An input device includes an operation part, an operation commencement trigger part, and a detection circuit. The operation part includes an electrostatic capacity-type slider. The operation commencement trigger part is provided at a predetermined location on the slider. The operation commencement trigger part is provided to commence a first operation including a flick operation on the slider. When the detection circuit detects that the operation commencement trigger part has been touched, the detection circuit enables detection of a first operation on the slider.

A method of automatically switching between manners of answering calls by vehicle occupants in a vehicle connects a vehicle-mounted system with terminal device of occupant. Information as to persons in the vehicle is detected. Information as to different occupants allows method to recommend one of a first manner, a second manner, and a third manner of responding to an incoming call, the driver being able to select his preferred manner by pushbutton mounted on steering wheel. Driving safety is improved, and privacy of a personal conversation can be maintained. A vehicle-mounted system applying the method is also disclosed.

A vehicle and a steering unit can improve safety. A vehicle includes a steering wheel and a touchpad disposed on the steering wheel. The vehicle enables control of a controlled apparatus by a gesture on the touchpad of the steering wheel upon detecting a predetermined pressure on the touchpad of the steering wheel and provides a tactile sensation from the touchpad in accordance with the gesture on the touchpad of the steering wheel.

A method may include detecting a position of a first probe based on a placement of the first probe relative to a first zone on a surface of a device, obtaining a first target position for the first probe in the first zone, comparing the position of the first probe to the first target position, and generating a first haptic response to guide the first probe toward the first target position when the position of the first probe is outside a first predetermined tolerance relative to the first target position. The first haptic response may vary with the position of the first probe.

An operating device having an optical finger navigation module for installation in a steering wheel of a motor vehicle, which allows for secure operation and can be produced at low cost, is disclosed. The operating device has a mounting frame, in which a first light guiding element and the optical finger navigation module is held by a light sealing element. The light sealing element is mounted by a snap connection on the mounting frame. The mounting frame has at least one guide element with which a movement of the mounting frame can be guided.

The present invention is directed to a steering apparatus for a vehicle having a including a light element providing indication and warning light signals to the user of the vehicle. The light element can be associated with a PCB mounted to the steering wheel grip for controlling the operation of the light element.

A vehicle operation sensing system includes an operation sensor, a fixture sensor, and a vehicle operation sensing unit. The operation sensor is an acceleration sensor fixed to an operation member, and sensing an acceleration generated in the operation member at least in a gravitational acceleration direction. The operation member has one end fixed to a vehicle and the other end a position of which is displaced in the gravitational acceleration direction when the operation member is operated. The fixture sensor is an acceleration sensor used at a position unchanging part of the vehicle, and sensing an acceleration generated in the vehicle at least in the gravitational acceleration direction. The vehicle operation sensing unit has an operation sensing part sensing an operation of the operation member by using a sensing result of the fixture sensor as an object to be compared with a sensing result of the operation sensor.

A steering system for an autonomous vehicle includes an autonomous driving assist steering system for controlling steering of the autonomous vehicle in a primary steering mode. Also included is an alternate steering mechanism controlling steering of the autonomous vehicle in a secondary steering mode, wherein the alternate steering mechanism is not a steering wheel.

In one embodiment, a system for a vehicle control display device is provided. The system includes a vehicle steering wheel having spokes connected to a steering shaft, the wheel positioned in front of a dashboard having controls mounted therein. The system further includes a flexible display attached to the wheel or a spoke. The system further includes a sensor installed in the wheel to detect a driver's hand position on the wheel. The system further includes an overhead camera and micro cameras installed in the wheel to determine the driver's eye position. The system further includes a processor attached to the flexible display, the sensor, and the cameras to determine which controls are obscured by the wheel and the spokes and for displaying pre-specified ones of the obscured controls on the flexible display.

A method and system for controlling one or more functions associated with a vehicle display includes providing a steering wheel having a left zone and a right zone. The method includes determining a left contact value and a right contact value based on at least one of a plurality of sensors of the steering wheel. Further, the method includes comparing the left contact value to a left contact threshold that maximizes contact of a left hand with the steering wheel within the left zone and comparing the right contact value to a right contact threshold that maximizes contact of a right hand with the steering wheel within the right zone. Upon determining a non-driving passenger is present in the vehicle, the one or more functions associated with the vehicle display are enabled or disabled.