Mobility device

The invention claimed is: 1. A powered balancing mobility device including a chassis, the powered balancing mobility device comprising: a powerbase assembly including at least one processor processing movement commands for the powered balancing mobility device; at least one cluster assembly operably coupled to the powerbase assembly, the at least one cluster assembly being operably coupled to a plurality of wheels, the plurality of wheels supporting the powerbase assembly, the plurality of wheels and the at least one cluster assembly moving the powered balancing mobility device based at least on the processed movement commands; a first subsystem executing on the at least one processor, the first subsystem estimating a center of gravity of the powered balancing mobility device, the first subsystem estimating at least one value associated with the powered balancing mobility device, the estimated at least one value required to maintain balance of the powered balancing mobility device based on the estimated center of gravity; a caster wheel assembly operably coupled with the powerbase assembly; a second subsystem executing on the at least one processor, computing mobility device acceleration of the powered balancing mobility device based at least on a speed of the plurality of wheels, the second subsystem computing at least one inertial sensor acceleration of an inertial sensor mounted upon the powered balancing mobility device based at least on sensor data from the at least one inertial sensor; a third subsystem executing on the at least one processor, computing a difference between the mobility device acceleration and the inertial sensor acceleration, the third subsystem comparing, forming a comparison, the difference to a pre-selected threshold; and a fourth subsystem executing on the at least one processor, the fourth subsystem commanding the at least one cluster assembly to drop at least one of the plurality of wheels and the caster wheel assembly to ground based at least on the comparison. 2. The powered balancing mobility device as in claim 1 wherein the powerbase assembly comprises: redundant motors moving the at least one cluster assembly and the plurality of wheels; redundant sensors sensing sensor data from the redundant motors and the at least one cluster assembly; and redundant of the at least one processor executing within the powerbase assembly, the redundant of the at least one processor selecting information from the sensor data from the redundant motors, the selecting being based on agreement of the sensor data from the redundant motors among the redundant of the at least one processor, the redundant of the at least one processor processing the movement commands based at least on the selected information. 3. The powered balancing mobility device as in claim 1 wherein the at least one processor uses field weakening to provide bursts of power to motors associated with the at least one cluster assembly and the plurality of wheels. 4. The powered balancing mobility device as in claim 1 wherein the at least one processor estimates the center of gravity of the powered balancing mobility device, the at least one processor (1) measuring data including a pitch angle required to maintain the balance of the powered balancing mobility device at a cluster pre-selected position of the at least one cluster assembly and a seat pre-selected position of a seat associated with the powered balancing mobility device, (2) moving the powered balancing mobility device to a plurality of points, repeating step (1) at each of the plurality of points, (3) verifying that the measured data fall within pre-selected limits, and (4) generating a set of calibration coefficients to establish the center of gravity during operation of the powered balancing mobility device, the set of calibration coefficients based at least on the verified measured data. 5. The powered balancing mobility device as in claim 4 wherein the at least one processor comprises a controller maintaining stability of the powered balancing mobility device, the controller automatically decelerating forward motion and accelerating backward motion under pre-selected circumstances, the pre-selected circumstances being based on the pitch angle of the powered balancing mobility device and the center of gravity of the powered balancing mobility device. 6. The powered balancing mobility device as in claim 1 comprising: a first board including the at least one processor, the first board including a connection to the at least one inertial sensor, the at least one inertial sensor being mounted on a second board, the second board being flexibly coupled with the first board, the at least one inertial sensor being calibrated in isolation from the first board. 7. The powered balancing mobility device as in claim 6 further comprising: an indirect heat dissipation path between at least one processor board associated with the at least one processor and the chassis of the powered balancing mobility device. 8. The powered balancing mobility device as in claim 1 wherein the at least one inertial sensor including a gyro and an accelerometer. 9. The powered balancing mobility device as in claim 8 wherein the powerbase assembly comprises: a plurality of sensors fully enclosed within the powerbase assembly, the plurality of sensors including co-located sensor groups sensing substantially similar characteristics of the powered balancing mobility device. 10. The powered balancing mobility device as in claim 1 further comprising: a seat support assembly enabling connection of a plurality of seat types of a seat to the powerbase assembly, the powerbase assembly having at least one seat position sensor, the at least one seat position sensor providing seat position data to the at least one processor. 11. The powered balancing mobility device as in claim 10 wherein the seat support assembly comprises: seat lift arms lifting the seat associated with the powered balancing mobility device; and a shaft operably coupled with the seat lift arms, a rotation of the shaft being measured by the at least one seat position sensor, the shaft rotating through <90°, the shaft being coupled to the at least one seat position sensor by a one-stage gear train causing the at least one seat position sensor to rotate >180°. 12. The powered balancing mobility device as in claim 1 wherein the powerbase assembly comprises: a manual brake including internal components, the internal components including a hard stop and a damper, the manual brake including a brake release lever replaceable separately from the internal components. 13. The powered balancing mobility device as in claim 1 wherein the at least one processor comprises: user-configurable drive options limiting the speed and the mobility device acceleration based on pre-selected circumstances. 14. The powered balancing mobility device as in claim 1 further comprising: a user control device including a thumbwheel, the thumbwheel modifying at least one speed range for the powered balancing mobility device. 15. The powered balancing mobility device as in claim 1 further comprising: a drive lock kingpin enabling operable coupling between the powerbase assembly and a docking station; and a skid plate having a pop-out cavity accommodating the drive lock kingpin, the skid plate enabling retention of oil escaping from the powerbase assembly. 16. The powered balancing mobility device as in claim 1 further comprising: wherein a seat being positioned more distant from a travel surface than the at least one cluster assem