Press Release Summary:
- Navigates around complex structures and delivers real-time actionable data to its operator
- Fitted with laser navigation technology permitting high-precision navigation up close to structure like viaducts, airplanes and commercial wind turbines, both onshore and offshore
- Performs fully-autonomous wind turbine inspection and real-time damage identification in as little as 15-minutes
Original Press Release:
Black Swift Technologies Unveils American-Made Quadcopter Specifically Designed for Automated Industrial Inspections
Boulder, CO – (February 14, 2020) – Black Swift Technologies (BST), a specialized engineering firm based in Boulder, CO, announced today availability of the Black Swift E2™ UAS (Figure 1), an American-made, advanced unmanned aerial system (UAS) specifically designed for automated industrial and structural inspections.
Its advanced navigation enables the Black Swift E2 to conduct highly accurate, up-close inspections of infrastructures (Figure 2), even in extreme environmental conditions. Leveraging advances in computer vision and machine learning, the Black Swift E2 is an intelligent drone can be combined with an inspection payload making it capable of completely autonomous flights. With this optional laser navigation technology, the Black Swift E2 can safely and reliably navigate around complex structures, while delivering real-time actionable data to its operator.
100% Made in the USA
Designed, manufactured and serviced entirely in the USA (Figure 3), the E2 was engineered from inception for structural and industrial inspections. Its domestic roots mean that there are no open source software concerns and no Chinese components used in the assembly of the Black Swift E2.
“The Black Swift E2 as our UAS platform of choice for conducting wind turbine inspections,” says Oier Peñagaricano, CEO of Alerion. “It provides us unparalleled performance, even in extreme conditions like heavy rains and high winds. The Black Swift E2 can be fitted with our patented laser navigation technology permitting high-precision navigation up close to structure like viaducts, airplanes, and commercial wind turbines, both onshore and offshore. With the press of a button, the Black Swift E2 can perform a fully-autonomous wind turbine inspection and real-time damage identification in as little as 15-minutes.”
The Black Swift E2 carries its payload up front rather than on the belly of the aircraft enabling operators to get full field-of-view, even looking vertical. A quick-change payload bay enables swapping the E2’s sensor packages. Its battery pack is also easy to change, and its placement is adjustable to maintain perfect balance while accommodating a host of payloads. Typical payload includes an RGB camera, laser positioning and guidance system, and radio modem, but can be customized to the operator’s individual requirements including LiDAR, thermal imagery, trace gas sensors, radiometers, and multispectral cameras.
A truly mobile solution, the Black Swift E2 easily folds down (Figure 4) and fits into a custom carrying case for easy transport while protecting the aircraft from the potential damage during transit.
“Our partnership with Alerion has resulted in the most advanced autonomous inspection drone on the market today,” states Jack Elston, PhD., CEO of Black Swift Technologies. “The combination of BST’s avionics and flight management system perfectly complements Alerion’s computer vision-based navigation and edge computing capabilities. It’s an unmanned inspection solution unrivalled in the industry right now.”
When Precision Counts
The E2 makes use of the SwiftCore™ flight management system (FMS) which consists of a state-of-the art autopilot and intuitive user interface completely designed from the ground up by BST to automate missions in difficult conditions with minimal user training. The SwiftCore makes use of many advanced capabilities including machine learning for preventative maintenance and is currently being tested in cutting edge machine vision research to enable routine flights beyond the operator's line-of-sight. With all components of the core firmware and electronics design having been developed by BST, and the electronics manufactured in Colorado, the SwiftCore forms the nucleus of a completely American-made aircraft system.
Leveraging BST’s proprietary Flight Planning User Interface, operators can program the Black Swift E2 in minutes to calculate the area under review and then begin collecting data for immediate analysis and decision making. With its intuitive tab-driven interface, flight planning is simple and easy to accomplish. Mission monitoring and mapping is all done from a handheld Android™ Tablet loaded with BST’s SwiftTab™ software. Gesture-based controls enable users to confidently deploy their Black Swift E2 with minimal training while being able to collect data in diverse environments with confidence. With its available RTK real-time GPS corrections, the Black Swift E2 delivers even greater location accuracy and tracking.
About Black Swift Technologies
Founded in 2011, Black Swift Technologies LLC, develops custom unmanned aircraft system (UAS) solutions leveraging the SwiftCore™ Flight Management System (FMS) consisting of the SwiftPilot™ autopilot system, the SwiftTab™ tablet-based user interface, the SwiftStation™ ground station, and application specific sensor integrations. The SwiftCore™ FMS is designed to be modular, robust, and simple to operate allowing users to focus on data products.
In addition to the SwiftCore FMS, Black Swift Technologies has unique capabilities to develop and deploy advanced small unmanned aircraft systems (UAS) due the team’s combined expertise in the design, implementation, and analysis of advanced “smart” control systems, expertise in legal and safe flight operations in the United States airspace, and their practical experience and knowledge from thousands of hours of UAS flight operations in demanding conditions. The SwiftCore FMS enables advanced control systems. These “smart” control systems provide industry leading sensor-based control of the UAS that minimizes operator workload while improving the quality of the observed data by autonomously modifying the flight path based on sensor inputs.
More information on Black Swift Technologies and their suite of sUAS solutions can be found at: bst.aero.
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