See the world from the inside out
See the world from the inside out
A spinoff of the Caltech Planetary Science Group, Digital Aerolus delivers advanced technologiue to the drone/UAS (Unmanned Aerial Systems) market. DA designs technologies and aircraft that solve problems faced by highway infrastructure inspectors, emergency responders, warehouse operators, and a variety of other applications.
The rapidly expanding commercial/industrial drone market is largely untapped. Digital Aerolus developed its cornerstone technology, the Folded Geometry Code (FGC)™ flight control and operating system, upon the same advanced mathematics used in space navigation. These advanced mathematical technologies were previously unknown in the consumer and commercial drone/UAS industry. The proprietary technologies developed by Digital Aerolus offer sustainable, competitive advantages to this dynamic sector by providing previously unimagined performance characteristics.
Digital Aerolus committed significant time and funding resources developing its proprietary technologies. This investment now positions the dedicated and technical staff and management of Digital Aerolus to delivert to the market a suite of powerful techniques ready for commercialization.
Digital Aerolus drones deploy rapidly, with minimal warm-up time and no need to acquire a GPS or Wi-Fi signal. Folded Geometry Flight Code (FGC)™ enables Digital Aerolus drones to interpret how users handle and throw them in order to perform a sequence of desired behaviors.
Digital Aerolus drones greatly increase the scope of commercial uses through Folded Geometry Flight Code (FGC)™ and other proprietary software that enable stable flight and hovering in a variety of challenging environments, even inside buildings and other places where GPS signals are compromised or blocked.
Digital Aerolus developed its Tangle™ Telemetry System to dynamically manage the aircraft's internal and external telemetry links for robust handling of flight and sensor data.
Digital Aerolus drones exhibit Artificial Intelligence (AI) characteristics by independently performing behavioral-based activities and programmed tasks. Independent behaviors without requiring instrument-controlled instructions to direct remote actions are based upon the Digital Aerolus Behavioral Language & Environment (DABLE)™.
The Digital Aerolus custom UAS simulation environment for flight control software/real-time operating system allows us to develop task-oriented AI behaviors specified by our users.
The ducted design of Digital Aerolus drones significantly increases flight stability while reducing risk. Enclosing hazardous whirling blades significantly lowers the chances of injury to humans, the aircraft, or to other assets during contact with the unit. The ducted design also facilitates capabilities such as throw-to-launch and hand-catch, as well as flight in proximity to obstacles and obstructions.
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