A2Z Drone Delivery Tackles Consumer Safety and Privacy Concerns with Launch of RDS1

The RDS1 (Rapid Delivery System) offers a proprietary delivery mechanism that free-falls its tethered payload before bringing it to a gentle stop near the ground in order to limit time-on-station while accurately delivering payloads from sufficient altitude to clear ground obstacles, mitigate noise and keep recipients at a safe distance from spinning rotors.

Los Angeles, C.A. – October 5, 2020 – A2Z Drone Delivery, LLC, developer of a patented tethered freefall drone delivery mechanism, is launching its flagship product, the RDS1 (Rapid Delivery System) which maintains a safe hover of up to 150 feet (45.71 meters) while its delivery mechanism controls the payload’s freefall for a safe and accurate touchdown. Offered as a modular add-on system or as a ready-to-fly platform based on the DJI® Matrice 600 Pro, the RDS1 is designed for payloads up to 2 kg (4.4 lbs.). With a range of up to 3.5 km (2.17 miles), the RDS1 is ideal for rapid deployment of time-sensitive first aid and life-saving medical supplies, or to deliver material to destinations where landing the drone is problematic such as a tossing ship or dense forest. For more information on A2Z Drone Delivery’s flagship RDS1, please visit https://www.a2zdronedelivery.com/.

The RDS1 addresses some of the consumer-protection concerns with drone delivery. By delivering payloads from a safe hover altitude, the RDS1 protects recipients from spinning UAV propellers, while mitigating privacy concerns of low-flying drones and abating intrusive rotor noise. The RDS1’s unique patented freefall delivery mechanism reduces time-on-station to ensure onboard power can be put to use in other ways. Built on the familiar DJI flight control interface, the A2Z Drone Delivery app combines manual control system operations with an onboard sensor array to manage the package’s freefall and gently stop its descent just above the ground. Rated at 100 lbs. tensile strength, the RDS1’s Kevlar® tether and elastic fabric pouch can be reeled back up for reuse or to retrieve materials from personnel on the ground.

“Our rapid delivery system is ideal for situations where a drone cannot safely approach close proximity to its delivery location such as delivering radios or medical supplies to a search and rescue team in a forest or as a more efficient option to deliver and retrieve port documents from awaiting cargo ships,” said Aaron Zhang, founder of A2Z Drone Delivery, LLC. “While other drone delivery platforms are designed to hover close to the ground, our tethered free-fall delivery technique enables efficient

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