The US Army is testing drones to deliver blood and medical supplies in dangerous battlefield situations

The US Army has tested drones to deliver medical supplies during dangerous battlefield scenarios to wounded warriors.

During a recent US-led exercise in California with the militaries of other countries, drones dropped artificial blood and other necessary medical supplies to soldiers as part of Project Crimson. This type of technology would be deployed in circumstances where it would not be safe to send people on foot to get help.

The drone is a vertical take-off and landing aircraft, so it doesn’t need a runway or catapult launch to perform these life-saving missions, according to the Army.

This feature allows Soldiers to sustain life in the early stage immediately after injury and helps facilitate transportation to the Army Hospital.

The US Army has tested drones to deliver medical supplies during dangerous battlefield scenarios to wounded warriors

During a recent US-led exercise in California with the militaries of other countries, drones dropped artificial blood and other necessary medical supplies to soldiers as part of Project Crimson.

During a recent US-led exercise in California with the militaries of other countries, drones dropped artificial blood and other necessary medical supplies to soldiers as part of Project Crimson.

This drone can allow soldiers to maintain life in the early stage immediately after injury and help facilitate transportation to the army hospital

This drone can allow soldiers to maintain life in the early stage immediately after injury and help facilitate transportation to the army hospital

“Project Crimson is a project to take a common unmanned aerial system and adapt it to support a medical mission,” Nathan Fisher, chief of medical robotics and autonomous systems at the U.S. Army’s Telemedicine Research Center and Advanced Technology, said in a statement.

This drone supports medical field care when casualty evacuation is not an option. He could keep whole blood and other important items refrigerated in the standalone portable refrigeration unit and take them to medics in the field with wounded warriors.

The Army used an FVR-90 drone from L3Harris Technologies for Project Crimson.

In flight, the aircraft flies like a fixed-wing aircraft for 12 to 18 hours, can operate from land and sea, and has a payload capacity of up to 22 pounds.

Johns Hopkins University researchers first demonstrated that blood can be delivered by drones in 2015. A study in the April 2022 issue of The Lancet Global Health Journal showed that blood delivery by drones in rural and mountainous regions of Africa was fast and safe.

Other than drones, the Army has also tested a host of other remote communication and diagnostic tools for use on the battlefield.

This drone supports medical field care when casualty evacuation is not an option.  She could keep whole blood and other important items refrigerated in the self-contained portable refrigeration unit and take them to doctors in the field with wounded warriors.

This drone supports medical field care when casualty evacuation is not an option. She could keep whole blood and other important items refrigerated in the self-contained portable refrigeration unit and take them to doctors in the field with wounded warriors.

In flight, the plane flies like a fixed-wing aircraft for 12 to 18 hours, can operate from land and sea, and has a payload capacity of up to 22 pounds.

In flight, the plane flies like a fixed-wing aircraft for 12 to 18 hours, can operate from land and sea, and has a payload capacity of up to 22 pounds.

One such tool is called the Battlefield Assisted Trauma Distributed Observation Kit (BATDOK), which is a smartphone app that can also work with sensors placed on patients to scan vital data and other information and then store it on the device.

This information will then be shared with other devices, via wi-fi or Bluetooth, giving clinicians in the field a simple way to relay a patient’s health information to the transfer point.

“The facility can see a patient’s condition in real time using BATDOK, while medics on the ground can update treatments and medications for patients as well,” explained Michael Sedillo, Director of Flight Systems for the Integrated Cockpit Sensor Program with Air Force Research. The lab is in a statement.

“This allows the facility to be alerted, assembled and prepared to treat the patient once he is transferred,” he added.

“Being able to have these technologies on hand has greatly enhanced medical field care,” said Capt. Morgan Plowman, a nurse with the 15th Brigade Support Battalion, 1st Cavalry Division.

Taking a tablet or phone to enter employee data has increased down-the-line communication and field care accuracy. So much so that the rate of patient care has increased to the point where the care of the casualty begins to end has greatly accelerated.

Johns Hopkins University researchers first demonstrated that blood can be delivered to drones in 2015

Johns Hopkins University researchers first demonstrated that blood can be delivered to drones in 2015

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