I wonder if optical feedback wouldn´t work better than radar then? Maybe guiding lasers on the barge? Or just cameras on the rocket calculating the geometry of the SpaceX logo (and other visual clues) to give an accurate mesurement of distance and angle...
Quote from: aceshigh on 04/14/2015 08:55 pmQuote from: Kabloona on 04/14/2015 08:52 pmQuote from: VulcanCafe on 04/14/2015 08:46 pmI was writing something related to first stage landing technical hurdles that SpaceX has already retired, but clearly something is missing.What technical hurdles are left to solve?They've done soft touchdowns in water. Soft touchdowns on the barge are the final missing piece. They used landing radar in tests of the F9R Dev vehicle at McGregor, and presumably are using landing radar on the flight vehicles. The landing radar may be having difficulty discriminating between sea level height and barge deck height. (Speculation)I wonder if optical feedback wouldn´t work better than radar then? Maybe guiding lasers on the barge? Or just cameras on the rocket calculating the geometry of the SpaceX logo (and other visual clues) to give an accurate mesurement of distance and angle...Actually an issue with the radar would make sense. The landing pad (if i remember rightly) is not a solid surface but rather a grating. The radar rather than get a strong signal from it would get a weaker signal. A Ladar might have the same issue.
Quote from: Kabloona on 04/14/2015 08:52 pmQuote from: VulcanCafe on 04/14/2015 08:46 pmI was writing something related to first stage landing technical hurdles that SpaceX has already retired, but clearly something is missing.What technical hurdles are left to solve?They've done soft touchdowns in water. Soft touchdowns on the barge are the final missing piece. They used landing radar in tests of the F9R Dev vehicle at McGregor, and presumably are using landing radar on the flight vehicles. The landing radar may be having difficulty discriminating between sea level height and barge deck height. (Speculation)I wonder if optical feedback wouldn´t work better than radar then? Maybe guiding lasers on the barge? Or just cameras on the rocket calculating the geometry of the SpaceX logo (and other visual clues) to give an accurate mesurement of distance and angle...
Quote from: VulcanCafe on 04/14/2015 08:46 pmI was writing something related to first stage landing technical hurdles that SpaceX has already retired, but clearly something is missing.What technical hurdles are left to solve?They've done soft touchdowns in water. Soft touchdowns on the barge are the final missing piece. They used landing radar in tests of the F9R Dev vehicle at McGregor, and presumably are using landing radar on the flight vehicles. The landing radar may be having difficulty discriminating between sea level height and barge deck height. (Speculation)
I was writing something related to first stage landing technical hurdles that SpaceX has already retired, but clearly something is missing.What technical hurdles are left to solve?
Quote from: aceshigh on 04/14/2015 08:55 pmI wonder if optical feedback wouldn´t work better than radar then? Maybe guiding lasers on the barge? Or just cameras on the rocket calculating the geometry of the SpaceX logo (and other visual clues) to give an accurate mesurement of distance and angle...The problem with optical or laser systems is that they do not work in the final seconds when you have a lot of smoke/vapor/dust. That's also a problem for example for helicopters landing in the desert or on snow, and I know that they were testing landing radars for German army helicopters for example.Radars are fine ! (I work on synthetic aperture radar data so maybe I am not totally neutral... )
So does this mean the grid fins aren't effective enough? The only reason I can think of for it to have too much lateral velocity is if it was thrusting laterally to get to the barge and didn't have enough height to do it and then null that velocity. Which sounds a lot like the previous attempt...
Seems like the leg closest to the camera would have hit the deck first at that angle, but may be fish-eye distortion.
Maybe they need some sub-sonic control surfaces to supplement the hypersonic grid-fins?
Check out @SpaceX's Tweet: https://twitter.com/SpaceX/status/588082616890449920?s=09Exhaust plume impinging on the white circle but stage seems to lean toward the center of the target, like it is trying to maneuver to the X, but too late. Wonder the direction it was coming from, if it overshot.Also wpndering if we will be able to call a bingo winner.
Quote from: CraigLieb on 04/14/2015 09:13 pmSeems like the leg closest to the camera would have hit the deck first at that angle, but may be fish-eye distortion.Yeah... There are no straight lines in this extreme wide angle view. You can't determine that. We don't even know for sure that the two frames are from the same camera. (they likely have a camera in every corner)
A couple of pictures up there already:https://twitter.com/elonmusk/status/588082574183903232
Quote from: Lars-J on 04/14/2015 09:20 pmQuote from: CraigLieb on 04/14/2015 09:13 pmSeems like the leg closest to the camera would have hit the deck first at that angle, but may be fish-eye distortion.Yeah... There are no straight lines in this extreme wide angle view. You can't determine that. We don't even know for sure that the two frames are from the same camera. (they likely have a camera in every corner)This. I don't imagine the cameras are mobile. So if it was the same camera, we should be seeing the barge surface, and the flagpole on the right as well. I think they're both views of the same instant, but from different cameras. The direction of the sun (illumination source) reaffirms that guess too.
