A mobile platform uses a charge accumulation control system to control a charge accumulation while the mobile platform is in the tank. Alternatively or additionally, the mobile platform includes a retrieval system having a buoyant body, a primary tether, and a secondary tether. Alternatively or additionally, an electrical cable is used to reduce a voltage difference between the mobile platform and the tank or other structure by electrically connecting to an electrically conductive member on the mobile platform.

An improved vehicle surface scanning system for assessing the damaged surfaces of a vehicle with resulting estimates of repair costs. A mobile scanning booth is assembled in an open-ended tunnel-like rig having a plurality of reflective panels positioned along opposite sides and across the roof of the booth to serve as deflection screens. A plurality of scanner modules are mounted in fixed positions about opposite ends of the booth and positioned to face the interior of the booth. Wheels provide controlled locomotion/movement of the scanning booth over the vehicle. The scanner modules use a combined hybrid methodology of active stereo 3D reconstruction and deflectometry to acquire data measurements along the surfaces of the vehicle incrementally as the booth is moved. The incremental measurement data acquired during the mobile scanning is processed and furthermore combined to produce accurate reports of the damage surfaces and estimates of associated repair costs.

A method of performing a selected task in a tank containing an energetic substance uses an inherently safe mobile platform that includes a marker detector, a control unit, a power supply, a propulsion system, and an inherently safe enclosure. The inherently safe enclosure prevents a spark occurring inside the inherently safe enclosure from passing to an exterior of the inherently safe enclosure. All spark-generating components of the mobile platform are positioned inside the inherently safe enclosure. The method includes lowering the mobile platform into the tank, at least partially submerging the mobile platform in the energetic substance, and detecting a marker using the marker detector. No active physical carrier connects the mobile platform to an object exterior of the tank while the mobile platform is in the tank.

An image inspection device which inspects the inspection target by images includes: an imaging part, which images the inspection target; a changing part, which makes the location of the inspection target with respect to the imaging part periodically and relatively change; and a control part, which makes the imaging part image the inspection target so as to acquire a plurality of images having different imaging conditions at a plurality of timings which is periodically repeated due to the relative changes and at which the inspection target is in a predefined location with respect to the imaging part.

An automobile manufacturing plant for manufacturing automobiles has a series of manufacturing sites including a part forming shop, a body shop, a paint shop and an assembly shop. Each manufacturing site is associated with a respective inspection site. The respective inspection sites provide inspection data representing at least one of dimensional characteristics, shape characteristics or surface characteristics of the car body parts, the car body, the painted car body and the car-on-wheels produced in the series of manufacturing sites. The inspection data from the plurality of inspection sites is correlated in a common data base server. Inspection sites at a later stage of the manufacturing process can use inspection data from previous stages and automatically decide whether or not a car body part, the car body, the painted car body or the car-on-wheels has to be reworked.

According to an embodiment, an inspection device comprises a moving body that includes; a moving main body which moves in contact with a first structure; arms attached to the moving main body; an arm driver to drive the arms; and a detector attached to the moving main body or the arms to inspect the second structure. The arms each can selectively take a pressed position and a detached position. When the moving body is moved, at least one of the arms are in the pressed position and pressed to the second structure, and the moving body is supported by the first and second structures.

The present invention discloses an underwater inspection device and a filtering method of its attitude sensor, and relates to the field of pipeline geographic information measurement technologies. The underwater inspection device includes a shooting apparatus configured to acquire underwater pipeline image information, and further includes an underwater thruster configured to provide impetus for the underwater inspection device, a depth sensor configured to detect an underwater depth, an attitude sensor configured to detect a three-dimensional motion attitude of the underwater inspection device, and an umbilical cable. The underwater inspection device is communicatively connected to a host computer through the umbilical cable to receive a control command sent by the host computer and send the acquired pipeline information to the host computer. According to the technical solution of the present invention, the underwater inspection device detects underwater pipeline information in real time to promptly discover pipeline damage and leakage.

A system for use in performing maintenance on a turbine rotor. The system includes a rotor mount configured to receive the turbine rotor, a robotic device, a visual inspection device removably coupleable to the robotic device, and a computing device. The computing device is configured to direct the robotic device to evaluate, with the visual inspection device, the turbine rotor at different circumferential locations thereof to obtain rotor axis data, determine a centerline of the turbine rotor based on the rotor axis data, generate a coordinate system including the centerline of the turbine rotor, direct the robotic device to evaluate, with the visual inspection device, each blade on at least one stage of the turbine rotor to obtain blade position data relative to the centerline, and populate the coordinate system with the blade position data.

An image inspecting apparatus for inspecting an object under inspection by using an image, including: a lighting part which irradiates the object under inspection with light; an image capturing part which captures an image of the object under inspection; and a control part which causes the lighting part to irradiate pattern light in a shape that is created based on a positional relationship between the lighting part and the image capturing part and shape data of the object under inspection and that in a case where the lighting part irradiates light, a shape of the light of the lighting part photographed in the image captured by the image capturing part matches a predetermined pattern, is provided.

This invention comprises a system and a method for inspecting the inside of delayed petroleum coking vessels to identify deformations, detect and determine the severity of other defects, and visually observe the inside of the inspected vessel.