Harmonic drive and method of assembling

The invention claimed is: 1. A harmonic drive comprising: a first flexible gear; a second flexible gear disposed about and connected to the first flexible gear; a ring gear that meshes with at least one of the first flexible gear and the second flexible gear; a rotor; a wave generator sleeve directly fitted over an outer surface of the rotor, wherein the wave generator sleeve is disposed radially within the first flexible gear and the second flexible gear and engages at least one of the first flexible gear and the second flexible gear; and a bearing assembly disposed between the wave generator sleeve and the first flexible gear, wherein the wave generator sleeve rotates at least one of the first and second flexible gears as the wave generator sleeve is rotated by the rotor. 2. The harmonic drive of claim 1 , further comprising: a stator assembly disposed radially inwardly of the rotor and configured to impose rotation of the rotor. 3. The harmonic drive of claim 1 , wherein the wave generator sleeve is thermally fitted to the output shaft of the rotor. 4. The harmonic drive of claim 1 , wherein the wave generator sleeve is directly fitted over the output shaft of the rotor with an adhesive. 5. The harmonic drive of claim 1 , wherein the wave generator sleeve comprises a hardenable material. 6. The harmonic drive of claim 5 , wherein the hardenable material comprises steel. 7. The harmonic drive of claim 5 , wherein the hardenable material comprises stainless steel. 8. The harmonic drive of claim 1 , wherein the bearing assembly is located radially outwardly of the wave generator sleeve. 9. The harmonic drive of claim 5 , wherein the wave generator sleeve comprises a sleeve material and the rotor comprises a rotor material, wherein the sleeve material is different than the rotor material. 10. A method of assembling a harmonic drive comprising: positioning a wave generator sleeve radially inward of a first flexible gear and a second flexible gear and radially outward of a bearing assembly; positioning a ring gear around a portion of at least one the first flexible gear and the second flexible gear such that the ring gear meshes with at least one of the first flexible gear and the second flexible gear; and directly fitting the wave generator sleeve to a rotor configured to rotate the wave generator sleeve and at least one of the first flexible gear and the second flexible gear. 11. The method of claim 10 , wherein the wave generator sleeve is directly fitted to the outer diameter of the rotor with a thermal fitting process. 12. The method of claim 11 , wherein the wave generator sleeve is directly fitted to the outer diameter of the rotor with an adhesive. 13. The method of claim 10 , wherein the wave generator sleeve is positioned to be a bearing assembly support. 14. The method of claim 11 , wherein the thermal fitting process shrinks the wave generator sleeve to provide a fitted configuration.