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Latest Posts by laossj - Page 4
#FridayFunFact: VR & AR are fast becoming the latest digital trend (and next marketing platform target). This is an interesting projection of what the market could be like for VR/AR apllications.
https://vimeo.com/175247441
AR Spatial Audio Recorder
Another smart AR experiment from Zach Lieberman proving Augmented Reality is an interesting creative platform: this one visualizes audio as it is recording and plays back as you follow the path both forwards and backwards:
A post shared by zach lieberman (@zach.lieberman) on Sep 6, 2017 at 5:55am PDT
Quick test recording audio in space and playing back – (video has audio !) #openframeworks
Link
Portal in AR looks amaaaazing!
Unfortunately this is just a demo on HoloLens by developer KennyW, but here’s hoping it comes to life one day.
1995 Video of Virtual IO’s I-Glasses. Virtual reality Head Mounted Display
Piano player wears an eye tracker so you can see exactly where their eyes move to as they play. Amazing video.
Augmented reality sandbox - move the land around and it shows off the topography and sea/water level.
SP. Augmented Reality. Psycho-Pass (2012)
100 cans of spray paint, 60 hours of painting, 24 individual frames
INSA is a graffiti artist who makes gif animations out of his physical art. Here he paints and animates the beautiful original painting by James Jean, which was created for Paramount’s new movie mother!
Click here to watch INSA bring this painting to life
Supervised Machine Learning Trainer 3607A
Speculative Design video short from Benedict Hubener, Keyur Jain, and James Zhou of CIID imagines how the future of Smart City maintenence works, with on-site engineers handling Machine Learning equipment with surveillance infrastructure:
In the near future, cities are filled with smart infrastructure such as decentralized security cameras, self-sorting trashcans and intelligent street lights. But who do you call when smart things breaks? The future smart city is not a sci-fi dystopia made out of glass, concrete, and job stealing robots. It’s place much like our own and filled with the banality of everyday life and mundane jobs. Regardless of how you imagine the future smart city, someone needs to get in their white van, take out their ladder, and fix broken things.
The SMLT 3607A or Supervised Machine Learning Trainer is a tool for the future city maintenance worker. He/she can use the SMLT to interface with abnormally behaving smart infrastructure such as a surveillance camera identifying people as eggplants. He/she can retrain the smart camera by recording new examples in real time. The future maintenance worker will teach the camera what it’s seeing and curator the training dataset. He/she will help the camera learn the difference between people and objects and decide who should be classified as an upstanding citizen or a petty criminal.
Link
5 Demos Where Code Meets Music
Latest Nat & Friends showcases a selection of web based experiments exploring sound and music (plus a couple of Google assistant easter eggs):
Music is a fun way to explore technologies like coding, VR, and machine learning. Here are a few musical demos and experiments that you can play with – created by musicians, coders, and some friends at Google.
More Here
Facebook Chatbot UI design.
Next-System
Japanese developers are creating mobile apps incorporating Augmented Reality for photographic tricks, from free floating object placements to optical camo effects:
[Google Translate:]
I tried to develop a demonstration using ARkit that makes it possible to take movies like MATOX like the cheat technique “The World” used by DIO in the third part of “Joji O’s Strange Adventure” It was. I hope to be able to respond to Google ARCore in the future.
Optical camouflage like the Ghost in the Shell.前に開発した光学迷彩!#光学迷彩 #Opticalcamouflage #Invisible #ghostintheShell pic.twitter.com/wVlr7Q188t
— next-system (@next_kinesys)
September 7, 2017
Next-System website can be found here
Cassies Take a Tour of Agility Robotics
Meet Cassie, a sleek bi-pedal robot made by Agility Robotics
Two Cassies decide to take a walking tour of our office. No CG: 100% actual robots.
More Here
How Do Hurricanes Form?
Hurricanes are the most violent storms on Earth. People call these storms by other names, such as typhoons or cyclones, depending on where they occur.
The scientific term for ALL of these storms is tropical cyclone. Only tropical cyclones that form over the Atlantic Ocean or eastern and central Pacific Ocean are called “hurricanes.”
Whatever they are called, tropical cyclones all form the same way.
Tropical cyclones are like giant engines that use warm, moist air as fuel. That is why they form only over warm ocean waters near the equator. This warm, moist air rises and condenses to form clouds and storms.
As this warmer, moister air rises, there’s less air left near the Earth’s surface. Essentially, as this warm air rises, this causes an area of lower air pressure below.
This starts the ‘engine’ of the storm. To fill in the low pressure area, air from surrounding areas with higher air pressure pushes in. That “new” air near the Earth’s surface also gets heated by the warm ocean water so it also gets warmer and moister and then it rises.
As the warm air continues to rise, the surrounding air swirls in to take its place. The whole system of clouds and wind spins and grows, fed by the ocean’s heat and water evaporating from the surface.
As the storm system rotates faster and faster, an eye forms in the center. It is vey calm and clear in the eye, with very low air pressure.
Tropical cyclones usually weaken when they hit land, because they are no longer being “fed” by the energy from the warm ocean waters. However, when they move inland, they can drop many inches of rain causing flooding as well as wind damage before they die out completely.
There are five types, or categories, of hurricanes. The scale of categories is called the Saffir-Simpson Hurricane Scale and they are based on wind speed.
How Does NASA Study Hurricanes?
Our satellites gather information from space that are made into pictures. Some satellite instruments measure cloud and ocean temperatures. Others measure the height of clouds and how fast rain is falling. Still others measure the speed and direction of winds.
We also fly airplanes into and above hurricanes. The instruments aboard planes gather details about the storm. Some parts are too dangerous for people to fly into. To study these parts, we use airplanes that operate without people.
To learn more about how we study hurricanes, visit: https://www.nasa.gov/mission_pages/hurricanes/main/index.html
Make sure to follow us on Tumblr for your regular dose of space: http://nasa.tumblr.com.
Automatica
Nigel Stanford is releasing an album with music performed by industrial robots:
More Here
2047 Apologue
Collaboration between WHITEvoid, Kinetic Lights and director Zhang Yimou incorporates a mechanical array of arrangeable lamps to provide context to a dance performance:
Chinese director Zhang Yimou who is best known for his movies “Raise the Red Lantern”, “Hero” and “The Great Wall” but also for directing the opening and closing ceremonies of the Beijing Olympics returns to the theater stage with his concept perfomance “2047 APOLOGUE”.
Zhang Yimou has unveiled his latest work at the National Center for the Performing Arts in Beijing. Based on Peking Opera “Sanchakou,” “2047 Apologue” is breaking the form of traditional stage plays, combining Chinese folk art with the latest technology. The show aims to mirror reality, commenting on how science and technology are a huge part of life in the 21st century. The show consists of 8 parts, each combining a traditional chinese craft, music or dance style with modern high tech such as lasers, robots, drones and kinetics.
WHITEvoid was commissioned to create, program and direct the kinetic display for the last part of the show called “Weaving Machine”. The 9 minute performance features 640 motorized LED spheres, an anchient chinese weaving machine and a modern dancer. German motor winch producer KINETIC LIGHTS provided the vertical hoist systems for the LED spheres and control software. Russian RADUGADESIGN animated a complementing video backdrop and CPG Concepts from Hong Kong provided the dance choreography for british dancer Rose Alice.
Link
AR Experiments
Following the announcement of ARCore, Google Creative Lab have released a site featuring various projects using the framework ranging from drawing in mid-air, portals, and strange characters popping up:
AR Experiments is a site that features work by coders who are experimenting with augmented reality in exciting ways. These experiments use various tools like ARCore, an SDK that lets Android developers create awesome AR experiences. We’re featuring some of our favorite projects here to help inspire more coders to imagine what could be made with AR.
At the moment, these projects are compatible with Android Nougat devices such as the Pixel and Samsung S8 but rollout for other devices is happening.
You can explore the set of experiments here
Standard Beaverette Light Armoured Car MkI/II
Built by the Standard Motor Company at the order of Lord Beaverbrook, the then Minister of Aircraft Production, the Car Armoured Light Standard or ‘Beaverette’ was intended as a stopgap measure to help with airfield and local defence. Essentially built onto the chassis of Standard’s pre-war commercial models it had thin riveted steel armour, backed by 3-inch oak reinforcement planks, to its front and sides, the MkII added all around armour but remained open topped.
The Beaverette was typically armed with either a Bren light machine gun or a Boys anti-tank rifle and was crewed by three men - driver, observer, gunner. Weighing two tonnes the vehicle could reputedly reach up to 60mph, however, given its weight this seems optimistic. The weight of the armour was said to quickly fatigue the chassis and suspension.
Side view of some Beaverette MkII’s (source)
They were never cleared for foreign service and spent the war helping to train crews and patrolling the British Isles with regular army units (including the The Reconnaissance Corps and Royal Armoured Corp), the RAF Regiment and the Home Guard. Principally, the Beaverette was a stopgap measure, similar to the Armadillo, to supplement Universal Carriers when following the evacuation of Dunkirk the British Army was desperately in need of vehicles.
The Beaverette provided a propaganda boost with many photographs and newsreels filmed of them in action patrolling, this helped to boost civilian morale and prove Britain was not defenceless and that British ingenuity would help turn the tide. Later MkIII and MkIV Beaverette’s added roofs and turrets but remained in limited defensive service.
Sources:
Images: 1 2 3 4 5
Standard Beaverette, Tank Encyclopedia, (source)
If you enjoy the content please consider supporting Historical Firearms through Patreon!
Mario Kart 64 with Neural Evolution of Augmenting Topologies (NEAT)
Project from NIck Nelson applies Neural Network learning to playing Mario Kart 64 with successful results:
This is NOT a human playing the game, it is in fact the program I wrote. It is a special kind of machine learning that models biological evolution to evolve “species” to find the optimal solution to the problem. In this case the problem is Mario Kart 64! This run is the result of about two days of training.
Code for the project can be found here
How to Safely Watch the Aug. 21 Solar Eclipse
On Aug. 21, 2017, a solar eclipse will be visible in North America. Throughout the continent, the Moon will cover part – or all – of the Sun’s super-bright face for part of the day.
Since it’s never safe to look at the partially eclipsed or uneclipsed Sun, everyone who plans to watch the eclipse needs a plan to watch it safely. One of the easiest ways to watch an eclipse is solar viewing glasses – but there are a few things to check to make sure your glasses are safe:
Glasses should have an ISO 12312-2 certification
They should also have the manufacturer’s name and address, and you can check if the manufacturer has been verified by the American Astronomical Society
Make sure they have no scratches or damage
To use solar viewing glasses, make sure you put them on before looking up at the Sun, and look away before you remove them. Proper solar viewing glasses are extremely dark, and the landscape around you will be totally black when you put them on – all you should see is the Sun (and maybe some types of extremely bright lights if you have them nearby).
Never use solar viewing glasses while looking through a telescope, binoculars, camera viewfinder, or any other optical device. The concentrated solar rays will damage the filter and enter your eyes, causing serious injury. But you can use solar viewing glasses on top of your regular eyeglasses, if you use them!
If you don’t have solar viewing glasses, there are still ways to watch, like making your own pinhole projector. You can make a handheld box projector with just a few simple supplies – or simply hold any object with a small hole (like a piece of cardstock with a pinhole, or even a colander) above a piece of paper on the ground to project tiny images of the Sun.
Of course, you can also watch the entire eclipse online with us. Tune into nasa.gov/eclipselive starting at noon ET on Aug. 21!
For people in the path of totality, there will be a few brief moments when it is safe to look directly at the eclipse. Only once the Moon has completely covered the Sun and there is no light shining through is it safe to look at the eclipse. Make sure you put your eclipse glasses back on or return to indirect viewing before the first flash of sunlight appears around the Moon’s edge.
You can look up the length of the total eclipse in your area to help you set a time for the appropriate length of time. Remember – this only applies to people within the path of totality.
Everyone else will need to use eclipse glasses or indirect viewing throughout the entire eclipse!
Photographing the Eclipse
Whether you’re an amateur photographer or a selfie master, try out these tips for photographing the eclipse.
#1 — Safety first: Make sure you have the required solar filter to protect your camera.
#2 — Any camera is a good camera, whether it’s a high-end DSLR or a camera phone – a good eye and vision for the image you want to create is most important.
#3 — Look up, down, and all around. As the Moon slips in front of the Sun, the landscape will be bathed in long shadows, creating eerie lighting across the landscape. Light filtering through the overlapping leaves of trees, which creates natural pinholes, will also project mini eclipse replicas on the ground. Everywhere you can point your camera can yield exceptional imagery, so be sure to compose some wide-angle photos that can capture your eclipse experience.
#4 — Practice: Be sure you know the capabilities of your camera before Eclipse Day. Most cameras, and even many camera phones, have adjustable exposures, which can help you darken or lighten your image during the tricky eclipse lighting. Make sure you know how to manually focus the camera for crisp shots.
#5 —Upload your eclipse images to NASA’s Eclipse Flickr Gallery and relive the eclipse through other peoples’ images.
Learn all about the Aug. 21 eclipse at eclipse2017.nasa.gov, and follow @NASASun on Twitter and NASA Sun Science on Facebook for more. Watch the eclipse through the eyes of NASA at nasa.gov/eclipselive starting at 12 PM ET on Aug. 21.
Make sure to follow us on Tumblr for your regular dose of space: http://nasa.tumblr.com
Eclipse Across America
August 21, 2017, the United States experienced a solar eclipse!
An eclipse occurs when the Moon temporarily blocks the light from the Sun. Within the narrow, 60- to 70-mile-wide band stretching from Oregon to South Carolina called the path of totality, the Moon completely blocked out the Sun’s face; elsewhere in North America, the Moon covered only a part of the star, leaving a crescent-shaped Sun visible in the sky.
During this exciting event, we were collecting your images and reactions online.
Here are a few images of this celestial event…take a look:
This composite image, made from 4 frames, shows the International Space Station, with a crew of six onboard, as it transits the Sun at roughly five miles per second during a partial solar eclipse from, Northern Cascades National Park in Washington. Onboard as part of Expedition 52 are: NASA astronauts Peggy Whitson, Jack Fischer, and Randy Bresnik; Russian cosmonauts Fyodor Yurchikhin and Sergey Ryazanskiy; and ESA (European Space Agency) astronaut Paolo Nespoli.
Credit: NASA/Bill Ingalls
The Bailey’s Beads effect is seen as the moon makes its final move over the sun during the total solar eclipse on Monday, August 21, 2017 above Madras, Oregon.
Credit: NASA/Aubrey Gemignani
This image from one of our Twitter followers shows the eclipse through tree leaves as crescent shaped shadows from Seattle, WA.
Credit: Logan Johnson
“The eclipse in the palm of my hand”. The eclipse is seen here through an indirect method, known as a pinhole projector, by one of our followers on social media from Arlington, TX.
Credit: Mark Schnyder
Through the lens on a pair of solar filter glasses, a social media follower captures the partial eclipse from Norridgewock, ME.
Credit: Mikayla Chase
While most of us watched the eclipse from Earth, six humans had the opportunity to view the event from 250 miles above on the International Space Station. European Space Agency (ESA) astronaut Paolo Nespoli captured this image of the Moon’s shadow crossing America.
Credit: Paolo Nespoli
This composite image shows the progression of a partial solar eclipse over Ross Lake, in Northern Cascades National Park, Washington. The beautiful series of the partially eclipsed sun shows the full spectrum of the event.
Credit: NASA/Bill Ingalls
In this video captured at 1,500 frames per second with a high-speed camera, the International Space Station, with a crew of six onboard, is seen in silhouette as it transits the sun at roughly five miles per second during a partial solar eclipse, Monday, Aug. 21, 2017 near Banner, Wyoming.
Credit: NASA/Joel Kowsky
To see more images from our NASA photographers, visit: https://www.flickr.com/photos/nasahqphoto/albums/72157685363271303
Make sure to follow us on Tumblr for your regular dose of space: http://nasa.tumblr.com
Launching the Future of Space Communications
Our newest communications satellite, named the Tracking and Data Relay Satellite-M or TDRS-M, launches Aug. 18 aboard an Atlas V rocket from our Kennedy Space Center in Florida. It will be the 13th TDRS satellite and will replenish the fleet of satellites supporting the Space Network, which provides nearly continuous global communications services to more than 40 of our missions.
Communicating from space wasn’t always so easy. During our third attempt to land on the moon in 1970, the Apollo 13 crew had to abort their mission when the spacecraft’s oxygen tank suddenly exploded and destroyed much of the essential equipment onboard. Made famous in the movie ‘Apollo 13’ by Ron Howard and starring Tom Hanks, our NASA engineers on the ground talked to the crew and fixed the issue. Back in 1970 our ground crew could only communicate with their ground teams for 15 percent of their orbit – adding yet another challenge to the crew. Thankfully, our Apollo 13 astronauts survived and safely returned to Earth.
Now, our astronauts don’t have to worry about being disconnected from their teams! With the creation of the TDRS program in 1973, space communications coverage increased rapidly from 15 percent coverage to 85 percent coverage. And as we’ve continued to add TDRS spacecraft, coverage zoomed to over 98 percent!
TDRS is a fleet of satellites that beam data from low-Earth-orbiting space missions to scientists on the ground. These data range from cool galaxy images from the Hubble Space Telescope to high-def videos from astronauts on the International Space Station! TDRS is operated by our Space Network, and it is thanks to these hardworking engineers and scientists that we can continuously advance our knowledge about the universe!
What’s up next in space comm? Only the coolest stuff ever! LASER BEAMS. Our scientists are creating ways to communicate space data from missions through lasers, which have the ability to transfer more data per minute than typical radio-frequency systems. Both radio-frequency and laser comm systems send data at the speed of light, but with laser comm’s ability to send more data at a time through infrared waves, we can receive more information and further our knowledge of space.
How are we initiating laser comm? Our Laser Communications Relay Demonstration is launching in 2019! We’re only two short years away from beaming space data through lasers! This laser communications demo is the next step to strengthen this technology, which uses less power and takes up less space on a spacecraft, leaving more power and room for science instruments.
Watch the TDRS launch live online at 8:03 a.m. EDT on Aug. 18: https://www.nasa.gov/nasalive
Join the conversation on Twitter: @NASA_TDRS and @NASALasercomm!
Make sure to follow us on Tumblr for your regular dose of space: http://nasa.tumblr.com
Google’s DeepMind AI just taught itself to walk
Verizon Cancels Elderly Woman’s Service on Her 84th Birthday http://ift.tt/2vePM37
First underwater entanglement could lead to unhackable comms: A team of Chinese researchers has, for the first time, transmitted quantum entangled particles of light through water – the first step in using lasers to send underwater messages that are impossible to intercept. http://ift.tt/2vnLups
This nanochip reprograms cells to heal organs. The tissue nanotransfection device is a noninvasive nanochip that transports genes to cells through an electrical charge.
follow @the-future-now
Researchers make a breakthrough toward the next generation of memory devices
A*STAR and NTU researchers have created a thin film material that allows them to control the size and density of magnetic skyrmions. In addition, they have also achieved electrical detection of these skyrmions. The fabrication process for these films is compatible with current industrial methods. This discovery is a breakthrough and is a key step towards the creation of a skyrmion-based memory device, which is one of the promising contenders for the next generation of memory technologies.
The discovery has been recently published in Nature Materials.
Skyrmions are small particle-like magnetic structures about 400 times smaller than a red blood cell. They can be created in magnetic materials, and their stability at small sizes makes them ideal candidates for memory devices. Since the discovery of room temperature skyrmions in 2015, there has been a global race to create a skyrmion memory device because such a device could potentially hold more information, while using less power.
The need for more memory
Increasingly large amounts of data are created daily in our rapidly digitalised world. Moreover, cutting-edge technologies such as the Internet of Things (IOT), edge computing, and Artificial Intelligence (AI) require immediate processing of this data for effective performance. This requires the development of memory devices with increasingly higher capacities.
Read more.
Kidachi
Japanese programmer has unveiled proof-of-concept effects for Augmented Reality game made with ARKit including visual filters and Predator-like optical camouflage:
ミッション1【野良アンドロイド(光学迷彩搭載機)の発見・確保】 #ARKit pic.twitter.com/7m0esEGrUt
— kidachi (@kidach1) August 19, 2017
[Bing Translation:] Mission 1 [Nora Android (optical camouflage aircraft) find & secure] #ARKit
You can follow Kidachi on Twitter here
Finding your friends at a festival | by David Urbina for @neonapp. Get notified when the app is released. Music: Seven Lions x Illenium x Said The Sky.
the age of the really useful apps is starting
— Nil (@niluspc)
August 16, 2017
This is rad. Hope it shows up at some festivals soon https://t.co/c9a1W7auEe
— Goldroom (@goldroom)
August 16, 2017
One of the best uses for AR I’ve seen. https://t.co/kxGAUzVyEf
— Alexander Danling (@baobame)
August 15, 2017
Seeing more practical and indispensable use-cases for AR than I have for new apps in quite a while. pic.twitter.com/zwHEGkYZrK via @ARKitweekly
— Scott Belsky (@scottbelsky)
August 15, 2017
Reasons like this are why I think AR >> VR https://t.co/7rt5pRT3o6
— Mohammad Al Azzouni (@mazzouni)
August 17, 2017
I need this in my life! https://t.co/yGbGrWYLBD
— Stefan Goodchild ⚛ (@stefangoodchild)
August 15, 2017
ARKit really will bring a new wave of useful functionality to the phone. https://t.co/H6TT1SlFkj
— CM Harrington (@octothorpe)
August 15, 2017
I love this. Good example of AR solving a REAL problem 👏 https://t.co/6wx3RSwSag
— Sam Clarke (@sclarke111)
August 17, 2017
ARKit is going to empower so many awesome apps when iOS 11 ships. https://t.co/MUaTqbDUb1
— Matt Sayward (@mattsayward)
August 15, 2017
By far the most functional implementation of AR I’ve ever seen. https://t.co/cWC3ymxq9z
— Thomas Claessens (@DeClaessens)
August 16, 2017
This looks mighty useful https://t.co/vh3vTjuVLO
— Max Böck (@mxbck)
August 15, 2017
Impressive (and actually useful) https://t.co/VHdlXzAdGY
— Dominik Schmidt (@sluderndotcom)
August 16, 2017
This is such a good idea! https://t.co/X7xhgB7xeT
— Donna Lowe (@reloweeda)
August 15, 2017
👍🏽 would be super handy https://t.co/9Tk2Q16qnE
— Simon (@liquidmedia2013)
August 15, 2017
Genuinely useful AR coming to a field near you. https://t.co/4M8b92UJLk
— Cennydd (@Cennydd)
August 16, 2017
Find you festival friends with AR - Definitely the coolest implementation I’ve seen so far. App revolution 2.0 on its way. https://t.co/dKDkPRbMw1
— Tom Austin (@tomhaustin)
August 15, 2017
I can’t wait to try his app 😱 https://t.co/YHkZ9F91Zn
— Alexandre Mouriec (@mrcalexandre)
August 15, 2017
This is magical. ARKit demos by the app developers have been 👌🏻. Can’t wait to play with these apps. https://t.co/0RmQ7kkCiE
— KietChieng (@KietChieng)
August 16, 2017
GIMME THAT GIMME THAT RIGHT NOW https://t.co/Hg6fO6GWOq
— Valentin (@valdecarpentrie)
August 15, 2017
This is something I need https://t.co/iVjEkRxCaJ
— Andrew Rodebaugh (@andrewrodebaugh)
August 15, 2017
Less lost folks wandering the festival grounds aimlessly… Love some functional AR! https://t.co/deXJ8nMFQu
— Kent Weber (@WeberKent)
August 15, 2017
Again. This will be a game changer https://t.co/YiN2LQvmU5
— Jens@Gamescom (@JensHerforth)
August 15, 2017
This is a pretty cool use of GPS+ARKit, awesome demo use case! 🛳-it! #ARKit #MapKit #iOS11 https://t.co/LmMjPfo7KW
— Benjamin Hendricks (@benjhendricks)
August 15, 2017
The practical uses of #AR are incredible… this kind of thing will be the norm in the next few years & I can’t wait to test it. #Innovation https://t.co/XdkAdEG11G
— Josh Worth (@JoshWorthh)
August 15, 2017
OMG best use of the #ARKit. At festivals, i spend half my time looking for my friends in the crowd… https://t.co/YPb0AfAFjn
— Julie Tonna (@julie_tonna)
August 15, 2017
Awesome! This would also be cool for something like @ingress / @PokemonGoApp. Ps: love that new iPhone design 😉
— Marcel (@marceldk)
August 15, 2017
OMG !!!!!!!! #Devslopes https://t.co/MzN5RKn1DI
— leonyuon (@leonyuonl)
August 15, 2017
This is amazing! https://t.co/ZrpQBEgaU3
— Shane Griffiths (@shanegriffiths)
August 15, 2017
i just cant stop getting excited by these ARKit demos 🌟 https://t.co/IXAM6N0VBf
— nikhil srinivasan 👾 (@nvs)
August 15, 2017
Just think how much more enjoyable festivals would have been if you weren’t constantly losing/looking for everyone. https://t.co/uzxNJMqI4c
— Neil Cooper (@ncooperdesign)
August 15, 2017
Future killer Jazz Fest/Mardi Gras app for iPhone. (and really every other large gathering where you wanna find your friends) https://t.co/RXkVrLOuQB
— Stephen Sullivan (@swgs)
August 15, 2017
💯 arkit is legit 💯 https://t.co/8h3gWtdMtE
— Sean PJPGR Doran (@spjpgrd)
August 15, 2017
Another cool use of #ARKit https://t.co/0QUrN4BgJF
— Matt Zarandi ⚡️ (@MattZarandi)
August 15, 2017
Now this is something genuinely useful for AR https://t.co/7CvykUc2SQ
— Joel (@joevo2)
August 16, 2017
#musthave https://t.co/4KIhkWghKD
— Gee 🔥 (@Georg_Schmo)
August 15, 2017
This would have come in so handy on many occasions. https://t.co/2jI7uQn1Lf
— Steven Lin (@Stevenchlin)
August 15, 2017
Another great usecase! https://t.co/T5ggr8Qyez
— Schlabbeschambes (@DerHurly)
August 15, 2017
AR is gonna be so cool https://t.co/qmlxshUk03
— Beans (@beano629)
August 15, 2017
This is pretty brilliant! https://t.co/TevMmjBLKE
— Vlad Vukicevic (@vvuk)
August 15, 2017
A 🔥use case here ⬇️ just amazing #ARKit https://t.co/elPyWbW4iO
— Glenville Morris (@glenvillemorris)
August 15, 2017
Now thats a smart techcombi https://t.co/wH8ECU7VxO
— thefirstfloor (@jeroenduhmooij)
August 15, 2017
We gonna be livin’ in 2025 real soon. https://t.co/RgXCAjdb2t
— David Bird (@David_Burns_Red)
August 15, 2017
here’s another super rad use case that would also work for finding your Lyft / Uber driver https://t.co/JVm3oqGrW9
— TIFFANY ZHONG (@TZhongg)
August 15, 2017
Great usage of ARKit! https://t.co/jJ1VDOX4zb
— Elliot Turner (@eturner303)
August 15, 2017
#ARKit (demo) with a practical concept to navigate space and impact social engagement #AR #interactivetech #socialAR https://t.co/2352xf9haz
— Melody Koebler (@melabyyte)
August 15, 2017
Well, that’s bloody awesome https://t.co/XvCLwNsqJB
— Neil Kleiner (@nkleiner)
August 15, 2017
Handy real-world application for #AR. Beats “we’re to the left of the stage” https://t.co/zoMbK4dUSm
— Jon Williams (@yesthatjon)
August 15, 2017
Now THIS is awesome › https://t.co/xP6LamQuua #ARKit
— Jermaine (@dviate)
August 15, 2017
Neat idea. Is it just me or does it feel like it wants a giant column of light like in an MMO or something? https://t.co/SM2dKw80wT
— Gabe Weiss (@GabeWeiss_)
August 15, 2017
Yes and yes! And not just for finding people you already know, opt-in real-time people discovery in the offline world has massive potential https://t.co/zsAQy0q55z
— Shuvi👩🏻💻 (@shuvi)
August 15, 2017
Find my friends on a whole new level #ARKit https://t.co/l53rkXr4PS
— Spencer Bratman (@SpencerBratman)
August 15, 2017
Eyyy this is what I’m talkin about—next to disrupt social media? https://t.co/eN2BSvYXNh
— Kenneth Ng (@KennethLNg)
August 16, 2017
Well this is awesomely handy. https://t.co/KmU4FJvErV
— Dan Z (@danactual)
August 16, 2017
Stop this is amazing!! https://t.co/ZcTy1iAlVt
— Daniel Feodoroff (@mrdanielfeo)
August 16, 2017
Clever! https://t.co/SnjqQD8gL9
— geoff brown (@cgeoffreybrown)
August 16, 2017
Looking forward to way more of this … https://t.co/Qdx0fMK3sh
— Neil Voss (@neilvoss)
August 16, 2017
Just watch this video, one of the best uses of AR I’ve seen https://t.co/OZFjwiIKLP
— Ben King (@kngbn79)
August 16, 2017
AR tinder is gonna be wicked
— Utkarsh Gupta (@u7karsh)
August 16, 2017
Now this is cool! #arkit #ar #AugmentedReality https://t.co/s7E4jkqkpN
— Jen Abel 💬💫 (@jjen_abel)
August 17, 2017
i’ve been waiting for an app like this for a while https://t.co/0uaEwKgtm9
— ✨🌵🦊 🌴✨ (@ryanrogalski)
August 17, 2017
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