The FAA tests a drone detection system at JFK and releases registration data, drone-on-drone refueling demonstrated, a drone that can perch on walls, a new UAS risk management course, and a review of a guide to drones.
The FAA conducted tests of the effectiveness of an FBI UAS detection system at John F. Kennedy International Airport (JFK) in New York. Five different rotorcraft and fixed wing UAS participated in about 40 separate tests. Also involved in the tests were the Department of Homeland Security (DHS), Department of Justice, Queens District Attorney’s Office, and the Port Authority of New York and New Jersey. The Griffiss International Airport test site in Rome, NY, provided expertise in planning the individual tests as well as the flight commander for the tests and two of the UAS used.
In response to a number of Freedom of Information Act (FOIA) requests, the FAA released a spreadsheet showing the number of UAS registrations by country, state/province/region, city, and postal code. Almost 40,000 entries for “Hobbyist” registrations, and nearly 5,000 “Non-Hobbyist” registrations. Names and addresses of registrants are not part of this database, and will only be made available by registration number.
We’d like to thank Airmap.com for providing the heat maps. Find the AirMap for Drones app in the iTunes store and use it to access low-altitude airspace advisories, create flights, file digital notices, manage aircraft, and more.
Chinese researchers have developed a method of autonomous aerial refueling where the “tanker” uses cameras to determine the position of the “receiver.” The tanker then flies to the receiving drone and refuels it through a boom.
Quadrotors have limited flight duration, so the ability to “perch” or land for extended periods of time would be beneficial, particularly for applications where the operator wants to collect data over time. Stanford’s Biomimetics and Dexterous Manipulation Laboratory has been working on perching technology that would allow a small drone to land on a wall using an opposing gripping system.
Peter Keith captured the
