Patient transport apparatus having powered drive system utilizing dual mode user input control

What is claimed is: 1. A patient transport apparatus moveable along a floor surface, the patient transport apparatus comprising: a support structure; a plurality of support wheels coupled to the support structure; a drive wheel assembly comprising a pair of drive wheels and a powered drive system coupled to the pair of drive wheels; a driving assist device actuatable between at least one engaged state and a non-engaged state; a sensor system to determine current speeds of the pair of drive wheels; and a controller coupled to the powered drive system, the driving assist device, and the sensor system, the controller being configured to determine if the driving assist device is in the at least one engaged state or the non-engaged state, compare the current speeds relative to a first maximum speed and to a second maximum speed lower than the first maximum speed, generate a first command to drive the pair of drive wheels to assist in propelling the patient transport apparatus along a floor surface in a longitudinal direction in response to the driving assist device being in the at least one engaged state and the current speeds being higher than the second maximum speed, and generate a second command to drive the pair of drive wheels in a counter-rotating manner or at different rotational speeds to assist in maneuvering the patient transport apparatus transverse to the longitudinal direction in response to the driving assist device being in the at least one engaged state and the current speeds being lower than the second maximum speed. 2. The patient transport apparatus of claim 1 , wherein the controller is further configured to control the pair of drive wheels to limit the current speeds to the first maximum speed. 3. The patient transport apparatus of claim 1 , wherein the powered drive system includes a pair of motors each associated with a respective one of the pair of drive wheels. 4. The patient transport apparatus of claim 1 , wherein the driving assist device comprises a pair of handle members and an engageable throttle control. 5. The patient transport apparatus of claim 1 , wherein the driving assist device further comprises an engageable throttle control. 6. The patient transport apparatus of claim 1 , wherein the driving assist device further comprises a load cell. 7. The patient transport apparatus of claim 1 , wherein the driving assist device comprises a T-bar handle, the T-bar handle including a first bar coupled to the support structure at a lower end and extending along its length from the lower end to an upper end, the T-bar handle further including a second bar coupled to the upper end of the first bar and extending transverse to the first bar between a first end and a second end, the length of the first bar from the lower end to the upper end defining a steering axis. 8. The patient transport apparatus of claim 7 , wherein the driving assist device comprises a load cell responsive to forces applied to the T-bar handle. 9. The patient transport apparatus of claim 1 , wherein the driving assist device comprises a joystick coupled to the support structure and movable in a plurality of directions relative to the support structure. 10. The patient transport apparatus of claim 9 , wherein the joystick is rotatable about a steering axis. 11. The patient transport apparatus of claim 1 , wherein the drive wheel assembly comprises a lift actuator coupled to the pair of drive wheels and configured to move the pair of drive wheels between a deployed position and a retracted position. 12. The patient transport apparatus of claim 1 , wherein the drive wheel assembly comprises a swivel actuator to swivel the pair of drive wheels about a swivel axis between a non-swiveled position and a swiveled position. 13. The patient transport apparatus of claim 1 , wherein the sensor system is further configured to determine one or more of a current position of the pair of drive wheels, and a current orientation of the pair of drive wheels. 14. The patient transport apparatus of claim 1 , further comprising a mode switch coupled to the controller and selectively operable in: a multidirectional mode to permit driving the pair of drive wheels to assist in propelling the patient transport apparatus transverse to the longitudinal direction in response to the current speeds determined by the sensor system being below the second maximum speed, and a longitudinal transport mode to inhibit operation in the multidirectional mode and to permit driving the pair of drive wheels to assist in propelling the patient transport apparatus in the longitudinal direction. 15. The patient transport apparatus of claim 14 , comprising a location device coupled to the controller to generate a location signal to be sent to the controller to identify a location of the patient transport apparatus relative to one or more of a building, room, or object, wherein the controller is configured to one or more of: automatically switch between the longitudinal transport mode and the multidirectional mode based on the location signal and limit switching between the longitudinal transport mode and the multidirectional mode, based on the location signal. 16. The patient transport apparatus of claim 14 , wherein the mode switch is also selectively operable in a neutral mode. 17. The patient transport apparatus of claim 14 wherein the mode switch comprises a rotatable dial coupled to the support structure, the rotatable dial movable between: a longitudinal transport mode dial position associated with the longitudinal transport mode, and a multidirectional mode dial position associated with the multidirectional mode. 18. The patient transport apparatus of claim 14 , wherein the mode switch comprises a rotatable dial, the rotatable dial movable between a neutral dial position, a longitudinal transport mode dial position, and a multidirectional mode dial position. 19. The patient transport apparatus of claim 14 , wherein the mode switch comprises a touch sensor.