Drives with partial cycloid teeth profile

What is claimed is: 1. An apparatus comprising: a ring gear having an open annular space and a plurality of gear teeth disposed on an interior peripheral surface thereof, wherein each gear tooth of the ring gear has a partial cycloid profile comprising a first segment of a lobe of a first cycloid on one side of the gear tooth of the ring gear and a second segment of the lobe of the first cycloid on an opposite side of the gear tooth of the ring gear, wherein the first and second segments are non-contiguous segments of the lobe of the first cycloid and multiple gear teeth of the ring gear fit within the lobe of the first cycloid, and wherein the ring gear is fixed; and a planet gear rotatable within the open annular space of the ring gear, wherein the planet gear has a plurality of gear teeth on an exterior periphery thereof, wherein each gear tooth of the planet gear has a partial cycloid profile comprising a first segment of a lobe of a second cycloid on one side of the gear tooth of the planet gear and a second segment of the lobe of the second cycloid on an opposite side of the gear tooth of the planet gear, wherein the first and second segments are non-contiguous segments of the lobe of the second cycloid and multiple gear teeth of the planet gear fit within the lobe of the second cycloid, wherein: the planet gear has a total number of gear teeth and the ring gear has a total number of gear teeth, with the total number of gear teeth of the planet gear being smaller than the total number of gear teeth of the ring gear, and the gear teeth of the planet gear operatively mesh with corresponding gear teeth of the ring gear. 2. The apparatus of claim 1 , further comprising: an input shaft; a bearing eccentrically mounted to the input shaft, wherein the planet gear is mounted to the eccentrically mounted bearing. 3. The apparatus of claim 1 , wherein the planet gear is mounted eccentrically with respect to an input shaft, and wherein the planet gear rotates eccentrically with respect to rotation of the input shaft. 4. The apparatus of claim 3 , further comprising: a first disk having a groove; a second disk having a first side facing toward the first disk and having a tongue on the first side, wherein the tongue corresponds to, and is configured to engage with, the groove of the first disk, and wherein the second disk comprises a groove disposed on a second side of the second disk opposite to the first side, wherein the groove disposed on the second side of the second disk is perpendicular to the tongue on the first side; a third disk having a tongue corresponding to, and configured to engage with, the groove disposed on the second side of the second disk, such that the second disk is configured to slide radially with respect to the first disk and the third disk; and an output shaft, wherein the first disk is coupled to one of the output shaft or the planet gear and the third disk is coupled to the other of the output shaft or the planet gear. 5. The apparatus of claim 3 , wherein the planet gear has a planet gear first side facing toward the input shaft and a planet gear second side opposite to the planet gear first side, wherein the planet gear second side comprises a plurality of tongues and grooves, and wherein the apparatus further comprises: an intermediate disk having a first side facing toward the planet gear and having a plurality of grooves and tongues on the first side, wherein the plurality of grooves and tongues on the first side of the intermediate disk correspond to, and are configured to engage with, the plurality of grooves and tongues of the planet gear second side, and wherein the intermediate disk comprises a plurality of grooves and tongues disposed on a second side of the intermediate disk opposite to the first side, wherein the plurality of grooves and tongues disposed on the second side of the intermediate disk are perpendicular to the plurality of grooves and tongues on the first side; and an output disk having a plurality of grooves and tongues corresponding to, and configured to engage with, the plurality of grooves and tongues disposed on the second side of the intermediate disk, such that the intermediate disk is configured to slide radially with respect to the planet gear and the output disk. 6. The apparatus of claim 5 , further comprising: an output shaft coupled to the output disk. 7. The apparatus of claim 1 , wherein the planet gear has a planet gear first side facing toward an input shaft and a planet gear second side opposite to the planet gear first side, wherein the planet gear second side comprises a plurality of holes, and wherein the apparatus further comprises: a plurality of links connected to each other and disposed in a plane parallel to a respective plane of the planet gear, each link having one or more pegs protruding in a direction perpendicular to the plane, wherein a first subset of pegs of the plurality of links protrude toward and are received at respective holes of the plurality of holes of the planet gear second side; an intermediate member having a plurality of holes; an output disk having a plurality of holes, wherein the intermediate member is disposed between the plurality of links and the output disk, and wherein: a second subset of the pegs protrude toward the intermediate member and are received at the plurality of holes of the intermediate member, and a third subset of the pegs protrude toward the output disk, extend beyond the intermediate member, and are received at holes of the output disk, wherein each peg is free to rotate within a corresponding hole at which the peg is received. 8. The apparatus of claim 7 , wherein: the plurality of links comprises four links, each link having two pegs, two pegs of two respective opposing links protrude toward and are received at two respective holes of the plurality of holes of the planet gear second side, two pegs protrude toward the output disk, extend beyond the intermediate member, and are received at two respective holes on the output disk, and four pegs protrude toward the intermediate member and are received at four respective holes of the plurality of holes of the intermediate member. 9. The apparatus of claim 3 , wherein the planet gear is a first planet gear and the ring gear is a first ring gear, and wherein the apparatus further comprises: a second ring gear that is floating and has a respective open annular space, wherein the second ring gear has a plurality of gear teeth disposed on an interior peripheral surface thereof, and wherein each of the plurality of gear teeth of the second ring gear has a partial cycloid profile; a second planet gear rotatable within the open annular space of the second ring gear, wherein the second planet gear has a plurality of gear teeth on an exterior periphery thereof, wherein each of the plurality of gear teeth of the second planet gear has a partial cycloid profile, wherein the second planet gear has a smaller diameter relative to the first planet gear and is affixed to the first planet gear, such that the first planet gear and the second planet gear form a compound gear configured to rotate at the same speed; and an output shaft coupled to the floating second ring gear. 10. The apparatus of claim 9 , wherein a difference between a pitch diameter of the first ring gear and a pitch diameter of the second ring gear is equal to a respective difference between a pitch diameter of the first planet gear and a pitch diameter of the second planet gear. 11. A cycloid drive comprising: an input shaft; a bearing eccentrically mounted to the input shaft; a ring gear having an open annular space and a plurality of gear teeth disposed