An apparatus and methods are provided for a sound effect generation system for broadcasting engine sounds outside a vehicle. The sound effect generation system enables a driver to select and manipulate the sounds emitted outside the vehicle. The sound effect generation system includes a wireless sound generator module for simulating engine sounds, a speaker for broadcasting the engine sounds outside the vehicle, and an external GPS antenna for measuring a speed of the vehicle. When the vehicle is turned on and remains stationary, the sound generator module simulates an idling internal combustion engine. When the speed of the vehicle increases, revving of the internal combustion engine and transmission shifting are simulated. When the speed of the vehicle decreases, a decelerating internal combustion engine is simulated. The sound effect generation system includes settings that may be accessed by a wireless mobile device whereby the driver can manipulate the engine sounds.

The present disclosure relates to an electric forklift and a method of driving the same which are capable of increasing a lifespan of a battery, and the electric forklift includes: a traveling motor which operates a wheel; a working machine motor which operates a working machine; a control unit which controls the operations of the traveling motor and the working machine motor based on an output control signal inputted from the outside; a battery which supplies electric power to the traveling motor, the working machine motor, and the control unit; and a temperature detecting unit which detects a temperature of the battery, in which the control unit controls an operation of at least one of the traveling motor and the working machine motor based on a detected temperature from the temperature detecting unit.

A control method of a smart welcome system of a vehicle includes emitting a low-frequency signal of a first power to search for a smart key in a first search area, emitting a high-frequency signal by the smart key, determining that the smart key is within the first search area, carrying out authentication for the smart key, transmitting a wake-up signal to an AVNT smart connection device, and emitting a low-frequency signal of a second power to search for the smart key in a second search area, executing a booting program, transmitting a high-frequency signal by the authenticated smart key, determining that the authenticated smart key is within the second search area, unfolding a side mirror and outputting a welcome sound output signal to a welcome speaker, and outputting a welcome sound simultaneously with unfolding the side mirror.

A computer-implemented method for detecting an obstacle on a route ahead of a first vehicle. In the method, information on a second vehicle driving ahead on the route is recorded in the first vehicle by at least one sensor of the first vehicle. In the first vehicle, depending on the recorded information, a computer detects an avoidance maneuver of the second vehicle due to an obstacle or detects that the second vehicle has driven over an obstacle. An obstacle is detected on the route depending on the detected avoidance maneuver or the detection that the vehicle has driven over an obstacle. A measure for protecting the vehicle and/or the obstacle is initiated depending on the detected obstacle.

A power receiving and feeding apparatus is provided which includes a connector coupled to a power receiving and feeding outlet of an electric motor vehicle, a connector moving unit that moves the connector in a lateral direction and a vertical direction, and a position determination unit that determines a position of the power receiving and feeding outlet of the electric motor vehicle based on a position information of the electric motor vehicle and a vehicle information of the electric motor vehicle. The connector moving unit is caused to move the connector at a position higher than a predetermined height in the lateral direction and then in the vertical direction to align the connector to the position of the power receiving and feeding outlet so as to couple the connector to the power receiving and feeding outlet.

Systems and methods for providing indications to identify a selected autonomous vehicle, thereby distinguishing the selected autonomous vehicle from other autonomous vehicles in a fleet. In particular, autonomous vehicles that are not paired with a specific nearby user may employ various exterior indicators to dissuade the user from entering. Additionally, autonomous vehicles that are not paired with the specific nearby user may provide guidance toward the user's autonomous vehicle.

A system for automatically stopping an autonomous vehicle, in which the autonomous vehicle includes a primary brake and a secondary brake controlled by least one control module or different control modules. The system includes: an error detection module configured to detect an error in the control of the primary brake or the secondary brake by the one control module or the different control modules; and a supplemental control module configured, upon a detected error by the error module, to cause a stop of the autonomous vehicle using the primary brake or the secondary brake.

An assist apparatus for assisting a user or an occupant of a vehicle to get out of the vehicle, the assist apparatus configured to be capable of opening a door of the vehicle automatically upon a request operation for opening the door by the user.

A vehicle horn sound output device is disclosed. A vehicle horn sound output device according to the present invention comprises: an operation switch for outputting a horn sound; a storage unit for storing sound types to be output as horn sounds; a touch input unit for displaying a horn setting screen such that, by touching the horn setting screen, at least one from among the sound type, the volume, and the sound quality is set; and a control unit for executing an application so as to output a horn setting screen to the touch input unit, retrieving a sound type stored in the storage unit according to a setting value input from the touch input unit, setting the volume and the sound quality, and outputting a horn sound through a horn speaker if the operation switch is operated.

The present disclosure relates to an illumination system for a motor vehicle for illuminating a carriageway section. The aim is to illuminate the carriageway section in such a way that irritations for other road users are avoided as far as possible. The illumination system includes an information system for providing or detecting a stopping point, an illumination device for projecting a calculated light distribution onto the carriageway section, and a control unit for calculating a light distribution, wherein the calculated light distribution is a one-piece area. The one-piece area begins from a predetermined starting section, which constitutes a proximal lighting section relative to the motor vehicle and does not extend beyond the stopping point. This leads to a shortening of a lane light of the motor vehicle, so that said lane light does not illuminate the lane beyond the stopping point. This is advantageous in particular for crossroads.