Medical Emergencies Clinical Trial
Official title:
Design and Application of Airborne Visual Real-time Evaluation System for Air Medical Rescue
This study intends to use AR (Augmented Reality) smart wearing equipment combined with 4G + satellite information transmission system to achieve two-way real-time information transmission in air-to-ground medical rescue.
Investigators are going to add a pair of wearable smart glasses with AR function to the
original flight helmet .During the rescue, the doctors are asked to wear the special helmet,
through the device's camera system and headset, investigators can obtain graphics and sound
of the helicopter cabin .At the same time, it also receives the historical data of patients
and real-time diagnosis as well as rescue guidance from the ground medical institutions.
In short ,it can not only transmit the patient's information in the cabin to the ground
medical institutions in real time, but also transmit the rescue plan of the ground medical
experts to the rescue helicopter in real time to ensure the safety of patients in transit
,which will save the time for medical staff to hand over after landing and reduce errors.
At present, most of the airborne information exchange systems in air medical rescue in China
focus on the internal use of the army, which are incompatible with the medical information
systems of most hospitals on the ground. Moreover, these systems can only achieve limited
information transmission, and can not delivery rescue scene images in real time. Civil air
medical rescue conditions are relatively backward, most of them rely on 2G/3G/4G mobile
communication technology, which can lead to failure in case of bad weather or sudden major
disasters, and bring great security risks to patients in air medical rescue.
If the airborne visual real-time evaluation system can be successfully completed, it will be
popularized and applied in Chinese airborne first aid alliance, and eventually a standardized
airborne medical rescue information management system will be formed. Furthermore, a
three-dimensional rescue system for civil airborne medical rescue will be built to reduce the
potential safety hazards of patients in airborne medical rescue, and to enhance the rapid
response ability and organization of medical institutions.
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