Embodiments relate to an apparatus for improving visibility of cluster design elements based on a driver's view, including an eye position detection unit to detect an eye position of the driver from a face image captured through a camera in a vehicle, a visible area determination unit to determine a visible area and an invisible area in a cluster based on the detected eye position, a position of the cluster in the vehicle and a position of a steering wheel, a display information detection unit to detect a position and shape of display information displayed on the cluster, and a display information design conversion unit to convert a position or shape of display information overlapping in the invisible area among the display information.

A switchable backlight for a switchable privacy display apparatus comprises a collimated waveguide, first and second light sources and an optical turning film comprising elongate prismatic elements with facet orientations that pupillate the output of the waveguide in two orthogonal directions for each of first and second light sources. High luminance uniformity is achieved for a head-on user in privacy and public viewing modes and high uniformity of security factor is achieved for off-axis snoopers, with increased speed of privacy switch-on in privacy mode.

A switchable backlight for a switchable privacy display apparatus comprises a collimated waveguide, first and second light sources and an optical turning film comprising elongate prismatic elements with facet orientations that pupillate the output of the waveguide in two orthogonal directions for each of first and second light sources. High luminance uniformity is achieved for a head-on user in privacy and public viewing modes and high uniformity of security factor is achieved for off-axis snoopers, with increased speed of privacy switch-on in privacy mode.

A vehicle is provided that includes a vehicle body, a plurality of RF signal receivers located at a plurality of locations within the vehicle, a portable pet bowl configured to be transported in the vehicle body, the pet bowl including a container for holding content such as water, an RF signal transmitter located on the pet bowl for transmitting an RF signal, and a controller for processing the RF signal received by each of the plurality of RF signal receivers and determining a location of the pet bowl based on the received RF signals.

A convenient device control apparatus for a vehicle and a method thereof are provided. The convenient device control apparatus includes a light source that emits light at a specified frequency and an electroencephalogram (EEG) sensor that measures an EEG signal of a user. An EEG analyzer analyzes a frequency of the EEG signal measured by the EEG sensor and a controller operates a convenient device in the vehicle based on the frequency of the EEG signal analyzed by the EEG analyzer.

A driving assistance apparatus includes: a driver identifying unit that identifies a driver driving a vehicle; an evaluation data obtaining unit that obtains, based on an identification result of the driver identifying unit, evaluation data on the driver's visual cognitive ability for an event that occurs when the driver is driving the vehicle; an event detecting unit that detects, on the basis of surrounding information data indicating a situation of the vehicle's surroundings, whether or not the event has occurred; and a processing unit that determines, in a case where the event has been detected and on the basis of the evaluation data on the driver, the evaluation data being related to the event, whether or not notification information is to be output from an output unit.

A user interface for controlling a function of a vehicle is provided. The user interface comprises a manual input device for generating a user input signal in response to manual actuation by a user and one or more proximity sensors for being arranged in a vicinity of the manual input device, wherein each proximity sensor is configured to generate a proximity sensor signal in response to presence of a hand in a vicinity of the proximity sensor. Furthermore, the user interface comprises a processing circuitry configured to control the function of the vehicle based on the user input signal and the one or more proximity sensor signals.

A picture generation unit emits a light field. A mirror reflects the light field toward a windshield of a motor vehicle such that the light field is reflected off of the windshield and is visible to the driver as a virtual image. An infrared emitter transmits infrared energy through the mirror such that the infrared energy is substantially co-axial with the light field, and such that the infrared energy is reflected off of the windshield toward the human driver. An infrared camera captures infrared images based on the transmitted infrared energy reflected off of the human driver and received by the infrared camera. Eye tracking is performed based on the captured infrared images. The infrared energy is transmitted at a higher power level at a beginning of the eye tracking than after the beginning of the eye tracking.

Disclosed are techniques for displaying AR elements on a display system of a construction machine. A position of the construction machine in a world reference frame is detected. An orientation of the construction machine is detected. A position of an operator of the construction machine in a machine reference frame is detected. A position of the operator in the world reference frame is determined based on the position of the operator in the machine reference frame, the position of the construction machine in the world reference frame, and the orientation of the construction machine. The AR elements are generated based on the position of the operator in the world reference frame and a position of the display system in the world reference frame. The AR elements are then displayed on the display system.

A vehicle comprising a sensor, a moveable display, and a controller. The controller is configured to determine a location of an occupant within the vehicle and, based on the location of the occupant within the vehicle, move the moveable display.