A system includes a dome, a wiper assembly, a position sensor and a control device. The wiper assembly includes a wiper blade configured to rotate around the dome. The position sensor may be configured to send a signal to a control device when a wiper blade passes the position sensor. The control device may include one or more processors configured to receive the signal from the position sensor and determine a location of the wiper blade relative to the dome based on the received signal.

A vehicular collision avoidance system comprising a system controller, pulsed laser transmitter, a number of independent ladar sensor units, a cabling infrastructure, internal memory, a scene processor, and a data communications port is presented herein. The described invention is capable of developing a 3-D scene, and object data for targets within the scene, from multiple ladar sensor units coupled to centralized LADAR-based Collision Avoidance System (CAS). Key LADAR elements are embedded within standard headlamp and taillight assemblies. Articulating LADAR sensors cover terrain coming into view around a curve, at the crest of a hill, or at the bottom of a dip. A central laser transmitter may be split into multiple optical outputs and guided through fibers to illuminate portions of the 360° field of view surrounding the vehicle. These fibers may also serve as amplifiers to increase the optical intensity provided by a single master laser.

Wiper is utilized to clean side-view mirror of a vehicle. Existing wiper attached with the side-view mirror obstructs visibility of a driver while cleaning the side-view mirror in a rainy season or in a dusty environment, which leads to an accident. A vehicle mirror wiping unit is provided. The vehicle mirror wiping unit includes a mirror; a mirror shutter assembly; a mirror casing; a mirror mounting unit, consisting of: the mirror, a mirror spring, a spring retaining cap, and a mirror spring holder; a pin pass through a cut-out of the spring retaining cap, and a cut-out in the mirror spring holder; and a cleaning elastomer is triggered by the mirror shutter motor, and the mirror shutter moves from the first end of the mirror to the second end of the mirror. A frontal surface of the mirror shutter is a reflective surface functioning as a mirror.

Aspects of the disclosure relate to systems for cleaning a sensor. For example, the sensor may include a housing as well as internal sensor components housed within the housing. The housing may include a sensor input surface through which signals may pass. The system may also include a motor configured to rotate the internal sensor components relative to a mount as well as the mount to which the motor is fixed. The system may also include a wiper including a wiper blade. The wiper may be attached to the mount such that rotating the housing causes the wiper to contact the sensor input surface in order to clean the sensor.

A sensor guard, for protecting a sensor of a vehicle. The sensor guard comprises a blade movable to sweep through a line-of-sight of the sensor when the sensor is arranged to be protected by the sensor guard, an extension of the blade in a direction parallel to the line-of-sight when the blade sweeps through the line-of sight being greater than an extension of the blade in a direction of movement of the blade when the blade sweeps through the line-of sight; and an actuator arranged and configured to move the blade to repeatedly sweep through the line-of-sight of the sensor when the sensor is arranged to be protected by the sensor guard.

The invention concerns a rear view system (1) of a motor vehicle comprising:—an optical image capturing sensor (3),—a protective support (5) comprising a transparent and flat protective screen (7), the optical sensor (3) being installed on the protective support (5) in such a way as to point through said protective screen (7), and—a scraper blade (9) for cleaning the protective screen (7) disposed on the face of the protective screen (7) opposite that of the optical sensor (3) side, characterised in that it further comprises an electromagnetic actuation device (11) for actuating said scraper blade (9) in translation on the protective screen (7).

Provided are methods for acoustic emission based device control. Some methods described also include receiving information associated with a first acoustic emission sensor, a second acoustic emission sensor, and a third acoustic emission sensor is received. In embodiments, the information corresponds to an event. In accordance with the first, second, and third acoustic emission sensor information, the first, second, and third timestamps, and a geometry of the surface, a unit vector is calculated from each acoustic emission sensor in the direction of the event's origin. Parameters are calculated based on the unit vectors. Systems and computer program products are also provided.

A camera module for a vehicle vision system for a vehicle includes a camera fixedly disposed at an exterior portion of a vehicle so as to have a field of view exterior of the vehicle. A transparent cover element includes an at least partial cylindrical element that at least partially surrounds the camera with a portion of the transparent cover element disposed in front of a lens of the camera. At least one wiping element engages an exterior surface of said transparent cover element. The transparent cover element is rotatable relative to the camera about a longitudinal axis of the transparent cover element to move portions of the transparent cover element across the at least one wiping element to clean dirt or contaminants from the transparent cover element.

A vehicle camera device includes: a lid that opens and closes an opening of a camera accommodation chamber; a camera that is capable of being accommodated in the camera accommodation chamber and exposed from the opening when the opening is opened by a rotation of the lid; and a driving device that operates the camera and the lid, in which the camera has an image capturing posture when the camera captures an image of a portion below a reference axis, an accommodation posture when the camera is accommodated in the camera accommodation chamber, and the other postures different from the image capturing posture and the accommodation posture.

A sensor protection apparatus includes a first sensor cover movable between a sensor covering position and a first cover waiting position; a second sensor cover movable between the sensor covering position and a second cover waiting position, wherein each of the first and second sensor covers is located at the sensor covering position for protecting the surface of the sensor from being contaminated by foreign matter; and an actuator configured to move the first and second sensor covers such that the first sensor cover and the second sensor cover are alternately located at the sensor covering positions thereof.