Active vehicle seat architecture for inertial compensation in motor vehicles

What is claimed: 1. An active vehicle seat assembly for a motor vehicle, the motor vehicle having a vehicle body with a base plate, the vehicle body having mutually orthogonal longitudinal, lateral, and vertical axes, the active vehicle seat assembly comprising: an occupant chair including a backrest portion and a seat portion connected to the backrest portion; a motion sensor connected to the occupant chair and configured to detect motion of the occupant chair and output signals indicative thereof; an automated platform subjacent the seat portion and configured to movably mount the occupant chair to the vehicle body, the automated platform including: a pitch plate movably mounted to the seat portion, the pitch plate being configured to pivot relative to the lateral axis; a pitch actuator connected to and configured to selectively pivot the pitch plate; a roll plate pivotably mounted to the pitch plate, the roll plate being configured to pivotably mount to the base plate and pivot relative to the longitudinal axis; and a roll actuator connected to and configured to selectively pivot the roll plate; and a four-bar roll linkage with first and second roll actuation plates and first and second sets of roll pivot joints, the first set of roll pivot joints being configured to pivotably couple first ends of the first and second roll actuation plates to the base plate of the vehicle body, and the second set of roll pivot joints pivotably coupling second ends of the first and second roll actuation plates to the roll plate; and an on-board controller communicatively connected to the motion sensor, the pitch actuator, and the roll actuator, the on-board controller being operable to respond to a motion signal from the motion sensor indicative of an inertial motion disturbance to the occupant chair and output a control signal to one or both of the pitch and roll actuators to selectively pivot one or both of the pitch and roll plates and thereby counteract the inertial motion disturbance. 2. The active vehicle seat assembly of claim 1 , wherein the roll pivot joints define first and second roll axes mutually parallel with the longitudinal axis of the vehicle body, the roll plate pivoting about the first roll axis when rolling in a first direction and pivoting about the second roll axis when rolling in a second direction opposite the first direction. 3. The active vehicle seat assembly of claim 1 , wherein the roll actuator includes an electronically actuable linear actuator rotatably coupled at a first end thereof to the roll plate and configured to rotatably couple at a second end thereof to the base plate of the vehicle body. 4. The active vehicle seat assembly of claim 3 , wherein the linear actuator includes a piston with a spherical joint defining the first end rotatably coupled to the roll plate, and a roller hinge defining the second end configured to rotatably couple to the base plate. 5. The active vehicle seat assembly of claim 4 , wherein the pitch plate is slidably mounted to the seat portion and interposed between the roll plate and the seat portion. 6. The active vehicle seat assembly of claim 5 , wherein the pitch pivot joints define first and second pitch axes mutually parallel with the lateral axis of the vehicle body, the pitch plate pivoting about the first pitch axis when pitching in a first direction and pivoting about the second pitch axis when pitching in a second direction opposite the first direction. 7. The active vehicle seat assembly of claim 5 , wherein the pitch actuator includes an electronically actuable linear actuator rotatably coupled at a first end thereof to the pitch plate and configured to rotatably couple at a second end thereof to the base plate of the vehicle body. 8. The active vehicle seat assembly of claim 7 , wherein the linear actuator includes a piston with a spherical joint defining the first end rotatably coupled to the pitch plate, and a roller hinge defining the second end configured to rotatably couple to the base plate. 9. The active vehicle seat assembly of claim 8 , wherein the roll plate and the pitch plate each has a polyhedral panel shape. 10. The active vehicle seat assembly of claim 1 , further comprising a four-bar pitch linkage with first and second pitch actuation plates and first and second sets of pitch pivot joints, the first set of pitch pivot joints pivotably coupling first ends of the pitch actuation plates to the roll plate, and the second set of pitch pivot joints pivotably coupling second ends of the pitch actuation plates to the pitch plate. 11. The active vehicle seat assembly of claim 1 , further comprising a pair of seat tracks mounted on the pitch plate and a pair of glide rails mounted to the seat portion of the occupant chair, the glide rails each being slidably coupled to a respective one of the seat tracks. 12. The active vehicle seat assembly of claim 1 , wherein the motion sensor includes a 3-axis accelerometer. 13. The active vehicle seat assembly of claim 1 , further comprising a position sensor connected to the occupant chair and configured to detect a position of the occupant chair relative to the automated platform and output a signal indicative thereof to the on-board controller. 14. A motor vehicle, comprising: a vehicle body defining a passenger compartment with a base plate; an occupant chair including a backrest portion, a seat portion connected to the backrest portion, and a pair of glide rails connected to the seat portion; a 3-axis accelerometer configured to detect motion of the occupant chair and output signals indicative thereof; an automated platform subjacent the seat portion, the automated platform including: a pitch plate with a pair of seat tracks slidably mated with the glide rails to thereby movably mount thereon the seat portion of the occupant chair; a roll plate interposed between the pitch plate and the base plate such that the pitch plate is mounted on the roll plate and the roll plate is mounted on the base plate; a four-bar pitch linkage pivotably coupling the pitch plate to the roll plate such that the pitch plate is pivotable about first and second pitch axes mutually parallel to a lateral axis of the vehicle body; a four-bar roll linkage pivotably coupling the roll plate to the base plate such that the roll plate is pivotable about first and second roll axes mutually parallel to a longitudinal axis of the vehicle body; an electronically actuable linear pitch actuator connected to and configured to selectively pivot the pitch plate about the first and second pitch axes; and an electronically actuable linear roll actuator connected to and configured to selectively pivot the roll plate about the first and second roll axes; and an on-board controller communicatively connected to the 3-axis accelerometer, the pitch actuator, and the roll actuator, the on-board controller being operable to respond to a motion signal from the accelerometer indicative of an inertial motion disturbance to the occupant chair and output a control signal to one or both of the pitch and roll actuators to selectively pivot one or both of the pitch and roll plates and thereby counteract the inertial motion disturbance. 15. A method of constructing an active vehicle seat assembly for a motor vehicle, the motor vehicle having a vehicle body with a base plate, the method comprising: providing an occupant chair including a backrest portion and a seat portion attached to the backrest portion; attaching a motion sensor to the occupant chair, the motion sensor being configured to detect motion of the occupant chair and output signals indic