A control system controls a gesture recognition system of a vehicle. The control system identifies a position of a body part with respect to a gesture recognition area in accordance with a detection signal of a sensor system. The control system specifies a haptic feedback signal based on the position of the body part with respect to the gesture recognition area. The control system outputs the haptic feedback signal to a haptic feedback system. The haptic feedback signal is configured to cause the haptic feedback system to output non-contact haptic feedback indicating the position of the body part with respect to the gesture recognition area toward a vehicle occupant.

When a gesture operation of a hand moving close to a display from left to right is performed, the return movement of the hand to the left side due to reflection by the wrist or the like may be detected. A detection control unit detects the approach of the hand to the display and notifies a data processing device of non-detection of hand approach when the amount of movement of the hand in the right direction starts to decrease after exceeding a threshold value. The data processing device accepts the right-moving gesture operation to perform a predetermined process when the amount of movement exceeds the threshold value.

An environment interactive system includes: a first camera capturing first images of an area external to the vehicle; a second camera capturing second images of an area interior to the vehicle; a telematics control module determining a geographical location of the vehicle; a viewing device displaying items adjacent to, on or in front of detected objects and in a FOV of an occupant. The items correspond to the detected objects; and an infotainment module. The infotainment module: detects the objects based on the first images and the location of the vehicle; based on the second images, tracks at least one of a location of an eye of the occupant or a location of a body part of the occupant other than the eye; and based on the location of the eye and the location of the body part, displays the items via the viewing device in the FOV.

A control system controls a gesture recognition system of a vehicle. The control system identifies a position of a body part with respect to a gesture recognition area in accordance with a detection signal of a sensor system. The control system specifies a haptic feedback signal based on the position of the body part with respect to the gesture recognition area. The control system outputs the haptic feedback signal to a haptic feedback system. The haptic feedback signal is configured to cause the haptic feedback system to output non-contact haptic feedback indicating the position of the body part with respect to the gesture recognition area toward a vehicle occupant.

An image processing system and method is provided for controlling an amount of perceptual three-dimensional elements for a display. The method includes: receiving an input image; receiving user information concerning a user; adjusting an amount of perceptual three-dimensional elements within the input image to obtain an adjusted input image based on depth information of the input image and the user information; and displaying the input image as adjusted on a display. The user information may include user profile information and/or a predetermined perceptual 3D control input. The image processing system and method may be used to tune the amount of perceptual three-dimensional elements within the input image according to the user.

Provided are a control system and method using an in-vehicle gesture input, and more particularly, a system for receiving an occupant's gesture and controlling the execution of vehicle functions. The control system using an in-vehicle gesture input includes an input unit configured to receive a user's gesture, a memory configured to store a control program using an in-vehicle gesture input therein, and a processor configured to execute the control program. The processor transmits a command for executing a function corresponding to a gesture according to a usage pattern.

An HUB system 1 is equipped with an HUB device 10 for displaying a video in front of a vehicle; a communication unit 31 for connecting a mobile device 3 with the HUD device and establishing communication; a speaker 32 for outputting sounds to a driver; a microphone 33 for picking up the voices of the driver; a sound recognition unit 34 for analyzing the picked-up voices; and an in-vehicle camera 35 for photographing the face of the driver. When there is an incoming call at the mobile device, a calling indication of the mobile device 3 is displayed on the display screen of the HUD device, an incoming call sound is outputted from the speaker, and on the basis of a result of an analysis of voices uttered by the driver performed by the sound recognition unit, the conversation operations of the mobile device are started or ended.

There is provided a user-vehicle interface, comprising: a gesture control system, arranged to sense a gesture of a user of the vehicle; the gesture control system being arranged to process the sensed gesture to control interaction with content on a display, in accordance with that sensed gesture; and the user-vehicle interface further comprises a gesture control support, arranged to physically support a body part of the user associated with a provision of the gesture.

There is provided a user-vehicle interface, comprising a gesture control system that is arranged to: sense a direction of a gesture of a user of the vehicle; and process the sensed gesture to control a location of an indicator on a display in accordance with that sensed direction, such that a location of the indicator is arranged to move in accordance with changes in the sensed direction, the indicator being used to show a current position for user interaction with content on the display, and being in a plane in which that content resides.

There is provided a user-vehicle interface, comprising: a gesture control system, arranged to sense a gesture of a user of the vehicle; the gesture control system being arranged to process the sensed gesture to control interaction with content on a display, in accordance with that sensed gesture; the vehicle comprising a physical actuator for controlling the vehicle, and the gesture control system is arranged to facilitate interaction with content on the display, when a body part of the user associated with a provision of the gesture is engaged with the actuator.