Building a DIY Drone Sailboat

Always enjoy your videos. Good job with the ads too. Get that money!

Please bring back the autonomous soaring, it would be a blast to see it fully taken advantage of!

The lack of comments about it almost makes it look like betterhelp is a blocked phrase

Pouring lead into resin was surprising, I would never thought that would work!

As a sailing coach, RC model yacht enthusiast, ardupilot hobbyist, and autonomous yacht designer, I would like to commend you on your great and accurate explanation of sailing physics.
Your boat likely won't tack because the wingsail is back winding (creating reverse thrust) during tacking. Your best bet is to reduce friction in the rotating mechanism, design the rotation point the right distance ahead of the center of effort, and set your wingsail trim tab to 0 degrees during a tack.

rctestflight casually arriving at a design for an unmanned marine kamikaze drone

I don't know about everyone else, but I always appreciate longer videos.

Regarding the wind helm setup: it's also a performance thing. In many boats there are adjustments that can change where the center of pressure is. Tuning for wind helm requires that the rudder is constantly pivoted, and when that AoA is combined with the keel, they combine to form an effectively curved airfoil. When done correctly, it's possible to prevent the boat from sliding sideways due to the lift generated.
This may not be the case at RC scale, but it was something I worked a lot to tune in C420s, where it can be a huge advantage.

Excellent job! For a Newby sailor/designer you’ve covered a lot of bases using advanced solutions. Having the small recovery thruster was brilliant.

I don’t care if it’s a plane or not. As long as it’s rctestflight, it’s good!

Oooh autonomous sailing… that’s crazy!

I love how enthusiastic you were about the revamped boat and how unimpressed your friend sounded 😂

guys wake up another rctestflight video was posted.

Great improvement over your prototype! Next steps to help you tack:
Lose the elevator. Its drag is probably the main culprit, and you can use servo control now that you've got wind direction.
2 fair your foils! You put a lot of thought into your airfoil and hydrodynamics on other projects, then you come in and use a plank for a keel and rudder. Give that keel a nice cross section and you'll improve speed and leeway.

I’m from Seattle and I love how your videos always show off the natural beauty of the city and surrounding water!

I built an ardupilot autopilot setup for my 22 foot sailboat! Works awesome! Only took a 120kg servo!

I think, he needs to make a simple, normal Rc sailboat and go from there. The hull doesn't seem very efficient, and whilst it isn't meant to be a race boat, speed is the byproduct of an efficient, low drag hull. If I were you I'd make the wing out of printed ribs and a film skin like with RC planes, the CG still seems too high in my opinion, better, but still high.

65 years ago I build sailboats that had walnuts for the shell, 2 toothpicks for mast, and clear plastic for the sail, and it was held together with model cement. After a rain there mud poodles that I could float the boats. They were good with the wind!

So Cool.
The tack problem is with minimum tack speed, it's kinda a known thing in less-complicated sailboats. Basically you can sail at a sharp (into the wind) angle all you want with any speed that gives you, but to tack successfully you got to 'fall off' (with wind) and reduce the attack angle to pick up speed. Basically, a setting in the pilot to forbid tacking if speed less than minimum, and it should do it. (Also in situations when going into the wind and the sail is going on a very sharp angle to the water, there's the old friend GROUND EFFECT, at least with cloth sails, sends greetings ;) )

I'd recommend bismuth for the keel. It's non-toxic and still has a fairly low melting point. It's more expensive than lead, though.

Sailboat keels are sometimes filled with lead to weigh it down. Keels are meant to act as an underwater foil to counteract lateral motion, but also function as a counterweight. If the shape is correct the first function is satisfied, but you probably need more weight to counteract heeling and rolling.

Ever since the Banana Slug video, Daniel has never underestimate the power of keel 💪

This is super cool to see. I'm currently building an ASV for a university project and your videos are super helpful in guiding the process

Super cool to see a video of you going through all of the unique challenges that sailing presents! As a lifelong sailor and big fan of this channel it was awesome to see. Just as a note, you would probably do a lot better having an actual symmetrical NACA foil (i.e 0015) section for your keel and rudder. These would actually generate lift and allow the boat to point much higher (sail closer to the wind). Also, when your CP is aft of the CLR, that is called "weather helm" not "wind helm" but that is a very minor nitpick. When the CP is forward of the CLR that is referred to as "lee helm" and is undesireable as you stated. When the sails are trimmed so that the CP and CLR are perfectly aligned, the boat is said to be "balanced."

Woot woot, new video! Thanks for the consistent great content! Love your channel!

On my little catamaran the gib ( the little sail in front of the mast) makes it way easier to tack it pulls the front around . You can buy old catamarans for cheap like $200 you could do an automated overnight stay would be cool. Love your videos

Your problem with a wing sail is it is symmetrical, requiring high angles of attack to generate inefficient lift, which will prevent it from being able to sail upwind. The wing sails of high-performance sailboats, like the Americas cup boats, are articulating or variable geometry wings, so that the Airfoil can be adjusted depending on which side of the sail the wind is coming from.

Most well designed racing sailboats can point as high as 30⁰ into the wind. But this little boat is very cool!

I recommend changing your wind vane to be a ring with a little fin on it.
This way you can balance it to be in balance in any orientation, giving you accurate readings.

Id love to do this to my Tug boat!

I love this channel. I don’t mind the slower upload schedule, the videos are really well made and I understand it takes time to build your projects so there’s no way (imo) that you’d be able to do 3-4 uploads a week. You seem to have a “the good old days of UA-cam” vibe to your channel, when it was a bit more just enthusiasts making videos at home of things they like. Interested people are interesting, and you definitely make some really fun videos. I’ve used a lot of your projects as inspiration for my own builds. You have taught me a lot of new concepts.
Could you do a video on 3D modelling? You often design and print parts, but can we see that process in more depth? Like a “I seem to need a part 3D modelled and printed. This is step by step how I figure out what I need and how I make it” type of video (maybe a 2 or 3 part series? Pretty please). I know there’s a lot of 3D modelling/printing videos out there, but you could provide some good perspective of a rc / drone prototyper type person. What filaments work best for props? What ones for hulls? What are some limitations that us RC enthusiasts would run into? That type of thing.
Anyways, keep up the good work. I really like your channel and projects, I always get excited when I see you’ve uploaded something new

Now all we need are some foils....

Sorry for annoying you with the hydrophobic propeller in the contest lol, I figured you'd talk about surface area to put all the goons requesting it in place. Was happy to see you include it anyways!

as an old salty grouchy grumpy sailor this made me smile! in the next video: magnus effect sails. you know you want to.

The elevator seems rather inefficient, maybe experiment with controlling the mainsail angle using a servo directly? or potentially a winch and string, like a real boat, but that might be more difficult to set up.

Could you do an autonomous foil boat please ? That would be amazing ! Great work btw thank you so much for sharing :)

your approach, attitude, and optimism are inspiring. You are a treasure bro

I would be really interested to see how a canvas sail compares to the foam wing sail in terms of performance.

For someone who doesn't sail you're doing great.

Damn was hoping for the next propeller test video

A jib will help the boat talk a lot better

Amazing work with the CAD models, aesthetically pleasing

That wind helm will also help a bit with your tacking issue.

One of the most advances autonomous sea drones use a similar sailing approach. They are quite impressive and indestructible to any weather condition. The best way to move without using electric power (beyond electronics which it use PV for that).

Small suggestion. If you have a thin pole with a flag or some thin fabric on top you will be able to see the wind direction

Wonderful thanks for v sharing the models.

I think you need a slightly bigger hull and sail, a surfboard-size boat would be cool, GREAT work !

"Mostly watertight"
That needs to be the title of a fail compilation video.

you dont do people sized stuff often, but a try pedalled fixed wing hang glider with very large slow high surface area lift

Really funny to see you go through the exact same issues and solutions with the keel as we did when we built Rapidus V1, great improvements on the project though!

@7:45 another factor to consider is that the hull is an airfoil too. With no wind it is a symmetrical foil, however when it starts to lean over the foil in contact with the water becomes asymmetrical. In kayaking we call it edging and use it to turn a kayak without a rudder or paddle.

I love sailboats, please do more!

As someone with both sailing experience and an aerospace engineering degree, I feel you did a fantastic job explaining what you’ve done here and did most of the design changes that came to my mind from your alpha model. I have to say, fabric sails are so much more satisfying than rigid wing but I see why you would avoid them here.

I've been waiting for this!

Excellent progress. Great graphics and explanations in this video. A summer sailing series would be cool. Looking forward to seeing you dive in to Ardupilot details explaining how it's setup and sails.

With your ground effect and foil work, using a hard sail you're really on the edge of inadvertently creating a SailGP F50 craft and those can actually travel faster than the wind.
I heard everyone from here, and yes they do.

Great Video. Thanks!

An new rctestflight video = good day

You should make an ROV next

It's amazing what Ardupilot is capable. Love your videos, my fellow earthling.

I’d say the best change you could make is to lose the control flap on the sail and the free rotating mast and servo control it instead so you have more direct control of the sail angle
Also a dual element wing is infinitely more efficient and powerful
You would be able to program set angles to optimise for apparent wind and heel angle and rely less on the reaction feedback.
The fluttering back and forward is killing the drive of your sails

I always surprised at how many sailors watch this channel, there arent many of us!

How about more long term missions like your cars in your yard. Get a small pond and have your boats circle until they sink.

The foam sail is really holding you boat back there’s a reason parachutes are made of fabric and not flat wood

This could be the start for a contest on sail design for that boat.

Do a helicopter next!

Well done. You are becoming a sailor, learning the fine points. I hope you get out on the water and sail yourself.

Was expecting part 2 of the prop vids. But this was a pleasant surprise. Great vid.

If you can adjust the aggressiveness of your tack then that might be worth testing.
A lot of new sailors will naturally want to make a gradual turn into the tack. This is something they have to learn not to do. You want to turn sharply and confidently into your tack. The more time you spend with the wind hitting you in that 90 degree no go zone, 45 degrees to either side of directly into the wind, the more speed you lose. Eventually losing enough speed that steering stops working.
The fix for this is to make sharper/quicker turns so that you have momentum to finish the turn through the dead zone and you aren't trying to sail 'in irons'
Generally it's better to overshoot your tack compared to undershooting. As long as you aren't in irons you can correct your course once out of the tack maneuver.

My prediction: Daniel is working up to circum-navigating the earth with an ardupilot sailboat.

Good to see the progress with this iteration. You'll significantly improve upwind performance if you give the keel a (symmetrical) airfoil shape rather than being a faired plank. The rudder would benefit from this too, it then wouldn't need to be so big and would create less drag. The rudder will usually be at some angle to the centreline while sailing, and it needs to create lateral 'lift' to hold the course. Having a flat rudder means it will need more angle and create more drag, like trying to fly with a flat wing.

Another great video from rctestflight! Thanks for the infotainment and I'm looking forward to seeing more of those props being tested!

Cool results upwind with only the main sail, I bet that if you'd add a jib, you would gain efficiency and speed with not much surface area.. of a front sail...
I have a 6 meters sail boat and I m interested to build a wind van that I could connect to my pilot

This was super cool!

"waterproof electronics storage container" well shoot, I've been keeping leftovers in mine LOL

Very cool! If anyone is looking for rc sailboat details, look up the "International One Meter" or IOM class. Loads of videos, class specifications, rules etc. Tacking can be hard. Try for fast turns, but not so fast you stall the rudder as it sails through the water. Maybe experiment with max servo speed and endpoints? I'm not a pro, just adding my comment for the algorithm.

gybing was the ONLY way that square sail ships would turn. Study "polar plots" of sailboats to learn expect speeds at various AWAs. Some boats are faster NOT going directly downwind, but actually gybing back and forth downwind as well. Usually this would be associated with more high performance hulls than you have built.

12:00 Snagged a fry mate.

Remember, if you pay for the shipping from the East coast, you can have a free fiberglass RC sailboat hull! About 1 meter long with bulb keel and gloss finish on the outside. We discussed this before.

Good stuff. Experience with ARDPilot, 107 certification, and some drone flying experience gets you a 6 figure Drone job here in the Atlanta area. Thats more than I have made in many of my 135 flying gigs. Those drone employers are real estate and cinema companies.

The majority of your projects focus on efficiency or autonomous missions which is awesome and I love watching them, but there's always a part of me that really wants to see how fast you could make something. Like this sailboat, or the propellers you are testing, another boat, etc. Just for even one video it'd be fun to not care about efficiency and see what is the fastest you can build. Trying to optimize it for speed and nothing else.

Thanks for the interesting vid. Keel plate should be elliptical or get resistance thru cavitation.

I just had a vision. Treadmill/Snow mobile treads on the bottom of Boat. Imagine bottom of Boat one large rubber paddle.

It would be interesting to make the keel / hull angle of attack adjustable to facilitate tacking and windward ability

I have an idea for a product
"life boat"
basically youd have a gps guided boat and a wearable gps
your wearable would have 2 modes "stand by" and "recovery"
in standby it would just stay 100 - 200 ft away
in recovery mode it would drive to within 20ft away
the use case woukd be for scuba divers or other water activities that require leaving a boat
you go diving, get tugged by some underwater currents
well as soon as you have gps signal and hit recovery boaty comes chasing you down

If you are ever in need for some real good quality kit you should try EPDM pond liner kit. It is non toxic for aquatic life, and it is far much stronger as regular silicone kit, and it can cure on wet surfaces, and it is UV resistant, and it sticks to pretty much any type of material. Just don't get it on your hands because it can only wear of your hands again. It really is that much better as any type of silicone kit.
I made a pond from several plastic bins, and I connected all of them together with a large enough diameter PVC pipe so that the fish can swim around, and I used EPDM pond liner kit to seal all the connections, and that was about 20 years ago, and I never had a single leak. The kit is also useful to make electrical components waterproof, but once the canister is opened you cannot keep it forever, and it is a bit of a hassle to apply. Plastidip is also very useful for making ICB's waterproof and that comes in a similar can as paint, which you can store longer, and it is much easier to use. Just dip the ICB in the can, let it cure, and you are done. 👍

Can we talk about how Absolutely Mint that Taranis is?!

xD That enthusiasm from your friend

Can't wait to see you get it tuned how you like, add solar and sail that sucker to Japan.

Now slap some solar on that and tell it to go to Fiji! Great job and video!

Been meaning to try this for so long.

Forget the peanut gallery and keep doing what you enjoy, and respect for your choice of sponsor, keep up the gresr work!!!

Actually, the righting moment of the keel does not quite go as you suggest. There are many accurate scale yachts that use the scale keel dimensions and , so long as you use the same material for the keel weight as the original (lead or iron for example), the model does not fall over. The stabilising moment of the keel and the destabilising moment of the mast and rig (which should also match the material(s) of the full size) both scale as the linear dimensions to the 4th power so diminish in sync as you scale down. What does not, however, scale so straightforwardly is the wind strength the model can sail in. Moments due to wind pressure go as the windspeed squared times the linear dimensions cubed. Since these moments are counteracted by the keel moment it follows that the same heel angle is reached for a windspeed that is lower by the square root of the scaling factor. So a 1/4 scale model will only be able to sail in windspeeds up to about 1/2 those of the full size.

Stalling mid-tack might be something you can correct in software. It's not really something you can fix, since improving the boat's upwind performance will inevitably just lead to the same issue.
One technique sailors use sometimes (though not when racing) is pushing the boom out so the boat starts to move backwards, then put opposite steering on the tiller to bring it around.
Though a better option would be to turn downwind to build mementum prior to tacking.
Edit: I'm assuming you already have it turning as fast as it can.

I had a full size sailing race at that same place last summer.

I appreciate your design process.

-Weather Helm, not Wind Helm
-Shore Breeze, not Offshore Wind
-45 degrees AWA (Aparant Wind Angle) isn't that great, it's average at best,

I'm Long range fpv airplane guy , but i like this content a lot . I can still see fpv parts :D grate video.

Remember tungsten carbide is super heavy and probably free from a machine shop, maybe a bit nicer than lead

I can't be the only one who would love to see you design and build a RC boat like the one from waterworld with a front parachute sail ?