Abstract: A system and method for determining whether an aircraft is ready to fly or should be repaired in light of damage and/or malfunction information observed at the departure gate includes observing damage or malfunction, alerting decision-makers, and initiating an automated interview session via a camera equipped communications device to a remote server running query driven decision and data analysis software. Data entered via the communications device, equipped with a keypad and camera for obtaining visual information, is transmitted to the remotely based software application. The software generates requests for information based on prior received information, processes and provides the information to decision-makers at remote locations. The communications device transmits decision-making support information concerning repair or dispatch. The communication device may be a wireless cell phone with a digital camera.

Abstract: A method for and apparatus for inspecting a location on a test object with a number of obstructions to reaching the location. An elongate optical fiber carrier holding a number of optical fibers is moved to the location on the test object with the number of obstructions to reaching the location. A pattern of light is transmitted from the number of optical fibers onto a surface of the test object at the location. The pattern of the light is configured to cause sound waves in the test object when the pattern of the light encounters the surface of the test object. A response is detected to the sound waves using the number of optical fibers.

Abstract: A method and apparatus for indicating an inconsistency. An apparatus comprises a platform, a location system, a transducer system, a projector system, and a data processing system. The platform is configured to move on a surface of an object. The location system is configured to generate location information for the platform on the surface of the object. The transducer system is configured to send signals into the object and receive a response to the signals. The projector system is configured to project an image onto the surface of the object. The data processing system is configured to generate the image using the response. An indication of an inconsistency in the image projected onto the surface of the object corresponds to a location of the inconsistency in the object. The data processing system is configured to control the projector system to project the image onto the surface of the object.

Abstract: An apparatus for measuring porosity of a structure includes an ultrasonic transducer device configured to be pressed against a structure, the ultrasonic transducer device being further configured to emit ultrasonic pulses into the structure and detect echo profiles; and an electronic device including: a manager having an interface gate, a back-surface sensing gate and a back surface analysis gate; a pulse generator interfacing with the manager and the ultrasonic transducer device; a data acquisition device interfacing with the ultrasonic transducer device and the manager; and a display having a porosity indicator interfacing with the manager.

Abstract: An ultrasonic aperture scanning system includes a transducer insert having an insert plug, an ultrasonic transducer carried by the transducer insert and an indicator unit having at least one indicator interfacing with the ultrasonic transducer.

Abstract: In accordance with one or more embodiments, systems and methods for exchanging data over a network include communicating with a user via a portable communication device over the network, interacting with the user via an interactive software application, receiving a request for service bulletin data related to at least one aircraft from the user via the portable communication device, accessing service bulletin data related to the at least one aircraft from a database component based on a registry number associated with the at least one aircraft passed with the request from the user, and transferring service bulletin data related to the at least one aircraft from the database component to the portable communication device via the network for viewing by the user on the portable communication device.

Abstract: Systems and methods are disclosed for providing nondestructive inspection (NDI) services. For example in accordance with an embodiment of the invention, a system for remote inspection includes a nondestructive inspection (NDI) system configured to examine a structure and provide NDI data related to a damage condition of the structure, the NDI system being configured to communicate the NDI data to a remote location; and a remote computer disposed at the remote location, the remote computer being configured to receive the NDI data and provide the received NDI data for a review, the remote computer being configured to communicate an analytical result based on the review to the NDI system, the analytical result including a repair disposition decision corresponding to the damage condition.

Abstract: A geometry compensating transducer attachment for ultrasonic inspection of a structure includes a geometry-compensating structure having at least one angled surface configured to engage the structure to be inspected, and the geometry-compensating structure having an acoustic velocity generally matching an acoustic velocity of the structure to be inspected.

Abstract: Disclosed is an apparatus, method and system for inspecting structures, and more particularly for evaluating the condition of a structure. The disclosed nondestructive inspection testing method and apparatus enables an operator to assess the condition of a structure, such as a composite laminate part and determining the location and depth of anomalies. The method includes generating a subsurface longitudinal ultrasonic wave signal at a high incidence angle into a structure being evaluated and collecting at least one of any front, back or side reflected wave data. The method may include processing the reflected wave data to determine the condition of the structure, including any anomalies that may have been detected and their location, size and shape.

Abstract: A computer implemented method, or hardware filtration apparatus, and computer usable program code for measuring porosity in materials. An ultrasonic signal is emitted from a transmitting transducer in an ultrasonic measurement system into a material. A response signal is received at a receiving transducer in the ultrasonic measurement system from the material. The response signal is filtered to pass only frequencies in the response signal within a selected frequency range to form a filtered response signal. A porosity level of the material is identified using the filtered response signal.

Abstract: An ultrasonic aperture scanning system includes a transducer insert having an insert plug, an ultrasonic transducer carried by the transducer insert and an indicator unit having at least one indicator interfacing with the ultrasonic transducer.

Abstract: A system for scanning an aircraft structure includes a collapsible support frame including a mounting member configured to be releasably mountable to the aircraft structure and a moveable member configured to be moveably mounted to the mounting member and to receive a scanning device. The support frame is configured to be positionable in: a collapsed condition in which the mounting member and the moveable member are disposed substantially acutely with each other and an operational condition in which the mounting member and the moveable member are disposed substantially orthogonal with each other.

Abstract: Apparatus, systems, and methods for inspecting and monitoring bolted joints of metallic and composite structures for defects such as delamination and fatigue cracking are provided that incorporate ultrasonic transducers with load bearing washers. These active washers may be used for inspecting and monitoring a structure beneath such load bearing fasteners as bolts and nuts. Active washers may be used for continuous, periodic, and controlled inspections of bolted joints. Ultrasonic transducers may be permanently applied to a surface of a washer or recessed in a cavity on a surface of the washer. Inspection signals may be transmitted from ultrasonic transducers into a structure and reflected in pulse-echo application or received by another active washer on the opposing side of the structure in a through-transmission application.

Abstract: In accordance with one or more embodiments, systems and methods for exchanging data over a network include communicating with a user via a portable communication device over the network, interacting with the user via an interactive software application, receiving a request for service bulletin data related to at least one aircraft from the user via the portable communication device, accessing service bulletin data related to the at least one aircraft from a database component based on a registry number associated with the at least one aircraft passed with the request from the user, and transferring service bulletin data related to the at least one aircraft from the database component to the portable communication device via the network for viewing by the user on the portable communication device.

Abstract: An NDI system includes an ultrasonic transducer and an electronic device having an indicator, such as a light source. The electronic device energizes the transducer, receives sinusoidal signals from the transducer, determines impedance-plane coordinates corresponding to quadrature-phase separated components of the sinusoidal signals, and automatically activates the indicator if impedance-plane coordinates exceed a preset threshold. The system may be used in methods of inspecting layered structures such as composite aircraft components and repair patches applied to such structures.

Abstract: An ultrasonic transducer device is pressed against the front surface of a structure, emits an ultrasonic pulse into the structure, and detects an echo profile from the structure. An indicator is activated if the echo profile includes a return pulse that at least is received from between the front surface and the back surface of the structure. An ultrasonic transducer device includes an ultrasonic transducer and a coupling element coupled to the transducer for disposition between the transducer and a surface of a structure. The coupling element serves as a delay line that allows time for quiescence in the transducer so that return pulses from shallow depths can be detected. The ultrasonic transducer is activated when multiple switches are pressed against a surface thus assuring both firm coupling and perpendicular disposition of the acoustic axis of the transducer relative to the surface.

Abstract: First and second thermal sensors measure the respective temperatures of portions of a surface of a structure such as an aircraft component. An alert signal is emitted if the temperatures of the surface portions are substantially different. An energy source causes heat flow within the structure. Subsurface irregularities such as disbanded areas between composite layers and foreign materials obstruct heat flow within the structure and cause proximate surface portions to exhibit different temperatures. A non-alert signal may be emitted if the temperatures of proximate surface portions are essentially the same.

Abstract: A system and method for inspecting a structure having a coating on at least one surface are provided. The system includes at least one ultrasonic sensor positioned proximate to the structure. Each sensor is capable of transmitting a shear wave toward the structure and receiving return signals in response thereto, wherein the shear wave includes at least one reference beam and at least one interrogating beam. The system further includes a data acquisition system in communication with the sensor for generating information indicative of the coating based on at least one return signal associated with the reference beam.

Abstract: A computer implemented method, or hardware filtration apparatus, and computer usable program code for measuring porosity in materials. An ultrasonic signal is emitted from a transmitting transducer in an ultrasonic measurement system into a material. A response signal is received at a receiving transducer in the ultrasonic measurement system from the material. The response signal is filtered to pass only frequencies in the response signal within a selected frequency range to form a filtered response signal. A porosity level of the material is identified using the filtered response signal.

Abstract: In accordance with one or more embodiments of the present disclosure, systems and methods for transferring data over a network include communicating with a user via a portable communication device over the network, receiving a request for at least one instruction sequence related to a particular repair task of a machine from the user via the portable communication device over the network, processing the request from the user by accessing and retrieving the at least one instruction sequence from a database component, and transferring the at least one instruction sequence from the database component to the portable communication device.