This Blog is on latest technologies,some quick fix and different prototypes they haven't even launched yet to show show u how much the world have progressed

Thursday 28 January 2016

3D Doodler. draw in air

your are a creative doodler
now take that creativity to next level by  3D-doodler
this device enables you to draw in air
it has a color full mold able jel that could be molded by using heat at the base which than converts the gel in the desired structure

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Hover boards:now fly in air

so have u ever imagined to fly with your skate borad well here it is
now you can practically fly in air by using this skate that that use a magnetic fiels that lifts the board upto 1 meter andd it could be controlled by the shiftness of the body
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noke

Noke is the world's first bluetooth-enabled padlock. Protect your property and belongings without the hassle of keys or combinations. Share access with others via the Noke app with the tap of a button
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Qualcomm WiPower

Qualcomm’s WiPower enables wireless charging through radio frequencies and provides greater flexibility for design and installation into phones and other applications like vehicles, office and home furniture, and communal spaces
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Thursday 21 January 2016

Snap

Indoor/Outdoor LED PAR lamp with integrated 720p HD IP Camera, microphone, and speaker. Supports cloud recording/playback, voice and motion activation, facial/activity recognition for home security, automation, and commercial applications
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Saturday 2 January 2016

Neuromorphic technology:computer chips like human brain

Even today's best supercomputers cannot rival the sophistication of the human brain. Computers are linear, moving data back and forth between memory chips and a central processor over a high-speed backbone. The brain, on the other hand, is fully interconnected, with logic and memory intimately cross-linked at billions of times the density and diversity of that found in a modern computer. Neuromorphic chips aim to process information in a fundamentally different way from traditional hardware, mimicking the brain's architecture to deliver a huge increase in a computer's thinking and responding power


Neuromorphic technology will be the next stage in powerful computing, enabling vastly more rapid processing of data and a better capacity for machine learning. IBM's million-neuron TrueNorth chip, revealed in prototype in August 2014, has a power efficiency for certain tasks that is hundreds of times superior to a conventional CPU (central processing unit), and more comparable for the first time to the human cortex. With vastly more computing power available for far less energy and volume, neuromorphic chips should allow more intelligent small-scale machines to drive the next stage in miniaturization and artificial intelligence.
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CHIP world's cheapest and smallest computer

CHIP:
World's cheapest PC is smaller and more powerful than a Raspberry Pi

Chip features 512 MB of RAM, 4 GB of storage, as well as WiFi and Bluetooth connectivity.


A new miniature computer that features all the same functionality as a regular PC has been developed by a US startup, costing just $9





chip is ready for shipping
and its new BATCH is to be expected in 2016
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Friday 1 January 2016

Digital genome:Digitally detect a disease

NOW genetic code is on a USB stick
 the first sequencing of the 3.2 billion base pairs of DNA that make up the human genome took many years and cost tens of millions of dollars, today your genome can be sequenced and digitized in minutes and at the cost of only a few hundred dollars. The results can be delivered to your laptop on a USB stick and easily shared via the Internet. This ability to rapidly and cheaply determine our individual and unique genetic makeups promises a revolution in more personalized and effective health care.

Many of our most intractable health challenges, from heart disease to cancer, have a genetic component. Indeed, cancer is best described as a disease of the genome. With digitization, doctors will be able to make decisions about a patient’s cancer treatment informed by a tumor’s genetic makeup. This new knowledge is also making precision medicine a reality by enabling the development of highly targeted therapies that offer the potential for improved treatment outcomes, especially for patients battling cancer.

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Additive Manufacturing:now manufacture thing at your home with 3d printing


The future of making things, from printable organs to intelligent clothes .
As the name suggests, additive manufacturing is the opposite of subtractive manufacturing. The latter is how manufacturing has traditionally been done: Layers are subtracted, or removed from a larger piece of material (wood, metal, stone, etcetera), leaving the desired shape. Additive manufacturing instead starts with loose material, either liquid or powder, and then builds it into a three-dimensional shape using a digital template, one layer at a time.
An important next stage in additive manufacturing would be the 3-D printing of integrated electronic components, such as circuit boards. Nanoscale computer parts, such as processors, are difficult to manufacture this way because of the challenges of combining electronic components with others made from multiple different materials. In other areas 4-D printing now promises to bring in a new generation of products that can alter themselves in response to environmental changes, such as heat and humidity. This could be useful in clothes or footwear, for example, as well as in health care products, such as implants designed to change in the human body.


Three-dimensional products can be highly customized to the end user, unlike mass-produced manufactured goods. An example is the company Invisalign, which uses computer imaging of customers’ teeth to make near-invisible braces tailored to their mouths. Other medical applications are taking 3-D printing in a more biological direction: Machines can directly print human cells, thereby creating living tissues that may find potential application in drug safety screening and, ultimately, tissue repair and regeneration.
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Wireless implantable devices

After several years of testing and development, a miniature device is now available* that can monitor a range of substances in the blood, providing instant results via mobile phone. Inserted by needle and placed just beneath the skin, it can remain in the body for months before needing to be replaced or removed.

This tiny laboratory measures 14mm (0.55") and comprises five sensors, a coil for wireless power as well as miniaturised electronics for radio communication. The entire system is powered by a mere one-tenth of a watt. Each sensor's surface is covered with an enzyme that is used to detect chemicals like ATP, glucose and lactate. Data is transmitted via Bluetooth to a mobile phone, which can then be sent to a doctor, if necessary.
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SCIENTISTS SUCCESSFULLY CONNECT BRAIN TO ANDROID TABLET

in the year 2014 a women (code name : T6) suffers from amyotrophic lateral sclerosis (also known as Lou Gehrig’s disease), which causes progressive motor neuron damage. Mostly paralyzed from the neck down, T6 retains her sharp wit, love for red lipstick and miraculous green thumb. What she didn’t have, until recently, was the ability to communicate with the outside world.



In contrast to eye-trackers, neural prostheses directly interface the brain with computers, in essence cutting out the middleman — the sensory organs that we normally use to interact with our environment.
Instead, a baby-aspirin-sized microarray chip is directly implanted into the brain, and neural signals associated with intent can be decoded by sophisticated algorithms in real time and used to control mouse cursors.......
millions of people worldwide have severe paralysis from spinal cord injury, stroke or neurodegenerative diseases, which precludes their ability to speak, write or otherwise communicate their thoughts and intentions to their loved ones.
with the launch of this new project there is a still hope that they can enjoy their life...!!
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