A self-contained, remotely operated, mobile measurement system for stand-off inspection of large target objects located at sites distant from an operations center of a distributed inspection system. In accordance with one embodiment, the system comprises a mobile platform with on-board instrumentation capable of making dimensional measurements in the local coordinate system of the target object. The system comprises multiple hardware and software components networked to a control interface that enables the operator at the operations center to teleoperate the equipment, including driving the mobile platform to a region of interest, calibrating the on-board local positioning system, acquiring measurement and image data, and communicating with on-site personnel if needed.

A dialysis machine (e.g., a peritoneal dialysis (PD) machine) can include a pressure sensor mounted at a proximal end of a patient line that provides PD solution to a patient through a catheter. During treatment, an occlusion can occur at different locations in the patient line and/or the catheter. Elastic waves may be generated at a pump that introduces (e.g., for fill cycles) or withdraws (e.g., for drain cycles) the solution into/out of the patient line. For example, when the solution is introduced or withdrawn suddenly, elastic waves travel distally down the patient line until they encounter the occlusion, and are then reflected back (e.g., toward the pressure sensor).

A dialysis machine (e.g., a peritoneal dialysis (PD) machine) can include a pressure sensor mounted at a proximal end of a patient line that provides PD solution to a patient through a catheter. During treatment, an occlusion can occur at different locations in the patient line and/or the catheter. Elastic waves may be generated at a pump that introduces (e.g., for fill cycles) or withdraws (e.g., for drain cycles) the solution into/out of the patient line. For example, when the solution is introduced or withdrawn suddenly, elastic waves travel distally down the patient line until they encounter the occlusion, and are then reflected back (e.g., toward the pressure sensor).

Methods that provide wrinkle characterization and performance prediction for wrinkled composite structures using automated structural analysis. In accordance with some embodiments, the method combines the use of B-scan ultrasound data, automated optical measurement of wrinkles and geometry of cross-sections, and finite element analysis of wrinkled composite structure to provide the ability to assess the actual significance of a detected wrinkle relative to the intended performance of the structure. The disclosed method uses an ultrasonic inspection system that has been calibrated by correlating ultrasonic B-scan data acquired from reference standards with measurements of optical cross sections (e.g., micrographs) of those reference standards.

Methods that provide wrinkle characterization and performance prediction for wrinkled composite structures using automated structural analysis. In accordance with some embodiments, the method combines the use of B-scan ultrasound data, automated optical measurement of wrinkles and geometry of cross-sections, and finite element analysis of wrinkled composite structure to provide the ability to assess the actual significance of a detected wrinkle relative to the intended performance of the structure. The disclosed method uses an ultrasonic inspection system that has been calibrated by correlating ultrasonic B-scan data acquired from reference standards with measurements of optical cross sections (e.g., micrographs) of those reference standards.

There is provided an alignment aid method of an ultrasonic transmitter implemented by means of an alignment aid system. The alignment aid system includes a receiver including a plurality of transducers each configured to receive an ultrasonic wave and convert it into a respective signal, and a processing unit configured to digitally process all the signals coming from the transducers, at least part of the transducers being arranged so as to form a first continuous row of transducers. The system also includes an alignment control device communicating with the processing unit, the alignment control device being configured to supply an indication about the transducer(s) receiving a single ultrasonic wave transmitted by said transmitter along the first row of transducers so as to enable the transmitter to be aligned in relation to the receiver.

There is provided an alignment aid method of an ultrasonic transmitter implemented by means of an alignment aid system. The alignment aid system includes a receiver including a plurality of transducers each configured to receive an ultrasonic wave and convert it into a respective signal, and a processing unit configured to digitally process all the signals coming from the transducers, at least part of the transducers being arranged so as to form a first continuous row of transducers. The system also includes an alignment control device communicating with the processing unit, the alignment control device being configured to supply an indication about the transducer(s) receiving a single ultrasonic wave transmitted by said transmitter along the first row of transducers so as to enable the transmitter to be aligned in relation to the receiver.

There are provided an analyte sensor and an analyte sensing method which provide measurements in a wide phase range, a reduction in size, and lowering of current consumption. That is, in an analyte sensor and an analyte sensing method, a detection element which outputs a detection signal in accordance with a change in mass in a detection portion and a reference element which outputs a reference signal in accordance with a change in mass in a reference portion are provided, a phase change value is determined from the detection signal and the reference signal by heterodyne system, and an amount of detection of a target is calculated.

There are provided an analyte sensor and an analyte sensing method which provide measurements in a wide phase range, a reduction in size, and lowering of current consumption. That is, in an analyte sensor and an analyte sensing method, a detection element which outputs a detection signal in accordance with a change in mass in a detection portion and a reference element which outputs a reference signal in accordance with a change in mass in a reference portion are provided, a phase change value is determined from the detection signal and the reference signal by heterodyne system, and an amount of detection of a target is calculated.

Disclosed is a phased array ultrasound total focusing method in which the ultrasound energy is transmitted as plane waves and the response signals are processed as plane waves. The processing is adaptively corrected to account for geometric variations in the probes and the part being inspected. Methods are disclosed for measuring the geometric variations of the probes and the part.