Ultralight Bipedal Robot - Mechanical Design
Вставка
- Опубліковано 21 лип 2024
- Skate's a high-performance 3d printed bipedal robot. The mechanical design of the lower legs are finalised. The upper half is yet to come!
Chapters
0:00 Intro
0:33 Stability
1:20 Wheels
1:46 Legs
2:39 Other considerations
3:19 Future software
3:30 Extra clip
rboticlabs.com - Specs/CAD/Electronics/Shop - Наука та технологія
This design is brilliant. It is clear that a lot of hours have been put in this and i am excited to where this will go.if it scales it will change the world. This could turn robots from a niche only affordable with constant use to a near household product
Thanks!
I have to say I love they way you think. So often people design product with no concern to cost, ease of repair, weight & ease of manufacture etc. I also find that the general approach is to over engineer everything regards of need. This is the polar opposite of what nature actually does. I think the fact that you have made the right and left parts interchangeable is brilliant as keeping the part count is low is super important when manufacturing. I am waiting on a Bambu Lab printer so I can purchase your CAD and start tinkering as I think your product/project has unlimited scope and I have already some idea's on how I can utilise your actuator. I notice that you have an Aussie accent, any chance you are located on the east coast?
Thank you so much! Not quite, I live in Melbourne :).
I subbed because I also maddeningly agree that Cheetah's would choose wheels, if only they could.
Hahahah
Wheels are less effective for hunting than legs
When i finish the arms for the robot ilyk. Nice job on the legs!
Really exciting project! Very much looking forward to seeing it come together
This is freaking awesome. Cant wait
Excellent imagination and design!
Neat project, especially for a DIY!
Just my two cents, but in my experience with bipedal balancing, it is usually better to model your system as minimally as possible; i.e. model the system as a single mass-body with CoM at a single point (for humans, roughly just above the hips), with the legs as 2-link limbs (2DOF) and the "feet" as single points of contact.
The rationale behind this is that, given this simplified physical model, the moment of balance can always be defined about the axis connecting the two feet on the ground (think of a "tightrope"). Firstly, even if your hips have an additional DOF, this will not change, because you are reducing your ground reaction forces to point forces. Once your 4 DOF system can reliably compensate for angular momentum and stay upright within these constraints (a decent challenge), you can use wheels, casters, banana peels, whatever as feet, because the system above the ankles is dynamically balanced.
As a side effect, it's also more energy-efficient, because the robot is not constantly working to re-position itself under its center of gravity.
Sorry for the unsolicited advice; hope to see you continue working on this.
what great performance!
I love the design and cannot wait to start my own. Have you considered adding a foot that can fold down into place to support the bot while resting, or going up stairs?
Hey - I wrote you an email not too long ago... BEAUTIFUL is the word that encapsulates this video!!!
Every design choice makes sense, much improvement to be had in the long term but for what it's worth THIS is where robotics meets real life meets youtube meets open source is going ...
I'm thinking it will be a while before I get my parts in the mail, til' then though you better look forward to a nice STEAMING hot video on your doorstep involving YOUR actuators! I can't wait to show you my process and what's been going on in my lab! See you then man.
Looking forward to it 😀
This is awesome!
Thanks mate!
i want more
Looks so cool 😍
Not sure if the hip joints are that necessary though...
Are you adding manipulation too?
Yes ;)
nice!
I am going to take electronic branch in college for degree and i want to make highly efficient humanoid .... And your video gave me relief that we dont have to spend too much money in readymade actuators....😊. It will be very helpful if you given me file ....or something
That's really awesome, respect!
Why dgm driver? v1.2? It seems to cost almost 40% of the whole actuator. Any ideas how to make it cheaper and still reliable?
Thank you! The cost of dgm controller v2.0 predominantly comes from components like the FETs, gate driver, encoder, and micro. And these are necessary for controlling a BLDC. Good news is that these components are slowing going down in cost.
The way things are going having a bot that can be trained in simulation and then ported to the real world zero shot is what's next. Real-world data is more important for reinforcement learning though so who ever has the most bots sending back training datasets should have a real advantage as well. Quick and dirty to get the data to scale.
So what will these be used for besides being really cool?
Think of it like a lego block
Getting a beer from the fridge 😄. Anything practical a human can do is the idea.
Are you going to add arms to this robot ?
what is the clip at 1:52
How this project going?
how many watt hours total during average use
It draws about 30W while balancing. It has space for a 720Wh 🔋.