Inside Unmanned Systems

AUG-SEP 2018

Inside Unmanned Systems provides actionable business intelligence to decision-makers and influencers operating within the global UAS community. Features include analysis of key technologies, policy/regulatory developments and new product design.

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75 unmanned systems inside ENGINEERING. PRACTICE. POLICY. August/September 2018 on water and take off again, and re- searchers may want to pursue a similar robust design with UNAv. On the other hand, scientists may pursue "swarms of disposable systems where crashing is an event just rare enough that swarms are able to perform their monitoring mission even if some UNAvs crash," Bousquet said. " There is still a long way to go when it comes to performing robust, long-endurance, wind-powered mis- sions with the UNAv," Bousquet said. "There is extremely exciting research and development ahead that requires merging aerospace technologies, ma- chine vision and artificial intelligence for f lying in waves, and bioinspired technologies." Figure 1: Key systems on the prototype UNAv during its fi rst river test. The most powerful LabSat yet, the new LabSat 3 WIDEBAND captures and replays more GNSS signals at a much higher resolution than before. LabSat 3 WIDEBAND can record and replay the following signals: • GPS: L1 / L2 / L5 • GLONASS: L1 / L2 / L3 • BeiDou: B1 / B2 / B3 • QZSS: L1 / L2 / L5 • Galileo: E1 / E1a / E5a / E5b / E6 • SBAS: WAAS, EGNOS, GAGAN, MSAS, SDCM • IRNSS

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