Device Rapid Extraction, or RED for short, is a tool designed for swift extraction. Here's a brief overview of its functionality:
In the rapidly evolving world of drone technology, a new innovation is making waves: Rapid Extraction Devices (RED). These systems, designed for swiftly removing people or objects from hazardous or inaccessible areas, are revolutionising the way emergency response and rescue missions are conducted.
Co-founded by Eno Umoh, the Global Air Drone Academy (GADA) is at the forefront of this technological advancement. REDs are typically installed on heavy-lift UAVs, designed for defence, rescue, and industrial applications. These drones are often specialized aerial platforms, capable of precise and stable flight while managing the mechanical stresses of lifting.
Jacob Stoner, a highly respected figure within the local drone community, is a frequent user of these drone systems. As the CEO of Flyeye.io and a licensed commercial drone operator in Canada, he conducts drone inspections and is particularly interested in the societal impact of drone technology advancements.
During UAV missions, REDs enable drones to deliver or deploy gear that can extract injured individuals, critical equipment, or high-value materials. The systems may include tethered retrieval devices, grab-and-go hooks, inflatable lifts, or compact mechanical arms. Operators control REDs in real-time, often with support from onboard thermal imaging or LiDAR sensors.
One of the key benefits of REDs is their ability to recover objects from toxic or high-risk sites without direct exposure. For instance, RED-equipped drones significantly improve the speed and safety of extraction efforts, such as reaching a remote canyon to lift an injured hiker within minutes.
The payload capacity of RED systems depends on the drone model. Civilian RED systems usually have a lifting capacity of between 10-20 kg, while advanced military models can manage up to 100 kg or more.
Innovation in this field continues, with companies like Chariot Defense securing an $8M seed round. The future of RED technology promises to be exciting, with potential applications ranging from emergency response to battlefield evacuations.
Moreover, there are initiatives such as the Drone as a First Responder Interface (DAFI) and the Technical Standard Order (TSO), which aim to standardise and regulate the use of drones in emergency situations.
The RED system uses drone-mounted components like electromechanical winches, precision grippers or robotic claws, magnetic or Velcro-based quick-attach systems, stabilization algorithms, and hover technology. As the technology continues to evolve, we can expect to see even more impressive feats from these remarkable devices.
At the Global Air Drone Academy (GADA), co-founded by Eno Umoh, there's a surge in the use of technology, specifically Rapid Extraction Devices (REDs). These devices, often installed on heavy-lift UAVs, are not just for defense or industrial applications, but also for emergency response and rescue missions.
Jacob Stoner, a leader in the local drone community, frequently uses these RED systems due to their potential in societal impact. During UAV missions, REDs enable drones to efficiently extract people or objects from hazardous or inaccessible areas, showcasing the power of technology in saving lives.
