Well, technically they *are* interacting - mechanically - which is why the "excess lateral velocity" probably caused the tipping in the end. In which case, it would make sense for the stage to directly measure its distance/velocity relative to the landing target. Some kind of landing beacon might be useful.
Quote from: sanman on 04/14/2015 11:14 pmHow about giant airbags? They inflate from the barge deck as soon as the stage touches down, in order to trap it upright.You have making more problems than solving them.
How about giant airbags? They inflate from the barge deck as soon as the stage touches down, in order to trap it upright.
Quote from: sanman on 04/15/2015 12:17 amWell, technically they *are* interacting - mechanically - which is why the "excess lateral velocity" probably caused the tipping in the end. In which case, it would make sense for the stage to directly measure its distance/velocity relative to the landing target. Some kind of landing beacon might be useful. Again no. There isn't going to be a beacon on land nor does there need to nor will beacon help. The rocket has GPS and inertial guidance. That is enough to tell distance/velocity relative to the landing target. Again, the target isn't the barge but a spot in the ocean. The barge is just placed over the spot. This system is to be landing site generic and not need outside support.
Quote from: Jim on 04/15/2015 12:26 amQuote from: sanman on 04/15/2015 12:17 amWell, technically they *are* interacting - mechanically - which is why the "excess lateral velocity" probably caused the tipping in the end. In which case, it would make sense for the stage to directly measure its distance/velocity relative to the landing target. Some kind of landing beacon might be useful. Again no. There isn't going to be a beacon on land nor does there need to nor will beacon help. The rocket has GPS and inertial guidance. That is enough to tell distance/velocity relative to the landing target. Again, the target isn't the barge but a spot in the ocean. The barge is just placed over the spot. This system is to be landing site generic and not need outside support.Perhaps the key point is that in the last few feet before touchdown, you're already committed and, other than a full abort (go-around), you've not many control options available anyway.Eg. If the "excess lateral velocity" was caused by the wind (it looks like there was planty of it) pushing the stage bodily sideways across the deck, there's not much you can do about it other than stop engines and pray. There's no point measuring anything because the ASDS can't respond fast enough to help.
Quote from: sanman on 04/14/2015 11:44 pmQuote from: Jim on 04/14/2015 11:42 pmNo, it isn't and you have nothing to back up your claim. The barge is only temporary. The fence is a kludge and not worth the effortBut Jim, what about for FH center core - is that supposed to always land back on land too?That has infrequent flights.
Quote from: Jim on 04/14/2015 11:42 pmNo, it isn't and you have nothing to back up your claim. The barge is only temporary. The fence is a kludge and not worth the effortBut Jim, what about for FH center core - is that supposed to always land back on land too?
No, it isn't and you have nothing to back up your claim. The barge is only temporary. The fence is a kludge and not worth the effort
Which is actually an argument for some sort of active terminal guidance. Null the wind by moving the ASDS, and let the stage track an active course to it.But what am I saying! Of course there is no need for active terminal guidance, and no one will ever implement such an outlandish notion.
Quote from: punder on 04/15/2015 12:35 amWhich is actually an argument for some sort of active terminal guidance. Null the wind by moving the ASDS, and let the stage track an active course to it.But what am I saying! Of course there is no need for active terminal guidance, and no one will ever implement such an outlandish notion. As I said in my post, the ASDS can't move fast enough to "null the wind" - no matter how many "upgrades" you do or how big your engines are. There are laws of physics working against you.
Ok, looks like we got some killer footage from the chase plane. Big ocean, small ship. Posting vid shortly
Why does the methodology for barge landing have to be exactly the same thing as for land?Barge and land are different in reality, so why shouldn't this be reflected by small differences in the landing techniques for each?Is the wind at sea inherently greater than wind on land?Why not use Doppler radar to measure the wind conditions?Thrustmasters don't have to null the wind - the gimbaled Merlin engines should be able to do that, shouldn't they?You should be homing in on whatever surface you're landing on - if that surface is a barge surface, then it seems strange to want to home in on something else (ie. GPS) which is not that surface itself.
Vid shows some instability..the wind???https://twitter.com/SpaceX/status/588143946800463874
Quote from: jabe on 04/15/2015 12:59 amVid shows some instability..the wind???https://twitter.com/SpaceX/status/588143946800463874Some kind of axial/rotational momentum there. The stage has to tilt in order to counter any lateral forces, but then it doesn't have enough time to vertically reorient itself - so it seems to still have rotational momentum when it's touching down.So is this all due to low-altitude wind gusting near the surface?
1. Why does the methodology for barge landing have to be exactly the same thing as for land?2. Barge and land are different in reality, so why shouldn't this be reflected by small differences in the landing techniques for each?3. Is the wind at sea inherently greater than wind on land?4. Why not use Doppler radar to measure the wind conditions?5. Thrustmasters don't have to null the wind - the gimbaled Merlin engines should be able to do that, shouldn't they?6. You should be homing in on whatever surface you're landing on - if that surface is a barge surface, then it seems strange to want to home in on something else (ie. GPS) which is not that surface itself.
