An autonomous can include one or more configurable passenger seats to accommodate a plurality of different seating configurations. For instance, the one or more passenger seats can include a passenger seat defining a seating orientation. The passenger seat can be configurable in a first configuration in which the seating orientation is directed towards a forward end of the autonomous vehicle and a second configuration in which the seating orientation is directed towards a rear end of the autonomous vehicle. The passenger seat can include a seatback rotatable about a pivot point on a base of the passenger seat to switch between the first configuration and the second configuration. Alternatively, or additionally, the autonomous vehicle can include a door assembly pivotably fixed to a vehicle body of the autonomous vehicle such that a swept path of the door assembly when moving between an open position and a closed position is reduced.

An articulating step assembly for a vehicle which includes a mount for attachment to a vehicle, a step member and an articulating linkage connecting the mount and the step for stowing and deploying the step. A motor is attached to the linkage to provide raising and lowering of the step. A weather sealed non-contact switch located on the assembly for actuating the motor and linkage in response to movement of the step in a predetermined direction for deploying the step.

A two-piece manufacturing process for making a running board of a vehicle with two extruded halves, one aluminum and one polymer. The upper half is aluminum and the lower half polymer.

A moveable link for an active exterior component on a vehicle. The moveable link provides a sealed connection between the outer link and the base link and fixed link. This sealed connection prevents debris from contaminating the area where the outer link rotates about the pin, thereby preventing unwanted noises. Furthermore, the sealed connection also prevent corrosion between the outer link and the pin, which can lead to failure of the moveable link.

Running boards for vehicles are disclosed that each include a rail with one or more steps. The step(s) are releasably connectable to (supported by) the rail (e.g., via a plurality of removable mechanical fasteners) to allow for removal of the step(s) when additional ground clearance is necessary and/or desirable, such as, for example, during off-road use of the vehicle. The rail of each running board is connectable to an underside of the vehicle (e.g., via brackets) such that the rails are positioned to absorb impact from external objects, such as, for example, rocks, boulders, stumps, etc., traversed during travel across uneven ground, and thereby protect the vehicle. In certain embodiments, the rails may include internal supports (e.g., stiffening ribs) to increase the strength and/or the rigidity of the rail, and, thus, increase the protection to the vehicle provided by the running boards.

An all-in-one vehicle running board includes a panel, a mounting part connected to a vehicle body, and a transmission part connecting the panel with the mounting part. The transmission part drives the panel to extend or retract. The transmission part includes at least two transmission mechanisms, one of which is provided with a drive mechanism. The mounting part includes an integral mounting bracket connected to the vehicle body and connection assemblies connecting the integral mounting bracket with the transmission mechanism. The vehicle running board can be conveniently integrally mounted onto the lower body panel of the vehicle via the integral mounting bracket and is stable in use. In addition, use of a main transmission mechanism in combination with an auxiliary transmission mechanism(s) prevents the running board from getting stuck when the drive mechanism fails, thereby allowing for more flexible and convenient use of the running board.

A vehicle running board assembly includes, among other things, a reinforcing insert, and a beam that is extruded over the reinforcing insert. A step pad is extruded over the beam. A vehicle running board manufacturing method according to another exemplary aspect of the present disclosure includes, among other things, extruding a beam over a reinforcing insert, extruding a step pad over the beam, and cutting the beam, the reinforcing insert, and the step pad to provide the running board.

Motor vehicles may be equipped with running board activated powered closure member systems. A powered opening or closing sequence of a closure member may be initiated by activating a running board assembly of the powered closure member system in response to a user input. The user input can be provided by a limb of the user, for example. In some embodiments, the running board assembly may include integrated sensors for receiving the user input. In other embodiments, the running board assembly may be configured to function as a switch for receiving the user input.

A vehicle cab access assembly for easier and safer egress and ingress includes a step fairing, which is mountable to a respective side of a vehicle, such as a cab over engine vehicle, so that the step fairing is positioned below a door positioned in a cab of the vehicle. The step fairing comprises three steps and facilitates egress and ingress to the cab of the vehicle.

Aspects of the present disclosure include a vehicle having a passenger assistance system for facilitating ingress and egress of passengers. The vehicle may include a plurality of wheels. The vehicle may include a body including at least one doorway supported on the plurality of wheels via a suspension. The vehicle may include a door movable between an open position and a closed position covering the at least one doorway. The vehicle may include a first platform movable between a horizontal position beneath a bottom of the doorway and a stowed position parallel to the door. The vehicle may include an occupant compartment within the body. The occupant compartment may include a seat rotatable to face the doorway in an ingress or egress mode. The occupant compartment may include a robotic arm configured to extend along an ingress or egress path through the doorway.