A team from the Royal Military College of Canada launched FLOAT-3 last month, the third Flying Laboratory for Observation of ADS-B Transmissions. This was the first flight of a new, more effective receiver system, using a balloon and payload support system improved from the system flown twice in 2009. I’ve just had word from Ron Vincent, the RMC professor leading the project, and a former advisor on my master’s thesis work, that the launch, operations, and payload retrieval were a complete success, and that the receiver performed excellently.
The FLOAT-3 Balloon system shortly after launch.
The FLOAT program began in 2009. I was one of two graduate students who together with Ron and three undergrads, put together the first-ever stratospheric balloon mission to track aircraft using the ADS-B navigation transponder system. The data gathered formed a core component of my master’s thesis, which showed, partly on the experimental demonstration of FLOAT-1 and -2, that air traffic monitoring over remote and oceanic airspace using orbital ADS-B reception was in principle possible. This year’s mission uses new receiver and payload designs, and the successful techniques and experience gained during those first two flights. The next goals for the program include deployment of a receiver aboard a nanosatellite in low Earth orbit — that spacecraft design is already well advanced.
The FLOAT-3 payload container at its landing point southeast of Wingham, Ontario.
Congratulations to the whole FLOAT-3 team. I look forward to the next steps.
Photos above provided by Ron Vincent of the Royal Military College of Canada.