Systems, devices, and methods are described for providing, among other things, a wheelchair-assist robot for assisting a wheelchair user with everyday tasks or activities at work, at home, and the like. In an embodiment, the mobile wheelchair-assist robot includes a wheelchair interface component configured to exchange control information with a wheelchair controller. In an embodiment, a wheelchair-assist robot mount assembly is provided for, among other things, electrically and physically coupling a wheelchair-assist robot to an associated wheelchair.

A robot includes a motion mechanism capable of operating in accordance with each of a first motion pattern for supporting a user with a first motion representing a standing-up motion and a second motion pattern for supporting a user with a second motion representing a sitting-down motion, a battery that supplies electric energy to the motion mechanism, a control unit that determines a multiple-motion availability index indicating the availability of an operation in accordance with a multiple-motion pattern including the first and second motion patterns on the basis of the battery level and the amounts of energy charge in the battery required for the operations performed by the motion mechanism in accordance with the first and second motion patterns if the control unit detects that the battery level is a first threshold value or lower, and a presentation unit that presents the multiple-motion availability index determined by the control unit.

This invention, pertaining to hospital bed, is a new concept development for automation of services for bedridden patients in the variety of environments. The novelty introduced here is the use of robotic arms affixed on hospital type bed that operates by an electric keypad on the bed side or virtually from a remote location, i.e. a nursing station in the case of a hospital stay. The best mode of operation for this invention would be hospitals, home health care or other health care facilities and settings. This invention is a ground-breaking solution for healing the shortage of trained staff in the health care system.

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.

This nursing bed has a fixed member forming a fixed bed surface of a bed portion on which a care receiver lies, a movable member which can be moved relative to the fixed member and forms a movable bed surface of the bed portion, and a movable member driving unit for driving the movable member. The fixed member has a plurality of slender parts each extending in the lateral direction or the longitudinal direction. The movable member has a mobile body which can be protruded upward relative to the fixed bed surface and also moved in at least one of the longitudinal direction and the lateral direction via an interval between the plurality of slender parts by the movable member driving unit. The posture of the care receiver lying on the bed can be changed into his/her optimal position without difficulty.

An autonomous mobile device (AMD) includes a telescoping mast with sensors on top that are connected to a cable running through the mast. An inner section of the mast includes a bobbin that secures cables. The bobbin has a shaft and features that guide cables to helically wind around the shaft. The bobbin reduces stress on the cable as the mast moves. The mast is lifted by a rack that includes a portion with teeth and a portion without. The portion with teeth is driven by a motor. The portion without teeth connects the rack to a spool. The toothless section reduces stress on the toothed portion of the rack as it spools or unspools. The AMD includes a hinge to tilt a display. To securely position the hinge on a shaft, the shaft is spun after assembly so that a push nut cuts a retention groove in the shaft.

A robot is disclosed. The robot comprises: a body including a transport means; a head disposed on the body and including a plurality of sensors; and a processor which controls the head on the basis of at least one sensor among the plurality of sensors and acquires information related to a user's health through the sensor of the controlled head.

An intelligent robotic nursing system includes a robotic medical platform vehicle that autonomously or manually moves within a structure to perform a healthcare task and information system containing data of symptomatic patients from all over the world to assist doctors in early detection of disease and providing effective treatments to patient.

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.

A transport system is a transport system for transporting a transported object using a mobile robot that is autonomously moveable. The mobile robot transports a plurality of the transported objects. The transport system detects that a transport destination of the transported object is different from a receiving location. The transport system outputs that there is the transported object of a different transport destination to a recipient who is present at the receiving location.