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CallisonRTKL’s design combines artificial intelligence, electric vehicle technology, and the latest in medical equipment.
CallisonRTKL’s design combines artificial intelligence, electric vehicle technology, and the latest in medical equipment.
In a medical emergency, the faster a patient receives attention, the better their prognosis becomes. Natural disasters such as hurricanes and floods can make transferring a patient to a hospital difficult. What if the hospital could come to the patient?
That question spurred the creation of the Medical Motherboard (MM), a modular, scalable mobile hospital that can adapt to multiple crises at any scale. Designed by CallisonRTKL, the MM combines artificial intelligence, advanced medical equipment, electric vehicle technology, and drones into one life-saving package.
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MM is built on a platform that acts as the backbone of the system. Based on electric vehicle technology and automobile platform concepts, the platform houses the power bank, telecommunications equipment, computer systems, and support infrastructure that allow the modules to plug and play on its surface. A spine rises from the platform and contains water filtration and docking stations for minor modules.
Minor modules act as the support services to the major modules (more on those later). They consist of services like registration and triage kiosks; water collection, purification, and storage; power supply; supply storage; equipment storage; and a drone-assisted resupply station. The registration and triage modules are equipped with AI that asks victims questions and helps first responders interview and classify them in terms of urgency. AI can then call for help or direct victims to the appropriate major module for further care. The major modules are medical care facilities like exam rooms, imaging suites, and operation rooms. The combined module space for each MM is 8x24 feet; side extensions can be attached.
The modules can be mixed and matched to best suit the situation. Once the appropriate modules are selected, they are moved onto the platform and locked into place. The onboard MM computer will then identify, catalogue, and connect the modules into a single network.
The MM is then towed on site like a technology packed camper trailer. Hydraulic stabilizer legs and a folding solar roof panel deploy to complete the set up. A rooftop air purifier system begins to ventilate the major modules.
In the event of a large-scale disaster, groups of MMs can be deployed together with complementary modules to create an entire mobile hospital.
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