connected to the array of receivers via a wireless connection. 6. An ultrasonic sensor assembly as set forth in claim 1 , wherein the signals from the array of receivers are indicative of one or more of corrosion, wall thickness, voids and inclusions, and the controller being configured to process the signals from the receivers to determine one or more of corrosion, wall thickness, voids and inclusions. 7. An ultrasonic sensor assembly for testing a pipe, the ultrasonic sensor assembly comprising: a transmitter attached to the pipe and operatively configured to transmit waves along the pipe; a transducer ring attached to the pipe and spaced from the transmitter along a length of the pipe, the transducer ring comprising a plurality of receivers, each receiver operatively configured to receive the waves transmitted from the transmitter and operatively configured to output a signal indicative of characteristics of the waves from the transmitter received by the respective receiver, each of the receivers of the transducer ring being at a circumferential position about the pipe relative to the first transmitter; and a controller operatively connected to the transmitter and operatively connected to receivers of the transducer ring, the controller being configured to control the transmitter to transmit the waves along the pipe and the controller being configured to process the signals from each of the receivers and configured to determine the relative circumferential position of at least one of the receivers of the transducer ring with respect to the circumferential position of the transmitter, which is a measure of offset circumferential distance of the at least one of the receivers from longitudinal alignment with the transmitter, based on the characteristics of the waves from the transmitter received by the receivers.