4-Point Convex Contact Roller Bearing For Compact Planetary Drive Train

1 . A gear set assembly comprising: a ring gear including a plurality of ring gear teeth on an inner radial edge of the ring gear, the ring gear including a first arcuate ring roller and a second arcuate ring roller, the first arcuate ring roller and the second arcuate ring roller positioned axially outward of the ring gear teeth on opposite lateral sides of the ring gear; a sun gear having a plurality of sun gear teeth positioned about an outer radial sun gear edge, the sun gear including a first arcuate sun gear roller and a second arcuate sun gear roller, the first arcuate sun gear roller and the second arcuate sun gear roller positioned axially outward of the sun gear teeth on opposite lateral sides of the sun gear; and a planetary gear positioned in the ring gear between the sun gear and the ring gear, the planetary gear including a plurality of planetary gear teeth positioned about an outer radial planetary gear edge, the plurality of planetary gear teeth engaging the sun gear teeth and the ring gear teeth, the planetary gear including a first arcuate planetary gear roller and a second arcuate planetary gear roller, the first arcuate planetary gear roller and the second arcuate planetary gear roller positioned axially outward of the planetary gear teeth on opposite lateral sides of the planetary gear, the first arcuate planetary gear roller engaging the first arcuate ring roller and the first arcuate sun gear roller and the second arcuate planetary gear roller engaging the second arcuate ring roller and the second arcuate sun gear roller. 2 . The gear set assembly according to claim 1 , wherein the arcuate ring roller has a ring roller radius that is larger than the arcuate planetary gear roller. 3 . The gear set assembly according to claim 1 , wherein the planetary gear includes a first planetary gear and further comprising a second planetary gear. 4 . The gear set assembly according to claim 1 , further comprising a compliant torque sensor coupled to the gear set assembly and configured to measure torque applied to one or more gears. 5 . The gear set assembly according to claim 1 , further comprising a motor coupled to the sun gear. 6 . The gear set assembly according to claim 1 , wherein the first and second arcuate ring rollers are integrally formed with the ring gear, the first and second arcuate sun gear rollers are integrally formed with the sun gear, and the first and second planetary gear rollers are integrally formed with the planetary gear. 7 . The gear set assembly according to claim 1 , wherein the first and second arcuate ring rollers, the first and second arcuate sun gear rollers, and the first and second planetary gear rollers are parallel to another. 8 . A gear set assembly comprising: a ring gear including a plurality of ring gear teeth on an inner radial edge of the ring gear, the ring gear including an arcuate ring roller positioned axially outward of the ring gear teeth; a sun gear having a plurality of sun gear teeth positioned about an outer radial sun gear edge, the sun gear including an arcuate sun gear roller positioned axially outward of the sun gear teeth; and a planetary gear positioned in the ring gear between the sun gear and the ring gear, the planetary gear including a plurality of planetary gear teeth positioned about an outer radial planetary gear edge, the plurality of planetary gear teeth engaging the sun gear teeth and the ring gear teeth, the planetary gear including an arcuate planetary gear roller positioned axially outward of the planetary gear teeth, the arcuate planetary gear roller engaging the arcuate ring roller and the arcuate sun gear roller. 9 . The gear set assembly according to claim 8 , further comprising a motor coupled to the sun gear. 10 . The gear set assembly according to claim 8 , further comprising a compliant torque sensor coupled to the gear set assembly and configured to measure torque applied to one or more gears. 11 . A method of forming a gear set comprising: coupling an arcuate ring roller to a ring gear, the ring gear including a plurality of ring gear teeth on an inner radial edge of the ring gear, the arcuate ring roller positioned axially outward of the ring gear teeth; coupling an arcuate sun gear roller to a sun gear, the sun gear having a plurality of sun gear teeth positioned about an outer radial sun gear edge, the arcuate sun gear roller positioned axially outward of the sun gear teeth; coupling an arcuate planetary gear roller to a planetary gear, the planetary gear including a plurality of planetary gear teeth positioned about an outer radial planetary gear edge, the arcuate planetary gear roller positioned axially outward of the planetary gear teeth; and coupling the sun gear to the ring gear via the planetary gear, the planetary gear positioned in the ring gear between the sun gear and the ring gear, the plurality of planetary gear teeth engaging the sun gear teeth and the ring gear teeth, the arcuate planetary gear roller engaging the arcuate ring roller and the arcuate sun gear roller. 12 . The method according to claim 11 , wherein the ring gear includes a first ring gear, wherein the sun gear includes a first sun gear, wherein the plurality of planetary gears includes a first plurality of planetary gears, wherein the method further comprises: coupling a second ring gear to the first ring gear; coupling a second sun gear to the first sun gear; and coupling a second plurality of planetary gears to the first plurality of planetary gears so as to form a two stage planetary gear set. 13 . The method according to claim 12 , further comprising positioning a first ball bearing in a ball bearing race between the first ring gear and the second ring gear. 14 . The method according to claim 12 , further comprising positioning a first ball bearing in a ball bearing race between the first sun gear and the second sun gear. 15 . The method according to claim 11 , further comprising coupling a motor to the sun gear. 16 . The method according to claim 11 , further comprising coupling a compliant torque sensor to the gear set assembly the compliant torque sensor configured to measure a torque applied to one or more gears. 17 . A method of forming a gear set comprising: coupling a sun gear to a ring gear via a plurality of planetary gears, the plurality of planetary gears positioned between the sun gear and the ring gear, the plurality of planetary gears engaging the sun gear and the ring gear; coupling a first arcuate ring roller and a second arcuate ring roller to the ring gear on a first ring gear axial face and second ring gear axial face respectively; coupling a first arcuate sun gear roller and a second arcuate sun gear roller to the sun gear on a first sun gear axial face and a second sun gear axial face respectively; and after the first arcuate ring roller and the second arcuate ring roller are coupled to the ring gear and after the first arcuate sun gear roller and the second arcuate sun gear roller are coupled to the sun gear, coupling the plurality of first arcuate planetary rollers and the plurality of second arcuate planetary rollers to the plurality of planetary gears on a first planetary gear axial face of each planetary gear in the plurality of planetary gears and on a second planetary gear axial face of each planetary gear in the plurality of planetary gears. 18 . The method according to claim 15 , wherein the first arcuate ring roller, the second arcuate ring roller, the first arcuate sun gear roller, and the second arcuate sun gear roller ha