Stair navigation assist system

What is claimed is: 1 . A system for assisting a user with navigating a set of stairs, comprising: a pulley system positioned adjacent to the stairs, the pulley system including a first pulley, a second pulley, and an elongated member coupled to and looped around the first pulley and the second pulley; a motor coupled to the first pulley; a sensing assembly operatively coupled to the pulley system, the sensing assembly being structured and configured to sense that a force is being applied to or that is about to be applied to the elongated member by the user; and a controller coupled to the motor and the sensing assembly, wherein the controller is structured and configured to, responsive to the sensing assembly sensing the force, turn the motor on to drive the first pulley. 2 . The system according to claim 1 , wherein the sensing assembly comprises a switch assembly having a number of switches coupled to the pulley system, the switch assembly being structured and configured to sense that the force is being applied to the elongated member by the user. 3 . The system according to claim 2 , wherein the switch assembly is positioned adjacent to the first pulley, wherein the elongated member is received through an aperture provided in the switch assembly, and wherein one or more of the number of switches of the switch assembly are structured and configured to be closed in response to the force being applied to the elongated member by the user. 4 . The system according to claim 3 , wherein the switch assembly includes a frame member surrounded by a housing, wherein the aperture is formed in the frame member, and wherein each of the number of switches is positioned in between the frame member and the housing. 5 . The system according to claim 4 , further comprising a plurality of springs positioned in between the frame member and the housing. 6 . The system according to claim 5 , further comprising a plurality of roller members positioned around a perimeter of the aperture. 7 . The system according to claim 6 , wherein the number of switches comprises at least four switches, wherein the plurality of springs comprises four springs and the plurality of rollers comprises four rollers. 8 . The system according to claim 3 , wherein the first pulley and the switch assembly are housed within a first shroud member, and wherein the second pulley is housed within a second shroud member. 9 . The system according to claim 8 , wherein the first and second shroud members are coupled to the controller, wherein the first shroud member is structured and configured to sense that the user is touching the first shroud member and responsive thereto the controller is structured and configured to turn the motor off, and wherein the second shroud member is structured and configured to sense that the user is touching the second shroud member and responsive thereto the controller is structured and configured to turn the motor off. 10 . The system according to claim 9 , wherein the first shroud member includes a first plate member and a first switch coupled to the first plate member, wherein the first switch is structured and configured to close responsive to the user touching the first shroud member, the controller being structured and configured to determine that the first switch is closed and responsive thereto turn the motor off, and wherein the second shroud member includes a second plate member and a second switch coupled to the second plate member, wherein the second switch is structured and configured to close responsive to the user touching the second shroud member, the controller being structured and configured to determine that the second switch is closed and responsive thereto turn the motor off. 11 . The system according to claim 1 , wherein the first pulley is housed within a first shroud member coupled to the controller and the second pulley is housed within a second shroud member coupled to the controller, wherein the first shroud member is structured and configured to sense that the user is touching the first shroud member and responsive thereto the controller is structured and configured to turn the motor off, and wherein the second shroud member is structured and configured to sense that the user is touching the second shroud member and responsive thereto the controller is structured and configured to turn the motor off. 12 . The system according to claim 11 , wherein the first shroud member includes a first plate member and a first switch coupled to the first plate member, wherein the first switch is structured and configured to close responsive to the user touching the first shroud member, the controller being structured and configured to determine that the first switch is closed and responsive thereto turn the motor off, and wherein the second shroud member includes a second plate member and a second switch coupled to the second plate member, wherein the second switch is structured and configured to close responsive to the user touching the second shroud member, the controller being structured and configured to determine that the second switch is closed and responsive thereto turn the motor off. 13 . The system according to claim 1 , wherein the elongated member comprises a rope or a belt. 14 . The system according to claim 1 , wherein the first pulley has a V-shaped cross-section. 15 . The system according to claim 1 , wherein the first pulley is made of a low friction material that has a coefficient of friction of 0.05-0.50. 16 . The system according to claim 1 , wherein the sensing assembly comprises a switch assembly having a number of non-contact switches coupled to the pulley system, the switch assembly being structured and configured to sense that the force is about to be applied to the elongated member by the user. 17 . The system according to claim 1 , wherein the elongated member comprises a number of sensors for sensing tension in the elongated member, the number of sensors of the elongated member forming part of the sensing assembly. 18 . The system according to claim 1 , the sensing assembly comprising a number of force sensors structured and configured for measuring a force on the first pulley and/or the second pulley. 19 . A method for assisting a user with navigating a set of stairs, comprising: providing a pulley system positioned adjacent to the stairs, the pulley system including a first pulley, a second pulley, and an elongated member coupled to and looped around the first pulley and the second pulley; sensing that a force is being applied to or that is about to be applied to the elongated member by the user; and responsive to sensing the force, turning the motor on to drive the first pulley. 20 . The method according to claim 19 , wherein the first pulley acts as a friction-based clutch such that the elongated member slides over the first pulley and as more tension is applied to the elongated member by the user there is a higher reaction force between the first pulley and the elongated member. 21 . The method according to claim 19 , wherein the first pulley is housed within a first shroud member, and the second pulley is housed within a second shroud member, the method further sensing that the user is touching the first shroud member or the second shroud member and responsive thereto turning the motor off. 22 . The system according to claim 1 , further comprising a number of track support members, wherein the elongated member travels o