Abstract: A multi-frequency bond-testing system using acoustic probes in conjunction with NDT/NDI inspection instruments. Bond-testing of test objects is carried out at multiple discrete frequencies to produce a single, combined amplitude C-scan. Alternatively, or in combination, the system provides a single, combined phase C-scan to enable proper interpretation of the C-scans. Amplitude and/or phase readings on test objects are normalized at the selected frequencies relative to tests performed on a defect-free object at those frequencies. In this manner, the non-linear behavior of a bond-testing probe over a frequency range chosen for a given inspection is compensated for. The invention enables providing more easily interpretable and sharper images which enable a more reliable and faster reading and identification of defects in the test objects.

Abstract: An insulator inspection tool and method for identifying defects or conditions that may prevent the insulator from performing properly is disclosed. The apparatus includes a launcher adapted to launch a projectile towards an insulator being tested, a listening device adapted to receive a response signal from the insulator upon being struck by the projectile, and a processing device adapted to measure the response signal received by the listening device and process the response signal to determine whether the insulator contains any defects or conditions.

Abstract: A rail condition monitoring carriage for use on a railroad track is provided, including at least one frame movable along the railroad track, an ultrasonic rail condition monitor disposed on the at least one frame and configured for ultrasonically monitoring condition of the railroad track and transmitting the condition data to a remote location, a gage measurement device disposed on the at least one frame for monitoring a gage value of the track, collecting gage data and transmitting the gage data to the remote location, and a control system connected to the rail condition monitor and the gage measurement device for receiving the collected data and evaluating same.

Abstract: A system may include a data analysis device that is configured to receive from an ultrasonic waveform detector ultrasonic waveform data representative of an ultrasonic waveform that propagated through a sample and resonated within a defect within the sample. The data analysis device may be further configured to select a portion of the ultrasonic waveform data, apply a Fast Fourier Transform to the portion of the ultrasonic waveform data to transform the portion from a time domain to a frequency domain, identify a characteristic frequency of the portion in the frequency domain, and determine a characteristic of the defect based on the characteristic frequency of the portion. In some examples, the characteristic of the defect may be at least one of an approximate size or an approximate shape of the defect.

Abstract: The invention relates to the non-destructive measurement of components, in particular the functional assessment of the bonding of cast-in parts, eg. in pistons for internal combustion engines. With such a measurement or functional assessment, it is a question of assessing the function and completeness of the bonding between the base material and the material cast in or otherwise joined. The quality of the component or its suitability for a specific purpose can thus be assessed and/or quality monitoring of the production process, e.g. in the foundry or during production, can take place. According to the invention, this purpose is served by a multi-stage correction procedure, wherein the measured values ascertained by means of a suitably devised measuring arrangement and method, e.g.

Abstract: In the method of these teachings for detection of physical phenomena from or analysis of physical signals, an improved Empirical Mode Decomposition method decomposes physical signals representative of a physical phenomenon into components.

Abstract: A method of detecting defects in a rolling bearing (10). The method includes acquiring a time-domain vibration signal An; filtering said time-domain vibration signal An; and then resolving it to obtain a deterministic time-domain vibration signal Fn and a random time-domain vibration signal Gn. Thereafter, the time-domain vibration signals Fn and Gn are transformed respectively into a deterministic frequency-domain vibration signal Jn and into a random frequency-domain vibration signal Kn, and then, for each element (11, 12, 13) and for each frequency-domain vibration signal Jn, Kn, a defect-presence frequency {circumflex over (?)} is determined corresponding to a maximum probability of the presence of a defect in said element (11, 12, 13) and to an associated reliability level p({circumflex over (?)}).

Abstract: A non-contact/non-destructive technique for determining the mechanical properties of coated drug tablets is presented. One method is to detect, monitor and characterize a drug tablet during compaction by means of transmitting and receiving acoustic waves into the powder core, as it is formed in a press (compactor), via transducers embedded in the compactor die and punches. An iterative computational procedure is shown that extracts the mechanical properties of the coated tablet from a subset of its measured resonance frequencies. Sensitivities of the resonance frequencies to changes in the tablet mechanical properties is illustrated and discussed. These non-destructive techniques require no physical contact with the tablet and operate in the microsecond time-scale. Therefore, they can be employed for rapid monitoring and characterization applications.

Abstract: A system and method of signal detection from a given point, in which a radiative aperture, such as a sonar sensor, radar antenna, acoustic sensor, or the like, receives radiation from the point at more than one range. At each range, the signal incident on each point within the aperture is weighted by the cosine of the angle between a surface normal at the point on the aperture, and a vector from the point on the aperture to the given point. The physical size and shape of the aperture may also be changed to cause the aperture to subtend the same solid angle having the given point as the vertex, at each range. In this manner, the signal from the given point becomes aperture shape independent, facilitating object recognition and imaging.

Abstract: A method of producing a temperature model of a surface of an object using ultrasonic transducers comprises the steps of iteratively adjusting a temperature model by using measured travel times of ultrasonic waves and their predictions model-based. The ultrasonic waves used for producing the temperature model are preferably substantially non-dispersive ultrasonic waves. The method may further involve a height model of the surface, which height model is produced using substantially dispersive ultrasonic waves and is corrected by using the temperature model.

Abstract: An object is to detect an abnormality when the inside of a gas cutoff apparatus is submerged. A flow rate computing unit 15 computes an instantaneous flow rate from a detected value of a flow rate detecting unit 8 for measuring a flow rate, and an amplification degree determining unit 18 determines signal amplification adjusted by the flow rate detecting unit 8, and timing is started when the amplification degree is a predetermined value or more, and a measurement condition setting unit 16 sets a measurement condition of the flow rate detecting unit 8 from the flow rate obtained by the flow rate computing unit 15, and a measurement ratio computing unit 20 obtains a measurement condition ratio during predetermined time from a time measuring unit 19 and the measurement condition setting unit 16, and it is determined that the flow rate detecting unit 8 is abnormal when the measurement ratio is a predetermined ratio or more, and a cutoff unit 22 breaks supply of gas.

Abstract: Methods and apparatus for non-destructive testing of a composite structure utilizing sonic or ultrasonic waves. In response to a wideband chirp wave sonic excitation signal transmitted from a probe to the composite structure, a probe signal received is correlated with a library of predetermined probe signals and a graphical representation of defects detected is generated. The graphical representation provides detailed information on defect type, defect location and defect shape.

Abstract: Embodiments relate systems and methods for detecting machine faults in a network using acoustic monitoring. In embodiments, one or more servers, clients, or other machines in a managed network can have a microphone or other acoustic sensor integrated into motherboard or other hardware. The sensor can sample acoustic signals from inside or near the machine, and can digitize that data. The resulting set of acoustic data can be transmitted to a management server or other destination for analysis of the operating sounds related to that machine. For instance, the acoustic data can be analyzed to detect indications of a failed or failing hard drive, for instance by detecting spindle whine or head movement noises, or a failed or failing power supply based on other sounds. The management server can respond to potential fault events for instance by issuing configuration commands, such as instructions to power down the malfunctioning component.

Abstract: High-quality and high-speed electronic pen drawing performance is ensured without being affected by noise of an ultrasonic signal which is generated by an apparatus using ultrasonic such as a motion detector. In an ultrasonic receiver for use in ultrasonic propagation time measurement, an external environment noise is measured to first determine a frequency. Thereafter, centered around the frequency, a band elimination filter having a several kHz band is structured as software to again measure an external environment noise. This sequence is repeated until a signal intensity lowers below a predetermined value. When the signal intensity fails to lower below the predetermined value even after a predetermined number of repetitions of the sequence, a transmission output on the side of an electronic pen as an ultrasonic transmission source is increased or an ultrasonic oscillation frequency is changed.

Abstract: An apparatus and method for determining a condition of a cutter coupled to a drill bit is disclosed. A support is configured to dispose the drill bit and the cutter at a selected location. A positioning device positions an ultrasonic transducer relative to the drill bit. The ultrasonic transducer and generates an ultrasonic pulse. A reflection of the ultrasonic pulse at a reflective surface of the cutter is obtained at the ultrasonic transducer. A processor receives the reflected pulse and forms an image of the reflective surface of the cutter using the reflected ultrasonic pulse while the cutter is coupled to the drill bit.

Abstract: A method is provided for assessment of quality of an adhesively-bonded lap joint, wherein the joint includes a first metal plate, a second metal plate and an adhesive therebetween. The method includes sending ultrasonic waves normally to the surface of a sample outside of the joint where the sample has a first sample metal plate with the same properties as does the first metal plate at an assessment point of the joint. Reflected waves from the sample joint as a reference waveform are recorded. Wideband ultrasonic waves are sent normally to the surface of the joint at the assessment point. Reflected waves of the ultrasonic waves from the joint are recorded. A waveform of the reflected waves from the joint and reference waveform are analyzed to determine an informative parameter. The informative parameter is compared with a threshold value to assess quality of the joint.

Abstract: A non-contact testing system and method using acoustic sensors and a mobile sensing system using this system and method is disclosed. The leaky surface wave is recorded with directional microphones. A fast inversion analysis algorithm is introduced to estimate the shear velocity profile and elastic modulus for the subsurface layers of pavement structures, using the dispersion curves obtained from the acoustic signals. An electrical hammer is used to produce impact impulses automatically. A mobile sensing system is integrated on a mobile cart to perform the mobile subsurface sensing for pavement structures.

Abstract: A method of monitoring integrity of a pump. The method may include recording timing information of the pump during operation while simultaneously sampling acoustic data with a high speed equidistant acquisition mechanism or at a rate based on the speed of the pump in operation. The acquisition of acoustic data is followed by evaluation thereof. Such techniques may improve resolution of acquired data while substantially increasing processor capacity for evaluation. A pump integrity monitor for carrying out such techniques is also described.

Abstract: A method for performing condition monitoring on a plurality of wind turbines arranged in a wind farm is disclosed. The method comprises the steps of: for each wind turbine, obtaining at least one vibration signal, each vibration signal representing vibrations of one or more monitored components of the wind turbine, e.g. moving gear parts or bearings; generating a plurality of faulty frequency indexes, each faulty frequency index corresponding to a monitored component, each faulty frequency index being generated on the basis of one or more of the obtained vibration signals, and each faulty frequency index being generated in such a manner that variations in the vibration signals introduced by variations in rotational speed of one or more rotating shafts of the wind turbine are filtered out; comparing faulty frequency indexes originating from different wind turbines of the wind farm; and based on the comparing step, evaluating the condition of each of the monitored components of the plurality of wind turbines.

Abstract: A computing device includes a communication interface for receiving a plurality of signals from a first probe positioned on a first observation plane of a machine component and a second probe that is positioned on a second observation plane of the machine component, wherein the plurality of signals are representative of data from the machine component. A processor coupled to the communication interface is programmed to combine the signals received from the first and second probes to generate a plurality of displacement responses that correspond to a plurality of frequencies of a speed of the machine component. The processor is also programmed to transform the signals to eliminate a plurality of split resonance effects. The processor may also generate data representative of an output of the data received from the signals to identify a type of at least one fault within the machine component.

Abstract: An inspection method includes driving a plurality of spaced apart transmitting transducer elements with a respective time delay and a respective frequency such that each of the transmitting transducer elements transmits an ultrasonic guided wave through a transmission medium defined by a material having at least one unknown physical property. The ultrasonic guided waves are received at a receiving transducer element disposed at a distance from the transmitting transducer elements. A respective time delay and a respective frequency for each of the transmitting transducer elements is determined that provides a maximum amplitude in a signal received at the receiving transducer element. The plurality of transmitting transducer elements are activated in accordance with the determined time delays and frequencies to transmit inspection signals through the transmission medium.

Abstract: A method and apparatus for three-dimensional visualization and analysis for automatic non-destructive examination of a solid Rotor using ultrasonic phased array is disclosed. Data is acquired by scanning a solid rotor with a phased array ultrasound transducer producing a plurality of two dimensional ultrasound scans. Each of a plurality of sample points of a plurality of two dimensional ultrasound scans are associated with a corresponding 3D image point of a regular grid. A kernel function for each of the plurality of sample points defining a size and shape of a kernel located at the corresponding image point is determined. A weight is assigned to each kernel which, in one embodiment, is based on the sample point value. A value for each image point of the regular 3D grid is determined based on kernels overlapping each image point. A three-dimensional volume representing the solid rotor is then visualized.

Abstract: A mechanical seal monitoring system and method that measure the wear of seal faces of a mechanical seal where the mechanical seal seals a rotating machine portion from another portion of the machine. The system preferably uses a wear probe movable relative to a rotating seal component so that the wear probe can contact the rotating component. The wear of the seal is preferably determined by the relative movement that is required for the wear probe to contact the rotating component. Preferably, stress waves induced by the rubbing between the probe and the rotating component are detected by a stress-wave sensor, processed by a signal processor, and either displayed to the user numerically or reported to a monitoring computer. A signal intensity comparison method is preferably used to make the detection process insensitive to background noise generated by sources other than the contact of the wear probe and the rotating component.

Abstract: Disclosed is an ultrasonic phased array non-destructive inspection system that includes a PA probe, a conventional PA inspection unit and a refraction angle verification unit. The PA inspection unit is employed to emit ultrasonic angle beams into an AWS IIW Block and to receive a set of corresponding echo signals reflected from the calibration block and to provide time-of-flight (TOF) values corresponding to each angle beam. The refraction angle verification unit then provides a true angle for each of the angle beams based on the ultrasonic and geometric characteristics of the block and the measured TOF values. Other calibration blocks such as the DSC and Nayships blocks can also be used for this purpose.

Abstract: A method for assessing the integrity of a rock mass, the method including impacting the rock mass, capturing an acoustic signal generated as a result of the impact, deriving a frequency distribution for the captured acoustic signal, processing data from the frequency distribution by means of a neural network process applying artificial intelligence to assess the inputted data, and presenting a signal from the neural network process which is indicative of the integrity of the rock mass.

Abstract: In a method for assessing a condition of at least one value document with regard to limpness, there is determined from transmission values representing the ultrasound transmission at different places on the value document a condition value which depends on a variation of the transmission values and characterizes the condition of the value document with regard to limpness. A condition of the value document is determined for the condition value using a preset criterion.

Abstract: A hull inspection system useable for inspecting a hull of a maritime vessel passing a water volume at a first velocity, the system comprising: pulse emitting means, for being placed in the water volume and for emitting energy pulses into said water volume; sensing means, for being placed in the water volume, and being connected to the pulse emitting means, for sensing and measuring travelling time of energy pulses reflected by the passing vessel; a sensor data processing unit; connected to the sensing means, for processing data from the sensor means; a vessel data furnishing unit, connected to the sensor data processing unit, for providing vessel velocity data to the sensor data processing unit; wherein a three-dimensional representation of the hull of the maritime vessel is created based on data acquired by a procedure involving combination of data from a number of consecutive sensing means linear scans, and wherein the consecutive linear scans are acquired at consecutive moments in time, thereby enabling cr

Abstract: A system for use in determining a location of a defect in an object is provided. The system includes an ultrasonic phased array configured to provide a sector scan of the object, a display, and a processor. The processor is programmed to provide a volume-corrected view of a sector of an ultrasonic inspection of the object on the display, wherein the object has a first surface defined by a first radius and a second surface defined by a second radius that is shorter than the first radius, receive gate parameters of a gate used to measure a location of a reflection of a beam emitted from the ultrasonic phased array, wherein the reflection is indicative of a defect on the first surface or the second surface, and calculate a location of the defect using the gate.

Abstract: An ultrasonic pulse is transmitted through a crimping tool that compresses a ferule circumscribing a braided multiple strand wire, thereby forming a crimp therebetween. A first received pulse is received from the first transmitted pulse after passage through the crimp. Data is collected from a first transmit window divided into a series of user-defined time periods that include the first transmitted pulse, a delay period following the first transmitted pulse, the first received pulse, and a lag period that extends from the end of the first received pulse to a second transmitted pulse that initiates a second transmit window. The lag period includes a second received pulse generated by delayed signals received from the first transmitted pulse and dead periods that occur before and after the second received pulse, the dead periods substantially lacking signal information from the first transmitted pulse.

Abstract: An apparatus and a method for ultrasonic testing obtains high-resolution and high-S/N ratio testing results by driving a number of piezoelectric elements using fewer pulsers and receivers in comparison with the number of elements composing an array transducer. A sensor information setter sets a plurality of piezoelectric element groups used for transmission and a plurality of piezoelectric element groups used for reception among the plurality of piezoelectric elements composing an ultrasonic array transducer. A computer transmits an ultrasonic wave from the element cluster set for transmission, and stores an ultrasonic wave received by the element cluster set for reception. The procedure is repeated including different element cluster sets for transmission and reception to obtain first receive signals. The first receive signals are summed to obtain a second receive signal; and the second receive signal is displayed with reference to the sensor center position on a display unit.

Abstract: An example component inspection method includes directing a wave from a curved array of transducer elements toward a component. The method forms the wave using focal law calculator software.

Abstract: The damage length measurement system has an object being measured that comprises a plurality of members is vibrated by an oscillator, and the vibration that propagates through the object being measured is detected by three sensors. A measurement apparatus analyzes that vibration wave, and measures the arrival time of the maximum peak. Using the fact that the time for a wave to propagate between two vibration detection sensors separated by a set interval is fixed, the measurement apparatus determines whether the difference in arrival time between two sensors is within a set reference range that includes the vibration propagation time between two vibration sensors. When the measurement apparatus determines that the difference is not within the set reference range, uses the fact that that wave is delayed compared to the wave that was to be detected.

Abstract: A method of manufacture for a portable computing device is described. In particular, methods and apparatus for assessing a quality of weld joints used to connect one or more components of the portable computing device are described. The weld joints can include one or more weld points. At a weld check station, using a vector network analyzer, a test signal generated can be passed through the weld joint and a response signal can be measured. The measured characteristics can be used to assess a quality of the weld joint. In one embodiment, the vector network analyzer can be used to generate a number of high frequency test signals that are passed through the weld to perform a time domain reflectometry measurement where the weld joint can be accepted or rejected based upon the measurement.

Abstract: The invention is directed to an ultrasonic inspection method, an ultrasonic test method, and an ultrasonic inspection apparatus that enable sizing to be executed even for a minute defect using an ultrasonic wave. A holder holds a transmitting probe for executing an angle beam method and a receiving probe for executing a vertical beam method. A motor and a guide rail form a movement mechanism for the transmitting probe and the receiving probe. In an ultrasonic test mode, the transmitting probe executes the angle beam method and transmits and receives an ultrasonic wave. In a sizing mode, the transmitting probe transmits an ultrasonic wave and the receiving probe receives this wave. A tip echo of a wave diffracted from a tip of a defect on a sample and a corner echo reflected from a corner of the defect are measured from a waveform received by the receiving probe.

Abstract: An apparatus and method device for measuring at least one property of a board product, such as a paperboard product which includes a transmitter for applying a vibrational excitation to at least one region of the board product. The excitation includes a plurality of frequencies lying within a predetermined frequency range. The apparatus further includes a receiver for measuring a vibrational response of the board product to the vibrational excitation. A processor processes the measured vibrational response to obtain a frequency response of the region of the board product to the excitation, and analyzes the frequency response to determine a measure of at least one property of the board product.

Abstract: A computer control system and method is disclosed. Such a system may include a processor and an ultrasonic area-array sensor configured to receive a ridged surface, such as one or more digits of a hand. The processor may be configured to: (a) acquire a first information set from the sensor, the first information set representing at least a portion of the ridged surface, (b) acquire a second information set from the sensor, the second information set representing at least a portion of the ridged surface, (c) compare the first information set with the second information set to identify a common feature of the ridged surface that is present in both the first information set and the second information set, (d) determine a first position of the common feature using the first information set, (e) determine a second position of the common feature using the second information set, and (f) calculate a control measurement by comparing the first position and the second position.

Abstract: A method and apparatus for determining a dimension of a defect in a component is disclosed. A linear array of acoustic transducers is used to propagate a focused ultrasonic beam along a first focal line. The focused ultrasonic beam is moved across the defect in a first array direction substantially perpendicular to the first focal line. The dimension of the defect is determined from at least one reflection of the focused ultrasonic beam from the defect as the focused ultrasonic beam moves across the defect.

Abstract: A method for identifying a degraded fan measures acoustic data from an operating datacenter fan. A motor rotation frequency and a vane passing frequency are determined from the acoustic data. Amplitudes of the frequencies are determined from the acoustic data. If the amplitude of the motor rotation frequency is greater than the amplitude of the vane passing frequency, then it is determined that the fan is degraded.

Abstract: There is provided an ultrasonic imaging apparatus capable of efficiently generating an image both by using a transmission ultrasonic wave with a wide angle of beam spread and by using a transmission ultrasonic wave with a narrow angle of beam spread. The ultrasonic imaging apparatus includes: a transmission control part controlling transmission timings of a plurality of first piezoelectric elements so as to make a synthesized wave of ultrasonic waves transmitted from the plural first piezoelectric elements match an ultrasonic wave transmitted from a predetermined virtual transmission point; a signal detecting circuit detecting an electric signal corresponding to an ultrasonic echo transmitted from the plural first piezoelectric elements, reflected by an inspection target, and received by a plurality of second piezoelectric elements; and a generating part generating an image corresponding to the inspection target based on the electric signal.

Abstract: A method of automatically detecting a rolling-element bearing fault in a rotating machine is provided. The method includes receiving, from at least one sensor, a sensor signal that includes at least one frequency, converting the sensor signal to a digital vibration signal, modifying the vibration signal to generate an envelope signal, and applying a transform to the enveloped signal to generate an envelope spectrum. The method uses certain relationships among envelope spectral line amplitudes and their harmonics to detect bearing faults. As such, the method detects a bearing fault without reference to predefined fault frequencies. Systems for implementing the method are also provided.

Abstract: A dual-technology motion sensor with an ultrasonic sensor element (transducer) and a PIR sensor element is disclosed. The dual-technology motion sensor is configured to modulate ultrasonic radiation emitted from the ultrasonic sensor element when the motion sensor detects a condition under which other wireless devices, especially ultrasound-based wireless devices, are in operation, thereby eliminating problems associated with interference.

Abstract: The examination system contains a vibration device, a signal generation device, an audio collection device, and a processing device. A crystalline silicon solar cell is placed on the vibration device. The signal generation device drives the vibration device to vibrate and the crystalline silicon solar cell is synchronously vibrated at a high speed. The audio collection device collects sound from the vibration and the processing device analyzes the sound to determine if the crystalline silicon solar cell has internal cracks or not.

Abstract: A trigger circuit for use with a structural health monitoring system. To save power, a structural health monitoring system is programmed with a sleep mode and a wake, or operational, mode. In its operational mode, the structural health monitoring system can perform its usual tasks, e.g. monitoring a structure and determining its structural health. In sleep mode, many functions are suspended, so that the system requires less power. The trigger circuit wakes the system when the sensors of the structural health monitoring system emit a sufficiently large signal, i.e. when an event occurs. That is, when not in use, the system enters sleep mode, and when some event occurs (e.g., impact, or some other stresses that are of concern), the trigger circuit alerts the system, prompting it to shift from sleep mode to operational mode and to begin taking/analyzing data.

Abstract: A system and method suitable for producing user designated views of non-destructive inspection target with adjustable color, opacity and/or fill-patterns in coordination of the display of inspection scan images. The geometric definition of the inspection target and the inspection scan area are both prepared by independent processes under which vertices and respective primitives are established. The inspection target primitives are given an alpha texture that includes color, opacity and/or fill-pattern designated by the user. The scan area primitives are mapped by a color and/or opacity texture representing inspection signal information such as amplitude. An efficient commercially available graphics accelerator is used to render both of the images of inspection target's chosen view and that of scanned area. The method allows implementation in real-time and on hand-held devices.

Abstract: A method and device for evaluating inhomogeneous deformations in a first wafer bonded by molecular adhesion to a second wafer. This evaluation method includes the steps of making at least one reading of a plurality of measurement points, the reading corresponding to a surface profile of the first wafer along a predefined direction and over a predefined length, computing a second derivative from the measurement points of the surface profile and evaluating a level of inhomogeneous deformations in the first wafer according to the second derivative.

Abstract: A method for inspecting an object by means of ultrasound, for example for detecting a wall thickness of the object or for detecting defects in the object, wherein in a step a. at least one ultrasonic pulse is transmitted into the object on a first position of a surface of the object, the ultrasonic pulse is received on a second position of the surface of the object possibly by propagating directly towards the second position along the surface of the object or possibly as a result of reflection and/or diffractions of the pulse in the object so that the transmitted pulse may result in more than one pulse being received at different moments in time and wherein a data signal is generated representing the received pulses and the associated moments in time wherein these pulses are received wherein step a. is repeated for other first positions and/or second positions for generating a first set of data signals and wherein the first set of data signals obtained in the plurality of steps a.

Abstract: Sonic wave speed at a part is calculated considering the environment surrounding the part, sonic wave speed around the part is measured, and the accuracy of the position detection is improved. An ultrasonic wave transmitting device is arranged at a robot hand tip, hexahedrons which can contain the tip are set, and the ultrasonic wave transmitting-receiving devices are arranged at the top points thereof. Upon detecting the tip position, a top point that is close to the tip is selected as a specific point, and sonic wave speeds from other top points to this specific point are calculated. Based on these sonic wave speeds, sonic wave speed along a route from the tip to the specific point is calculated. Based on this sonic wave speed value and spread time of ultrasonic waves between the tip and the specific point, distance from the specific point to the tip is calculated.

Abstract: Laser-based ultrasonic (LBU) systems and methods for measuring at least one material property of a ceramic cellular ceramic body during thermal processing are disclosed. The method includes subjecting the ceramic cellular ceramic body to a temperature cycle within an interior of an oven. For a plurality of temperatures within the temperature cycle, the cellular ceramic body is irradiated with a modulated laser beam to generate acoustic waves in the cellular ceramic body over a plurality of acoustic paths. The method also includes sequentially irradiating the cellular ceramic body using a detection laser beam so that the acoustic waves are detected. The method also includes calculating from the detected acoustic waves at least one material property of the ceramic cellular body as a function of temperature.

Abstract: A structural health monitoring system using ASICs for signal transmission, reception, and analysis. Incorporating structural health monitoring functionality into one or more ASICs provides a durable yet small, lightweight, low cost, and portable system that can be deployed and operated in field conditions. Such systems provide significant advantages, especially in applications such as armor structures.

Abstract: A system and method for detecting and evaluating structural defects are provided. Baseline data representative of sensed ultrasonic waves that were transmitting into a structure with no defects are stored. Ultrasonic waves are transmitted into the structure from a plurality of actuators that are coupled to the structure. The ultrasonic waves that are transmitted into the structure from the plurality of actuators are sensed, with a plurality of sensors that are coupled to the structure and spaced apart from the actuators, to thereby generate and supply sensor data. Signal difference coefficients are calculated from the baseline data and the sensor data. The calculated signal difference coefficients are spatially mapped to detect one or more structural defects in the structure.