Six degree-of-freedom and three degree-of-freedom robotic systems for automatic and/or collaborative fastening operations

What is claimed is: 1 . A robotic system comprising: a support structure; a movable platform; a center serial chain connecting directly or indirectly a center of the movable platform to the support structure and comprising a first plurality of joints connected directly or indirectly to a linear sliding shaft; a plurality of outer serial chains disposed radially outward of the center serial chain, wherein each of the plurality of outer serial chains comprises a second plurality of joints connecting a bar directly or indirectly to the moveable platform and the supporting structure; a plurality of motors connected to the plurality of outer serial chains; a sensor connected to the movable platform and configured to detect at least one of force or torque applied by a human operator on the movable platform and generate a signal indicative of the at least one of force or torque applied; and a control module configured to control the plurality of motors based on the signal to assist the human operator in at least one of moving or rotating the movable platform. 2 . The robotic system of claim 1 , wherein the plurality of outer serial chains comprise at least three outer serial chains. 3 . The robotic system of claim 1 , wherein: the plurality of outer serial chains comprise three pairs of outer serial chains; and each pair of outer serial chains comprises two outer serial chains. 4 . The robotic system of claim 1 , wherein the plurality of outer serial chains comprises six outer serial chains. 5 . The robotic system of claim 1 , wherein: the second plurality of joints of each of the plurality of outer serial chains comprises a first joint and a second joint; the first joint of each of the plurality of outer serial chains is a universal joint; and the second joint of each of the plurality of outer serial chains is a spherical joint. 6 . The robotic system of claim 5 , wherein: the plurality of outer serial chains comprise three pairs of chains; and the control module is configured to independently actuate each of the plurality of outer serial chains. 7 . The robotic system of claim 6 , further comprising a plurality of linear sliders, wherein: the plurality of outer serial chains comprise three pairs of chains; and each of the three pairs of chains is connected to a respective one of the plurality of linear sliders. 8 . The robotic system of claim 1 , wherein: the first plurality of joints of the center serial chain comprise a first joint and a second joint; and the first joint and the second joint are universal joints. 9 . The robotic system of claim 8 , wherein: a drive fork of the first joint is in alignment with a drive fork of the second joint; and a driven fork of the first joint is in alignment with a driven fork of the second joint. 10 . The robotic system of claim 1 , wherein the plurality of outer serial chains and the center serial chain provide three degrees-of-freedom motion for the movable platform or six degrees-of-freedom motion for the movable platform. 11 . The robotic system of claim 1 , wherein the plurality of outer serial chains comprise: a first outer serial chain; a second outer serial chain disposed 120° of separation azimuthally from the first outer serial chain relative to a center line extending through the center serial chain; and a third outer serial chain disposed 120° of separation azimuthally from the first outer serial chain and the second outer serial chain relative to the center line extending through the center serial chain. 12 . The robotic system of claim 1 , wherein the plurality of outer serial chains comprise: a first outer serial chain; a second outer serial chain disposed 90° of separation azimuthally from the first outer serial chain relative to a center line extending through the center serial chain; and a third outer serial chain disposed 180° of separation azimuthally from the first outer serial chain and the second outer serial chain relative to the center line extending through the center serial chain. 13 . The robotic system of claim 1 , further comprising: a fastening tool; and a bearing disposed between the movable platform and the fastening tool. 14 . The robotic system of claim 1 , further comprising a fastening tool attached to the center serial chain and rotating at least a portion of the center serial chain. 15 . A robotic system comprising: a support structure; a movable platform; a universal-prismatic-universal serial chain directly or indirectly connecting a center of the movable platform to the support structure; a plurality of outer serial chains disposed radially outward of the universal-prismatic-universal serial chain, wherein each of the plurality of outer serial chains is a prismatic-universal-spherical serial chain, and wherein each of the plurality of outer serial chains connects the movable platform to the support structure; a plurality of motors connected to the plurality of outer serial chains; a sensor connected to the movable platform and configured to detect at least one of force or torque applied by a human operator on the movable platform and generate a signal indicative of the at least one of force or torque applied; and a control module configured to control the plurality of motors based on the signal to assist the human operator in at least one of moving or rotating the movable platform. 16 . The robotic system of claim 15 , wherein the universal-prismatic-universal serial chain comprises a first universal joint, a linear sliding shaft, and a second universal joint. 17 . The robotic system of claim 15 , wherein each of the plurality of outer serial chains comprise a linear slider, a universal joint, a bar and a spherical joint. 18 . A robotic system comprising: a support structure; a movable platform; a universal-prismatic-universal serial chain directly or indirectly connecting a center of the movable platform to the support structure; a plurality of revolute-universal-spherical serial chains disposed radially outward of the universal-prismatic-universal serial chain, wherein each of the plurality of revolute-universal-spherical serial chains connects the movable platform to the support structure; a plurality of motors connected to the plurality of revolute-universal-spherical serial chains; a sensor connected to the movable platform and configured to detect at least one of force or torque applied by a human operator on the movable platform and generate a signal indicative of the at least one of force or torque applied; and a control module configured to control the plurality of motors based on the signal to assist the human operator in at least one of moving or rotating the movable platform. 19 . The robotic system of claim 18 , wherein the universal-prismatic-universal serial chain comprises a first universal joint, a linear sliding shaft, and a second universal joint. 20 . The robotic system of claim 18 , wherein each of the plurality revolute-universal-spherical serial chains comprise a revolute joint, a first bar, a universal joint, a second bar and a spherical joint.