Seat assembly with adjustable side bolsters

What is claimed is: 1. A seat assembly comprising: a seat frame for at least one of a seat back and a seat bottom; at least two side bolster regions spaced apart laterally on the seat frame; at least two bolster support assemblies, each bolster support assembly comprising an air bladder mounted to the seat frame along each of the side bolster regions; an actuator for inflating each air bladder between a deflated position and at least one inflated support position; an accelerometer; and a controller in electrical communication with the accelerometer and the actuator, the controller programmed to: receive occupant data of an occupant seating position and at least one of an occupant weight or occupant size; receive data from the accelerometer indicative of a lateral acceleration; compare the occupant seating position to a predetermined wellness position based on the occupant weight and size, if the lateral acceleration is above a threshold and the occupant seating position differs from the wellness position, command the actuator to inflate one of the air bladders to the inflated support position. 2. The seat assembly of claim 1 wherein the controller is further programmed to: receive data from the accelerometer indicating a duration of the lateral acceleration; and command the actuator to inflate the one air bladder if the duration exceeds a time threshold. 3. The seat assembly of claim 1 wherein the controller is further programmed to: compare the data from the accelerometer to reference data comprising at least one of a vehicle speed, occupant data or location data, wherein the threshold is based on the reference data and a lateral acceleration value. 4. The seat assembly of claim 1 wherein the accelerometer is packaged in the controller and the controller is mounted to the seat frame. 5. The seat assembly of claim 4 further comprising at least one sensor in electrical communication to detect the occupant seating position. 6. The seat assembly of claim 1 wherein each bolster assembly comprises an upper air bladder and a lower air bladder. 7. The seat assembly of claim 1 wherein the two bolster support assemblies comprise: a left-side bolster support assembly; and a right-side bolster support assembly. 8. The seat assembly of claim 7 wherein the controller is further programmed to: command the actuator to inflate one of the left-side bolster support assembly and not the right-side bolster support assembly. 9. The seat assembly of claim 1 wherein the accelerometer is packaged in the controller, and wherein the controller and accelerometer are mounted to the seat frame. 10. The seat assembly of claim 1 wherein the controller is further programmed to: receive data from the accelerometer indicating lateral acceleration decreased below the threshold for a deactivation time; command the actuator to deflate the one air bladder if the lateral acceleration decreased below the threshold for the deactivation time. 11. A method comprising: receiving occupant data based on at least one of an occupant weight or occupant size; receiving data based on an occupant position; comparing the occupant position to a predetermined wellness position based on at least one of the occupant weight or occupant size, and receiving data from an accelerometer mounted on a vehicle seat assembly indicative of a lateral acceleration; and if the lateral acceleration is above a threshold and the occupant position differs from the predetermined wellness position, commanding an actuator to inflate one air bladder positioned along a side bolster to an inflated support position, wherein the inflated support position is based on the occupant data and the lateral acceleration. 12. The method of claim 11 , further comprising: receiving data from the accelerometer indicating a duration of the lateral acceleration; and commanding the actuator to inflate the one air bladder if the duration exceeds a time threshold. 13. The method of claim 11 , further comprising: commanding the actuator to inflate the one air bladder positioned on a bolster opposite a direction of the lateral acceleration. 14. The method of claim 11 further comprising: receiving data from the accelerometer indicating the lateral acceleration decreased below threshold for a deactivation time; and commanding the actuator to deflate the one air bladder. 15. A seat assembly comprising: a seat bottom; a seat back extending upright from the seat bottom; at least two side bolster seating surfaces spaced apart laterally on at least one of the seat bottom and the seat back; two bolster air bladder assemblies, one air bladder assembly provided adjacent each of the two side bolster seating surfaces; an actuator for inflating each of the two bolster air bladder assemblies between a deflated position and at least one inflated support position; and a plurality of sensors in electrical communication to detect a seating position of an occupant and a lateral acceleration, a controller in electrical communication with the plurality of sensors and the actuator, the controller programmed to: receive data from the plurality of sensors indicative of the lateral acceleration; receive occupant data of at least one of an occupant weight or occupant size; compare the seating position of the occupant to a predetermined wellness position based on the occupant data, and if the lateral acceleration is above a threshold and the occupant seating position differs from the wellness position, command the actuator to inflate one of the two bolster air bladder assemblies opposite a direction of the lateral acceleration. 16. The seat assembly of claim 15 wherein at least one of the sensors is an accelerometer packaged in the controller, wherein the accelerometer and controller are mounted to at least one of the seat bottom or seat back. 17. The seat assembly of claim 15 wherein each bolster air bladder assembly comprises an upper bladder and a lower air bladder. 18. The seat assembly of claim 15 wherein the two bolster air bladder assemblies comprise: a left-side air bladder assembly; and a right-side air bladder assembly, wherein the controller is further programmed to: command the actuator to inflate one of the left-side and right-side air bladder assemblies and not the other based on the lateral acceleration. 19. The seat assembly of claim 15 wherein the two bolster air bladder assemblies inflate at an inward angle to provide lateral support.