A method is for actuating a medical imaging device for generating a second three-dimensional image dataset including a target region in a region of interest of a patient with a functional impairment. The method includes providing a first three-dimensional image dataset including the region of interest of the patient; identifying the target region based on the first three-dimensional image dataset, a partial region of the region of interest with the functional impairment being determined; determining an imaging parameter for generating the second three-dimensional image dataset based on the identified target region; and actuating the medical imaging device based on the imaging parameter for the generation of the second three-dimensional image dataset.

A smart system and methods for coupling a medical transporter apparatus with an imaging apparatus, involving: a smart docking module comprising at least one coupler responsive to a controller operable by a set of executable instructions, the smart docking module comprising a non-magnetic material; and the smart docking module configured by the controller to automatically perform at least one of: position, dock, engage, latch, lock, interlock, release, emergency-release, quick-release, disengage, emergency-disengage, and quick-disengage the medical transporter apparatus in relation to the imaging apparatus.

A medical imaging apparatus for computer tomography, includes a first housing frame; a scanning section, movably disposed in an axial direction with respect to the first housing frame; and driving device(s). The scanning section includes an essentially toroidal scanning section housing including at least one uncovered axial surface, and a radiation source and a radiation detector, rotatably disposed inside of the essentially toroidal scanning section housing. The driving device(s) are configured to move the scanning section along an axial direction with respect to the first housing frame to perform a telescopic motion of the radiation source and radiation detector, during an operation of the medical imaging apparatus. The at least one uncovered axial surface of the essentially toroidal scanning section housing is movable along the axial direction.

A vehicle interlock system includes a wheelchair fixing device configured to fix a wheelchair to a vehicle, a seatbelt device having a seatbelt configured such that, an occupant seated in the wheelchair wears the seatbelt, and a control unit. The control unit is configured to limit at least one of an upper limit traveling speed and an upper limit acceleration of the vehicle or output a warning signal, or to output a warning signal while limiting at least one of the upper limit traveling speed and the upper limit acceleration of the vehicle depending on at least one of the following conditions: whether the wheelchair is fixed to the vehicle with the wheelchair fixing device; whether the occupant is wearing the seatbelt; and so forth.

A vehicle interlock system includes a wheelchair fixing device configured to fix a wheelchair to a vehicle, a seatbelt device having a seatbelt configured such that, an occupant seated in the wheelchair wears the seatbelt, and a control unit. The control unit is configured to limit at least one of an upper limit traveling speed and an upper limit acceleration of the vehicle or output a warning signal, or to output a warning signal while limiting at least one of the upper limit traveling speed and the upper limit acceleration of the vehicle depending on at least one of the following conditions: whether the wheelchair is fixed to the vehicle with the wheelchair fixing device; whether the occupant is wearing the seatbelt; and so forth.

A patient litter basket spin control assembly for use on a patient litter basket is provided. The assembly comprises thruster unit for discharging an air stream and is mounted on the patient litter basket. At least one sensor is associated with the thruster unit for sensing rotational movement or spin of the patient litter basket, and a power source is provided for powering the thruster unit and the sensor. A clamp member mounts on the patient litter basket and releasably receives the thruster unit. The sensors modulate the force of the air stream from the thruster unit so that the air stream counters the rotational movement of the patient litter basket to stabilize the patient litter basket by preventing the spin.

A vehicle driving system includes: an acquisition unit that acquires information relating to a state of a driver driving a first vehicle in a manual driving mode; a switching control unit that switches the first vehicle from the manual driving mode to a remote driving mode in a case in which it is verified, by means of the information acquired by the acquisition unit, that it is difficult for the driver to drive; and a notification unit that, in a case in which the first vehicle is switched to the remote driving mode by the switching control unit, notifies a second vehicle located within a predetermined range from the first vehicle that the first vehicle has become an urgent vehicle.

A treatment apparatus and method of treating an inside volume of a mobile vehicle using the apparatus. The method includes the steps of: a) placing a treatment unit in an operative position with respect to the mobile vehicle, the treatment unit having: i) a frame; ii) a source of UV light; and iii) an air mover for controllably directing air within the inside volume to be exposed to UV rays generated by the UV light source; and b) operating the treatment unit and thereby causing air within the inside volume to be disinfected by UV light rays from the UV light source and circulated within the inside volume.

Disclosed herein is a biosafety enclosure for protecting occupants of a vehicle from pathogens. In one example, the biosafety enclosure comprises a protective cover member made of a durable material shaped to form a three-dimensional structure that is installed inside of the vehicle and isolates the one or more occupants of the biosafety enclosure from other occupants of the vehicle. The biosafety enclosure comprises a plurality of connectors attached to the protective cover member in order to secure the protective cover member inside the vehicle. In addition, the biosafety enclosure comprises one or more air circulation vents disposed within the protective cover member, wherein an air circulation vent is connectable to an external air filtration device or an air filtration system of the vehicle. The biosafety enclosure also comprises an ingress/egress member comprised in the protective cover member to allow entry/exit of occupants to/from the enclosure.

An autonomous driving vehicle is a bus provided with wheelchair passenger spaces therein. The autonomous driving vehicle detects whether or not a wheelchair is on board in the wheelchair passenger spaces, and transmits the obtained wheelchair boarding information to a control center. The control center transmits the received wheelchair boarding information to a bus stop sign and causes the bus stop sign to display the information on a display of the bus stop sign. The wheelchair boarding information can also be displayed on a touch panel display of a smartphone.