Check out the plans on the Departed Reality website. They do require a 3D printer but you can use a low-end, $200USD, printer. There's an assembly video on our channel and a discord community to provide support.
I think the biggest contributor to latency is the filtering/smoothing that's done in FlyPT that is customizable. The Thanos controller and AC servos are extremely fast and probably couldn't be made faster unless it was a FPGA. Traditionally in simulation, the recommendation is to keep under 100ms latency, which the system is capable of
Nothing beats a Stewart-Platform! Nice work! What a mechanical beauty.
Can't wait to get mine put together
YES! YES! YES! YES! YES! That's as many Yes' as stars you deserve. I doff (pun intended) my hat to you sir.
Hi, fantastic project what performance has this platform in order of longitudinal and lateral acceleration?
Wow, that's nice!! 🤩
Amazing! But.. very noisey 😊
I want to get started on mine, but I don't even know how to begin. Been trying to source parts. I don't own home a 3d printer.
Check out the plans on the Departed Reality website. They do require a 3D printer but you can use a low-end, $200USD, printer. There's an assembly video on our channel and a discord community to provide support.
Flag Ghost here (discord). Fantastic. Really quiet too. Going to hit you up on discord.
Cool looking build! Seems like there's quite a bit of latency. Could different motors or controller/software reduce the lag?
I think the biggest contributor to latency is the filtering/smoothing that's done in FlyPT that is customizable. The Thanos controller and AC servos are extremely fast and probably couldn't be made faster unless it was a FPGA. Traditionally in simulation, the recommendation is to keep under 100ms latency, which the system is capable of
how heavy can the rider be in this setup? Have you guys tested that out?
Usually they stem 150-200kg payload.
How much power does this pull??
Usually the are just around 120-200W in total.
Nice 👍 👏
i like :D
good
DAMNN LMAOO