Abstract: The present disclosure provides a server and a method for service matching and resource matching. The server stores a first resource available information and a second resource available information. The server receives a user request from a user device and determines a resource matching information according to the first resource available information and the second resource available information in response to the user request. The server transmits the resource matching information to the user device.

Abstract: An exoskeleton robot comprises a waist assembly and a leg assembly. The waist assembly includes a first frame, a plate and a second frame. The first frame includes a rail and a slider inside the rail. The plate is fixed by a first bolt screwed into the slider. The second frame is connected to the plate. The second frame having a slot and a second bolt inside the slot. The leg assembly is installed to the second frame by the second bolt. By loosening the bolts, a user can move the leg assembly in two directions of the rail and the slot without the requirement for detaching the bolts.

Abstract: The present invention discloses a shoe assembly for a walking assist device. The shoe assembly includes a shoe pad, and a shoe cover on the shoe pad. The shoe cover includes a recessed portion to accommodate a first portion of a side plate connected between the shoe cover and a shank stand of the walking assist device, and includes a support plate on the shoe pad to fulcrum a second portion of the side plate. The second portion covers the recessed portion while the first portion is held in the recessed portion.

Abstract: An adjusting assembly for an exoskeleton robot. The adjusting assembly includes a first plate, a second plate pivotably connected to the first plate via a first shaft, and a second shaft. The first plate includes at least one pin aligned with each other in a first direction. The second shaft, extending in parallel with the first shaft in the first direction, includes a body and at least one recess. The second shaft is configured to rotate to a first position to accommodate the at least one pin in the at least one recess, and to a second position to release the at least one pin from the at least one recess. At the first position the second plate is blocked from rotation about the first shaft by the body. At the second position the second plate is allowed to rotate about the first shaft.

Abstract: The present disclosure provides a method for controlling an exoskeleton robot. The method comprises checking that a first signal is triggered by a first button, checking a tilt angle after the first signal is triggered, setting an action based on the tilt angle, and executing the action to move the exoskeleton robot. The first signal indicates to change the exoskeleton robot from a standing posture to another posture, and the tilt angle is a leaning-forward angle of a waist assembly of the exoskeleton robot relative to a line vertical to ground. The method utilizes the tilt angle to judge the intent of the user, and thus can simplify the controlling buttons to one or two buttons. Further, the controlling method also monitors the tilt angle to choose a suitable action.