Abstract: A non-destructive testing (NDT) device includes a processor operatively coupled to a camera and to a display. The processor is configured to navigate a graphical tree model of an inspection. The graphical tree model includes a plurality of nodes that each correspond to an inspection point of the inspection. The processor is also configured to display at least one of the plurality of nodes; the display of a node includes an icon indicative of the presence of a flagged image, a flagged video, or a combination thereof associated with the node. Further, the processor is configured to receive a user selection of the at least one of the plurality of nodes, receive a user input to acquire an image or video, associate the image or video with the selected one of the plurality of nodes, and update the display of the selected one of the plurality of nodes.

Abstract: A system includes an image capture device configured to capture an image of at least a portion of an industrial device or machinery. The system also includes a display configured to display the image. The system further includes a processor communicatively coupled to the image capture device and the display and configured to cause the display to display a graphical user interface (GUI) on the display, wherein the GUI comprises a first indicator located in user selectable first portion of the display and a window configured to display a portion of the image corresponding to a location of the first indicator, wherein the processor is configured to cause the first indicator to move to a second portion of the display in response to receiving an indication of a user interaction with the window.

Abstract: Systems, methods, and tangible, non-transitory, computer readable media is described herein. For example, a system includes a portable non-destructive testing (NDT) device. The NDT device includes a display, a user interface, a memory storing an operations object having a first text in a first language, and a processor. The processor is configured to present the first text on the operations object via the display during an operation of the portable NDT device, and wherein the processor is configured to create a second text in a second language via the user interface of the NDT device, and to present the second text on the operations object as an alternative to the first text via the display during the operation of the NDT device.

Abstract: A system includes a portable non-destructive testing (NDT) device. The NDT device includes a processor configured to receive imaging data captured via a sensor of the NDT device, cause a display of the NDT device to display an image to be analyzed based on the imaging data, and cause the display to display a graphical user interface (GUI). The GUI includes a first plurality of user-selectable objects. Each of the first plurality of user-selectable objects is configured to activate one or more monitoring functions of the NDT device. The processor is also configured to cause the display to display at least a first set of the first plurality of user-selectable objects. The first set of the first plurality of user-selectable objects is configured to substantially overlay the image. The first set of the first plurality of user-selectable objects is displayed based at least in part on an inspection state of the NDT device.

Abstract: A method for determining a type of a measurement includes receiving touch data via a touchscreen; automatically identifying a plurality of cursor points in the touch data using a processor; and automatically determining a measurement type based on the touch data using the processor. A method for determining a geometric property of an object further includes displaying an image of the object on the touchscreen and automatically determining the geometric property corresponding to the plurality of cursor points and the determined measurement type using the processor. A device for determining the geometric property includes an imager for obtaining the image; the touchscreen; and the processor for identifying a plurality of cursor points in the touch data, determining a measurement type of the geometric property using the touch data, and automatically determining the geometric property corresponding to the plurality of cursor points and the determined measurement type.

Abstract: Systems and methods provided herein. In one embodiment, a borescope system includes a probe to capture images and a display a settings menu, measurements, the images captured by the probe, or any combination thereof. In addition, the borescope system a processor programmed to display a user interface to enable a user to control movement of the probe, adjust settings, navigate menus, make selections, or any combination thereof. The processor is communicatively coupled to the probe, and the display, and is programmed to instruct the borescope to enter a live menu view when an articulation mode is selected from the settings menu. In the live menu view, the processor is programmed to instruct the display to display the images captured by the probe, and to enable a user to control the movement of the probe and adjust articulation sensitivity of the probe while viewing the images on the display.