A track mounting system including a mount with a mounting plate with a back surface and a front surface, the back surface is opposite the front surface and at least one mounting stud coupled to the back surface of the mounting plate, each mounting stud includes a stem portion that extends outwardly from the back surface and an enlarged head portion disposed at a distal end of stem portion. The mount also includes a release mechanism coupled to the front surface to release the mount from a track. The track mounting system also includes an adaptor coupled to the front surface of the mounting plate wherein the adaptor releasably couples with an equipment interface of a piece of equipment.

An automated pilotless air ambulance system. The system includes an air vehicle (AV) having a fuselage coupled to a stretcher for carrying a patient. The system is configured to fly the patient from a point of injury to a medical treatment facility. The system also has a plurality of air lift motors for vertically lifting the air vehicle. The system further includes a plurality of air-lift motors coupled to the fuselage forming a low profile. The air lift motors are centralized motors or de-centralized motors for vertically lifting the AV. The system also has an automated life support and monitoring patient suite having a plurality of life support and monitoring devices, including medical supplies. The system additionally has a bidirectional datalink coupled to the air vehicle for executing various functions such as communicating with a patient's or a first responder's mobile device.

A high-pressure pressure vessel for storing natural gas comprises a plurality of first vessel regions of first diameters, a plurality of couplers, and a fiber layer. A three dimensional volume is filled using at least in part the plurality of first vessel regions. Each coupler of the plurality of couplers couples each pair of first vessel regions of the plurality of first vessel regions. Each coupler of the plurality of couplers comprises a second vessel region of a second diameter and two third vessel regions that transition diameters between the first diameter and the second diameter. The three dimensional volume is filled using at least in part the plurality of couplers. The first vessel regions and the couplers comprise a material with low permeability to natural gas. The fiber layer surrounds the plurality of first vessel regions and the plurality of couplers.

A radiation device is wirelessly connected to a radiography device that generates dynamic image data and which controls sequential radiation. The radiation device includes a signal generator and a first determiner. The signal generator generates (i) first pulse signals emitted by the radiography device, (ii) second pulse signals synchronized with a first count value obtained by counting up the first pulse signals, and (iii) a second count value obtained by counting up the second pulse signals. The first determiner determines whether to start radiation based on a delay time which is a difference between a first time point count value and a second time point count value. The first time point count value indicates a time point at which a radiation permission signal is transmitted. The second time point count value indicates a time point at which the radiation permission signal is received.

A vehicle includes a computed tomographic system (CT) including a CT gantry having an inner peripheral, and a subject window in a surface of the vehicle. The subject window is configured to be exposed to an exterior of the vehicle via a side face of the vehicle, such that the subject window is configured to enable a subject to enter or exit from the inner peripheral of the CT gantry in a body axis direction of the CT.

An infection control vehicle includes a floor material. The floor material includes a plurality of holes that is open on an upper end. The holes are configured to capture a droplet. For example, a dimension of each of the holes is set so that the droplet inside the hole remains inside the hole.

An autonomous smart car includes a bio-signal sensing unit sensing a bio-condition of a person in the autonomous smart car; a communication unit supporting wireless communication between the autonomous smart car and an external of the autonomous smart car; a memory unit storing basic data of the person in the autonomous smart car, general bio-signal data, bio-signal data sensed by the bio-signal sensing unit, and hospital information data; an autonomous driving unit autonomously driving the autonomous smart car to a destination; an emergency handling unit enabling the autonomous smart car to inform that an emergency patient is in the autonomous smart car to outside when the bio-condition of the person in the autonomous smart car indicates an emergency; and a control unit analyzing a current condition of the person by comparing a bio-signal sensed by the bio-signal sensing unit with the data stored in the memory unit.

A track mounting system including a mount with a mounting plate with a back surface and a front surface, the back surface is opposite the front surface and at least one mounting stud coupled to the back surface of the mounting plate, each mounting stud includes a stem portion that extends outwardly from the back surface and an enlarged head portion disposed at a distal end of stem portion. The mount also includes a release mechanism coupled to the front surface to release the mount from a track. The track mounting system also includes an adaptor coupled to the front surface of the mounting plate wherein the adaptor releasably couples with an equipment interface of a piece of equipment.

An apparatus for carrying a wheelchair, scooter or other object on the exterior of a vehicle. The apparatus may comprise a vertical slide and to horizontal slides. The horizontal slides may be pivotably attached such that the object to be carried may be extended, for example, from the rear of a vehicle along the rear side of the vehicle pivoting around to a side of the vehicle and extending along the side of the vehicle to a desired position. Thus, a wheelchair may be carried on the rear side of a vehicle and extended along the rear and side of the vehicle so that a user to directly access the wheelchair by opening a vehicle door and having the wheelchair within reach. After removing the wheelchair from the apparatus, the apparatus may retract into a non-extended position. The apparatus may attach to a vehicle using a trailer hitch receiver.

The invention relates to a medical container unit for designing and/or manufacturing an implant, comprising a plurality of container subunits, each of which forms a sector, is equipped with at least one means for designing and/or manufacturing an implant, and is formed by self-supporting partial substructures on at least two sides.