A Volumetric Display using an Acoustically Trapped Particle
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- Опубліковано 13 бер 2021
- This video describes a volumetric display I designed and built that uses a phased arrray of ultrasonic transducers to levitate a 1mm foam ball and move it at speeds greater than 1m/s. The POV effect makes it seem as if you're drawing in mid-air!
This was such a fun project - I still giggle (maniacally) when watching this thing go. There's something truly magical about watching something levitate in mid-air and then start zipping around so fast, you can't see it.
You can find all the design files here: github.com/danfoisy/vdatp
References:
PhysicsGirl acoustic levitator:
• I built an acoustic LE...
Acoustic levitator Instructable:
www.instructables.com/Acousti...
University of Sussex video:
• A volumetric display f...
University of Sussex paper:
sro.sussex.ac.uk/id/eprint/86930/ - Наука та технологія
Wow. I like how the brevity of your statements completely hides the massive amount of work and inevitable frustration that must have gone on... transducer polarity, code, FPGA... each of these parts represents a lot of work. Well done.
Thanks - there is definitely more to say on this board and I'm feeling I need to write it down. If I find a few hours, I'll try to do so...
@@abitembedded Yes please. There are viewers of this channel that actually are interested in the fine details of FPGA programming.
I felt quite the opposite. I could see every detail of his hard work to the point where I got tired just listening about it :p but the result is worth it!
@@JayPixx i started questioning my entire existence. How is a mortal person able to achieve stuff like this !?
Not just programming the FPGA or the pi stuff, but creating/designing the whole board, too! Wicked engineering
"So that's pretty much it"
So that's pretty damn incredible.
Jeff who? :D
@@pratwurschtgulasch6662 Jeff • 10 months ago
@@pavlepetrovic989 Jeff Besos?
@@pratwurschtgulasch6662 Jeff bingo?
@@gremlin1331 look on youtube for jeff who, it's pretty funny
I always wondered how sci-fi holograms could ever be realistic, but something like this with multiple small particles... close enough. Nice!
We can try this i think since light is both a particle and a wave soo it might possible to move light particles using sound
@@joshuapeligrinoWell, sound is just pressure waves, so you technically can change the speed and direction of light using sound to rapidly increase or decrease the pressure in an area.
Not sure you would be able to meaningfully effect light this way, but it's an interesting thought.
Would probably also explode when doing this, cause the difference between a sound wave and a shock wave is just the amount of energy involved...
I've seen demonstrations that look like an actual physical object. The way it works is that a mirror is placed a a 45 degree angle, and it's rotated very quickly. Above (or below) it is a fast screen that changes the images rapidly, so you'll get a different image depending on the angle you are looking at it from. That was over 10 years ago. There's really no commercial application for these displays. They are novel, but that's it.
There's a WAY easier method if you only need to create a hologram in the sense of a volumetric display (which is how it's shown in Sci-Fi). You can just shoot two infrared laser beams into luminescent smoke, and where they intersect, they create a dot of visible light (since only their combined energy suffices to cause luminescence). This way, you can easily build a whole hologram. It's a well known technique for at least 20 years now. The only reason why we don't use it more often is because there are very few applications where it actually makes sense. What's so impressive about the project in this video is that it's using an actual physical object.
@@joshuapeligrino Even if this is possible, if we trapped the light in the sound waves, it wouldn't be able to enter our eyes and we wouldn't be able to see it!
As an electrical engineering graduates, this gives me goosebumps. Well played sir. This is an artwork.
As a computer engineering student, the second I saw those Modelsim waveforms was the second I realized what level this project is truly on. This is absolutely insane and next level.
exactly. _100%_ true man
Same
Another computer engineering student here and I can only agree. The amount of knowledge to make this video is insane. Congrats!
my lab is like this: i get 1/4 of that 6:50 waveform, but with no suggestive names and i should figure out in 2 hours what it all does(i need to learn how a MIPS32 processor works). I kinda managed to figure out what memory and registers do and edit them a little to see if my understanding was correct, but then i had a lab about a fraction of a pipeline, i couldn't understand a thing.
i am looking forward for the times when I need to do the code myself and simulate the waveform to my willing to fix my projects.
I’m not familiar with that, what is it?
The way you just easily say: yeah, hook two FPGAs together, just program their memory, attatch an EEPROM hook it together over SPI with a Raspberry Pi to control the 100 I/O lines for my 100 sonic transducers shows how much you actually know that you fly over those topics. Incredible! Loved it, thank you very much. :D
It's said like the UA-cam video isn't the final product goal, and the project is what he's actually interested in.
@@asailijhijr that, as well as like he's trying to fit the description of what he did into 10 minutes so that people will actually want to watch it
totally dude. entirely right!
@@rarebeeph1783yeah otherwise it's too niche and people won't watch it
I'm 2 years too late, but this is absolutely incredible work man. Huge props to you for making all the design files available online!!! :) Are you aware of anyone else making one of these? Did you ever consider selling kits at cost to science museums around the world. This is totally amazing work you've done putting in all this leg work :)
Thanks for the kind comments! I know of one other group that is currently building one of these based on my design. I've considered making a kit but the amount of work to do so is daunting and I have so many other projects to work on (most of which don't hit UA-cam :) )
@@abitembedded I understand, I would love to see more videos from you about the projects you do now, you have an amazing amount of skill, I can't imagine how much one would learn from just looking over your shoulder as you built this stuff, the FPGA design alone let alone all the hardware, and the GPU simulation. Your a one man show :)
Seconded! Awesome work.
@@abitembeddedlook, seriously, One of The projects must be Doctor Who's Sonic Screw driver. Pleeeeeaaaasssseeeee
Make a kit
I understood 0% of this, but what ever your doing don't stop, the world needs more people like you. if you could throw this together, I doubt there's not much you can't do. let the mad scientist take over.
Same
Really well done project! Thanks for showing it to us in this video.
Thanks Ben - big fan of your channel!
Hay Ben, waiting for your next video.
@@abitembedded I think you just need to adjust the frequency - Test the effects on a larger dot.
Also, look for a means to hold the actual device, consider sound canceling.
Funnel a single point, try salt, molten, I wanted to see your process to make a line used to make a cube.
@@abitembedded Have you tried with water droplets ?
@@abitembedded Truly excellent Dan. Much appreciate you sharing.
This is pretty incredible.
An actual 3D image made with sound and one little ball.
In colour.
Quite amazing.
I wonder how complex you can go once you figure out multiple balls.
I dont know if thats quite possible in this format, or at least on this scale🤔 I am not sure, I am not well educated or informed in this topic
@@skateraptor12 then why comment?
@@nathanielyoungman4454 haha he said balls
@@nathanielyoungman4454 because they're giving their opinion. you don't need to be an expert to share your thoughts
@@nathanielyoungman4454 Ofc, my mistake, if only the respectful and educated were able to comment the world would be a much better place
my man this is equivalent to like a whole research paper worthy of a PhD
thanks!
Insanely well done. I wonder if you could animate something like 3D pong, as if the ball is a mime between invisible paddles. The ability to get a couple extra spheres in there to simulate paddles would really complete the illusion. But so impressive as is!
That would be a cool living room peice
and then in the future we could play ygo like in the anime
that might be the dumbest thing i have ever heard.
It could use 2 of those spinning display things or something else on 2 sides and show the paddles then the particle is the ball lol
Would be amazing but I worry about what would happen as the ball approached the paddle. Would they start to interfere? I guess just give the objects a huge hotbox.
A really cool thing to "draw" with this would be a Lorenz Butterfly. Instead of animation frames, simply make the ball follow the trajectory as quickly as possible. I know this is a year old, but it would be cool to see if you can make it work.
Yes! This!
Watch him solve the three body problem with some weird hermeneutic sacred geometry frequency thing
@@fitz3540hermetic?
In my experience, when someone says "the FPGA code is simple" it is anything BUT simple. Fantastic!
"just some integer math"
This is one of the very top most impressive maker projects I've seen on UA-cam from an apparent complexity standpoint. This is from someone who has spent a huge amount of their free time finding the best ones instead of my own projects. :) I bet the video of the butterfly animation doesn't do justice to seeing it in person with real eyes.
Thanks! 👍
The simulation is like the most important part of this whole project. I can't do that. Without it he could have spent months or years trying to figure it out maybe, just because of the time involved making and changing it physically vs just simulating it and knowing it will work.
I'm also cheap - I wanted to make sure I understood that I can build this without spending a dime... :)
This is incredible. The digital design alone is an impressive feat, but interfacing to the array and your pipelining of the math is really stunning work. The end result is incredible!
agreed! totally, totally true man
This is just stunning and an insane amount of work across a variety of subdisciplines: fpga, firmware, electronics, layout, fabrication, the list goes on. How long did this take you?
Thank you! It was about four months, working about an hour every night, somewhat more on the weekends
@@abitembedded Incredible! What is your background?
@@abitembedded I really need to know your background and education. You're doing things I dream of doing but are so interdisciplinary I don't know how to approach. Please answer.
@@thek3743 I'm a computer engineer
@@abitembedded hey keep doing love your stuff
"I can't do it realiably and don't have the patience to further tune the system"
Everyone reaches that point someday. I love the honesty and laugh at thr thought of reading that in a paper.
I just had to come back to this video because it’s been living rent free in my head for months. Still probably the coolest and most impressive project I’ve seen on the site. I really think this technology can and will be used. It really is inspiring. Well done
thank you so much for your kind comments!
volumetric displays really do seem like the future. and the use of sound for it is amazing, imagine this on a huge scale, that comment at the end where you talked about how it can stimulate your touch nerve endings, imagine the VR capabilities, you could actually put a car right in front of somebody half the world away, and they could touch it. Could also be used for disabilities, imagine a blind person that doesn't need a walking stick because their entire surroundings is projected onto their hand, or a deaf person that has a persons speech turned into a touch map. taking a research paper and doing it yourself is incredible
I imagine the biggest constraint to this method would be collision. The position of the number of balls would have to be shifted such that they never overlap the same X, Y, Z. This wouldn't work for more elaborate 3D models because there is only 1 dimension of 2 forces (gravity vs pressure on the Y axis).
For a touch map you'd want to add a skin attenuating beat frequency to the signal.
Edit: Nevermind, he mentions that the paper covers that.
look up ultrahaptics, looks like they make what you are describing
@@Mildain2000 Just the refresh rate alone would be an issue even if it was possible. You're constrained by the physical speed. This is why volumetric displays will always just be things like LED's layered together. But volumetric displays are honestly not that cool for viewing anything but basic shapes, because they obviously have a limited depth, and images of things will have near and far depth of fields, and focused or blurry details. So you'd really only get a narrow range of depth and then it'd just be a cut off to become a flat wallpaper of the rest of the things in the background. This would pretty much break immersion.
About all a volumetric display would be good for is things like the medical field where you want to view sections with physical topology, but you can already get that in VR or AR. For home use, it would only ever be good for giving UI elements a pop out effect. Another issue with volumetric displays is working in the 3D space itself. A simple mouse and cursor won't do. Even a touch screen wouldn't do, because eventually you'd have elements overlapping, so you'd still be limited to a 2D field of selection. Needless to say, we're not getting volumetric displays any time soon, and we'd be pretty disappointed in the practicality of it anyways. The only ones that make sense are holographic displays.
What do I think? You have that rare combination of genius and an amazing work ethic! Modern technology takes a place as well of course. Mail-order PCB houses are another part of that phenomenon. Amazing! It would be great if you could juggle a couple more balls, and therefore allow more lines to be drawn, right? Would the maths be significantly more complicated? Could the hardware do it? Could you perhaps work an entire sheet of particles as a 2D plane that moves up and down? A little bit like those 3D displays that use a projector, and a screen that moves back and forth very quickly?
Perhaps a video projector could replace your LEDs to colour a lot of particles at once?
You could perhaps sell these to science museums, at a significant markup, if you wanted to be paid for your time. It's an example of something spreading from a lab paper into the hands of the public in one step, over the Internet. Back when we were idealistic about the Internet's use for democracy it would have been something geeks would have been proud of.
Thank you! Interestingly, the math to move more balls doesn't seem to be more complicated than adding together the "waveforms" for moving individual balls - certainly on my list of things to do...
@@abitembedded and ? Can it be done ? Video when ?
@@AndroidFerret It's all about time :) Given all the recent interest, I think I have to prioritize coming back to this project. But I do have another project on the go right now...
@@abitembedded I'm glad the algorithm shoved you into my recommendations! Subscribed to see more awesome, well documented projects!
This is mind-blowing, a true pursuit of scientific curiosity. The amount of effort that went behind making this video is highly understated.
It’s amazing how this video has taken things I have learned from three different subjects this year, combined them, and made me think with them in a way I never had before. Now I’ll be able to hold physics, digital electronics, calculus, and computer science in a whole different way now that I’ve seen the connections between all of them drawn together in one video. Thank you.
Absolutely Incredible! This could be someone's masters thesis and from what i can tell you just did it for fun😄
indeed. precisely right dude
Except this is Ph.D level...
This is what I was thinking. I was like, alright physics, I can keep up with this, simulations, alright yeah I kinda understand, fpga, I know what that is, 6:46, jesus christ what does this guy do knowing this much about so many different disciplines, what the hell is this
This is just purely Magical. Yes, I understand 80% of everything that's happening, but it's amazing to see a single person finishing everything from acoustics to physics sim to coding to hardware programming etc.. It's just awesome!
This is so FAR over my head I feel Acoustially TRAPPED ...lol awesome stuff.
I am absolutely blown away by this. Thank you for making the files available, that is so cool.
This is like physical vector graphics; insane work, thank you for sharing!!
Smoke/ aerosol particles might be interesting to observe in this. might need extra some phase cancellation in negative space to clear out the image tho
This is one of the coolest things I’ve seen on UA-cam in a long time. Super cool experiment, very inspiring
wow, I would've never imagined this being possible with such accuracy as well. Awesome work!
This is incredibly awesome. Please continue sharing your projects with the internet!
I've just stumbled upon this video and find it extremely fascinating. This is the first step into modern-day holograms for anyone unaware. The potential behind this technology is amazing, and I am very excited as an Industrial Designer to see the evolution of this tech.
Great video and I would love to see an update on the multiple balls theory.
Holy Cow Daniel, this is about the coolest device I've seen. Nice work!
This blew my mind like 3 times. Good work very professional
Absolutely beautifully done and explained! Hoping to see more projects from you. Thank you for sharing your research.
This is incredible, a lot of it goes above my head but it's clear how honed your applied knowledge is here when you talk about the technology involved with this project. I cant imagine this was a weekend project, and I appreciate that you shared this experiment with us, very very cool!
This is incredible, the amount of time and skill it takes to program an FPGA let alone just do it for a project is amazing! Great Job! I know I could NEVER do that lol
this is amazingly impressive, fantastic work you’ve done here!!
Thank you! Cheers!
This is awesome! Truly on another level!
I want to also praise the editing, which I think is absolutely on point for someone with only 3 videos in their channel and the type of content displayed. Great job!
I love it and really appreciate the effort put in this project. Awesome work!
Brilliant work.. It's going to be amazing the progress that will be made once the configuration & frequencies can be tweak on higher levels & heavier objects. Its like we are reinventing something that was lost to us a long time ago & we are finally getting to grips to be able to use it again. thanks again for all your work.
I can’t tell you how grateful and happy I am that you released the design files online. You are a gift
Wow, that's a really impressive bit of work, well done!
This is the first tech i have ever seen that cold evolve into a star trek style holodeck. Sound waves we can't hear manipulating the positions of possibly trillions of tiny particles to create the illusion of larger objects. AMAZING!
That's freakin incredible... I just can't say much more - you're so cool for being able to do such stuff!
Really sophisticated stuff. Chapeau!
This is one of the coolest things I've seen recently, I wish I had the time and knowledge to build something this complex.
What an amazing project and you are so humble... you've done basically what a university did by yourself. Good job
Sounds so easy when seeing it, but there are tons of experience, knowledge and hard work in there.
You are well skilled. That´s a great job!
I think it's ultimately cool what you've done here and hope there's an applied use in the future! ❤
This is pretty darn cool. I can't find the right acoustics to describe how impressed I am.
I'm completely floored, that is amazing 👏 👏 👏
I'm amazed at the accuracy of the movement, impressive work!
Dan, this was the coolest, please make more :)
That is amazing, I couldn't imagine the time and effort that you put into this project, nicely done
Well according to him only about an hour every day for 4 months and more on weekends. So like 160 hours give or take?
The technical stuff went in one ear and out the other but ooo ball go floaty real fast! If you could physically feel those focal points that would be so cool and weird. I wonder if someday that would be used in VR to make a digital world you could physically interact with
Seeing these amazing projects by really smart people like you is what makes me realize I'm still far away from what I could be doing, even now after graduating as a comp sci major and working as a software engineer. You also make me push myself even further, to try and close the gap if ever so slightly. Thank you for sharing, I loved this project. After you mentioned polarity markers were inaccurate, I could only imagine how debugging went.
This is nuts dude. Really amazing work.
OMG, I was thinking about holograms a few days ago and how they would be impossible, and then I see this....incredible....I am so blown away I cannot describe it.....and this is essentially a 'hard' hologram isnt it? you can touch it...maybe you could use different materials to create different levels of 'hardness' like star trek
It's not a "hard" hologram like what you're thinking. If you were to try to touch it you would stop the small ball from moving and the image would be completely lost. You would also probably loose the ball from just putting your hand near it and disturbing the sound waves.
@@GeassChicken "color television is just a silly dream" - geasschicken 1941
Complete strawman depiction of what he's just said, VK. Poor show.
@@Opossum412 I think he's just sarcasticly saying the equivalent of "you're a party pooper". But who knows, maybe he's serious.
9:42 he says that apparently if you use other frequencies you can stimulate your nerve handing and feel like you are touching even though you are just caressing thin air
Beautiful engineering, incredible dedication! Keep it up.
You had me at “if I do this…I can FEEL it w my fingertips” give this project to Ai and we’ll be petting VDAPT puppies by summer
This stretched my brain to follow along with. You are a brilliant engineer.
Incredible - congratulations!
This video is going into my "art collection" youtube list.
That is probably the nicest thing anyone has ever said to this engineer :)
@@abitembedded I didn't just mean it, I did it :) I'm an engineer too and you are deserving all the appreciation :) I also do appreciate your time to describe all your work in a video and inform people about such a thing. Thumbs up :)
This has been very cool to watch. Thank you. :)
This is absolutely amazing. You’ve seriously got some patience I’m envious of :)
This is absolutely insane, I love you calm casual tone while walking threw hardware and software design that would make most people's Brains melt.
Terrific work and thankyou for presenting such an awesome project, I wish you luck with any further refinements and iterations!
Man I don’t get any of this beyond a surface level but that was still incredibly interesting and entertaining. Thanks. Hope you make more videos
This is exceptional. I havnt spent much time investigating but this program looks very useful. Thanks for sharing.
This is super cool! Wow a lot of thought and work went into this.
This is absolutely amazing. At the end you said you could feel it at targeted locations within the array. I can imagine hundreds of applications right now. Hopefully this is something that can be commercialized and improved upon to provide resolutions imperceptible to human touch much like we have done with screens today.
Whoa neat! I’ve seen the ultrasonic units before, but this is the first one I’ve seen used as a display like that.
I love your “yeah just another Tuesday” way of taking about this. Amazing stuff, thanks for sharing
I don't understand a word of what you said but your inteligence amazes me, incredible!
This type of display weirdly reminds me of that water/hologram type display in the Myst opening area. It’s so cool to see “sci-fi” technology like that coming closer and closer to reality
Are you telling me you can make it so that you feel that butterfly with your fingertips when it ISN'T EVEN THERE?!?! This is some cool stuff man!!! Please, keep doing this stuff!!
yup :)
The fact that this man gives us the time stamp of the time the video starts is a blessing
wow that's impressive! And a crazy amount of work
I’d add a “power off” function so the ball doesn’t go flying, but instead lowers to the center. Other than that, pretty cool!
The look of this reminds me of a 3d vector display. I'd love to see where this tech could go in the near future!
Any science, when significantly advanced, is indistinguishable from magic.
Wow I'm speechless, the video cant convey the sheer amount of hard work you must have put to get it to work. Hats off sir, amazing project.
This is seriously impressive! I've been thinking about using something similar to make a 3d scanner using echolocation. It would work by driving the array as a directional speaker to scan an area with an array of microphones to receive the sound. I'm not sure I'll be able to write a robust algorithm to extract 3d information, so maybe I'll use a neural network
Best of luck - I'd love to hear how that goes
All the bats in this guys neighborhood: “WHAT THE FUCK IS MAKING ALL THAT RACKET!?!”
Dude. Amazing. Love that you made this, love that you shared this :)
This is wicked. True nerdiness at its finest. Well done sir!
This project is amazing! Glad to see a more in-depth video about this as not many go into detail about how it works and the key components. What frame rate and shutter speed do you use to capture the circle and butterfly shape on camera so the whole animation can be seen as one continuous line?
Thanks - the frame rate on the camera was 29.97 FPS. The frame rate of both the circle and butterfly was 10FPS - it really does look like this (maybe a bit better) in real life :) No camera tricks involved - I could do a longer exposure and get a more complex shape on film but to the naked eye, it certainly wouldn't look as good...
This is one of the coolest things i've seen in years. Patent this or parts of it if you can! Hasbro is gonna steal this and make a toy, but this is so much more. This could be huge.
Amazing idea and execution. I'd love to see this on a larger scale, like how drones are used to make things in the air, this would be another level!
There's already a paper describing it, so there's prior art. Either the team of scientists already filed the patent, or it's not patentable anymore.
I think what usually happens is the university owns the patent on this. Maybe 25 years down the line we will get them released, like 3D printing was. Think patents last 20 years. 5 is for improvements that enable it to be commercially viable.
Sir u r a genius, you make tough work look so easy, but anyone who worked on electronics or FPGAs would recognize your amazing abilities, really well done, this project is A+++.
Wow! I'm not sure why I'm seeing this on my YT feed after 2 years, but this is still amazing work! Kudos! :)
Such an inspiring video and super well explained! Really curious about how long it took you to accomplish this project from start to finish?
It took about 4 months
That’s still beyond my understanding, but congratulations! That’s completely fantastic!
no bad apple. 0/10.
in all seriousness, this is absolutely amazing. just the fact that acoustically trapping particles is possible is crazy enough on its own let alone being able to move them around fast enough to get some - admittedly kinda janky - animations!? huge kudos to you, i cant imagine the amount of work hidden behind the veil of this simply-explained 10 minute youtube video.
A good explanation can make what at first seems like magic, as easy to make as following a series of instructions, and this is a damn good explanation. Cheers!
Thanks!
Fantastic work, both on the project and the video! Seeing projects like this is one of the best things about the internet.
Can the FPGA handle 64 transducers? I have no idea how much this complicated the rest of the electronics, but it would be neat to have 8x8 modular arrays to create larger arrays from array blocks.
Really nice project. My guess is, that if you keep multiple styrofoam balls far away enough from each other horizontally, as not to influence each other, you could just use the superposition principle. It would also be interesting, if one could make an acoustically transparent ball, like a very thin balloon. In principle one could segment the display space into cuboids and use one ball per cuboid for complex animations...
You sir are a freaking genius!! This is mindblowing!!!!
Congratulations, it's an amazing project