- il y a 22 heures
The Future of HEALTH
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TechnologieTranscription
00:00So let's change the topic, so let's move from sustainability and carbon management and energy bill management and let's now
00:11go into this new segment which is a segment on, if I just get the, because we have two startups
00:19here which are not entirely connected.
00:21So yeah, the future of health is the link between these next two startups. So the first startup here goes
00:29by the name of Holo and they are an application which is, can allow us to basically interact with things
00:36without touching a single service. Here to tell us more, the founder of Holo.
00:43Good morning everyone, good morning Viva, what a nice start here at day three. My name is Dennis and I
00:51will welcome you here to our short presentation, to our short pitch about health, yes, but magic in specific.
01:00So what I would like to invite all of you to become magicians today. So you can try it out
01:06by yourself at our booth just around the corner over there.
01:10So actually what we do is we're doing a hologram in the air, of course, as it's a hologram, which
01:19is pretty, maybe boring. You have seen plenty of holograms in your life, but you can touch our hologram inside
01:27midair.
01:28So basically it's like magic, your finger will act in the air, like the mouse pointer on your computer.
01:37Actually, we started this technology back in 2019 and then 2020 when COVID happened, actually we talked to our engineers
01:45to speed up now really fast because actually this is one of the really good solutions to fight the COVID
01:53pandemic here.
01:54So we were thinking very quickly about medical. Originally we didn't plan it so much for medical, but then actually
02:02we thought, oh wow, now we really have to speed up to make it also happen for medical and this
02:08is what we do.
02:09Before we go into the use cases, I explain to you very quickly, very brief, how this works. And believe
02:16me, I'm not a tech guy, so I can only explain you what I understood.
02:20So the hologram is somewhere in the air and we put actually an infrared layer over the hologram and then
02:29we triangulate your finger passing the infrared light.
02:34This is the core technology what we use. However, we also measure the speed and the thickness of the object.
02:42There's two reasons for that.
02:44One reason is a practical business case. We have an installation in Las Vegas in the casinos and whenever you
02:51use your finger, you want to gamble. Whenever you use your hand, you want to grab your drink.
02:57So the touch should not work. The second is very practical because we work indoor and outdoor. We need to
03:05avoid the fly flying through our touch screen and use the touch.
03:10So this is why we measure the speed and why we measure also the thickness of the object what is
03:15passing through.
03:17Okay? So, talking about the really the medical, talking about the U.S., our touch technology, our developers are sitting
03:26in California in the U.S., so I brought some data from the U.S.
03:29Every day there are more than 25 patients infected by something inside the hospital because people are not actually disinfecting
03:39themselves in the way they should.
03:41So, any touch point in a hospital starting from clocking in of the staff over to the nursery cars, over
03:50to even touch screens during the surgery, in the surgery room, the doctor could basically, during making the operation, the
03:58surgery, and then he can touch in the air to get more information virtually as a hologram.
04:04So, this is actually really practical use cases. We do also patient registration already. We do installation in pharmacies when
04:15people order specific pharmacies where they maybe don't want that the public is seeing that.
04:23They are standing in front of our hologram ordering a touch list. We put privacy filters around it so nobody
04:30can actually see what you are typing in and what is the information displayed.
04:35Okay. As I already mentioned, we can do the nursery cars. We're going to present the nursery car in end
04:44of July at the medical show in Miami with a full-function nursery car where they actually can use all
04:52the functions, all the interactions without the need of disinfection.
04:58Also, of course, we work with gloves. So, no matter the thickness of the glove, even completely covered at the
05:05COVID station, actually the touch will always work.
05:11What is the next? What is the next in technology? What are we working on? We're going to be back
05:15in Paris in September here in Port-de-Versailles, hall number four, September 20 to 22 at the Paris Retail
05:23Week, where we're going to present the next innovation.
05:26First is eye tracking. We're going to adjust the hologram according to actually the size of the user. The second
05:36thing is really magic. We add haptics to the touch.
05:40So, think about it. You touch somewhere in the air and your finger feel the touchscreen. It's still touchless. It's
05:49still completely contactless, but your finger will feel it in the air.
05:53I knew what's happened, and I was in the lab and tried it, and it was mind-blowing. My mind
05:59said, no way. This is not working, but actually it does, and we come back to Paris to present this.
06:05Let me talk quickly about a few other use cases where we use it. We can do any size. We
06:11can go up to 1,60m in hologram size, fully touch. Think about a dinosaur in a museum.
06:18My son loves this picture, actually. The dinosaur in the museum, and the kids can play with it. They can
06:24zoom in, zoom out, check details, make the dinosaur alive.
06:29Let him run, and let experience that. And definitely, it's going to stay in the mind. It's going to stay
06:35in the brain forever, this kind of experience.
06:38Another use case, and this is what we brought here to Viva this year, is actually a retail application. I
06:45was a bit disappointed. I prepared already a Starship.
06:48Maybe you have seen the latest version of Picard, Star Trek Picard, or something like that. I prepared already the
06:54Starship to be presenting here at Viva, but Viva asked me not to do that because no one of the
07:00users know how to fly a Starship.
07:02So, that is why we only brought a boring retail self-checkout application for you to try it out, because
07:08we all know how this actually works.
07:11So, you can try it out just over there. So, I would like to invite you to become magicians and
07:18to join us on this tour.
07:21And, of course, I'm very open for any questions, business cases, or ideas.
07:28Michael, maybe you have some questions?
07:30Oh, yeah. Just one question, and then I'll hand it over to someone in the audience.
07:38So, I get it. So, it's basically a touchless hologram, which people can use to order stuff or interact with
07:45something in order to get something.
07:46Yes, it's touchless touch.
07:48Touchless touch, right.
07:49Or contactless touch.
07:50Okay.
07:50And the use case, you're right. First use case is any environment which needs to be 100% clean.
07:57The second use case is when you want to increase the interaction right with the users.
08:03Right.
08:04Right. We all know kiosk systems. They're all over right now.
08:07Yes.
08:07With the holographic touch, we increase the usage rate by 50% to 80%.
08:11Okay. So, this tech can go well beyond sort of hospital applications or whether it needs to be really germ
08:17-free.
08:17We can look at, I don't know, restaurants, fast food outlets, all this.
08:22It could replace.
08:23Ticking whether it's food prepared.
08:24I know I cannot say this in France, but it could even replace the McDonald's kiosk to be virtually in
08:29the air.
08:30Right. Okay. You just said it, by the way.
08:33Thank you.
08:34All right. Good. Any questions from the audience about Holo? About the tech? No?
08:41I did not promise to dance anybody, so it's no problem.
08:45No singing or dancing?
08:46No way.
08:48No, I'm not going to sing. I didn't bring my guitar either, so I can't do any singing because I
08:52can't really sing without my guitar.
08:54That's it, though. No more questions?
08:56Okay, then.
08:57All right. Thank you, Michael.
08:59Thank you very much. Have fun at Viva.
09:01See you again.
09:03Oh, by the way, you guys are over, because we need to test your stuff.
09:07Oh, this is over there.
09:09Just over here? Okay.
09:09Over there.
09:10Okay.
09:13Good.
09:14All right. So, sticking within the health sphere, we now have a great startup by the name of ScaleTech,
09:21which are offering a very, very snazzy and very effective wearable device to protect athletes from injury while training,
09:32which is pretty awesome.
09:33Here to tell you more is Natalie.
09:47Hi, everyone. Thank you so much for the kind introduction.
09:50I'm Natalie from Scaled.
09:52We are a UK-based startup and here to solve the problem of next-generation injury prevention.
09:59So, our vision is to protect the superhumans of tomorrow by preventing injuries today.
10:06So, kind quick question in the audience.
10:08Anyone suffered from a sports injury or everyday injury and still can feel the pain and wrist injuries and knees,
10:15for example?
10:17We really want to close the bridge between longevity, we all want to live forever, and the major cause of
10:24injuries and the major cause of disability.
10:28So, the problem is that current solutions are bulky, heavy, not breathable, just like in the corner.
10:35Some of you might be familiar with that.
10:38The second issue is that current mask clothing, this one-size-fits-all clothing, is actually designed for the average
10:46European white male.
10:48I know this is fitting a lot of you here, but I see some females here who might feel left
10:54out as well, which is crucial in PPE.
10:57So, if wearables don't fit you perfectly and they're meant to protect you, they actually cause more harm by misfit.
11:04And the third one, I mentioned that already, is that over 1.7 billion people globally have musculoskeletal conditions, and
11:11that's the leading contributor to disability worldwide.
11:14Meaning, if you have that one knee injury when you're 15 years old, you will suffer from it your whole
11:20life.
11:20So, what can we do against it?
11:23We developed SCALED, a solution for flexible body armor.
11:29So, we take a picture of your wrist, in the wrist example, put it in our algorithm, and create flexible
11:36body protection.
11:37So, I'm wearing it currently, gives me freedom of mobility, it's impact-absorbing, and it prevents hyperextension injuries.
11:45As you can guess, where does this come from?
11:47This is a research from Imperial College in London, and we were looking into nature, and how does nature actually
11:52provide physical protection to animals?
11:55There is the first solution, it's skin, when you're fast enough to flee from predators.
12:00The second one is shells, when you're too slow and you need to hide in.
12:04And then there are scales, which are the best combination of protection and mobility.
12:09So, we take that nature-inspired solution from scale structures and created our algorithm, which is designing scale structures customized
12:18to our use case.
12:20Use case is currently tested with professional athletes, such as motocross, gymnasts, high divers, tennis players, and CrossFit, for example.
12:33They're all suffering from abrasion in wrists, due to performance and training all over the time in peak loads.
12:40And if you're a professional athlete training seven days a week, twice a day, you will feel the pain.
12:46Second application we're currently trialing is in the medical orthotics world, giving and stabilizing human joints, but without fully demobilizing
12:55them.
12:56The third one is work safety.
12:57I appreciate everyone who already came to our stand to ask about that.
13:00A lot of traction, really happy.
13:03So, giving agility and performance during protection.
13:07And the fourth one is defense.
13:10Our solution is a software that offers automated mass customization.
13:15We 3D print the solutions.
13:17It's in-assembly 3D printing.
13:19So, you don't have any knowledge about 3D printing.
13:22You don't need any post-processing.
13:24It comes ready to implement.
13:26The solution, therefore, can be printed on-site.
13:28We bring 3D printers to partners, and they print the solutions, therefore, sports teams and manufacturing.
13:37The whole thing is patented.
13:39We're 18 months old, so very proud about that.
13:43And our vision is to, today, protect against sudden impact injuries and hyperextension injuries.
13:50Prevent from long-term joint abrasion.
13:52And our vision is to predict injuries before they happen through motion tracking and AI.
13:58Yeah, thank you so much.
14:00I hope everyone has some questions first.
14:02Oh, yes, they're going to have some questions.
14:04Don't worry about that.
14:05First things first, however, I think it would be nice if we could see it on camera.
14:09If we can just get a good demo of it, good, exactly.
14:12So, you can really show us, yeah.
14:15So, if you twist it, right, so we can see it, yeah.
14:18So, this has been, I understand from your presentation, reverse-engineered from snails, snakes, and people, right?
14:26Basically, yeah.
14:27Okay.
14:27And so, how does it work?
14:29So, the magic is the geometry.
14:32Okay.
14:32So, a lot of people ask us about our 3D printer.
14:35If the 3D printer is special, no, it's commercial.
14:37If the filament of the material is special, no, this is commercial.
14:41It's all about the geometry of each individual scale.
14:44And that's what our algorithm does.
14:46If you look very closely, every single scale will look slightly differently.
14:50And that's exactly how nature does it as well.
14:52Okay.
14:53And so, how does it protect you?
14:55So, it's basically a sharp movement, and it goes solid, right?
14:59So, in two ways.
15:00You can definitely try that out there.
15:02Everyone goes there and punches their hands on our tables.
15:05So, it's impact-absorbing by how the scales are overlapping.
15:09Okay.
15:09So, if you think of a fish, and it's predators.
15:13So, if it gets hit by one teeth, one scale, it's overlapping on three neighbors.
15:18Okay.
15:19And three neighbors again.
15:20So, it's force-distributing.
15:21It's very beautiful.
15:22And the second part, it's interlocking.
15:24And what we can do, we can exactly say when this is interlocking.
15:28Currently, I'm at like 85 degrees.
15:30We can do that for 30 degrees, because, as you can see, your wrist is very different than mine.
15:35And therefore, we use mass customization, because this one would not fit you.
15:39Okay.
15:40There you go.
15:40Very interesting.
15:41All right.
15:41Any questions from the audience about this?
15:49No?
15:50Oh, they're very shy this morning.
15:51But, don't go away yet.
15:53So, what inspired you?
15:55Where does the design come from?
15:56Is it something that you thought up?
15:58Yeah.
15:58So, it was my research project.
16:00Okay.
16:01Doing my studies.
16:02And I, myself, suffered a lot from, again, injuries.
16:05Yeah, you have an ankle injury.
16:06I'm currently injured, yeah.
16:07Are you an athlete as well?
16:08I'm an athlete as well.
16:09And what's your sport?
16:11I do gymnastics and tennis.
16:13Gymnastics?
16:13Okay.
16:14And I suffered from sports injuries all my life.
16:16And the terrible thing, I'm not that old yet.
16:19And the injuries don't go away.
16:21Joint abrasion is the only way to treat it currently is pain management.
16:25Meaning, you take painkillers every day.
16:27Yes.
16:29Something when you experience it is not very fun, because you're limited to do certain sports and certain activities.
16:35And I guess everyone here wants to live healthy, and especially during COVID, prevent health issues.
16:42And let's not underestimate, also, the psychological impact of injuries, right?
16:45Of course.
16:45Because it can really, you know, if it holds you, I mean, you know, even someone like me, I take
16:51sport very seriously.
16:52I'm exercising six times a week.
16:54But an injury, if it holds you back for two weeks, it's, yeah, it's frustrating.
16:57It's very frustrating.
16:58It's completely a mental thing.
16:59And, as well, if you have protection, for the customer's research we did, a lot of athletes choose to not
17:06wear protection because they feel limited.
17:08You basically become a human shield, especially when you're, like, competing internationally.
17:13And you wear this really bulky glove, and you might lose your spot in the team.
17:20And then you get that hit, and you're back on the bench.
17:22You train for the Olympics, for example.
17:24And that one injury is kicking you out.
17:25Yeah, because you basically take it at the wrong angle, right?
17:27So, it's actually something you can wear during the game, as well.
17:29So, we have, in the sports industry, a lot of interest for performance enhancement, because you can't control motion.
17:36Right.
17:36Is that not cheating?
17:39If you'd use it for training purposes, no.
17:41Okay, okay.
17:41During competition, that might fall under cheating.
17:45Okay.
17:46All right, good.
17:47Well, we've got 30 seconds left, if there's no questions, for Natalie.
17:50Natalie, thanks very much.
17:51Thank you so much.
17:52And thanks to Scaled.
17:53Thank you.
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