Our architecture draws on and potentiates this work say Alex Graves Greg Wayne and Ivo Danihelka at Deepmind which is based in London.
A ribbon-cutting ceremony at East Palo alto Academy is a poignant indication of how much needs to be done to close the zip-code divide.
An associate professor of media arts and sciences and leader of the Biomechatronics Group in MIT's Media Lab Herr is sophisticated building devices that aid human movement by mimicking nature.
What itunes Did for Music? The point-of-sale terminal at the CVS drugstore in Palo alto, California, can accept payments through a quick tap from a smartphone.
While some features have already been built a long list of them are still to come such as the ability to block other users from seeing your profile to post music
Alnylam looked everywhere for solutions scouring the scientific literature collaborating with other companies considering novel approaches of its own.
The Synapse chip breaks with a design known as the Von neumann architecture that has underpinned computer chips for decades.
and scalability of this architecture are really unique. One downside is that IBM chip requires an entirely new approach to programming.
Brooks Kincaid, the company cofounder and president, says the batteries combine the best features of thin-film lithium batteries and printed batteries.
Google aims to change that by creating search results that take you somewhere specific within an app or trigger a function like playing music by a specific artist.
They incorporate thin films of silicon, which increase efficiency by helping electrons flow more freely out of the material,
would allow people to make music with facial expressions: raise or lower eyebrows to make a tone rise or fall,
or smile or frown to make music that sounds happy or sad. Affectiva grew out of emotion-detecting research at MIT Media Lab. The company software,
Higher quality music seemed to come from a fake hi-fi speaker. And a stuffed bird high off the ground produced realistic chirps.
Dipasquale has dabbled in using multipeer connectivity himself creating an experimental app that streams music from one device to several others nearby.
In fact, this type of structure and material architecture allows flexibility and freedom in the design of batteries,
In fact, this type of structure and material architecture allows flexibility and freedom in the design of batteries,
while in the Odyssey and more recent literature, it is depicted as gentle and light a warm breeze that melts the snow.
The students, graduates of Telecom Paristech and the Ecole Nationale Superieure des Arts Decoratifs, met
while in the Odyssey and more recent literature, it is depicted as gentle and light a warm breeze that melts the snow.
The students, graduates of Telecom Paristech and the Ecole Nationale Superieure des Arts Decoratifs, met
Literature shows pathogenic leptospires can be found in rodents, dogs to pigs and even horses."
#Design Lab Workshop merges 3d printing with solar energy for glowing architecture As more architects look into ways of using additive manufacturing as a way of constructing their buildings,
what possible with 3d printing and architecture are Design Lab Workshop Brian Peters and Daphne Firos.
The design duo, who both share a background in architecture, have been busy creating various ways of integrating additive manufacturing into the build process for a variety of structures.
the design team has been focusing on an experimental structure that highlights the potential of architecture including new fabrication techniques (3d printing),
Each of the 94 modules were 3d printed using a 6-axis robot arm in the Robotic Fabrication Lab at the nearby College of Architecture and Environmental design at Kent State university in Ohio, USA.
and Firos have been up to in the architecture and 3d printing space, be sure to check out the rest of their portfolio over at Design Lab Workspace.
and used it to desorb material from a thin film of organic molecular glass or polyphthalamide polymer (PPA).
these MASSIVEIT machine will be a huge hit indeed. s an example it would take ONLY 5 hours to print a simple sculpture of a standing human being (dam in full size,
+Project, which is based out of the Sliperiet Fablab at Umeå Arts Campus, which is a part of the country well-regarded Umeå University,
Bernie Jones, a co-leader of the Smart Villages Initiative, states that although the method of producing the solar film strips at a low cost has been perfected
The first is intended as a family entertainment and education device. It will come equipped with two smartphone charging docks
Danit Peleg final design project at Shenkar College of Engineering and Design in Israel was a 100%3d printed fashion line inspired by Eugene Delacroix 1830 painting iberty Leading the People
This architecture allows designers to use smaller, cheaper, low-power batteries and extend their run-time and cycle life,
Thinline works with thin-film, solid-state, and other low-power batteries such as coin cells/button cells, energy harvesting modules (solar, vibration/kinetic, RF,
Stoddart is the Board of trustees Professor of Chemistry in Northwestern Weinberg College of Arts and Sciences. ll living organisms,
The researchers designed the nanoparticle architectures by means of an octahedral scaffold, with particles placed in accurate locations on the scaffold as per the specificity of DNA coding.
and a suitable pore architecture that allows for the rapid movement of ions from the electrolyte solution to the carbon surface."
#Canatu Announces Design Win for Carbon nanobud Material-Based Flexible Touch Films Canatu, a manufacturer of next-generation transparent conductive films and touch sensors, has announced today a design win for a first-to-market fully flexible product.
The announcement coincides with the Display Week 2015 exhibition, organized by Society of Information Display,
Canatu unique CNB#Flex Film has been utilized to create a complete One-Plastic-Solution, OPS, incorporating display window,
Canatu is in prime position with its truly flexible CNB#Flex Film and the One-Plastic-Solution touch.
Earlier this year Canatu launched its super-thin 23 um CNB#Flex Film which is optimized for wearable,
At 23 um, the super-thin CNB#Flex Film is the thinnest transparent conductive film on the market.
Canatu CNB#Films unleash an unprecedented design freedom for manufacturers to create new and novel wearable, foldable or rollable devices.
which has been overlooked often in the first wave of wearable devices. ur message is our films are the best transparent, flexible, conductive films on the market,
Canatu CNB#Films have 97%optical transmittance at a sheet resistivity of 150 ohms/square and 95%at 100 ohms/square.
CNB#Flex Films have a world lowest 1%change in sheet resistivity after 150 000 bends at 1 mm radius
created a novel architecture for the membrane distillation process by immobilizing carbon nanotubes, which are an atom thick and about 10,000 times smaller than a human hair in diameter, in the membrane pores.
including nanoscale visual arts, security marking and information storage. The researchersprinting surface consists of a sandwich-like structure made up of two thin films of silver separated by a pacerfilm of silica.
The top layer of silver film is 25 nanometers thick and is punctured with tiny holes created by a microfabrication process known as focused ion beam milling.
The bottom layer of silver is four times thicker than the top layer but still minuscule at 100 nanometers.
Between the top and bottom films lies a 45-nanometer silica dielectric spacer. The researchers created a scaled-down template of the athletic logo and drilled out tiny perforations on the top layer of the metamaterial structure.
"Enhancement of low energy electron emission in 2-D radioactive films.""Nature Materials. http://dx. doi. org/10.1038/nmat4323.
polymers, complex materials and thin films, instantly correlating chemical maps with sample properties, such as modulus, conductivity, and workfunction.
The metamaterial, a nanostructure of rotated slits etched into a gold film, changes the phase of the surface plasmons generated at each slit relative to each other
which has a much higher sensitivity than conventional camera film. It is capable of capturing movies of the nanoparticle
"Mirkin is the George B. Rathmann Professor of Chemistry in the Weinberg College of Arts and Sciences and professor of medicine, chemical and biological engineering, biomedical engineering and materials science and engineering.
and commercial applications, including mobile phones, notebooks, tablets and webcams, digital still and video cameras, security and surveillance, entertainment devices, automotive and medical imaging systems.
and built a novel full-duplex transceiver architecture, which combines electrical balance isolation and active radio frequency cancellation.
Leo and Chunqing have taken full advantage of the new laboratory facilities in the validation and optimisation of our full-duplex architecture.
The special architecture of the sensor opens up room for further applications. Thanks to the large number of lines
and a little bit more comprehensive than some of the other designs that might be reported in the literature.
The patented device involves a thin film of aluminum deposited on top of a silicon layer placed under strain,
#Researchers Report Completely Transparent Absorbers at Nonoperational Frequencies The manipulation of light has led to many applications that have revolutionized society through communications, medicine and entertainment.
We marvel at the robots we see in films: some try to wipe out humanity, such as Ultron in the recent Avengers film,
while others like C-3po in Star wars are helpful albeit slightly annoying. But they are the still the stuff of science fiction,
Stoddart is the Board of trustees Professor of Chemistry in Northwestern's Weinberg College of Arts and Sciences."
Lung, and Blood Institute and Yale university examined the subcellular architecture of presynaptic terminals in retinal bipolar cells of live goldfish.
and analyzing the patterns they left behind on film. One of the more famous images in biology is known as"Photo 51,
and analyzing the patterns they left behind on film. That image provided Nobel prize winners James Watson
Chemical weapons From airport security detecting explosives to art historians authenticating paintings, society thirst for powerful sensors is growing.
chemical warfare agents, fraudulent paintings, environmental contaminants and more. he technology wee developing a universal substrate for SERS is a unique and, potentially, revolutionary feature.
The technology consists of a thin film of silver or aluminum that acts as a mirror
600 associations and confirmed 39 links previously reported in the medical literature. The researchers also uncovered 16 new associations,
. But a chance observation by researchers at the Georgia Institute of technology will cause a recalculation of those predictions for conditions in which hydrogel films line the tubes carrying water-based liquids. ather than moving according to conventional expectations,
Water entering a tube coated on the inside with a dry hydrogel film must first wet the film
That would allow precise control of fluid flow on demand using external stimuli to change polymer film behavior.
Finding nearby people to share photos with at a crowded concert. Sending push notifications from a museum about an app that provides more information about exhibits
At a recent ceremony that hailed the plant opening, company and California officials touted the plant for
and join the party that will dance on the grave of fossil fuels: battery manufacturers, copper and lithium miners, electronics producers, software developers, electric engine makers, smart grid builders and, of course, solar and wind power manufacturers, installers and financiers.
The silicon anode that results features the 3-D hierarchical architecture of the reed leaf as well as an interconnected porosity+internal carbon coating.
which as we demonstrate can be transformed into a well-suited 3d highly porous hierarchical Si architectures. he topological architecture of the original silicates within the reed leaves is preserved extraordinarily well during the applied chemical and physical treatment steps.
and stimulates it in time with a relaxing mixture of music and nature sounds, which is played through earphones connected to a signal generator the size of a mobile phone.
including a metal gate, lion sculpture and intricate painted tablet. The lion sculpture, which once stood in the museum,
was clearly once popular with visitors, as the volunteers had 16 images to work from. he more photographs you have,
'As well as being used in gaming and interactive cinema, the technology can also be used in real-world applications, such in medicine, education, virtual tourism and for conferences.
'The founders now plan to work with content developers to provide more games and films for Fove users.
Currently, it can only be measured by drilling a hole through the skull to implant a pressure probe into the brain in theatre or a lumbar puncture,
Two years ago, the US Special Operations Command (Ussocom) called on scientists to develop a suit reminiscent of the version seen in the Iron man films that uses nanotechnology
WOLVERINE-SUPER-HEALING POWERSIN the X men films, Wolverine has mutant powers which mean he can heal himself-even
you can alter the quality of the music you are listening to at a gig.
Live mix a concert by adding reverb. Enhance your senses and personalise every listening experience. he earbuds boast a six-hour battery life,
and is targeted optimised for, episodic use in live scenarios (such as concerts, stadiums and flights) where you can control and curate
17:24 GMT, 10 june 2015 If you have wanted always to step inside a Star wars film, a new gadget may help bring that dream a step closer to reality.
-much as it is in the Star wars film. The company added Holus is central place to sync any device
Exploding cells captured on film for first time-shedding light on how our immune system works A key component of the body defence against disease has been captured on film for the first time.
and situations like running into an old school friend at the opera. The patients were presented first with images of celebrities,
lettuce and herbs underwater They wouldn look out of place in a sci-fi film, but these underwater pods are in fact the world most futuristic farm.
books and other entertainment are suddenly accessible and complete freedom of movement is returned. Every esight user has their own inspiring story of success to tell.
Compelling opportunities exist for analogous 3d architectures in human-made devices, but design options are constrained by existing capabilities in materials growth and assembly. e report routes to previously inaccessible classes of 3d constructs in advanced materials,
To produce graphene-like films the material can be peeled off in ultra thin layers. The thinnest films obtained so far are only two atomic layers thick.
The work was supported by the Office of Naval Research (ONR the Air force Office of Scientific research (AFOSR), the Center of Excellence for Nanotechnologies (CEGN) of King Abdul-Aziz City for Science and Technology (KACST), the German Research Council (DFG) and the TUM
#Graphene film can super cool LEDS Researchers at Chalmers University of Technology have developed a method for efficiently cooling electronics using graphene-based film.
The researchers have shown that the in-plane thermal conductivity of the graphene-based film, with 20 micrometer thickness, can reach a thermal conductivity value of 1600 W/mk,
A likely application says Johan Liu is the integration of graphene-based film into LEDS, lasers and radio frequency components for cooling purposes. s
To produce graphene-like films the material can be peeled off in ultra thin layers. The thinnest films obtained so far are only two atomic layers thick.
The work was supported by the Office of Naval Research (ONR the Air force Office of Scientific research (AFOSR), the Center of Excellence for Nanotechnologies (CEGN) of King Abdul-Aziz City for Science and Technology (KACST), the German Research Council (DFG) and the TUM
#Graphene-based film can super cool LEDS Researchers at Chalmers University of Technology have developed a method for efficiently cooling electronics using graphene-based film.
The researchers have shown that the in-plane thermal conductivity of the graphene-based film, with 20 micrometer thickness, can reach a thermal conductivity value of 1600 W/mk,
A likely application says Johan Liu is the integration of graphene-based film into LEDS, lasers and radio frequency components for cooling purposes n
an autonomic IT operations management platform that integrates into an organization existing architecture, consolidating systemwide information into a single view.
Google also talked up the concept of giving new and unusual battery designs a forum to experiment with Project Ara there are battery technologies that offer substantial improvements over conventional lithium polymer architectures
so the research team installed a 50nm-thick gold film to get the job done.
The gold film sits below a silicone rubber layer composed of thousands of tiny pillars that help create more surface area for skin contact,
If you have had ever two speakers playing the same music separated by a few meters, by walking in a straight line some distance away from the speakers,
but in an architecture that can be manufactured inexpensively, but still offer both electronic multicolor and transmission changing control.
seeing that the use of organic film as the electron transport in past LED production resulted in a decreased photoluminescence and an inaccurate color reproduction.
These films change curvature as a function of relative humidity, and dramatic changes in the overall length of tapes occur in humid and dry conditions.
and off by the same process as a silicon transistor could let it power continued increases in processing speed without requiring engineers to invent a whole new sort of logical architecture.
combined with the ability to create relatively ormaldigital architecture, could allow truly advances in computer processors.
Researchers at Chalmers University of Technology, Sweden, have developed a method for efficiently cooling electronics using graphene-based film.
The film is attachable to electronic components made of silicon and has a thermal conductivity capacity that is four times that of copper.
One example is the integration of graphene-based film into microelectronic devices and systems, such as highly Efficient light Emitting Diode lasers and radio frequency components for cooling purposes, Liu said. raphene-based film could also pave the way for faster,
smaller, more energy efficient, sustainable high power electronics, he said i
#Wireless power transfer now lets you charge mobile phones from a distance Now, you won have to look for a socket to charge your phone or a laptop.
Previous victims have included retailers like Target and Home depot, banks like J p morgan & Chase and entertainment conglomerate Sony Pictures.
Through this app, Watson seems less like it stepped out of a science fiction film and more like a useful tool that can be applied to everyday life.
and understands more and more of the published literature and can instantly recall and analyze it in terms of structure and natural language.
researchers need to create a versatile architecture that permits full control over individual electrons in computational arrays p
Mirkin is professor of chemistry in the Weinberg College of Arts and Sciences and professor of medicine, chemical and biological engineering, biomedical engineering and materials science and engineering.
As part of the study, Scott and Keri San miguel put a film of ds RNA on plate glass
which is a region that hasn really been highlighted in the bipolar literature before.""By the time patients show symptoms
the researchers conducted an extensive search of the scientific literature on bipolar disorder and began to find pieces of evidence that suggested that the cerebellum may function abnormally in bipolar disorder
In their study, the investigators used thin films of gold about 120 nanometers (nm) thick that were deposited onto a plastic chip containing microfluidic wells in order to hold the PCR mixture and DNA sample.
The light was able to heat electrons at the interface of the gold films and DNA solution ramping temperatures up staggeringly fast at approximately 13°C per second.
Savin and colleagues put recombination in check by applying a thin aluminum film, acting like a chemical and electronic shield, on top of the nanostructures.
It consists of rolls of adhesive wallpaper made of flexible polymer film, which is embedded with Kevlar fibers in a crisscross pattern.
and copper structures The method developed at the University of Twente in The netherlands involves microscopic drops created from a thin metal film that is melted by a pulsed laser.
#3d printing breakthrough creates tiny metal structures The method developed at the University of Twente in The netherlands involves microscopic drops created from a thin metal film that is melted by a pulsed laser.
and have featured in live theatre performances around Australia. Spinks further posits that the flutes could have commercial potential
microminiature perforations are made in a multilayered structure consisting of two thin films of silver separated by a film of silica 45 nanometers thick.
The uppermost layer of silver film, just 25 nanometers deep, is punctured with miniscule holes using a focused ion-beam milling microfabrication process.
This is because their research shows that the periodic holes on the surface of the silver film provides excitation of surface-plasmon polaritons (electromagnetic waves that travel along the surface of a metal-dielectric
As such, its unique properties may allow it to be used in ways not previously possible in the areas of nanoscale visual arts,
Surface plasmon resonance (SPR) is a process where a stream of light is directed onto a metallic film, with most,
Some of the light is absorbed by electrons on the film's surface which causes them to jostle.
When a fluid is brought then into contact with the metallic film, it affects how the light is absorbed
where an atomically aligned crystalline film is grown"on top of a different crystalline substrate. In order to achieve heteroepitaxy,
so the material may be incorporated easily with inexpensive commercial methods of manufacturing solar film and other PV devices.
and try to beat the record power efficiency reported in the literature, "said Gong. The work was published recently in the journal Nature.
Milliron and her team demonstrated a proof-of-concept that achieves optical control properties from a single-component film.
and the dial can turn the music down in the same situation. Most of the early movers in the smart home market are interested in safety and security,
and stripping the modern lithium-ion battery architecture of all its inactive materials and complex manufacturing steps.
This performance gap between software and wetware persists despite some correspondence between the architecture of the leading machine learning algorithms and their biological counterparts in the brain,
and architectures designed to deliver on the promise of exascale science, notes the agency. The President is seeking $620, 994,000 for the ASCR program in 2016, an increase of 14.8 percent.
hardware architectures and system software, and programming for energy-efficient, data-intensive applications. Other pieces of the ASCR roadmap include the mandate to maintain operations with>90 percent availability, deployment of a 10-40 petaflop upgrade at National Energy Research Scientific Computing Center (NERSC),
they have been limited by the manufacturing processes used to create the complex architecture. here are limits to how thin a battery can be,
Imagine dismissing smartphone notification with the wave of a hand or pressing your fingers together to play music from a bluetooth speaker.
but their intricate internal architecture blew Lancaster away. Under the microscope, the brain blobs were doppelgangers of 9-week-old fetus brains.
Just last month at the International Society for Stem Cell Research conference in Stockholm, scientists reported updated methods to more reproducibly culture organoids with better architecture.
which Alex was awarded $2, 000 at a ceremony at the Ontario Science Centre last month.
#It is illegal to rip music off a CD or put DVDS onto hard drives, UK High court says The ruling had previously been in place,
meaning that copyright holders for music and films could be in for huge compensation payouts for the illegal ripping.
The record industry claims that such ripping takes as much as £58 million from musicians, which they should receive back in compensation.
The ruling doesn just stop people from taking music or films off discs so that they can be watched on portably entertainment gadgets like ipods or ipads.
It also means that anyone taking music for future study like teachers using videos in a class,
or researchers looking at films would be liable to pay out. The Government had previously let such situations continue by introducing exemptions to let people rip media for personal use.
But representatives of the music industry including Basca, the Musicians'Union, and UK Music hallenged those exemptions and had rejected them by the High court.
When it was previously illegal to rip music prosecutions and claims were very rare, and the industry usually ignored those simply ripping music for their own personal and private use
#Melt Electrospinning Writing, A New 3d printing Technique, Points Way to Human Tissue Repair (Technische Universitat Munchen) An international study points the way toward wider,
once perfected, may open the door to a variety of new 3d printing applications within the art industry, medicine, aerospace, security, architecture, and more.
#Researchers Build Memcomputing Prototype Over at Scientific Advances, a newly published paper describes a high-efficiency architecture called memcomputing.
and, using the appropriate architecture, with resources that only grow polynomially with the input size.
We show an experimental demonstration of an actual memcomputing architecture that solves the NP-complete version of the subset sum problem in only one step
We have fabricated this architecture using standard microelectronic technology so that it can be realized easily in any laboratory setting.
unlike the present-day single-state machines built using the Von neumann architecture c
#IBM Improves Solar Forecasts with Machine learning Today IBM Research announced that solar and wind forecasts produced using machine learning
Overtext Web Module V3.0 Alpha
Copyright Semantic-Knowledge, 1994-2011