Vehicles, steering systems, and steering assemblies of a vehicle are provided in the present disclosure. According to one embodiment, a steering system includes a track oriented substantially in a side-to-side direction with respect to the vehicle. The side-to-side direction may be substantially horizontal with a ground surface and substantially perpendicular with a forward-facing direction of the vehicle. The steering system also includes a steering wheel adapted to slide laterally along the track. In another embodiments, the present disclosure provides a vehicle comprising a steering wheel assembly adapted to be positioned in laterally variable locations with respect to the vehicle, whereby the steering wheel assembly is further adapted to enable a driver to manually operate the vehicle from a left-hand side of the vehicle and from a right-hand side of the vehicle.

An adjustable vehicle pedal assembly is disclosed. The adjustable vehicle pedal assembly may include a tray sub-assembly and a push rod sub-assembly. The tray sub-assembly may include a vehicle pedal, a splined shaft, and a tray that is slidable, relative to the splined shaft, to permit a position of the vehicle pedal to be adjusted. The push rod sub-assembly may engage a valve based on actuation of the vehicle pedal. A mechanical linkage between the tray sub-assembly and the push rod sub-assembly being maintained when the position of the vehicle pedal is adjusted.

The invention relates to a control device for controlling an engine driven transport apparatus. The control device comprises a fitness apparatus having a base part and at least one movable part movable with respect to the base part for enabling a user to perform a physical exercise. The control device further comprises a sensor device for sensing a degree of physical exercise. The control device is arranged for controlling engine power of an engine of the transport apparatus at least partly based on the sensed degree of physical exercise. The fitness apparatus comprises a flywheel rotatably connected to the base part. The fitness apparatus is arranged for setting the flywheel into motion by means of at least one of the one or multiple movable parts. The sensor device is arranged to sense the degree of performed physical exercise at least partly by sensing a degree of motion of the flywheel.

An occupant posture adjustment device and a pedal device include a pedal adjustment mechanism that changes the inclination of a pedal with respect to a floor panel between a first driving state and a second driving state, and a controller that, in the first driving state, controls the pedal adjustment mechanism such that a back face of the pedal and the floor panel are separated from each other, and in the second driving state, controls the pedal adjustment mechanism such that the back face of the pedal and the floor panel come into contact with each other.

An adjustable pedal for a vehicle has readily accessible adjustment mechanisms. An adjustment component has a first leg and also has a cross leg secured in the passenger compartment of the vehicle. A slot extends horizontally in the first leg with horizontal first alignment holes above and below the slot. Bolts couple a slide block to the first alignment holes at a vertical position of comfort to a driver. A brake pedal has an upper end pivotably coupled to the slide block and has a lower end adapted to be depressed by the driver. A foot pad is coupled to the lower end of the brake pedal. A plurality of elevationally spaced holes are in the brake pedal. Bolts couple the foot pad to the brake pedal at a horizontal position of comfort for the driver.

An adjustable vehicle pedal assembly is disclosed. The adjustable vehicle pedal assembly may include a tray sub-assembly and a push rod sub-assembly. The tray sub-assembly may include a vehicle pedal, a splined shaft, and a tray that is slidable, relative to the splined shaft, to permit a position of the vehicle pedal to be adjusted. The push rod sub-assembly may engage a valve based on actuation of the vehicle pedal. A mechanical linkage between the tray sub-assembly and the push rod sub-assembly being maintained when the position of the vehicle pedal is adjusted.

A vehicle in one embodiment includes a driver module which can include a driver seat and a driver control assembly both of which are movably coupled to a chassis of the vehicle to allow the driver module to move between a center position and at least one of a left position and a right position along a first row in the interior of the vehicle. In one embodiment, the driver control assembly includes a steering wheel, a brake pedal, and an accelerator pedal. In one embodiment, a driver can drive the vehicle in any one of these positions. In one embodiment, the vehicle further includes a first rear seat and a second rear seat coupled to the chassis in a second row in the interior of the vehicle. In one embodiment, passengers in the rear seats can extend their legs into the first row when the driver seat is in the center position. In one embodiment, the driver seat and the driver control assembly are movable laterally along a set of rails coupled to the chassis of the vehicle. Other embodiments are also described.

A pedal device includes a base disposed on an inner wall surface of a vehicle body, a pedal pad movable relative to the base, and a pad fixation portion configured to fix the pedal pad to be immovable relative to the base.

An automotive vehicle includes a body having a passenger compartment and at least one pedal box for controlling vehicle acceleration or braking. The pedal box is movably coupled to an interior structural point disposed within the passenger compartment and movable between first and second positions with respect to the structural point. At least one pedal, actuatable by an occupant, is coupled to the pedal box. The vehicle additionally includes an actuator operably coupled to the pedal box and configured to selectively move the pedal box between the first position and the second position. The vehicle further includes at least one controller. The controller is configured to, in response to satisfaction of a first operating condition, control the actuator to move the pedal box to the first position, and, in response to satisfaction of a second operating condition, control the actuator to move the pedal box to the second position.

A vehicle for automatically learning and recalling driver preferences includes a subsystem and a processor. The processor builds, for a user profile, an ideal range in which the subsystem has been adjusted over key cycles. For each instance in which the user profile is loaded, the processor causes the subsystem to adjust to the latest saved user adjustment of the subsystem. The processor save the current user adjustment in response to the current user adjustment of the subsystem being within the ideal range.