Hands-free assembly for a passenger vehicle

The invention claimed is: 1. A passenger vehicle comprising a hands-free door assembly, the hands-free door assembly comprising: a stationary wall portion, wherein the stationary wall portion comprises at least a portion of a seat shell surrounding a passenger seat compartment; a door portion moveable along at least one linear translation track; at least one actuator operable to move the door portion along the at least one linear translation track; and at least one sensor positioned on at least one of the stationary wall portion or the door portion, wherein the sensor receives a hands-free input and transmits an activation signal to the at least one actuator, wherein the at least one actuator moves the door portion along the at least one linear translation track based on receiving the activation signal to provide access to an interior of the passenger seat compartment; and wherein the at least one actuator includes a series of motors and gears located within an interior cavity of the stationary wall portion and at least partially along an upper edge and a lower edge of the door portion, the series of motors and gears functioning as the linear translation track and being coupled to a power source so that actuation of the series of motors and gears upon receiving power generated by the power source causes the door portion to slide into and out of the interior cavity of the stationary wall portion due to a rotational motion of the gears. 2. The passenger vehicle of claim 1 , wherein the at least one linear translation track is positioned at least partially within the stationary wall portion. 3. The passenger vehicle of claim 1 , wherein the at least one sensor comprises at least one of a proximity infrared sensor, a motion sensor, or an optical sensor. 4. The passenger vehicle of claim 1 , further comprising a lock positioned on at least one of the stationary wall portion or the door portion, wherein the sensor receives a second contactless input and transmits a lock signal to activate the lock and prevent movement of the door portion. 5. The passenger vehicle of claim 1 , wherein the hands-free input comprises a contactless input. 6. The passenger vehicle of claim 1 , wherein the door portion comprises a first door member and a second door member, wherein the first door member comprises an edge moveable along the at least one linear translation track. 7. The passenger vehicle of claim 6 , wherein the first door member is pivotable relative to the second door member. 8. A method for activating a hands-free door of a passenger vehicle, the method comprising: receiving a hands-free input from at least one sensor positioned on at least one of a stationary wall portion or a door portion, wherein the stationary wall portion comprises at least a portion of a seat shell surrounding a passenger seat compartment; transmitting an activation signal to at least one actuator, wherein the at least one actuator is operable to move the door portion along at least one linear translation track; and activating the at least one actuator based on the activation signal to move the door portion along the at least one linear translation track to provide access to an interior of the passenger seat compartment; wherein the at least one actuator includes a series of motors and gears located within an interior cavity of the stationary wall portion and at least partially along an upper edge and a lower edge of the door portion, the series of motors and gears functioning as the linear translation track and being coupled to a power source so that actuation of the series of motors and gears upon receiving power generated by the power source causes the door portion to slide into and out of the interior cavity of the stationary wall portion due to a rotational motion of the gears. 9. The method of claim 8 , wherein the at least one linear translation track is positioned at least partially within the stationary wall portion. 10. The method of claim 8 , wherein the at least one sensor comprises at least one of a proximity infrared sensor, a motion sensor, or an optical sensor. 11. The method of claim 8 , further comprising: receiving a second hands-free input from the at least one sensor; transmitting a lock signal to a lock positioned on at least one of the stationary wall portion or the door portion; and activating the lock to prevent movement of the door portion. 12. The method of claim 8 , wherein the hands-free input comprises a contactless input. 13. The method of claim 8 , wherein the door portion comprises a first door member and a second door member, wherein the first door member comprises an edge moveable along the at least one linear translation track. 14. The method of claim 13 , wherein the first door member is pivotable relative to the second door member. 15. The passenger vehicle of claim 1 , wherein the series of motors and gears are arranged so that there are always at least three points of contact between the door portion and the series of motors and gears for assisting with constraining the door portion to reduce motion in a perpendicular direction and to reduce shaking and wobbling of the door portion as the door portion translates into and out of the stationary wall portion. 16. The method of claim 8 , wherein the series of motors and gears are arranged so that there are always at least three points of contact between the door portion and the series of motors and gears for assisting with constraining the door portion to reduce motion in the perpendicular direction and to reduce shaking and wobbling of the door portion as the door portion translates into and out of the stationary wall portion.