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Solar Powered UAV to Set Aviation Endurance Record?

Posted by ScuttleMonkey on from the getting-warmer dept.

Iddo Genuth writes to mention that a group of Israeli students is hoping their latest unmanned aerial vehicle (UAV) will soon break the world aviation record for endurance that has stood for over 17 years. The piece features a short history of solar power aviation and an interview with the students.

2 of 59 comments (clear)

  1. Re:hmm by h2_plus_O · · Score: 2, Informative

    dont really see this being applied to commercial passenger or cargo planes. Maybe ultralites.
    Think military, recon, and intelligence-gathering. The ability to have a drone orbit the same patch of earth for days over a target with live video feed? You could spy on the sunbathers next door without being detected for sure.
    --
    If there's one thing I won't stand for, it's intolerance.
  2. Re:Low-cost Satellites by nsayer · · Score: 4, Informative

    Among the advantage to stratospheric platforms over geostationary orbit satellites:

    1. Antenna aiming isolation. The same downlink frequency can be shared by many more users since the downlink antennas could be directional enough (like satellite dishes are) to reject other sources. This is true of geostationary orbit satellites, but the locations can only really be varied along an arc over the equator. Aeronautical platforms can be moved in two dimensions (obviously they really are in 3 dimensions, but the antenna aiming will still simply be azimuth and elevation).

    2. Better geographical isolation. Because they're lower, their horizon area will be much, much smaller. This means their service areas can be more easily limited. This can be done with antenna geometry for geostationary orbit satellites, but in general they can still see almost an entire hemisphere of the earth, so they can still raise the noise floor in otherwise out-of-service areas.

    3. Less delay. Geostationary orbits are far enough away that they introduce a delay that is unacceptable for most duplex applications (such as telephone or Internet traffic). Aeronautical platforms would be close enough to the ground that that delay would likely not be a factor.

    4. More servicable. The cost of launching geostationary payloads means that the payloads must be designed for a long service life, which raises the cost of the payload significantly, as well as the risks. Aeronautical platforms simply have to come down for a landing, be serviced, and then take off and fly back to station.

    5. Less chance of solar outages. Twice a year, there are a few days in a row where geostationary satellites transit the sun. Often, their signal gets drowned out when that happens. Aeronautical platforms stationed outside of the tropics, the problem can be avoided pretty easily (simply place the station to the north of the service area for the Northern hemisphere or to the south of the service area for the Southern hemisphere).