Compact compound harmonic drive assembly configured for continuous output rotation

What is claimed is: 1. A compound harmonic drive comprising: an inner ring gear including a first set of gear teeth; a flex spline including a flex spline inner ring and a flex spline outer ring, the flex spline inner ring forms a second set of gear teeth that engage the first set of gear teeth and the flex spline outer ring forms a third set of gear teeth; an outer ring gear including a fourth set of gear teeth that are engaged by the third set of gear teeth; and a wave generator disposed between the flex spline inner ring and the flex spline outer ring, wherein the gear system rotates about an axis and each set of gear teeth is axially aligned with each other and radially offset from each other about the axis. 2. The drive of claim 1 , wherein the first set of gear teeth on the inner ring gear faces outwardly to be engaged by the second set of gear teeth on the flex spline inner ring. 3. The drive of claim 2 , wherein the fourth set of gear teeth on the outer ring gear faces inwardly to be engaged by the third set of gear teeth on the flex spline outer ring. 4. The drive of claim 1 , wherein the wave generator is axially aligned with each set of gear teeth. 5. The drive of claim 1 , wherein the wave generator forms an inner surface profile that faces the inner ring gear and an outer surface profile that faces the outer ring gear, both are non-circular. 6. The drive of claim 5 , wherein the inner surface profile and the outer surface profile of the wave generator both include a plurality of lobes, wherein the lobes on the inner surface profile are circumferentially offset from the lobes on the outer surface profile. 7. The drive of claim 6 , wherein the inner surface profile and the outer surface profile of the wave generator are different from one another. 8. The drive of claim 1 , wherein the inner ring gear, the outer ring gear and the wave generator each have a same axial thickness. 9. The drive of claim 1 , further comprising a set of wave generator inner bearings between the wave generator and the flex spline inner ring, the set of wave generator inner bearings being axially aligned with each set of gear teeth. 10. The drive of claim 9 , further comprising a set of wave generator outer bearings between the wave generator and the flex spline outer ring, the set of wave generator outer bearings being axially aligned with each set of gear teeth. 11. The drive of claim 10 , wherein the set of wave generator inner bearings and the set of wave generator outer bearings have the same axial thickness as the wave generator. 12. The drive of claim 10 , wherein the set of wave generator inner bearings and the set of wave generator outer bearings are journal bearings. 13. The drive of claim 1 , wherein the flex spline inner ring and the flex spline outer ring are connected to one another by a cup-shaped extension. 14. The drive of claim 13 , wherein the cup-shaped extension forms a base that is axially spaced apart from each set of gear teeth. 15. The drive of claim 13 , wherein the cup-shaped extension includes an inner side wall that forms the flex spline inner ring, and an outer side wall that forms the flex spline outer ring. 16. The drive of claim 1 , wherein the inner ring gear forms a center opening to receive a shaft. 17. A method of transmitting rotational motion through a compound harmonic drive comprising: rotating the wave generator of a gear system as an input; rotating a flex spline of the gear system by the rotating wave generator, wherein the flex spline includes a flex spline inner ring and a flex spline outer ring, and wherein the inner ring gear forms a first set of gear teeth, the flex spline inner ring forms a second set of gear teeth that engage the first set of gear teeth, the flex spline outer ring forms a third set of gear teeth, the outer ring gear forms a fourth set of gear teeth that are engaged by the third set of gear teeth, and a wave generator is disposed between the flex spline inner ring and the flex spline outer ring; and rotating the inner ring gear or the outer ring gear by the rotating of the flex spline, wherein the drive rotates about an axis and each set of gear teeth is axially aligned with each other and radially offset from each other about the axis. 18. The method of claim 17 , comprising grounding the outer ring gear, thereby rotating the inner ring gear as an output gear. 19. The method of claim 17 , comprising at least one of meshing the first set of gear teeth and the second set of gear teeth according to an inner surface profile of the wave generator and meshing the third set of gear teeth and the fourth set of gear teeth according to an outer surface profile of the wave generator, wherein the inner and outer surface profiles each include a plurality of lobes. 20. The method of claim 19 , comprising meshing both the first set of gear teeth and the second set of gear teeth according to the inner surface profile of the wave generator and meshing the third set of gear teeth and the fourth set of gear teeth according to the outer surface profile of the wave generator, wherein the lobes on the inner surface profile are circumferentially offset from the lobes on the outer surface profile.