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Google ATAP

From Wikipedia, the free encyclopedia

"ATAP" redirects here. For the palm tree known as "buah atap" and "attap", see Nypa fruticans. For the Star Wars vehicle, see AT-AP.
ATAP (Advanced Technology And Projects)
Company typeGoogle group
IndustryResearch
Headquarters1600 Amphitheater Parkway, Mt. View, CA 94043
Area served
Worldwide
OwnerGoogle (Alphabet)
Number of employees
300
Websiteatap.google.com

Google's Advanced Technology and Projects group (ATAP) is a skunkworks team and in-house technology incubator, created by former DARPA director Regina Dugan. ATAP is similar to X, but works on projects, granting project leaders time—previously only two years—in which to move a project from concept to proven product. According to Dugan,[1] the ideal ATAP project combines technology and science, requires a certain amount of novel research, and creates a marketable product. Historically, the ATAP team was born at Motorola Mobility and kept when Google sold Motorola Mobility to Lenovo in 2014;[2] for this reason, ATAP ideas have tended to involve mobile hardware technology.

The team embodies principles that former Google VP Dugan used at DARPA.[3] One of these principles is to create small teams of high performers. Another is to make use of resources outside the organizational box; ATAP has worked with hundreds of partners in more than twenty countries, including schools, corporations, startups, governments, and nonprofits. Standing contracts are in place with a number of top-flight schools, such as Stanford, Berkeley, MIT, and Caltech, to facilitate rapid research arrangements when needed.

YouTube Encyclopedic

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  • Welcome to Project Soli
  • In the Lab with Google ATAP: Google ATAP Motion Platform
  • A look inside Google's secretive ATAP group
  • In the Lab with Google ATAP: Nonverbal Interactions with Soli Radar
  • One Small Gesture, A Big Impact for All | Google ATAP

Transcription

Poupyrev: My name is Ivan Poupyrev, and I work for Advanced Technology and Projects group at Google. The hand is the ultimate input device. It's extremely precise, it's extremely fast, and it's very natural for us to use it. Capturing the possibilities of the human hand was one of my passions. How could we take this incredible capability, the finesse of human actions and finesse of using our hand, but apply it to the virtual world? We use radio frequency spectrum, which is radars, to track human hand. Radars have been used for many different things-- to track cars, big objects, satellites and planes. We're using them to track micro motions, twitches, of the human hand and then use that to interact with wearables and Internet of Things and other computing devices. Lien: Our team is focused on taking radar hardware and turning it into a gesture sensor. Radar is a technology which transmits a radio wave towards a target, and then the receiver of the radar intercepts the reflected energy from that target. The reason why we're able to interpret so much from this one radar signal is because of the full gesture recognition pipeline that we've built. The various stages of this pipeline are designed to extract specific gesture information from this one radar signal that we receive at a high frame rate. Amihood: From these strange, foreign range Doppler signals, we are actually interpreting human intent. Karagozler: Radar has some unique properties when compared to cameras, for example. It has very high positional accuracy, which means that you can sense the tiniest motions. Schwesig: We arrived at this idea of virtual tools because we recognized that there are certain archetypes of controls, like a volume knob or a physical slider, a volume slider, Imagine a button between your thumb and your index finger, and the button's not there, but pressing this is a very clear action. And there's an actual physical haptic feedback that occurs as you perform that action. The hand can both embody a virtual tool, and it can also be, you know, acting on that virtual tool at the same time. So if we can recognize that action, we have an interesting direction for interacting with technology. Poupyrev: So when we started this project, you know, me and my team, we looked at the project idea, and we thought, "Are we gonna make it or not? Eh, we don't know." But we have to do it. Because unless you do it, you don't know. Raja: What I think I'm most proud of about our project is, we have pushed the processing power of the electronics itself further out to do the sensing part for us. Poupyrev: The radar has a property which no other technology has. It can work through materials. You can embed it into objects. It allows us to track really precise motions. And what is most exciting about it is that you can shrink the entire radar and put it in a tiny chip. That's what makes this approach so promising. It's extremely reliable. There's nothing to break. There's no moving parts. There's no lenses. There's nothing, just a piece of sand on your board. Schwesig: Now we are at a point where we have the hardware where we can sense these interactions, and we can put them to work. We can explore how well they work and how well they might work in products. Poupyrev: It blows your mind, usually, when you see things people do. And that I'm really looking forward to. I'm really looking forward to releasing this to the development community, and I really want them to be excited and motivated to do something cool with it, right?

Projects

Although ATAP has occasionally publicized the number of projects in progress, the individual projects are kept secret until they are nearing maturity and it's time to start developing public interest. At that point, they have historically been announced at the annual Google I/O developer conference. Some of the announced projects to date are described below.

Project Tango

Main article: Tango (platform)

The Project Tango team was led by computer scientist Johnny Lee, a core contributor to Microsoft's Kinect. Project Tango was a computer-vision technology that allows mobile devices to detect their position relative to the world around them, without requiring GPS or other external signals. This enables the use of mobile phones and tablets for indoor navigation, 3D mapping, measurement of physical spaces, recognition of known environments, augmented reality, and windows into virtual 3D worlds.

In the first quarter of 2015, the team left ATAP and became a Google team in its own right, making Project Tango the first product to emerge from the intensive two-year incubator process.[4]

Project Ara

Main article: Project Ara

Project Ara was a proposed platform for creating customizable, modular smartphones. With Project Ara, consumers would populate an electronic frame, called an endoskeleton or "endo", with rectangular hardware modules for power, processing, memory, screen, wireless, and other functionality. Consumers assemble basic modules to create a working device, then add or remove additional modules as desired – in some cases, even while the device is operating. Optional modules might include cameras, speakers, large data storage, and medical sensors. Since users could update individual modules when better technology becomes available, Project Ara would have provided a hedge against cyclical obsolescence.

It could also reduce the purchase price of a low-end cell phone, by creating the option of buying only the most basic features. This could have supported the spread of technology in economically-disadvantaged areas. The official Project Ara website[5] specified a targeted manufacturing cost for an entry-level device in the $50-$100 range, and stated that the project has "the goal of delivering the mobile internet to the next 5 billion people". Google had targeted the first Project Ara public release for Puerto Rico in 2015, but announced that the test has been delayed until 2016.[6]

A Project Ara Module Development Kit (MDK)[7] would have enabled manufacturers to create Project Ara-compatible modules. An early pre-release version of the MDK was available on the Project Ara website. ATAP sponsored Project Ara Developer's Conferences in 2014 and 2015 to begin stimulating interest in the emerging hardware ecosystem and solicit input from potential designers and manufacturers.

Ara was an exception in that the usual ATAP two-year timeframe was extended to give more time for the project's completion. However, at the time of the extension team leader Paul Eremenko was replaced by Rafa Camargo,[8] named by CNET in 2015 as one of the Top 20 Latinos in Tech.[9] On September 2, 2016, Google confirmed that Project Ara had been shelved.[10]

Project Soli

Project Soli[11] is a new gesture-recognition technology based on radar, unlike established approaches based on visual or infrared light such as stereo cameras, structured light, or time-of-flight sensors. This novel approach, which uses small, high-speed sensors and data-analysis techniques such as Doppler, can detect fine motions with sub-millimeter accuracy.[12] Thus, for instance, Project Soli technology enables a user to issue commands to a computer by rubbing a thumb and forefinger together in pre-defined patterns. Applications might include sensors embedded in clothing, switches that don't require physical contact, and accessibility technology.

The project is headed by Ivan Poupyrev,[13] a former scientist for Disney Imagineering who was named one of Fast Company's "100 Most Creative People in Business 2013".[14] Project Soli was announced at Google I/O 2015[15] and generated considerable media interest.[16][17][18] According to the official site, in 2015 the team was preparing to make an alpha Project Soli development kit available to a limited number of developers, with plans for signing people up for a larger beta release later that year. At Google I/O 2016, Google demoed a newer Project Soli chip redesigned for smartwatches and speakers with Infineon Technologies. The chip was 3x smaller, with 22x lower power consumption (down from 1.2 to 0.054 W) and 256x more efficient computational power capable of up to 18,000 frames per second.[19]

The Pixel 4, released in 2019, is the first commercial smartphone to feature Soli chip for motion sensing.[20] The Pixel 4's Soli radar system is a single 5.0 mm x 6.5 mm RFIC.[21]

Project Jacquard

Demo of Project Jacquard

Another novel user-input technology, from the same team responsible for Project Soli, is Project Jacquard, a platform for embedding sensors and feedback devices in fabrics and clothing in ways that seem natural and comfortable. The platform encompasses techniques for creating fashion fabrics with conductive fibers woven into them, plus small, flexible computing components and feedback devices (such as haptics or LEDs), along with software APIs that applications can use to exchange data with the garment. In one basic use-case, users can provide input to a mobile phone by touching or stroking the garment in a designated location, and can receive alerts through vibrations, sounds, or lights in the garment. With an embedded Project Soli sensor built into the garment, the application can also recognize finger gestures or other signals.

The name "Jacquard" is borrowed from the Jacquard loom, invented in 1801, which could be controlled with punched cards and inspired the use of punched cards in computing more than a century later. Like the loom, ATAP's Project Jacquard is a platform, not a consumer product; it enables the creation of products for uses such as communication, personal assistance, navigation, health and fitness, fashion, and work. To date, demos and marketing materials emphasize style and quality, as opposed to a purely sports-based or utilitarian positioning. Project Jacquard was announced at Google I/O 2015, and at the same time Google announced a related partnership with clothing manufacturer Levi Strauss & Co. to create Jacquard-enabled jackets.[22] The jackets were released in 2017 with mixed reviews about the jacket's overall usefulness.[23][24]

According to the ATAP website, designers can use Jacquard "as they would any fabric, adding new layers of functionality to their designs, without having to learn about electronics." The site goes on to say "We are also developing custom connectors, electronic components, communication protocols, and an ecosystem of simple applications and cloud services." A developer's kit or product release date have not been announced.

In September 2019, Yves Saint Laurent announced their Cit-E backpack featuring Jacquard technology for touch gestures.[25]

In October 2019, Google announced a new collaboration with Levi Strauss & Co. to release a new edition of its Jacquard-enabled jackets. The jackets will be available in the U.S., Australia, France, Germany, Italy, the U.K. and Japan.[26]

On March 10, 2020, Adidas and EA Sports announced GMR, a smart insole featuring a Jacquard Tag. The Jacquard Tag uses machine learning algorithms to recognize kicks, shot power, distance and speed. It connects with FIFA Mobile for challenges and leaderboards.[27][28] Jacquard is scheduled to shut down sometime in 2023.[29]

Other projects

  • Project Abacus, a password replacement project using biometric data[30]
  • Project Vault, a project to develop secure computers on microSD cards[31]

See also

References

  1. ^ Bohn, Dieter (29 May 2015). "The renegade future of Google's ATAP lab". Archived from the original on 31 October 2015. Retrieved 4 November 2015.
  2. ^ Cheng, Roger (October 30, 2014). "It's official: Motorola Mobility now belongs to Lenovo". CNET. Archived from the original on 2023-03-30. Retrieved 2023-03-30.
  3. ^ Helft, Michael (14 August 2014). "Google Goes DARPA". Archived from the original on 1 October 2014. Retrieved 4 November 2015.
  4. ^ Announcement on ATAP Google+ site, 30 January 2015
  5. ^ Project Ara official website, archived from the original on 2015-08-10, retrieved 2015-11-26
  6. ^ Google delays its Project Ara modular smartphone until 2016, archived from the original on 2017-10-23, retrieved 2017-08-31
  7. ^ Project Ara MDK page, archived from the original on 2018-04-21, retrieved 2015-11-26
  8. ^ Announcement on ATAP Google+ site, 29 May 2015
  9. ^ Top 20 Latinos in Tech, archived from the original on 2015-11-26, retrieved 2015-11-26
  10. ^ "Google confirms the end of its modular Project Ara smartphone". The Verge. Vox Media. September 2, 2016. Archived from the original on 27 February 2017. Retrieved 2 September 2016.
  11. ^ "Project Soli- Google ATAP". Archived from the original on 2017-02-02. Retrieved 2017-01-29.
  12. ^ Agrawal, Vaishnavi (5 October 2015). "Gesture control features to be introduced by Google's Project Soli". Archived from the original on 26 November 2015. Retrieved 4 November 2015.
  13. ^ Ivan Poupyrev personal website, archived from the original on 2015-12-04, retrieved 2015-11-26
  14. ^ Wilson, Mark. "100 Most Creative People in Business 2013". Archived from the original on 12 September 2015. Retrieved 4 November 2015.
  15. ^ Google I/O 2015, archived from the original on 2015-11-22, retrieved 2015-11-26
  16. ^ Nash, David (1 June 2015). "Google I/O 2015 ATAP keynote: Project Jacquard, Soli, Ara, Vault and more!". Archived from the original on 26 November 2015. Retrieved 26 November 2015.
  17. ^ Mokey, Nick (1 June 2015). "Google just reinvented motion control and the fabric in our clothes". Archived from the original on 19 November 2015. Retrieved 4 November 2015.
  18. ^ Swanner, Nate (29 May 2015). "Google unveils Project Soli, a radar-based wearable to control anything". Archived from the original on 31 October 2015. Retrieved 4 November 2015.
  19. ^ "Google's ATAP is bringing its Project Soli radar sensor to smartwatches and speakers". TechCrunch. Retrieved 2019-10-19.
  20. ^ Stein, Scott. "Google's radar-powered, hands-free Pixel 4 tech could go well beyond phones". CNET. Archived from the original on 2019-10-06. Retrieved 2019-09-18.
  21. ^ "Soli Radar-Based Perception and Interaction in Pixel 4". Google AI Blog. Archived from the original on 2020-03-12. Retrieved 2020-03-13.
  22. ^ Rodriguez, Salvador (29 May 2015). "Google, Levi's Team Up To Make Jeans That Are Smarter Than You". Archived from the original on 14 October 2015. Retrieved 4 November 2015.
  23. ^ Budds, Diana (4 October 2017). "What Happened When I Wore Google And Levi's "Smart" Jacket For A Night". Fast Company. Archived from the original on 1 October 2019. Retrieved 1 October 2019.
  24. ^ Statt, Nick (6 October 2016). "Google and Levi's first smart jacket is a wash". The Verge. Archived from the original on 1 October 2019. Retrieved 1 October 2019.
  25. ^ "Jacquard by Google – Saint Laurent". Jacquard by Google. Archived from the original on 2020-05-08. Retrieved 2020-03-13.
  26. ^ Lardinois, Frederic (30 September 2019). "Google brings its Jacquard wearables tech to Levi's Trucker Jacket". TechCrunch. Archived from the original on 1 October 2019. Retrieved 1 October 2019.
  27. ^ "Jacquard by Google – Adidas". Jacquard by Google. Archived from the original on 2020-03-26. Retrieved 2020-03-13.
  28. ^ "The Worlds Of Sports, Gaming And Technology Collide With All-New adidas GMR". news.adidas.com. Archived from the original on 2020-03-14. Retrieved 2020-03-13.
  29. ^ Bradshaw, Kyle (March 17, 2023). "Google is shutting down the Jacquard smart fabric app soon". 9to5Google. Archived from the original on March 17, 2023. Retrieved March 17, 2023.
  30. ^ "Google plans to bring password-free logins to Android apps by year-end". techcrunch.com. 2016-05-23. Archived from the original on 2017-02-22. Retrieved 2017-02-21.
  31. ^ "Google's Project Vault Is A Secure Computing Environment On A Micro SD Card, For Any Platform". techcrunch.com. 2015-05-29. Archived from the original on 2017-02-22. Retrieved 2017-02-21.

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This page was last edited on 27 May 2024, at 02:31
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