High amplitude tremor stabilization by a handheld tool

What is claimed is: 1. A handheld tool, comprising: a housing; an attachment arm coupled with the housing ; a first motion generating mechanism mechanically coupled to a second motion generating mechanism through first and second pivots, wherein the first motion generating mechanism is mounted to the housing while the second motion generating mechanism is rigidly mounted to the attachment arm, and wherein the first motion generating mechanism is mechanically coupled to move the second motion generating mechanism and the attachment arm about the first pivot while the second motion generating mechanism is mechanically coupled to move the attachment arm about the second pivot; an implement attached to a distal end of the attachment arm; and a tremor tracking module (“TTM”) attached to the housing to detect motion of the housing, and to generate a first motion signal and a second motion signal that respectively drive the first motion generating mechanism in a first degree of freedom and the second motion generating mechanism in a second degree of freedom to stabilize motion of the implement based on the detected motion of the housing. 2. The handheld tool of claim 1 , wherein the first motion generating mechanism comprises a first gearing unit at the first pivot and the second motion generating mechanism comprises a second gearing unit at the second pivot. 3. The handheld tool of claim 2 , wherein the first motion generating mechanism comprises a first actuator, a first gear reduction unit coupled with the first actuator, and the first gearing unit driven by the first actuator through the first gear reduction unit to move the implement perpendicular to an orientation of the first actuator, and wherein the second motion generating mechanism comprises a second actuator, a second gear reduction unit coupled with the second actuator, and the second gearing unit driven by the second actuator through the second gear reduction unit to move the implement perpendicular to an orientation of the second actuator. 4. The handheld tool of claim 3 , wherein the first actuator is disposed within, and aligned parallel to, the housing, and wherein the second actuator is disposed within the attachment arm, and aligned parallel to, the attachment arm. 5. The handheld tool of claim 1 , wherein the first motion generating mechanism moves the implement in the first degree of freedom and the second motion generating mechanism moves the implement in the second degree of freedom to stabilize motion of an implement in 360 degrees as a result of high amplitude motion of the housing, wherein the high amplitude motion comprises user tremor motions having a range of at least 2 centimeters. 6. The handheld tool of claim 5 , wherein the first motion generating mechanism moves the implement in the first degree of freedom in a first range up to 10 centimeters and the second motion generating mechanism moves the implement in the second degree of freedom in a second range up to 10 centimeters. 7. The handheld tool of claim 1 , further comprising: at least two sensors, coupled with the TTM, wherein at least a first sensor of the at least two sensors detects high amplitude tremor motions of the housing, the at least two sensors detect relative motions of the housing and the attachment arm, and the at least two sensors provide the detected high amplitude tremor motions and the relative motions to the TTM. 8. The handheld tool of claim 7 , wherein the at least two sensors comprise a first inertial measuring unit and a second inertial measuring unit. 9. The handheld tool of claim 8 , wherein the flexible sleeve is impermeable to moisture and comprises one of a silicon sleeve, a plastic sleeve, or a rubber sleeve. 10. The handheld tool of claim 1 , further comprising: a flexible sleeve attached to the housing and the attachment arm, wherein the flexible sleeve seals a portion of the handheld tool between the housing and the attachment arm, and wherein the portion contains the first motion generating mechanism and the second motion generating mechanism. 11. The handheld tool of claim 1 , wherein the implement comprises any of a manufacturing tool, a surgical tool, a kitchen utensil, a sporting tool, a yard tool, a grooming tool, or a dental hygiene tool. 12. The handheld tool of claim 1 , further comprising: a controller coupled to the TTM to read data indicative of the detected motion; a memory unit coupled to the controller; and logic executable by the controller that when executed by the controller causes the handheld tool to perform operations comprising: generating a motion log within the memory unit based upon the data indicative of the detected motion while a user is holding the handheld tool; and periodically communicating the motion log to a remote server. 13. The handheld tool of claim 1 , wherein the first and second motion generating mechanisms have outputs oriented end-to-end facing each other and the first and second motion generating mechanisms are positioned in-line and parallel with each other and the housing when driven to a center position. 14. The handheld tool of claim 1 , wherein the first and second pivots are both disposed between the first and second motion generating mechanisms. 15. The handheld tool of claim 1 , wherein the housing has an exterior surface shaped as a handle for holding with a hand and wherein the first motion generating mechanism is disposed entirely within the housing.