Camera surround view system (2) for a vehicle (1) comprising at least one vehicle camera (3), which provides camera images, which are processed by a data processing unit (4) in order to produce a live video image stream, which is displayed on a display unit (5), wherein the camera surround view system (2) loads local cloud information data regarding an object shown in the live video image stream from a data network (8) and displays the obtained local cloud information data as an overlay in the displayed live video image stream.

Described herein is a rear view mirror system that is configured to adjust to a user's position without direct user interaction. In some embodiments, a camera may be included in the rear view mirror system so that its line of sight is perpendicular to a reflective surface. The camera may capture a digital image of the user. Eye patterns may be identified from the image information to determine an appropriate position for the mirror. In some embodiments, the mirror may be repositioned so that the camera's line of sight is directed halfway between the identified eye information and the center of a rear window. In some embodiments, the mirror may be re-adjusted periodically.

An electronic device and a method are described, The electronic device is adapted to be installed on a handlebar of a vehicle, the electronic device comprising: a processor; a communication module; a display comprising a halo-shaped display; a memory for storing therein executable instructions, the instructions upon being processed by the processor, causing the electronic device to: receive, via the communication module, navigational data from a mobile device, the navigational data being associated with a circular visual signal indication, the circular visual signal indication being indicative of at least one of (i) an upcoming directional instruction and (ii) a distance between a current location and an upcoming location associated with the upcoming directional instruction; and, cause the display, on the halo-shaped display, of the circular visual signal indication on a portion of the halo-shaped display.

In a system comprising construction machine, transport vehicle with loading space and image recording device, wherein the image recording device is arranged at the construction machine and aligned, as a minimum, also towards the loading space of the transport vehicle, it is specified for the following features to be achieved: that a reception and display device is arranged at or in the transport vehicle, wherein the data recorded by the image recording device are transmitted to the reception and display device via a transmission device arranged at the construction machine.

Some embodiments of the present invention provide a control system for a motor vehicle having a first user-operable transmission selector means for selecting a forward operating mode of a transmission corresponding to travel in a forward direction and a reverse operating mode of a transmission corresponding to travel in a reverse direction opposite the forward direction, the control system comprising: a user-operable gear selector configured in a first functional mode to, upon receipt of a user input, select between a plurality of forward direction gear ratios, and wherein the user-operable gear selector is re-configured in a second functional mode to, upon receipt of a user input, select between the forward operating mode and the reverse operating mode.

A camera suitable for use on an automated vehicle includes an imager-device, a lens-module, and an array of light-guides. The imager-device is operable to determine an image and includes a plurality of light-detecting pixels. Each pixel is overlaid with a micro-lens. The lens-module directs light from a field-of-view of the camera toward the imager-device. The array of light-guides is interposed between the lens-module and the imager-device, and is arranged so each instance of light-guide is aligned with a corresponding instance of micro-lens. Each light-guide is defined by a lens-end and an imager-end. The lens-end of each of the light-guides cooperates to define a planar-surface of the array, and imager-end of the light-guide is characterized by an angle selected to direct light within the light-guide toward the corresponding instance of the micro-lens. The angle is determined based on a chief-ray-angle (CRA) of light from the lens-module impinging on the lens-end.

A control system for a vehicle includes a forward-viewing camera and an image processor operable to process image data captured by the forward-viewing camera. The control system is operable to detect a traffic light and to determine a change in state of the traffic light from red to green. The control system determines that another vehicle is ahead of the stopped equipped vehicle at the traffic light, and determines a change in state of the traffic light from red to green. Responsive to (a) a threshold period of time elapsing during which the other vehicle ahead of the equipped vehicle has not moved after the traffic light changes state from red to green and/or (b) the other vehicle ahead of the equipped vehicle moving a threshold distance away from the equipped vehicle, the control system (i) generates an alert and/or (ii) controls a vehicle system of the equipped vehicle.

One aspect of the present invention includes artificial vision system. The system includes an image system comprising a video source that is configured to capture sequential frames of image data of non-visible light and at least one processor configured as an image processing system. The image processing system includes a wavelet enhancement component configured to normalize each pixel of each of the sequential frames of image data and to decompose the normalized image data into a plurality of wavelet frequency bands. The image processing system also includes a video processor configured to convert the plurality of wavelet frequency bands in the sequential frames into respective visible color images. The system also includes a video display system configured to display the visible color images.

Provided is an imaging apparatus (10) including an imaging optical system (20), an image sensor (31), one or more circuit boards including at least one of the image sensor and an electronic component mounted thereon, a housing (11) including an opening that exposes the imaging optical system to a subject and supporting the imaging optical system, the image sensor, and the one or more circuit boards, a signal terminals (41) that transmit an image signal of the subject image captured by the image sensor to an outside of the housing, and a heat transfer unit (44) having heat conductivity connected to the plurality of terminals, the heat transfer unit that transfers heat generated from at least one of the image sensor and the electronic component to the plurality of terminals.

A system for controlling an operation of a machine is disclosed. The system includes an image capturing device and a controller. The image capturing device generates a signal indicative of a surrounding area of the machine. The controller is in communication with the image capturing device. The controller determines a preceding work cycle of the machine comprising a dig segment and determines a preceding segment associated with the preceding work cycle to be a dump segment. The controller further identifies a work aggregate within the surrounding area of the machine, when the preceding segment of the preceding work cycle is the dump segment. Further, the controller determines a distance between an implement of the machine and the work aggregate and issues a shift request to downshift a gear drive of a transmission system of the machine, if the distance is less than a predefined distance.