A pharmacy automation system having a robot having a hardware device and a software for internal mapping to perform simultaneous localization and mapping (SLAM) is disclosed herein. The robot is configured to use the SLAM technique to carry out at least the following different interactions: the robot communicates autonomously with a physician or an assistant directly or via an intermediary; the robot interacts with an inventory of goods and browses the inventory of goods to determine if a prescribed medication is available in the pharmacy; if the prescribed medication is available in the pharmacy, the robot interacts with a medication dispenser, using the internal mapping to fill a container with the prescribed medication, and store the container; when a patient or a proxy arrives to pick up the prescribed medication, the robot checks and approves an identification of the patient or the proxy; and when the patient or proxy presents a prescription containing the prescribed medication, the robot retrieves the container with the prescribed medication and hands the container with the prescribed medication over to the patient or proxy.

The present invention provides a system and methods for automated rehabilitation. The system and methods could provide the automated coordination training and assessment.

A massage robot uses machine vision to locate treatment spots for massage. In one approach, a massage robot includes one or more robotic arms, an image sensor and a control system. The image sensor captures images of the user. The control system includes an image processing module and a motion controller. The image processing module processes the images to locate a treatment spot on the user. The motion controller controls the robotic arm to perform a massage procedure on the identified treatment spot.

A robot uses controlled omni-wheels and an arm assembly coupled to a gripper to facilitate the opening of doors. The gripper is rotatable around at least one of its axis to engage and rotate a door handle to unlatch a door. The omni-wheels are driven to move the robot along a curved path to open the door.

A robot is provided with driving wheels, a battery, a charging terminal, a charging terminal mounter in which the charging terminal is disposed, a first spring elastically supporting the charging terminal in an outward direction, a switch switched by the charging terminal mounter when the charging terminal mounter retreats, and a processor for stopping the driving wheels when the switch is switched by the charging terminal mounter.

A system is provided that comprises a patient support apparatus and a unit being independent from the patient support apparatus. The patient support apparatus comprises a support structure having a base and a patient support surface for a patient. The patient support apparatus also comprises an electrical distribution system, one or more electrical devices, and an energy storage device (ESD) configured to store energy to power the one or more electrical devices through the electrical distribution system. The unit is configured to autonomously interact with the patient support apparatus to remove the ESD from the patient support apparatus and/or to place a replacement ESD on to the patient support apparatus.

A robotic assistant, associated software and methodology for operating the same. The described robotic assistant includes: a motorized base having at least two motor driven wheels controlled by a first control platform; a dual arm robot mounted on the motorized base, the dual arm robot having a first arm and a second arm controlled by a second control platform; a remote sip and puff mouth controller having three degrees of operational freedom; and a computer system that receives command signals from the remote sip and puff mouth controller, and includes an algorithm that translates the command signals into a first type of control signal for directing the motorized base to move, and a second type of control signal for directing the dual arm robot to move.

A robot includes a tractor, a walker, an input device, and a controller. The tractor includes a connector and pulls a user through the connector. The walker includes wheels for moving the tractor and one or more brakes for the wheels and is coupled to the tractor. The input device receives an instruction to operate at least one of the tractor and the walker. In response to reception of the instruction by the input device, the controller determines whether or not to permit the tractor and/or the walker to perform a process based on the instruction, in accordance with a current state of the robot, the current state being one of a plurality of states of the robot. Each state is represented by using values of items, one of the items being an item indicating whether or not the one or more brakes are applied to the wheels.

A robotic system that includes a mobile robot and a remote input device. The input device may be a joystick that is used to move a camera and a mobile platform of the robot. The system may operate in a mode where the mobile platform moves in a camera reference coordinate system. The camera reference coordinate system is fixed to a viewing image provided by the camera so that movement of the robot corresponds to a direction viewed on a screen. This prevents disorientation during movement of the robot if the camera is panned across a viewing area.

A system is provided that comprises a patient support apparatus and a unit being independent from the patient support apparatus. The patient support apparatus comprises a support structure having a base and a patient support surface for a patient. The patient support apparatus also comprises an electrical distribution system, one or more electrical devices, and an energy storage device (ESD) configured to store energy to power the one or more electrical devices through the electrical distribution system. The unit is configured to autonomously interact with the patient support apparatus to remove the ESD from the patient support apparatus and/or to place a replacement ESD on to the patient support apparatus.