Mobility device

The invention claimed is: 1. A system for controlling a mobility device, the mobility device including sensors and a device status; the system comprising: a user interface subsystem configured for receiving user commands and data from, and providing information to, a user; the user interface subsystem including a user command processor configured for processing the received user commands; a sensor subsystem configured for receiving and processing sensor data from the sensors; a workflow subsystem configured for filtering the processed received user commands based at least on the device status; and a mobility device command subsystem configured for issuing commands to the mobility device based at least on the filtered processed received user commands and the processed sensor data. 2. The system as in claim 1 wherein the user interface subsystem comprises: at least one user input device configured for receiving the user commands and the data; at least one user output device configured for transmitting the information; at least one power supply port configured for enabling power to the user interface subsystem; at least one data exchange port configured for enabling data exchange between the user interface subsystem and the mobility device command subsystem; and at least one armrest mount configured for interfacing the user interface subsystem with the mobility device. 3. The system as in claim 2 wherein the at least one user input device comprises a thumbwheel, the thumbwheel being configured for providing movement data throughout a full rotation of the thumbwheel and thumbwheel position, the user interface subsystem being configured for retaining the thumbwheel position across a power cycle, the thumbwheel position being associated with at least one user interface subsystem characteristic. 4. The system as in claim 2 wherein the at least one armrest mounting means comprises: a ribbed bracket operably coupling with the at least one armrest mounting means; a tabbed bracket providing an interface between the ribbed bracket and user interface subsystem, the tabbed bracket including at least one adjustment channel, a position of the user interface subsystem with respect to the mobility device, the tabbed bracket including a recess; and a spring-activated lever engaging with the recess to hold the tabbed bracket in place. 5. The system as in claim 2 wherein the at least one armrest mounting means comprises: a receiving plate and a ramped plate surrounding a spring configuration, the receiving plate providing receiving alignment features aligning with ramped alignment features of the ramped plate, the ramped plate including at least one ramp, the spring configuration including a spring; an adjustment bracket operably coupled with the user interface subsystem, the adjustment bracket enabling setting of an orientation of the user interface subsystem with respect to the mobility device; a fitting plate operably coupled with the adjustment bracket, the fitting plate including a first geometry; and a fitting plate receiver resting upon the ramped plate, the fitting plate receiver including a second geometry complementary to the first geometry, the fitting plate receiver receiving the fitting plate, wherein the fitting plate riding on the at least one ramp compresses the spring, the spring exerts upward pressure on the fitting plate receiver, the upward pressure providing a secure connection between the user interface subsystem and the armrest mounting means. 6. The system as in claim 2 wherein the sensor subsystem comprises: a sensor suite configured for providing the sensor data, the sensor data indicating obstacles in a path of the mobility device, the commands to the mobility device being based at least in part on the obstacles. 7. The system as in claim 2 wherein the workflow subsystem comprises: at least one process, the at least one process including being configured to be responsive to sub-commands, the at least one process being configured for providing at least one command from a set of allowed commands to the mobility device, the at least one process being configured to be selected based at least on the user commands and the data. 8. The system as in claim 2 wherein the workflow subsystem comprises: normal workflow including a speed selection, settings selection, seat adjustment selection, and mode selection; power button workflow being configured to be responsive to sub commands based at least on a button status of a power button, the power button workflow including emergency stop and restart to a previous of the button status; stair mode workflow including solo mode stair climbing and assisted mode stair climbing; forced power off workflow including insuring a power off selection and powering the mobility device off; center of gravity fit workflow including calibrating the mobility device for the user; recovery mode workflow including providing recovery information to the user after a power cycle; and wireless workflow including requesting a password from the user. 9. The system as in claim 1 further comprising: a power subsystem; a powerbase configured for receiving power from the power subsystem, the powerbase including the mobility device command subsystem, the mobility device command subsystem configured for controlling actions of the mobility device, the mobility device command subsystem configured for managing changes in operating modes of the mobility device based at least on a power status of the power subsystem, a service brake configured for stopping movement of the mobility device; and a brake release lever configured for disabling the service brake, the brake release lever including a lever handle activating the brake release lever through a brake release shaft, the brake release shaft engaging with a brake release shaft arm, the brake release shaft arm being operably coupled with a brake release cam, the brake release cam being operably coupled with at least one brake release spring arm, the brake release spring arm being operably coupled with a hook, the hook being attached to the service brake. 10. The system as in claim 9 wherein the brake release lever further comprises: a hook interface operably coupling the brake release spring arm with the hook, the hook interface being threaded. 11. The system as in claim 9 further comprising: a brake including a motor coupling, at least one plate, at least one spacer, and at least one disk; and a brake insert, the brake insert resting between the motor coupling and the at least one disk, the brake insert reducing vibration of the brake. 12. The system as in claim 9 further comprising: a seat assembly, the seat assembly including a backrest, a seat pan, and an armrest. 13. The system as in claim 12 wherein the seat assembly comprises: a back frame bracket enabling coupling with the backrest; a tube holder bracket enabling coupling with the seat pan; an armrest bracket enabling coupling with the armrest; and a cane, the cane being surrounded by the armrest bracket, the cane enabling adjustment of the armrest bracket, the cane enabling coupling between the back frame bracket and the tube holder bracket. 14. The system as in claim 13 wherein the armrest bracket comprises: a cane cavity receiving the cane, the cane including a plurality of set cavities; at least one fastener cavity; and an armrest geometry accommodating a bracket geometry in the armrest, the armrest geometry and the bracket geometry enabling movement of the armrest. 15. The system as in claim 13 wherein the cane comprises a