Gah that sucks. I've looked at the hardware specs and basically ended up drooling over it and realizing that my homebrew stuff will never be able to compete. But the optics alone on that DJI stuff is nothing short of science fiction compared to what you can put together on a hobbyists budget. But for $7K you can build an octocopter with twice the range and twice the payload, which may not be as impressive on paper but can be pretty useful as well.
The larger agricultural drones are also amazingly impressive, those I've seen up close doing real work and they are so reliable it is almost boring.
I wonder what the reason is that yours behaves the way it does, that sounds like a real challenge to find out though with the closed system like that.
Drones that rely on GPS are very iffy as soon as the GPS fails, I've seen more than one inexplicable 'fly-away' happen. I've found a really neat trick to test drones that are not 'known good': just find yourself a long stretch of really light chain and tie it to the drone. As long as it behaves: no problem. But if it tries to take off by itself at some point the length of chain weighs more than the drone can handle and it will stop ascending. That way at least you have some kind of safety measure that does not immediately impact the drone in a material way as long as it is near to you.
Since them I've acquired a 3D printer, so I've increased the surface area of expensive things I can break.
If I can ever figure out how to repurpose some of these electronics maybe for some kind of AI robot (yes, the gimbal + camera optics are so nice, it feels like a sci fi eyeball from 2037!) I will be back in business.
Some people sell exploits to "jailbreaks DJI drone firmware but with current US admin I don't think it is prudent to do too much "off-label" usage of this kind of tech.
But seeing this geofencing post.... I just had too much experience trying to get around these restrictions to actually believe that they'd drop the geofencing, especially after a consumer drone ban.
Thank you for the chain suggestion, that would have been intelligent to do. Matter of fact, my father may have made that suggestion at the time. Alas, that was a very move fast and break things period of my life.
I'm flying very experimental drones (~1 Kg only so not super heavy, but still, you don't want one to land on your head) in an urban environment so I really care a lot about keeping things safe and within my yard. This seems like it was the easiest way to get really hard safety guarantees. That thing is going nowhere further than the length of the tether. Building drones is fun, there is a ton to learn and the constraints are crazy enough that you have to be very creative.
If there is one resource I can point you to that may help to inspire you have a look at this:
Thank you so much for sharing this excellent resource.
I'm watching this youtube video (https://www.youtube.com/watch?v=tlD0C5CrWcA) and he apparently built this out to support his Master's research at the University of Maryland, where I went to school for undergrad.
In one of his videos he claims he's 'not a software guy' and then proceeds to put together a piece of control software that is more flexible and far better laid out than whatever is out there in common usage.
He's right in many ways, unfortunately I really need all those other features as well, but I think there is something to be said for ripping the inner control loops (rate, level, stabilization) out of say Arducopter and replacing it with this stuff on a separate micro controller. It's much easier to divorce stability and primary flight characteristics from things like high level mission planning and such and it isn't rare at all for such things to get in each others way in the usual suspects (Betaflight, INAV, Arducopter and various derivatives of these three).
I just had too much experience trying to get around these restrictions to actually believe that they'd drop the geofencing, especially after a consumer drone ban.
DJI has got to be pretty sore about the ban. The geofencing was always voluntary on their part as I understand it, basically an attempt to proactively engage with the US and other aviation authorities in good faith. Then, when Trump blew up the truce by ordering the FCC not to approve future products, they may have felt they had no reason to continue to cooperate.
That's what I was wondering -- whether or not that speculation really does describe the situation accurately. If it does, it sounds like good news for you, since that hardware may now be usable after a firmware update. I only have a 249g first-gen Mini, myself... and being out in the middle of nowhere, I don't know if it ever had those restrictions to begin with.
The larger agricultural drones are also amazingly impressive, those I've seen up close doing real work and they are so reliable it is almost boring.
I wonder what the reason is that yours behaves the way it does, that sounds like a real challenge to find out though with the closed system like that.
Drones that rely on GPS are very iffy as soon as the GPS fails, I've seen more than one inexplicable 'fly-away' happen. I've found a really neat trick to test drones that are not 'known good': just find yourself a long stretch of really light chain and tie it to the drone. As long as it behaves: no problem. But if it tries to take off by itself at some point the length of chain weighs more than the drone can handle and it will stop ascending. That way at least you have some kind of safety measure that does not immediately impact the drone in a material way as long as it is near to you.