A system has an actuator with a first surface and a second surface, the first surface being offset a step dimension from the second surface. A sensor is configured to measure a distance between the sensor and both the first surface and the second surface via a signal received by the sensor after having reflected off the first surface or the second surface. The step dimension is greater than a minimum dimension, which is defined in view of a medium through which the actuator moves and a frequency of the signal.

A surface detection method of the present disclosure firstly establishes at least one ultrasonic image model and at least one optical image model, and then respectively compares a tested ultrasonic image and a tested optical image of a test object to obtain two comparison results after acquiring the tested ultrasonic image and the tested optical image of the test object, so as to achieve an objective of surface detection. The present disclosure not only can obtain an accurate detection result, but also reduce the much detection time, therefore being suitable for the application of the automatically continuous processing process. Accordingly, the present disclosure provides a relatively positive and reliable means for preventing from the continuous production of fault products, and for monitoring the availability of the production processing line device.

The defect inspection device is provided with a sound wave excitation unit for exciting a sound wave having a time waveform represented by a continuous periodic function to a prescribed position on the surface of an object to be measured, a displacement amount measurement unit for measuring a periodically varying displacement amount generated by the propagation of the sound wave from the prescribed position through the surface at at least three different phases of the periodic variation, and a periodic function acquisition unit for determining a periodic function expressing the periodic variation of the physical quantity on the basis of the displacement amount at the at least three different phases.

The present apparatus is configured to carry an instrument or probe and optionally deploy it against a surface, such as a metal pipeline or storage tank. The apparatus can include a sensor probe for inspecting the integrity of the surface and a first linkage that is operatively coupled to the sensor probe and configured to move the sensor probe according to a first path (in a first direction/first degree of freedom). An actuator can be operatively connected to the first linkage for moving the first linkage so as to move the sensor probe along the first path. A second linkage is operatively connected to the sensor probe and configured to passively move the sensor probe according to a second degree of freedom to cause the sensor probe to become normal to the surface when at least a portion of the apparatus contacts the surface.

A photoacoustic microscope includes a light source, an objective lens, a light scanner, a photoacoustic wave detector, and a calculation unit. The light source emits excitation light. The objective lens focuses the excitation light within a specimen. The light scanner scans the specimen with the excitation light. The photoacoustic wave detector detects photoacoustic waves. The calculation unit uses a correlation coefficient to calculate a shift in waveform due to a change over time in photoacoustic waves between a standard position and a calculation position. The calculation unit calculates the depth from the standard position at the calculation position based on the shift.

A sensor can include a plurality of imaging components configured to perform (1) subsurface imaging by acoustical excitation and optical detection, and (2) interferometric surface topographic measurement.

A system has an actuator with a first surface and a second surface, the first surface being offset a step dimension from the second surface. A sensor is configured to measure a distance between the sensor and both the first surface and the second surface via a signal received by the sensor after having reflected off the first surface or the second surface. The step dimension is greater than a minimum dimension, which is defined in view of a medium through which the actuator moves and a frequency of the signal.

A method for examining a value document includes emitting ultrasonic pulses onto several locations on the value document. An echo pulse arises by reflection of at least a portion of a respective ultrasonic pulse at the value document. The echo pulses are received while forming echo values, and from the echo values at least a characteristic value is established as to the wrinkledness of the value document. As apparatus is provided for carrying out the method.

In order to detect a road surface condition, a road surface condition estimation device extracts a detection signal of a portion that detects vibration in a tire tangential direction in a vibration detection and power generation unit which is in a ground contact section, for example, a vibration power generation element. In this case, it is identified that the vibration detection and power generation unit is in the ground contact section, based on whether a centrifugal force acting on the vibration detection and power generation unit is generated, or not, and it is identified that a time when no centrifugal force is generated is in the ground contact section. As a result, even if a pulse level of an output voltage of the vibration detection generation unit changes according to a traveling speed of the vehicle, the ground contact section can be accurately identified.

The present invention relates to a device for detecting deposits in a reflection area inside a liquid-bearing system comprising an ultrasonic transducer for emitting an ultrasonic emission signal towards the reflection area and a first detection means for detecting an ultrasonic reflection signal obtained by reflection of the ultrasonic emission signal in the reflection area, wherein a second detection means is disposed in the reflection area, the second detection means being configured to detect a specific kind of deposit.