A system for use in a park attraction to provide collaborative driving experiences. The system includes a vehicle including a body with passenger seats, including a user input assembly proximate to each of the passenger seats, and further including a holonomic drive system adapted to move the body in any direction while riding on a driving surface of the park attraction. The system also includes a system controller (running an attraction/game control module) that operates to: (a) receive user input from each of the user input assemblies; (b) process the user input from each of the user input assemblies to generate a control vector associated with each of the user input assemblies; (c) combine the control vectors from all of the user input assemblies to generate a resultant vector; (d) generate a drive control signal from the resultant vector; and (e) transmit the drive control signal to the vehicle.

Methods, devices, and systems of a sensor surface object detection system are provided. Output from sensors of a vehicle may be used to describe an environment around the vehicle. In the event that a sensor is obstructed by dirt, debris, or detritus the sensor may not sufficiently describe the environment for autonomous control operations. The sensor surface object detection system may receive output from the sensors of the vehicle to determine whether any of the sensors are obstructed. The determination may be made by comparing the output of one sensor to another, determining whether the output of a sensor is within a predetermined threshold, or comparing characteristics of multiple sensor outputs to one another. When a sensor is determined to be obstructed, the system may send a command to a cleaning system to automatically remove the obstruction.

Methods, devices, and systems of a sensor surface object detection system are provided. Output from sensors of a vehicle may be used to describe an environment around the vehicle. In the event that a sensor is obstructed by dirt, debris, or detritus the sensor may not sufficiently describe the environment for autonomous control operations. The sensor surface object detection system may receive output from the sensors of the vehicle to determine whether any of the sensors are obstructed. The determination may be made by comparing the output of one sensor to another, determining whether the output of a sensor is within a predetermined threshold, or comparing characteristics of multiple sensor outputs to one another. When a sensor is determined to be obstructed, the system may send a command to a cleaning system to automatically remove the obstruction.

Motion controls for a mobile drive unit adjust linear acceleration for laden mobile drive units to decrease the likelihood of the payload tipping or bouncing off the mobile drive unit and adjust angular acceleration to reduce the risk of the drive wheels slipping while the casters align with the direction of travel.

A steering-system for an automated vehicle is provided. The system includes an object-detector and a controller. The object-detector indicates a height and/or a width of an object approached by a host-vehicle. The controller is configured to steer the host-vehicle and is in communication with the object-detector. The controller steers the host-vehicle to straddle the object when the height of the object is less than a ground-clearance of the host-vehicle, and/or the width of the object is less than a track-width of the host-vehicle.

Embodiments herein relate to an autonomous vehicle or self-driving vehicle. The level of comfort with autonomous driving offered to the user and the parameters of operation of the autonomous vehicle might increase or decrease a driver's comfort (anxiety) with the vehicle. Sensors in the vehicle can detect a user's driving style, comfort level and may propose an autonomy level to the user and/or parameters of operation.

An autonomous driving system for a vehicle, including: a computer unit configured to evaluate surroundings-related and vehicle-related data using sensors and performs an autonomous driving operation based on the data, in which a driver command is initiated by an interaction of the driver and is implemented by the autonomous driving system if this is possible following an evaluation of the data. Also described is a related method.

A vehicle remote control system including an electronic key pre-registered as a device via which a vehicle can be remote-operated, and a mobile communication device pre-registered as a device that belongs to a user of the vehicle. In the system, a vehicle-mounted authentication unit is configured to determine whether or not authentication of the electronic key and the mobile communication device has succeeded, and a vehicle-mounted allowance determination unit is configured to, if it is determined by the vehicle-mounted authentication unit that the authentication of the electronic key and the mobile communication device has succeeded, allow operation of a predetermined vehicle-mounted activation unit.

A vehicle remote control system including an electronic key pre-registered as a device via which a vehicle can be remote-operated, and a mobile communication device pre-registered as a device that belongs to a user of the vehicle. In the system, a vehicle-mounted authentication unit is configured to determine whether or not authentication of the electronic key and the mobile communication device has succeeded, and a vehicle-mounted allowance determination unit is configured to, if it is determined by the vehicle-mounted authentication unit that the authentication of the electronic key and the mobile communication device has succeeded, allow operation of a predetermined vehicle-mounted activation unit.

Highly maneuverable utility vehicles having Mecanum wheels capable of traveling in a variety of different directions and turning in a zero turn manner. Such a vehicle may include one or more controllers in communication with drive units for powering the Mecanum wheels. A multi-axis interface, such as a joystick, may be connected to the controller for proportionally controlling the direction and speed of the vehicle, and for providing different manners in which the vehicle may enter zero-turn mode. The joystick may include at least one pushbutton for switching between programmed travel modes or selecting an auxiliary function. The controller may be programmed to permit the vehicle to operate in different operating modes.