Wheels within wheels ... Perfect example of how adding two mechanisms you have experience with can lead to completely new and interesting problems

Very inspiring. I still cannot understand, how you can make so many videos with such high quality robot builds. Impressive!

@hamadaag5659

2 жыл бұрын

Yo nice seeing you here man! Love your vids

@tanjiro3285

2 жыл бұрын

Heyyyy 🤘

@tanjiro3285

2 жыл бұрын

with a fast 3d printer and even faster brain 😍

@bylolo4964

2 жыл бұрын

hello, you are both great scientists!kisses

@Build_the_Future

2 жыл бұрын

He must be putting in about 12 hour days. It takes me all day just to figure out the bugs in my code haha

this is why spacecraft that use control moment gyros for stabilization always have some other way of holding attitude. if the spacecraft is subject to some unbalanced torque (from radiation pressure, magnetic fields, etc) the CMGs will move as far as they can go and become saturated. to unsaturate them, they're moved back to the neutral position and the spacecraft's thrusters are used to counteract the resulting torque. the term for this is momentum dumping. the robot crashes because it has no way of doing this. being tilted over results in a constant torque which will quickly begin to saturate the gyros, so that they will be moved very far in one direction even when the robot returns to vertical. unless you plan on doing the exact same amount of left turns as right, this concept fundamentally cannot work. now, this *does* give me the idea of creating some kind of robot that uses CMGs for most of its control, but has compressed air jets for momentum dumping.

@huvudpersson7344

2 жыл бұрын

The robot could unsaturate the reaction wheels by leaning a small amount the opposite way and letting gravity unsaturate the wheels (I think, not entirely sure). But yeah, it has to be done standing still if you don't want to turn.

@diegodoumecq5144

2 жыл бұрын

So, a robot with corrective farts? Sign me up!

@thewatersavior

2 жыл бұрын

@@diegodoumecq5144 ... #JustAddThruster

@ecicce6749

2 жыл бұрын

@@huvudpersson7344 pretty sure this will work. You just need a bit gyro power left to flip the leaning side and let it hover there until desaturated. would be fun to implement this in the stabilize algorithm and correct its saturation levels as it goes. To solve the forward backward leaning problem of the gyro add them to a slide that corrects its position back to center. Could even be used to help control steering. I would love to work on the algorithms doing all that in parallel. Must be fun to watch afterwards doing its things to balance.

@xWood4000

2 жыл бұрын

How do boats do momemtum dumping?

Most people don't know how bicycles actually work, to turn left, you first have to turn right, to change your cog to allow you to then turn left, Veritasium did a great video on this. Seems like your monowheel is experiencing this exact same mechanic.

@Blox117

2 жыл бұрын

nope you dont have to turn at all. dont repeat information if you never actually did it yourself. countersteering is useful for making sharp turns but is not how bicycles always turn

@motopimp2006

2 жыл бұрын

If you're riding a motorcycle at speed, you must point the wheel to the left to turn right. Pointing left causes the mass to lean right, this turning right. The wheels are the gyros. Bicycles and motorcycle actually respond the same. If you're moving parking lot speed, left is left, and right is right. But as your speed increases, the more influence from the gyro, inverting your correlation. If you get your bicycle up to 30mph+, you will experience this.

There's only one thing left to do....a no wheel balancing robot. Great skills though and best wishes >1M subscribers

@4LXK

2 жыл бұрын

And then a no robot balancing robot, so two things.

@apbosh1

2 жыл бұрын

@@4LXK 😄 I reckon I could build one of them

@xpatrickx11

2 жыл бұрын

Hold on, first try 0.5 wheels before we dive in xD

@JohnDlugosz

2 жыл бұрын

I would love a pogo-stick type platform that could carry a person. It can handle stairs and irregular terrain, so an alternative to a wheel chair or stroller.

@bluemamba5317

2 жыл бұрын

@@JohnDlugosz Build a huge robo dog

I'm very impressed, even if the result itself isn't performing too well. There is so much to learn from your designs.

You need a slower PID that takes the gyro position as input and changes the left right angle setpoint as it's output. That way it will lean itself left and right automatically to keep the gyros from hitting their end stops.

@Joern8910

2 жыл бұрын

Also the dampening of the pid is to weak for the side to side stabilization.. it oscillates quit heavily 😅

@molomono9481

2 жыл бұрын

Actually PID is not a good control strategy. The force vector being so close to the center of mass causes a bifurcation in the systems phase portrait. The system is not guaranteed to have unique control solutions. So the PID assumes solution uniqueness, i doubt PID is sufficient. lowering the center of mass more will make the pid work better

Even with my fairly large lack of understanding of the build it still absolutely genius and the video was as awesome as ever, fairly new~ here and I’ve loved everything I’ve seen you create It is also all highlighted by how passionate you are for your craft, much respect!

constantly impressed by your contraptions, Mr. Bruton.

Some considerations from personal experience in prototyping similar stuff: 1. use large hex core patterns for the gear sectors. Generally speaking, if you can get a 8 mm hex to a 2 cm wide part, you're set with a great ratio on a normal wall thickness. I've wall hangers that are built that way and they can soak up to 15kgs despite being very thin in section (no machine figuring involved, all hand laid lattice). 2. Instead of making recesses with small bits to joint the sections, which will weaken the whole structure, make another exterior ring that has overlapping segments (like brickwork). The equal sections will make for great structure. If you print this outer ring in two sections, so a middle wall (which was the base of the print) is shared, the structure jumps in structure even more. -that outer ring, give it a ridge that's dovetailed to capture the TPU tire, which you can then print in a spiral, one piece, and slide over the dovetail. The tire would be in two pieces, so you can print the dovetail halves properly, then glued using Loctite's black rubber glue (pliable, but extremely strong, strong enough to glue a tire to a rim, on a car, permanently). You will not need any kind of screw for this, it can be build as a slot setup, which is far better than screws, which require you make a structure in structure when printing, to give you a strong boss. 3. Finally, if a gear sticks, it's because the tolerances aren't right from the print, and rather than printing another piece, just print yourself a master tooth, that's one sandpaper thickness smaller than the actual tooth valley you're trying to sand away. Then a little bit of elbow grease will yield perfect gear teeth. If you have an oscillating type dremel, the kind usually used to sand seam lines in model making, you can screw this tooth + sand paper to the bit, and sand that way. -adding superglue with a brush before hand, will give you extremely strong and smooth teeth. Less rolling resistance, less noise (which itself is a loss), and generally speaking, smoother operation.

@benkaye5014

2 жыл бұрын

can you explain the hex core pattern for gear sector?

@aserta

2 жыл бұрын

@@benkaye5014 Sorry for late reply. Instead of letting the slicer fill your piece (depending on how much material you want to print) you take hexagons and place them in a grid leaving a bit more meat, like say for a part that's the size of a cup, you put 1 mm thickness walls. You make this lattice much larger than the part you want, then you place it so that the hexagon tubes formed by it are placed parallel to the direction you want the least deformation. Here's the crucial part. Every hexagon that's not full, you have to fill out, which a slicer will not. Learnt this from a guy in a prop making forum. Makes extremely strong components.

This is why I like science, engineering, electronics, and diy rc builds.

Beautiful, my brain was reeling before you even got thru the intro ! You are Full Stark !

Wow. I thought a lot about this idea. Great to see you actually build it. I would have tried to make the gyros nearly the same size as the wheel so you can still sit inside.

Can I just say, I love the music you use for showing the 3D printing!

It feels like for turning you could use a servo on top with some mass and turn it in the opposite direction you would like the vehicle to turn. Great project as always

You could either make sure the whole inside of the robot stays upright (and use a separate weight for leaning), or put the control-moment-gyros on a gimbal (or even two gimbals) so they can stay upright while the rest of the robot leans. Also maybe make a case for the gyro so you don't accidentally touch it and lose skin when it's spinning fast :P

Congratulations 🎉🎈🎊🍾 1 million subs I was waiting for this …you deserve مبارك المليون

This really is very impressive James!

Absolutely amazing! Keep up the remarkable work.

Random project idea: make Gizmoduck from the show “Ducktales.” I loved that cartoon as a kid and ever since I discovered your channel and the possibilities of 3D printed self-balancing robots I’ve want to see a real robot duck riding around on a single wheel. As always thanks for your great content.

Great work. A couple of quick suggestion for future builds: Program one of the toggles on your controller as a soft emergency stop that kills the motors Program a ramp speed for the gyro speed controllers so you don't have to manually ramp them up.

Whenever the 3d printing music comes on, I imagine I'm watching the weather channel.

13:03 did you see Veritasium’s recent video about steering? I wonder if you need to apply the same principle. In his video he shows how a bicycle has to steer the WRONG way first (just a little bit and very quickly) before steering the RIGHT way. It’s fascinating and might be helpful!

@Okamika44

2 жыл бұрын

I was just going to say the same thing.

@corporalwill123

2 жыл бұрын

Nice connection, although it doesn’t really apply here since you reverse steer to get the bike tilted in the direction you want to steer, and here you use the gyro to control the tilt. Imagine if you added a gyro to a bike, then you would never need to reverse steer since the gyro takes the role away from the front wheel. Actually you wouldn’t need to steer the front wheel at all but I imagine that would be a very difficult bike to ride.

@molomono9481

2 жыл бұрын

You are right about the gyros, assuming they interface with the bodies containing them with torque around every axis. This is however not the case since the gyros here spin in the "same" plane as the wheels. They regulate pitch in that manor only. It is only when you offset the planes the gyros rotate in that the resulting forces are exerted push side to side. In the bike case the force is applied below the center of mass causing the bike to tilt towards the direction you want to turn. (The bike rides out from under you initially) If this force is applied below the center of mass it is likely similar to the bike but less severe. Take note that the two monowheels regulate pitch differently because of their location with respect to the center of mass. This supports the idea that it is indeed what vertasium describes.

@corporalwill123

2 жыл бұрын

@@molomono9481 >This is however not the case since the gyros here spin the the “same” plane as the wheels. The way the gyro is used doesn’t matter in my explanation, as a reaction wheel or control moment, as long as it controls the tilt left and right. >If this force is applied below the center of mass it is likely similar to the bike but less severe. For gyros their position relative to the center of mass doesn’t matter, just the orientation, which is counter intuitive. Although you are right that the unwanted steering is somewhat related to the center of mass. It tries to steer the wrong way because the wheel is pitching down while turning (center of mass at top), which tilts the roll axis downward so when the gyro tries rolling right (to offset gravity when turning left) it spins the wheel to the right at the same time. If the wheel was pitching up to drive forward (center of mass on bottom), however, then the reverse would happen and the axis tilt would actually help with the turn. So the center of mass affects which way the wheel pitches to go forward, which affects how the roll axis is tilted, which affects turning.

@molomono9481

2 жыл бұрын

@@corporalwill123 haha yeah we agree on the steering but are focussing on different interfaces of force in the system to explain it. Would be interesting to play with both variables and study what is really going on Its weird though since you would expect that the gyro exerting force normal to the center of mass in xy plane would be simple since it is removing non-linearity but it is actually near a bifurcating region making linearized control have non unique control solutions. In other words, PID wont work well

That is so elegant. Nice one James...

Gyroscopic forces are fun! In motorcycle racing you are taught to push on the right handlebar if you want to lean and turn right. I thought the instructor was nuts, but it works! When your project fell over, all I could think was... "Nooo! Not the nice shiny floor!" lol Wonder if you could create an inner carriage, to mount the gyro's, that is independent of everything else. Then the drive carriage could have the drive motor, gearing, controls, etc. A lot of parts, but would help with the gyro axis changing problem.

Look up how you steer a motorbike and that will help with the concept of the wheel leaning left but going right. :) it’s called counter steering I believe.

Thank you very much for teaching us about robotics.

Nice work - a good example for engineering and find a solution! Like it.

That's a very clever use of bearing balls to get your mass. Perhaps you can use an RPM differential on your speed controllers to get side loading on your gyro to help offset the twist when you try to turn.

Awesome! Its so close to being the coolest monowheel rc out there !

Steering is a true conundrum! Motorcycle racers know the secret. There's a great vid by the Veritasium channel called 'Most People Dont Know How Bikes Work' that explains this phenomenon. I hope you build this into your monowheel.

I think tire shape might be a sneakily important factor. A flat-bottomed tire might seem easier to stabilize when the wheel is stationary and near vertical, but once you tip over the edge, the gyros are bound to struggle at correcting the sudden change in forces. Plus, when the wheel is moving, it's gonna be hard to make minor steering adjustments (like the video mentioned) since the gyros' smaller adjustments don't really lean the wheel at all. With a rounder tire, the amount of corrective force required is more smoothly related to the angle of the lean, and you might be able to make small lean adjustments better.

@Meikulish

2 жыл бұрын

ALSO! I'm not certain, but I think the shape of the tire miiight have an effect on how the lean angle translates into turning as the wheel rolls along. I think a rounder tire might be more prone to turn towards the lean, which would be helpful, but I'm not sure.

It amazes me how easy you make all this look, knowing it's anything but.

Fantastic build 😊

As someone obsessed with the idea of sports-bike-like monowheels, these two videos gave me so much insight into it you can't imagine...

How many sponsors do you want? Bro was like: Yes

Such an elaborate floor polisher! :D

For the motors that are used to stabalize the main wheel side to side, you could use another gimbal set on the horizontal axis to stabilize the gimbals in the vertical axis.

Another amazing build.. Maybe a good alternative to gyroscopes here might be a simple moving balance weight. Maybe the weight could be made as a vertically mounted momentum wheel, a fairly painless way to achieve steering. (just realized that you still end up with the same problem but now rotated through 90 degrees.)

@xpatrickx11

2 жыл бұрын

I think weight's with stabilisers is good alternate indeed. The one-wheel motorcycle from "yugioh jack atlas" works simulair with LOW place mass around the main wheel

I love seeing videos where things don't work as expected. Keeps us in reality and helps us understand the number of failures that it takes to get a success! Awesome project. I don't seem to see it anywhere, but what are the joysticks that you are using on your remote?

4:38 Nice idea, very innovative.

I caught your video as I was surfing KZread. I like how your mind works. There was a moment at the end however, where you seam to be perplexed as to why it turns the opposite way of the lean. I think this has to do with how bicycles turn. While riding along, if you want to turn Left, you pull back slightly on the Right end of the handle bar. This moves the lower part of the bike off center to the Right. As the bike leans into the turn the handle bars, and the front tire, turn to the Left to follow the circle you're riding in. That's just my guess, but it seams to make sense to me.

You need a horizontal gyro, it would add mass and also allow to rotate the whole mechanism and have the added bonus of providing a counter force to the whole wheel rotation.

I guess there are two other solutions: Have a heavy ring running inside the wheel arch as a flywheel. So if you decelerate, you just accelerate the flywheel's mass the other way around, bleeding off the energy. This would allow you even to reuse the energy, when you want to accelerate again. And you can also accelerate fast and spin the flywheel in the other direction to avoid tilting. This energy could either be recovered while driving or you can just use it up when you want to brake. The other solution would be to have a flywheel in the center but the axle turned 90° horizontally - so it will face sideways. You would need to spin up this flywheel to a very high speed, but given that it is heavy enough it will stabilise the tilting action pretty well. You could even use it to stabilise the tilting right / left by speeding it up/slowing it down. So you can steer and stabilise it. The only weird thing would be, that if the center portion do lean forwards or backwards it will stay there. So maybe you could combine both solutions

Maybe try a design with the gyros in the center of the circle. That way even if you go forward the gyros won't move from the center of mass of the geometrics of the balanced wheel. Within this desing the balance of the gyros are high up the center, in that case when you move forward or backwards you will always create an inclination where after a certain angle the gyros wouldn't compensate and then the precession of the angular momentum is going to overcome the balancing action. Or maybe try to add another degree of freedom for the gyros, where they can balance in perpendicular to the movement of the wheel. That's a nice project, incredible video.

Wow, those some nice prints.

James Bruton DUDE!!!!!! Do you know about Electric UniCycles (EUC)? You need to. Currently the EUC market is flooded with monowheels that only have 180 degrees of self balancing: the wheel self balances from front to back (like a Segway). What’s missing is side to side. Current riders have to control and maintain side to side balance. But if the EUC world had a full 360 degree Gyro Wheel, that would be a huge game changer. Reach out to companies like Inmotion or Begode with your ideas and knowledge. We need this in the Electric UniCycle community…NOW. Great work. Keep it up!

@jamesbruton

Жыл бұрын

It's this: kzread.info/dash/bejne/noeT29uyYMrThbQ.html

Look up counter steering on motorcycles. Simply put, the term 'countersteering' refers to the principle (governed by the laws of physics!) that to turn a moving motorcycle in a given direction, the rider must turn the handlebar in the opposite direction of the turn. Sounds exactly like the phenomenon you're experiencing turning your mono wheel.

will be nice to see it built with the gyro having an additional axis. They run the whole thing at some speed, as you did in the carpark with the previous version. Should be quite impressive.

Great Build!!! (as always) only one small note, you know this effect if you have ever ridden a motorcycle or bicycle, I believe it is the same reason here as well that you need to lean the other way than the direction you are turning, which is also called counter steering, even though it has 1 wheel, as you implemented the gyroscopic wheels spin by the brushless motors, the overall system behaves like a bike or motorcycle instead of a monowheel. It seems to be a little janky right now but it seems to be fixable as well, I am really hyped about this, could you make one with a more common (easier to find and cheaper) parts version of this, the scale can change but again with gyro wheels? That would be great!

Hey James i have fell of you're videos fore a couple of years. you remember you're first big project. BB-8 v1. This is wat wanted to do when you struggled with balance. 😁. Lowe you're awesome engineering i want to learn to do stuf like you.

I recommend to check out electric unicycles. They are monowheels of a sort too, but the rider stands on them instead. Very useful and fun, bigger ones have enough range to go over 100km on a charge with speeds in excess of 60km/h

@Blox117

2 жыл бұрын

its a uni not a monowheel

@MikaelLevoniemi

2 жыл бұрын

@@Blox117 "of a sort" like i said. Though electric unicycles are also often referred as monowheels and they are actually useful for everyday life. I use mine to commute daily. I get to work much faster than with a car or a train.

@Blox117

2 жыл бұрын

@@MikaelLevoniemi monowheels specifically refer to a single track wheel comprising the entirety of the vehicle with the components in the middle. a uni rides on a wheel like any other vehicle. a monowheel has no axle or hub like a regular wheel does

@MikaelLevoniemi

2 жыл бұрын

@@Blox117 Yes? And that's exactly how electric unicycles are built. Many of the components are inside the wheel, except the batteries are on the sides. Many models don't even have an axel because the motor handles all that. There are no mechanical brakes etc. There's a good reason why electric unicycles are often called monowheels. The difference is in size and rider location. Example of an EUC in use in Paris kzread.info/dash/bejne/qYh_0dmaZ9fXo84.html I use mine to commute and it's much faster than a car or walk+train.

I'm really curious how much a yaw reaction wheel would improve performance, especially at higher speeds. Then you could more directly twist the wheel like a unicyclist does. I think as the ground speed increases, you could use the reaction wheel to do more and more of the stabilization, especially if you're not too worried about which direction it ends up going. You might even be able to use it to offset some of the off-axis gyroscopic forces when they're tilted.

I absolutely love it

I've always wanted to build an RC monowheel but with just a linear actuator moving a mass side to side to steer and keep balance. If this mass was positioned at the wheel's axis of rotation, I believe it would not cause any unwanted precession. As the whole wheel is effectively a gyro, one should be able to get it stable when running.

👌🏻always ready for the next one😜

Wow, this is a really tricky control problem. These videos are making me ache for an elegant solution that keeps the wheel stable and allows for controlled turns

someone that actually deserves a subscribe

Put the axle of the gyros in the centre of the wheel. That way they won't be moved forward or backward when the internals are leaned forward or backward to move. Use static weights, like those unconnected batteries, to get it to move when leaning forward or backward.

You're explanation for going round the corner is in fact an old problem that every human solved by feeling. You do it differently than you would expect! If you want to go to the right you will steer left at first! By doing so, you "fall" in the right direction and catching yourself from falling over. You're code should implement this and everything will work fine. There is an old experiment where they try to run a motorcycle by a robot, what ever they could think of it could only run in a straight line. Finally they measured a human driving the same motorcycle and found the slight movement in the wrong direction. It is also known as counter steering.

I would love to see a collaboration with you and the Stuff Made Here channel. Just think of the automated mayhem that would be unleashed!

For the record, I know there are many liability concerns with a project like this. My newest wheelchair is from a small startup company. They were able to get around the regulations by simply marketing the device as a personal EV. If the item is not marketed towards the disabled, it is completely unregulated. This is how most of the smaller companies get their product to market

That was AWSOME

You can probably set those ESC in helicopter mode. That makes them first of all run at a constant RPM and it usually comes with ramp up curves

A small little teny tiny suggestion James. 11:18 please please start adding panic button to your creations. You know the one button you push and it disables everything.

It's not a failure, it's a successful demonstration of a way that doesn't work!

So.... BIGGER MONOWHEEL! To compensate for the gyro, an inner wheel controlling the balance gyro and keep it perpindicular while the outer does the driving ( with all batteries moved to the bottom for mass )!

words cannot describe how much i have learned in 15 minutes. and how ill abuse my new knowledge to make others heads hurt.

Wow that's awesome bro 🙂👍

instead of changing the pressure angle on the spur gear, try increasing the backlash that way you have a wider area of contact to reduce wear on the gear while still having some extra space for flex in the gear

Great video! Maybe try a wider wheel. Happy printing!

Once more a great example for people who disregard additive manufacturing for serious prototyping. It would have been a massive effort to create this prototype with classical manufacturing methods and tools.

I notice when it falls over, you struggle to quickly pick it up before too much damage can occur to the floor and gyro wheel. Perhaps having a static cover plate over them that is attached at the top and bottom pivot brackets might help prevent that, as well as prevent it from dancing around as the gyro wheel contacts the ground.

Hi James. I noticed the wheel surface is quite flat. When you are driving a motorcycle and your tires wear out they also get a flat surface. Getting to turn the motorcycle then I way more.difficult. you especially notice it when you put a brand new tire.on. it's almost like it's effortless. I'm not sure trying to balance the wheel when it's not moving is the right way of thinking. It's about your active balancing mechanisms to balance it. And when there is a big flat it makes the response not lineair

It's always great to see naomi wu in one of your videos :)

My brain hurts! Love this !!

As James mentioned, part of the problem is that the gyroscopes are leaning forward. I'd bet it would be less of a problem if it leaned backward. This is how bicycles' front wheels stay straight when you take your hands off the handle bars. :-)

Thank u for this dx

U are the best ! love it !

Would some dome shaped see through shields on the sides help to pick it up andd guard from worts impacts?

ingenious engineer

Very good 👍

Hi, If not already mentioned have you tried a rounded profile tire instead of semi flat profile? this may help with steering when leaning over if you know what I'm getting at?

Veritasium made a video about riding a bike. That issue where the mono wheel moves left when you steer right reminds me of that video because that's how you steer a bike.

Wonder if you could make gyros weight balanced so they always stay upright even when it tilts forward. I'm sure it would take a lot of weight but could probably remove added top weight after that. Great video, look forward to more.

you need two more gyros on the top and bottom within the wheel itself to counteract movement in the sideways direction that it falls over in. if you have 4 gyros you will be able to drive it.

You can add another MPU, or use the existing one to detect any large sudden change (when falling aside) in the roll and shut down all the motors to prevent further damage to the robot (or you :)))

It seems firmware should take control of gyroscopes' axes, so that no matter if on a flat surface or steep bump or hill it could always recover up to the angle of rotation of the gyroscopes, which looks like the limiting factor there.

Huge fan of the project James! If I'm understanding correctly, couldn't you use trigonometry to figure out what portion of the roll power would be applied at the current angle (along the pitch axis)?

For your gyro steering to steer it in your desired direction you first need to initiate a turn in the wrong direction, this will cause it to lean in your desired direction, and then turn into the lean in order to stabilize it, turn even more into the lean to pull out of the turn. It is comparable, although not totally similar, to how you need to initiate a turn for a bike with 2 wheels where only the front wheel turns.

@Blox117

2 жыл бұрын

1. this information is incorrect 2. the speed at which this comes into play is much higher than achieved here

@OmegaWoodworm

2 жыл бұрын

@@Blox117 1. No it isn't, while easier to observe in a two wheeled system it is the offset of the balance point relative to the steer point that causes the effect. Moving the steer point in front of the balance point should negate the effect somewhat. 2. The speed at which this comes into affect varies in relation to the size of the system. It becomes relevant when moving at fairly slow speeds, and stays relevant even at very high speeds. it starts to become relevant around 0.001 kmh at the size of a marble, and around 0.1 kmh at the size of a bicycle.

@Blox117

2 жыл бұрын

@@OmegaWoodworm 1. yes it is, you are just ignorant

@Blox117

2 жыл бұрын

@@OmegaWoodworm im guessing you've never stepped foot out of a 4 wheeled steel box, have you? enjoy knowing that i am able to magically turn without doing any of what you stated lmao.

@OmegaWoodworm

2 жыл бұрын

@@Blox117 I see you have missed some context. The effect I am referring to affects 1 wheeled and 2 wheeled systems, not 4 wheeled ones. Since cars have more than 2 wheels they are not subject to this effect.

Awesome project! Why did you use the Nano to monitor the IMU rather than just using the Mega for both the servo and the IMU?

Reaction Wheel would do the work!

In an attempt to make a 1 wheeled machine, we've ended up with a 3 wheeled machine

I love the "sketchy" bits.

i understood everything up to "a few weeks ago i built a monowheel"

I was just waiting for a finger to get torn off and go flying across the room when you were trying to catch that thing. Cool robot though.

I think the biggest fallacy in peoples' design of Monocycles is they remain centered on the drivetrain. Star Wars had an interesting approach to it with General Grievous' legged bike. Where you basically take the engine from the bike and shove it in the sidecar, so you're sitting on one side of the wheel, but can still see _under_ the inside of the rim and out the other side. It's also safer, since you can add a counterweight system so if it loses balance, you can knock it on the side that DOESN'T have the driver. And even if it falls on the side of the driver, rollbar edges and the clearance in between the drive ring and the outer rung ensure their helmet isn't hitting too much metal and pinning the driver down. Perhaps if it's possible to do just that; take the seat of the bike and shift it to the side, so you can make the engine and gyroscopic system as it needs to be. Just keep enough out of the center so you can see over the engine and under the wheel, and wear a helmet.

@Skorpeonismyrealname

5 ай бұрын

As if Mr Bean bolted the sofa to the side of his car, instead of tying it to the roof. /watch?v=LVSLLWXdKV0

Makes cool sounds when it falls over! Sounds like a Horizon Zero Dawn robot.

Cool! What does the "KV" stand for other than "kilovolts"?

Does the hub have to climb up a bit to move the tire? Would the alternatives be a stuck tire or one spinning frictionlessly in place? Does this 🤖 need an inner-inner hub to correct the gyros while the drive gets things moving?