Power machines and loaders having doors with an integrated display that allows the display of information, such as gauges, user inputs, mapped obstacles, boundaries, etc., that allows the operator of the machine to see the displayed information closer to the line of sight with the work area. The display can show augmented reality information about a worksite.

A vehicle having an array of sensors mounted entirely within and without protrusion beyond a pre-existing exterior surface of a vehicle, sufficient to give a substantially complete 360 degree perimeter sweep of data collection for operating an autonomously driven vehicle.

A camera system mounted on a vehicle includes a first substrate including an image sensor that generates image information by photoelectric conversion and a first communication unit, and a second substrate including a second communication unit for performing wireless communication with the first communication unit and a first information processing section at least capable of recognition processing for recognizing a situation outside the vehicle based on the image information acquired via the second communication unit.

Embodiments of the present disclosure are directed to vehicles and vehicle roof structures for concealing one or more sensors. Vehicle roof structures according to the present disclosure include a roof panel and a window extending at least up to the roof panel. A headliner extends along an interior portion of the roof panel to the window and is at least partially spaced from the roof panel in a direction of an interior of the vehicle to provide a sensor mounting volume therebetween, wherein the window extends along at least a portion of the sensor mounting volume. One or more sensors are positioned behind the window within the sensor mounting volume to provide a signal indicative of a characteristic of an environment of the vehicle detected by the one or more sensors through the window.

A retention system on a mounting structure for a generally cylindrical component extending in a transversal axis. The retention system includes a generally U-shaped spring clip comprising a base and a pair of resilient retainer arms extending from the base along a longitudinal axis and defining an inlet passage; and a member holding said U-shaped spring clip; the retainer arms are adapted to engage with an upper side of the component in front of the inlet passage. The member includes one or multiple rigid retention walls extending inside the spring clip and which are adapted to engage with a lower side of the component at distance of the base, in working position.

Disclosed herein are systems and apparatus for detecting a traffic violation. In one embodiment, a system for detecting a traffic violation comprises a context camera assembly and a license plate recognition (LPR) camera assembly. The context camera assembly can comprise a context camera housing containing a context camera, a context camera mount configured to mount the context camera housing to an interior of a carrier vehicle, and a context camera skirt coupled to and protruding outwardly from the context camera housing. The license LPR camera assembly can comprise an LPR camera housing containing one or more LPR cameras, an LPR camera mount configured to mount the LPR camera housing to the interior of the carrier vehicle, and one or more LPR camera skirts coupled to and protruding outwardly from the LPR camera housing.

To appropriately suppress reflection of far-infrared rays, and appropriately form an antireflection film. A far-infrared ray transmission member (20) includes a base material (30) that transmits far-infrared rays, and a functional film (32) that is formed on the base material (30) and includes a low refractive index layer (34) containing oxide as a principal component and having a refractive index equal to or smaller than 1.5 with respect to light at a wavelength of 10 μm. The low refractive index layer (34) contains MgO as a principal component, and a content of MgO is equal to or larger than 50 mass % and equal to or smaller than 100 mass % with respect to the entire low refractive index layer (34).

A stop-start control system for a vehicle includes a camera disposed at the vehicle and having a field of view exterior and forward of the vehicle. A control includes an image processor operable to process image data captured by the camera. Responsive to image processing of captured image data, the control determines the presence of a stopping area ahead of the vehicle and being approached by the vehicle. Responsive to determination of the presence of the stopping area ahead of the vehicle and being approached by the vehicle, and responsive to determination that the driver of the vehicle releases the accelerator pedal of the vehicle so the vehicle is coasting toward the determined stopping area, the control causes the engine to at least partially shut off.

A vehicle may receive one or more images of an environment of the vehicle. The vehicle may also receive a map of the environment. The vehicle may also match at least one feature in the one or more images with corresponding one or more features in the map. The vehicle may also identify a given area in the one or more images that corresponds to a a portion of the map that is within a threshold distance to the one or more features. The vehicle may also compress the one or more images to include a lower amount of details in areas of the one or more images other than the given area. The vehicle may also provide the compressed images to a remote system, and responsively receive operation instructions from the remote system.

A vehicle includes at least one camera configured to photograph an image around the vehicle, a memory configured to store image data input from the at least one camera, and a controller. The controller is configured to determine that a foreign material is present on the at least one camera and to output a warning message to a user when a brightness change rate of at least one pixel among each pixel of an image frame included in the image data is less than or equal to a reference value and is lower than an average brightness of other pixels except for the at least one pixel.