A steering apparatus for a vehicle that utilizes steer-by-wire controls and may selectively be operated in an autonomous mode comprises a body mounted sliding steering column. The body mounted sliding steering column includes an arm that slides between a stowed position and a use position on at least one rail attached to a frame of the vehicle. The arm supports a steering column that may also be adjustable between a retracted position and an extended position. The arm also houses a force feedback motor in force-transmitting communication with the steering column.

An improved structure and tactile sensation providing apparatus are provided. A structure is configured to provide a tactile sensation. The structure comprises an abutment configured to abut an actuator that causes the structure to vibrate according to expansion and contraction displacement of a piezoelectric element. The abutment is non-adherent to the actuator.

A steering apparatus includes a steering wheel, a support frame, a frame fixation part, and a steering transmission part. The support frame rotatably supports the steering wheel. The frame fixation part fixes the support frame to a vehicle body. The steering transmission part transmits a rotation of the steering wheel relative to the support frame to a steering mechanism of a wheel. The support frame and the frame fixation part are arranged at a position that does not overlap with a rotation center axis line of the steering wheel in a front view of the steering wheel.

A vehicle control system includes a controller configured to determine whether a vehicle is operating in an autonomous driving mode or in a manual driving mode; and a steering device for adjusting a position of a wheel of the vehicle when the vehicle is operating in the manual driving mode. The steering device includes a knob configured to rotate about a rotation axis; a shaft connected to the knob, the shaft rotating about the rotation axis together with the knob by a rotational force transmitted from the knob; and an elastic part coupled to the shaft. In particular, when the shaft rotates from a reference position by the rotational force, the elastic part is compressed, and when the rotational force is removed, the elastic part is relaxed to return the shaft to the reference position.

A trailer sideswipe avoidance system for a vehicle towing a trailer is disclosed. The trailer sideswipe avoidance system includes a sensor system configured to detect objects in an operating environment of the vehicle. The trailer sideswipe avoidance system may include a controller that processes information received from the sensor system to determine whether the object detected in the operating environment of the vehicle is in the travel path of the towed trailer. A visual display displays a trailer collision alert zone and a trailer collision avoidance zone. The position of the trailer collision avoidance zone on the visual display relative to the position of the trailer collision alert zone on the visual display directionally corresponds with a collision avoidance steering angle of the vehicle relative to a current steering angle of the vehicle when the controller determines that the object is in the travel path of the towed trailer.

A switch cap for a switch device that can reduce a pressing error of a switch is provided. A three-dimensional first cap main body moves by a force applied to a first abutting portion from a finger which is an operator. A first sensor is disposed in the first cap main body, and detects abutting or approach of the finger to the first abutting portion. A first transmission member is fixed to the inside of the first cap main body, and moves together with the first cap main body for first switching to transmit movement of the first cap main body to a push button which is a predetermined location of a switch device. A first sensor is formed in a flexible printed circuit board (FPC) disposed in the first cap main body, and the FPC is fixed by the first transmission member and the first cap main body.

In a display control device, in a case in which a total number of image pages displayable at a meter display is equal to or less than a predetermined value, the display control device displays a same number of dots as the total number of image pages, and displays a page indicator that specifies a dot corresponding to the displayed image page. Further, in a case in which the total number of image pages exceeds the predetermined value, a page indicator is displayed in which a cursor is arranged at a position corresponding to the displayed image page together with a scroll bar. As a result, even if the total number of image pages is large, the display of the page indicator is not complicated.

Disclosed herein is a control apparatus included in a vehicle in automated vehicle and highway systems, the control apparatus including: a steering wheel having at least one touch screen on which a screen for manipulating at least one of the functions of the vehicle is output In addition, a control unit determines an intention of the user related to a selection of any one of the functions of the vehicle and controls a screen for manipulating a function according to the determined intention of the user to be output.

The disclosure relates to a device for recognizing an intention of a driver for a lane change assistant in an at least partially autonomous motor vehicle, a corresponding system, and a method and computer program. It is provided that steering of a driver does not directly cause lateral acceleration, as is currently the case, but rather serves the vehicle as an input medium for the intention of the driver to imminently initiate lateral acceleration, for example a turn-off procedure or a change of travel lane. As a result of the signal from the control element, a safe, drivable trajectory that will subsequently be traveled automatically by the vehicle is calculated. This may also include more complex driving maneuvers, such as a change of multiple travel lanes. As a result, driving is made more convenient and safer.

An input accepting device includes a memory, and a processor coupled to the memory. In a case in which a detected value of electrostatic capacity detected by an electrostatic sensor is greater than or equal to a first threshold value, the processor accepts operation due to contact of an operator. In a case in which a state, in which the detected value of the electrostatic capacity detected by the electrostatic sensor is greater than or equal to a second threshold value, continues for a first time period, the processor determines that there is contact by the operator. In a case in which it is determined that there is contact by the operator, the processor sets the first threshold value to a value that is greater than or equal to the second threshold value based on the detected value detected by the electrostatic sensor.