How Tech Addiction is changing Human Behavior ?

Life was much more easy before the Technology Comes in our lives.

Life was much more Comfortable when Apple & Blackberry were just fruits.

We are changing with the Development of Science & Technology in our Lives. We are always indulge in having something electronic in our hand - a tool to be connected to Internet, Social Games, Emails.
We’re bypassing the real world to get a digital quick-fix; our work, play and plans for stress release seem to depend on a broadband connection.

Technology Addiction can be classified to Change Human Behavior as discussed below

•  A new kind of danger on the road

Have you ever found yourself checking your smartphone for updates while still behind the wheel? I do; when I stop at a red light, queue up at a drive-thru, or while waiting to pick someone up. It’s a silly thing to do, I admit, but I’d never do the same when the vehicle I’m driving is moving, but that’s just me.
While we’re on the subject, drivers on the road are getting younger and younger; and the cars are getting bigger and more powerful. In many countries in the world, a 16-year-old who can barely hold his beer can legally go behind the wheel and speed 50 mph down the highway. Add the lethal dose of an addiction to their phones, a sense of reckless abandonment, and you have a recipe for disaster.

The Impact

Well, so many people are actually texting while driving, and getting into accidents that there is now a call by the National Transportation Safety Board (in the US) to ban texting or the use of electronic devices while driving a vehicle.

•  The digital divide – at home

Individuals at every stage of their lives are now (over) exposed to technological gadgets. i Pads are unashamedly used to babysit or pacify rowdy children from as young as 4 years old. Its easy-to-use interface, and colorful, entertaining and engaging apps attract the attention of these little ones, who reciprocate with the need of a constant feed of entertainment, day and night. Try taking the iPad away from the kid and you’ll see what I mean. It’s no wonder that the iPad can easily be classified as a toy for this reason.
Now, fast forward this situation to a decade from now. You see adults sitting around a table in a Wi-Fi-enabled café. Chances are they are not going to be talking to each other, not in the real world at least. At home, fights and arguments will occur a lot more often between spouses due to a lack of communication, and it’s not going to get any better when this generation have kids of their own.


Come to think of it, all of this is already happening right now. Technology has slowly eased its way into our lives and formed glass walls between individuals who can communicate with each other but instead chose not to.

The Impact

The good news is much of the world still operates on a non-virtual basis; the bad news is we are prepping the younger generation to function better online than off. You may view this as a good thing, with the world getting smaller and tech tools getting more powerful and everything, but our youths are not retaining general knowledge in their heads (you can thank Google for that), there is no need to be grammatically correct in text-speak (you can thank the 140 char limit for that) and well, social networks – they open up a new can of worms.

•  Searching for the ‘Like’ button offline

Ever wonder why social networking sites are so popular? My theory is that we have the burning desire to be the ‘popular kid’. In school, the unwritten goal was to have loads of friends, being able to share our ‘deep’ thoughts, have followers, and to a childish extent, show off the assets that we have – a pretty face, the latest tech gadget, a nice ride etc. Sound familiar?

Social networking sites are apparent, virtual replacements of this. You have the friend’s list or followers; you get to post status updates or quotes, as well as pictures depicting fragments of your life or the things you encounter. It’s like high school all over again, without the classes, of course. The one thing that this virtual counterpart does better than the conservative way is the spreading of information which is as easy as clicking ‘Share’.

The impact

These systems have made it so easy to post these bits and pieces of your life online that if you stumble upon anything worthy of posting, you’d drop everything and do it. See a car accident, it goes online, see a dog begging for food with its master, shared, see someone trying to jump off a building, posted.
Suddenly, even in the real world, you’re a surfer. You don’t stop to help the victim get out of the car, actually drop some coins into the beggar’s cup, or call the police to come stop the hapless jumper. Nope, it’s all about accommodating these urges to have the post of the day.

•  All things short and sweet

Our attention spans are getting shorter and shorter. Personally, I can no longer sit through a full movie, which would explain why I haven’t been to the cinema for the longest time… but that’s not the point.
The point is I can no longer concentrate on a single task at hand. That does not automatically mean that I am a multi-tasker, or that I am good at it. It just means that I have too many things, at home, at work, at school that needed my attention. Again, that’s not the point.
The fact that I can’t concentrate on one single task for a long enough period, is a source for worry. And I’m not the only one with the problem. And that is the point. We are turning into digital gold fish!
While we’re on the subject of ‘short’ things, let’s talk about short fuses. This is my most hated icon of all time…
…because it indicates that I have to act like a grown up and wait. Patience is a virtue, one that this generation finds hard to pursue. And can you blame us? We read news all around the clock, not only on a finite batch of papers th

at contains news that happened 24 hours ago. True, those articles contain more details which are confirmed and checked through but when it comes to getting the news first, it’s Twitter for us. Straight from the horses’ mouth, 140 chars, and easy to spread and share.

Conclusion

Despite the gloomy outlook painted in this article, I’m sure that the technology that keeps us connected to the Internet has done much good for our lives. However, do remember who is in control and act like it. When your digital devices are taking up too much of your life, you know it’s time to switch it off and enjoy life unplugged.

Nokia Android phone - Is it too Late ?

The Nokia-branded Android Smartphone is Coming to Market but is it too Late for the Company?

The News is that Nokia will license its name for the next 10 years to a new range of Phones & Tablets, only running with Google Platform.

But the question is "Does anybody still care about the Nokia Device ?"


Today's licensing deal isn't the first such move by Nokia - the company lent its branding and some design oversight to an Android tablet a couple of years ago, though it never officially reached western markets, and dabbled in Android phones with the short-lived Nokia X - but it is the most significant.
The phones and tablets will be made by a new company, HMD global, formed in Finland specifically to pump cash into a fresh line-up to be manufactured by Foxconn. Nokia will get royalties covering its name and its IP, while former exec Arto Nummela - until now the head of Microsoft's Mobile Devices business for Greater Asia, Middle East and Africa - will be HMD global's CEO.

As well as provisionally securing the Nokia brand from Microsoft to use on more basic phones, HMD global also has acquired "certain related design rights" from the Windows maker; it's too soon to say whether that means the distinctive poly-carbonate and metal design we'd grown familiar with from Lumia will be returning, but that's likely to be the hope among Nokia fans.
All the same, just how many of those fans are there now?

Back when Nokia made the big switch to Microsoft's OS, ditching Symbian in the process, the smartphone market was a very different one to today. Android was still a Wild West of sorts - 3.0 Honeycomb was only just being released - and the big names who had dominated flip and then feature phones were still the primary players.

The iPhone 4, meanwhile, was doing nothing to slow iOS adoption, the first significant design swing from Apple as the software itself filled in many of the gaps users had complained kept it from greatness.

Today, Apple dominates a huge section of the market. More importantly, the Android OEM space has condensed down: Samsung still succeeds, as much by its marketing budget as its phones, but new names like Huawei have - with the heft of Google and the Nexus project behind them - been propelled into the market with an alluring combination of affordability and high-end specifications.

Meanwhile HTC and LG, once huge names, are now struggling to gain anywhere near the same degree of traction.

Then there's Xiaomi. The Chinese phone-maker is notable not only for the quality and low price of its devices, but the huge fanbase it has cultivated along the way. In fact, you could easily compare that near-rabid support with the vocal fans Nokia itself used to command.

The days of such unwavering support are behind the Nokia name, slewed in waves with the loss of Symbian, the adoption of Windows Phone on Lumia, and then - for many the final insult - the sell-out to Microsoft.

Without a guaranteed audience to count on, the reborn Nokia will have to convince on features, pricing, and style. In a best-case scenario, that could look like the sleekest Lumia, pack the photographic abilities of a PureView, and undercut the Nexus 6P on shelves.
The worst-case is Nokia phones and tablets that tug at sentiment that died a long time ago.

Human Behavior Measurements - Ins & Outs ?

Human Behavior is a complex interplay of a variety of different processes, ranging from completely unconscious modulations of emotional reactions to decision-making based on conscious thoughts and cognition. In fact, each of our emotional and cognitive responses is driven by factors such as arousal, workload, and environmental conditions that impact our well-being in that very moment.

 

To help you peek beneath the surface of human behavior and its underlying processes, we recently have set you up with the ins and outs of Eye Tracking EEG, GSR & Facial Expression Analysis.

“I want to measure human behavior. Which biosensor should I use?”

Admittedly, if you are new to the field it can be quite overwhelming to gain a solid overview of the different bio-metric sensors and the available metrics (let alone the interpretation of physiological data), given the fact that each modality will provide insight into a specific key aspect of human behavior.

Which sensor is the most suitable to address your research question? Is one sensor alone able to deliver all the insights you seek or should you rather opt for multiple sensors to get to the bottom of things?

Here is your kick-start to the what, how and why of bio-metric measurements in one handy format 
I hope this gives you some deeper insights into the world of human behavior measurements. If you have any questions you are always more than welcome to contact us.

"Superman Memory Crystal" - 13.8 Billion Years storing of Data - Possibility or a Reality ?

“Superman Memory Crystal” has the Capacity to save huge amount of information for upto 13.8 billion years, acc. to Research. It has been tried with the Magna Carta, the universal Declaration of Human Rights & the King James Bible which has digitally stored on a piece of Glass Known as Superman Memory Crystal.

Using a method of laser etching, researchers at the University of Southampton, in the United Kingdom, archived these documents, along with Issac Newton’s Scientific treatise "Opticks," on coin-size pieces of glass. These tiny discs can survive for billions of years at temperatures of 374 degrees Fahrenheit (190 degrees Celsius). And at room temperature, they can last virtually forever, the researchers said.

"It is thrilling to think that we have created the technology to preserve documents and information and store it in space for future generations," Peter Kazansky, a professor at the university's Optoelectronics Research Centre, said in a statment. "This technology can secure the last evidence of our civilization; all we've learnt will not be forgotten." 

Kazansky and his colleagues first reported their "5D data storage" in 2013 at the Conference on Lasers & Electro-Optics in San Jose, California. The researchers use femato second lasers, which are lasers that produce very short pulses, to inscribe information in nano structured dots that are 5 micrometers apart. These nano-size etchings polarize light that travels through the glass. A combination of a polarizing lens and an optical microscope is all that is needed to "decode" the message, the researchers said.

The 5D moniker refers to the 3D positioning of the nanostructures as well as their size and orientation.

In 2013, the researchers recorded a 300-kilobyte text file, but the capacity of a single glass data disc is 360 terabytes (1,000,000,000 kilobytes), they reported. The discs are stable up to 1,832 degrees F (1,000 degrees C). 

Southampton researchers gave the copy of the Universal Declaration of Human Rights as a gift to the United Nations Educational Scientific and Cultural Organization (UNESCO) in early February, part of the closing ceremony of that organization's Year of Light initiative. The scientists call the glass the "Superman memory crystal," a nod to memory crystals in the "Superman" films and comics. According to the university, the researchers are now seeking industry partners to further develop the technology.

Copies of the Magna Carta, the Universal Declaration of Human Rights and the King James Bible have now been digitally stored on a piece of glass known as a "Superman memory crystal" that has the capacity to save huge amounts of information for up to 13.8 billion years, researchers say.
Using a method of laser etching, researchers at the University of Southampton, in the United Kingdom, archived these documents, along with Isaac Newton's scientific treatise "Opticks," on coin-size pieces of glass. These tiny discs can survive for billions of years at temperatures of 374 degrees Fahrenheit (190 degrees Celsius). And at room temperature, they can last virtually forever, the researchers said.
"It is thrilling to think that we have created the technology to preserve documents and information and store it in space for future generations," Peter Kazansky, a professor at the university's Optoelectronics Research Centre, said in a statement. "This technology can secure the last evidence of our civilization; all we've learnt will not be forgotten." [Science Fact or Fiction? The Plausibility of 10 Sci-Fi Concepts]

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Kazansky and his colleagues first reported their "5D data storage" in 2013 at the Conference on Lasers and Electro-Optics in San Jose, California. The researchers use fematosecond lasers, which are lasers that produce very short pulses, to inscribe information in nanostructured dots that are 5 micrometers apart. These nano-size etchings polarize light that travels through the glass. A combination of a polarizing lens and an optical microscope is all that is needed to "decode" the message, the researchers said.
The 5D moniker refers to the 3D positioning of the nanostructures as well as their size and orientation.
In 2013, the researchers recorded a 300-kilobyte text file, but the capacity of a single glass data disc is 360 terabytes (1,000,000,000 kilobytes), they reported. The discs are stable up to 1,832 degrees F (1,000 degrees C).
Southampton researchers gave the copy of the Universal Declaration of Human Rights as a gift to the United Nations Educational Scientific and Cultural Organization (UNESCO) in early February, part of the closing ceremony of that organization's Year of Light initiative. The scientists call the glass the "Superman memory crystal," a nod to memory crystals in the "Superman" films and comics. According to the university, the researchers are now seeking industry partners to further develop the technology.
- See more at: http://www.livescience.com/53783-superman-memory-crystal-data-storage.html#sthash.LmmCsLAP.dpufd

Copies of the Magna Carta, the Universal Declaration of Human Rights and the King James Bible have now been digitally stored on a piece of glass known as a "Superman memory crystal" that has the capacity to save huge amounts of information for up to 13.8 billion years, researchers say.
Using a method of laser etching, researchers at the University of Southampton, in the United Kingdom, archived these documents, along with Isaac Newton's scientific treatise "Opticks," on coin-size pieces of glass. These tiny discs can survive for billions of years at temperatures of 374 degrees Fahrenheit (190 degrees Celsius). And at room temperature, they can last virtually forever, the researchers said.
"It is thrilling to think that we have created the technology to preserve documents and information and store it in space for future generations," Peter Kazansky, a professor at the university's Optoelectronics Research Centre, said in a statement. "This technology can secure the last evidence of our civilization; all we've learnt will not be forgotten." [Science Fact or Fiction? The Plausibility of 10 Sci-Fi Concepts]

Advertisement

Kazansky and his colleagues first reported their "5D data storage" in 2013 at the Conference on Lasers and Electro-Optics in San Jose, California. The researchers use fematosecond lasers, which are lasers that produce very short pulses, to inscribe information in nanostructured dots that are 5 micrometers apart. These nano-size etchings polarize light that travels through the glass. A combination of a polarizing lens and an optical microscope is all that is needed to "decode" the message, the researchers said.
The 5D moniker refers to the 3D positioning of the nanostructures as well as their size and orientation.
In 2013, the researchers recorded a 300-kilobyte text file, but the capacity of a single glass data disc is 360 terabytes (1,000,000,000 kilobytes), they reported. The discs are stable up to 1,832 degrees F (1,000 degrees C).
Southampton researchers gave the copy of the Universal Declaration of Human Rights as a gift to the United Nations Educational Scientific and Cultural Organization (UNESCO) in early February, part of the closing ceremony of that organization's Year of Light initiative. The scientists call the glass the "Superman memory crystal," a nod to memory crystals in the "Superman" films and comics. According to the university, the researchers are now seeking industry partners to further develop the technology.
- See more at: http://www.livescience.com/53783-superman-memory-crystal-data-storage.html#sthash.LmmCsLAP.dpuf

Apple Stores - Most Beautiful of them all ?

Idea of having its own Retail Stores was not well response by many but it the scenarion changes when the first two Apple stores were launched by Steve Jobs himself.

Nearly 15 years later, Apple has more than 400 of their retail stores worldwide.

The majority of Apple Stores is standardized: each store has a clear glass front with panels stacked on either side of the main door, lighting that cut across the front of the store to the back, the same make and design of shelves and tables, a high ceiling and an overall minimalistic yet boxed up feel. This design and layout was actually patented in 2013
.
That said, many Apple Store designs worldwide break the mold and truly outshine their predecessors with amazing architectural leaps of faiths – carefully calculated deviations that do nothing but impress loyal fans and dissenters alike.

Brief History of Apple Stores

Steve Jobs was not only the brains and vision behind many of Apple’s early and iconic products, he also directed his attention towards glorifying and glamming up Apple Retail Stores (as they were called in early press releases) to the point where even today, fans still queue up for hours, sometimes days in advance to be one of the first to enter a newly launched Apple Store.

To understand the allure, let’s delve into the architectural history of Apple Store design, and to do that, we wil have to start at the beginning.

To undull history, I cheated and turned this section into a 10-item list.

1. The first two Apple Stores opened in the US on May 19, 2001, one in the Tyson’s Corner Center mall in Virginia and the other in Glendale Galleria in California.
2. Both stores opened at 10 am but due to the different time zones, the store in Virginia was opened three hours before the one in California, and thus was considered technically, the first store.
3. Steve Jobs himself showed journalists around at the store in Tyson’s Corner.
   

   

4. In 2001, 25 Apple Stores opened in the US. A year later, the number rose to 57. By the end of 2015, Apple has 463 Apple stores in 18 countries, and counting.
5. The first Apple Store outside of the US was opened in Ginza, Tokyo, Japan. It was November 2003.
   

   

6. A year later, the first Apple Store was opened in Europe on London’s Regent Street.
7. China only had its first Apple Store in 2008, in Beijing. By mid-2016, the company plans to open 40 stores in China.
8. The most recent additions to the family are the first two Apple Stores in the Middle East, namely in Abu Dhabi and Dubai.
9. Despite rumors that the store in Dubai may become the largest Apple Store in the world, Covent Garden in London still retain that honor at 40,000 sq ft across 3 storeys.
10. In 2016, Apple will open its first retail store in Southeast Asia, in Singapore.

An Obsession With Glass

It’s clear to anyone who has ever stepped into an Apple store that they have a fixation on glass. Apple’s tradition of having glass staircase as a common fixture in an Apple Store notably began with New York City’s first Apple Store in Manhattan’s SoHo district. The store featured the first of a long line of glass staircase designs that would connect future multi-storey Apple Stores.

The steps of the glass staircase in the SoHo store were made of opaque glass panes attached to side glass walls. Stainless steel bars are strategically and aesthetically positioned to guide visitors without taking away the element of elegance the structure portrays.

The design of the staircase was later on patented and the material further enhanced 10 years later in 2012. The new upgrade featured 13 m long zig-zag glass side walls made entirely out of a single pane of glass, removing any signs of dividing or adjoining lines.

Apple’s obsession with glass does not end with the staircase. It sought to build whole buildings made predominantly of glass. Take for instance, the Palo Alto store, which was the 9th Apple Store to be opened in the US and the first "street-level" Apple store. Back in 2001, it looked something like this.

Then, in October 2012, they closed down this shop to move to a newer, more modern Apple Store version, complete with stone panel walls, glass windows and curved glass rooftops.

Much better. And yet, when this store was open in October of 2012, a former Apple employee who visited the store wrote about how it was too loud to be in, citing architectural oversight as the cause of this noisy atmosphere. Others believed that the higher-than-expected noise levels was planned all along.
In any case, the same building design would be revisited in Third Street Promenade in California, Highland Village, Houston, Texas as well as the stunning Upper West Side, in New York City.

Third Street Promenade, Santa Monica, California

The building that was there, before Apple built their store at the Third Street Promenade, housed a three-story Borders bookstore, at which time a real estate firm bought the property for $26 million. They tore down the building and rebuilt it to its sole tenant, Apple’s specifications, and later on sold the property for $60 million.

Two years later, the new buyer turned seller, and resold the property for $100 million – at roughly $5,700 a foot. This happened in under 5 years. As much as Apple’s retail stores are great for increasing local market values however, it isn’t all a bed of roses for all their locations.

Highland Village, Houston, Texas

The Highland Village store is designed similar to Palo Alto and Third Street Promenade except it had the additional glass back wall. The store was also among the 5 unfortunate subjects of a shooting spree by unknown gunmen in the wee hours of May 1, 2012.
Two of the glass panels were shattered by the bullets but still held in place. The glass panels were later taped up with adhesive tape for extra measure, as they await replacement parts. If you ever wondered about the quality of the glass material used to build many of Apple’s stores, there’s your answer right there.

Upper West Side

Of all the stores that were influenced by the design at Palo Alto, it’s the one in the Upper West Side that really turns heads. Unlike the original design however, a larger portion of the glass building protrudes out into the street. The side and front of the store are built parallel to the street corner it’s on, giving it a sharp edge structure, that strangely enough, cannot be noticed at all when viewed from the right angle (see image below).

The 40-foot-high glass building takes advantage of the daylight pouring in from above, while the wall panels fill the room with reflected light. The store also has a spiralling glass staircase that leads to an underground floor and the Apple logo hangs inside the multi-award winning building.

Wangfujing

The Apple store at Wangfujing also spots a curved glass not on the roof but at the storefront. The glassy curved storefront design was also in use at the Altmarkt-Galerie store and Dusseldorf store in Germany. Wangfujing is the third store in Beijing after two others were opened in Sanlitun and Xidan Joy City. It was the largest one in Asia, at 25,000 sq ft locatedly roughly a mile from the Forbidden City. Thousands thronged the store on the first day itself.

Apart from its prime location, and massive size, the store is also renowned for housing a three-story glass staircase, a rarity in Apple Store design. It is only available in two other Apple Stores, the first on West 14th Street, New York, and another in Boylston Street, Boston, Massachusetts.

When it comes to featuring Apple Stores in China, there will always be couple of stores that cannot be left out. They are the stores in Pudong, Shanghai, and Jiefangbei, Chongqing.

Pudong, Shanghai

The second Apple Store in China opened in Pudong, Shanghai with a whole new look. A cylindrical glass entrance took center stage in the plaza with a spiral glass staircases that leads into an underground store 1,500 sq meters large.

While designing the Pudong cylindrical glass entrance, Jobs had the idea that the plaza surrounding the entrance would look nice as a circle. It wasn’t one at the time construction but Jobs had a discussion with the developer and according to Peter Bohlin, BCJ architect and fellow collaborator, Jobs successfully convinced the developer to redesign the Plaza the way he had envisioned it.

Jiefangbei, Chongqing, China

The same cylindrical entrance is also erected in Jiefangbei which opened in Chongqing China in January of 2015. This version is smaller than the 40-foot block in Pudong but Apple took pains to make the unveiling a spectacular one.

Before the unveiling of the glass cylinder, the structure was wrapped in a mural that was the combined work of art between two artists. US photographer Navid Baraty had taken a photo of the city skyline and local-born painter, Yangyang Pan added her own interpretation to the photographs.

Fifth Avenue, New York

The Apple Store at the corner of 57th Street and Fifth Avenue is easily one of the most beautifully designed retail building in Midtown. The glass cube entrance stands in front of the GM building and customers descend down into the underground store via a (you guessed it) glass staircase.

And yet the value of that basement area was unrealized for 40 years before a demo in the middle of the night by property mogul, Henry Macklowe helped cemented Steve Jobs’ vision for what would become one of the most iconic 32 foot cube in the retail industry.
Like many other Apple Stores on this list, Bohlin Cywinski Jackson were also the architects behind this marvel. The store was opened in 2006, but briefly closed for a hardware upgrade" to the cube building in 2011. Stronger, larger, more transparent and fewer (from 90 to 18 pieces) glass panes replaced the originals, leaving behind a clearer and purer form of engineering ingenuity. But the best was yet to come.

Zorlu, Istanbul

The Zorlu Center was the first Apple Store of two in Turkey opened in 2014. It was designed by Foster and Partners, the firm behind Apple's much-awaited campus (opening in 2016, fingers crossed) and also the Westlake Apple Store in China.

The design featured an exquisite "carbon fiber reinforced plastic" ceiling and 10m long by 3m high glass side walls, held together with structural silicone. The entrance led underground into the 20,000 sq ft Apple Store via a glass staircase. The glass entrance also allowed in natural lighting much like Upper West Side.

Apple Zorlu, or also known as the Glass Lantern took home the Supreme Award for Structural Engineering Excellence in 2014 as well as the award in the Commercial or Retail Structures category.

Autonomous Market to be drive by Self-driven Trucks ?

The next few years could see vehicles of all shapes and sizes, from Google’s current prototype car to Class 8 trucks, move from human drivers to computer algorithms.
Daimler, the parent company of Mercedes Benz, has already started testing its semi-truck in Nevada and Germany. Volvo and a Volkswagen subsidiary are also testing autonomous trucks in Europe, with Volkswagen’s managing over 2,000km without taking over control.

The freight business relies quite heavily on trucks, the provider of more than half the shipments in the United States, according to Wired. Bringing self-driving into the mix might be a blessing and a curse, as it might with all industries.

Autonomous trucks will reduce accidents on the road and might allow truckers — an industry that has a 90 percent labor turnover rate — to watch movies or read books instead of constantly watching the road, which might lead to a lower turnover rate.

But that short-term advantage for truck drivers will be lost once regulators let autonomous trucks drive on the road without a human inside. That is bound to bring a swift end to the freight business, at least for drivers.

 

 

 

 

 

 

 

Electric trucks another innovative step

Autonomous functionality is not the only innovation coming to trucks in the near future. A Salt Lake City-based startup, using the first half of Nikola Tesla’s as their brand name, has announced plans to launch a Class 8 electric truck, named the Nikola One.

This is not like other electric vehicles however, it features a turbine that continues to power the car, making it self-sufficient. If it happens to turn out of juice, it has a fuel agnostic car that accepts natural gas, making it the safest and cheapest car to run on the roads.

Nikola Motors promises a 1,200 mile range and 1 million miles of free fuel, though the latter might be a promotion for the first few hundred buyers.

It also plans to utilize self-driving systems in the future to improve fuel efficiency.

Google Driverless Car

"Google Driver less Car - Is it a myth or a reality" ?

I could still remember the day I watch the iRobot as a teen, and being skeptical about my brother’s statement that one day, the driverless car will become reality. And it’s now a reality, made possible by… a Search Engine Company, Google.

While the data source is still a secret recipe, the Google Driverless Car is powered by artificial intelligence that utilizes the input from the video cameras inside the car, a sensor on the vehicle’s top, and some radar and position sensors attached to different positions of the car. Sounds like a lot of effort to mimic the human intelligence in a car, but so far the system has successfully driven 1609 kilometres without human commands!

“You can count on one hand the number of years it will take before ordinary people can experience this.” Google co-founder, Sergey Brin said. However, innovation is an achievement, consumerization is the headache, as Google currently face the challenge to forge the system into an affordable gem that every worker with an average salary could benefit from.

Technology for wirelessly Share Power - Low battery Problem ?

“Common Problem – Battery Getting Drained”

A number of devices now exist to provide extra power to mobiles and wearables, such as power packs, mobile hand generators and solar cells. But although external power packs have become popular, they add size and weight, and mobile hand generators and solar cells produce only limited amounts of power.

New Inventions in Technology called “PowerShake” allows mobile and wearable devices to wirelessly charge other mobile and wearable devices on the go, even when those devices are being held or worn. Wireless-Charging Technologies are becoming more prevalent, but many of these stations are fixed, and do not account for devices near or in contact with skin.

This innovative solution could help people easily recharge mobile or wearable gadgets, particularly for tasks such as emergency phone calls, the scientists added.

"When mobile phones first came out, people really found them liberating because they didn't have to be attached to a wire, but they actually still do have to be attached to a wire when they recharge," said study co-authorMike Fraser, a computer scientist at the University of Bristol in England. "So now we're seeking to liberate mobile phones again, to help them manage power without plugging in."

Wireless charging involves at least two coils — one in the power transmitter, and one in the power receiver. When an electric current passes through the power transmitter coil, it  creates an electromagnetic field that can transfer charge to another coil. Power transmission is best at close distances, the scientists said.

The researchers experimented with a variety of power transmitter and receiver coils. They also devised electromagnetic shielding made of ferrite plates and copper tape on the back of coils in order to prevent any transmitted energy from reaching human tissue. They noted flexible coils were also possible, and potentially embeddable in watch straps.

In experiments, PowerShake fit into small devices, met wireless power transfer safety guidelines, and performed about as well at power transmission as commercial alternatives, such as the Qi wireless charging pad, transferring about 3.1 watts of power, the researchers said. They estimated that about 12 seconds of charging would support 1 minute of additional talk time, while 2 minutes of charging would support about 4 minutes of video watching.

One drawback of PowerShake is that twice as much energy needs to be transmitted as is received.

"The power transfer is not ever going to be cost-free," Fraser told Live Science. "That's just the intrinsic power cost of  wireless charging in general — wireless charging is always going to consume more power than wired charging."

In workshops, the researchers found that volunteers exploring the potential usefulness of PowerShake liked the idea of sharing power with their friends or family. However, due to the power costs of PowerShake, volunteers noted that if they needed to make an emergency call, they would probably just ask to borrow a phone instead of asking for power. Still, "if one needs to complete something on a particular device, and have already started but are running out of power halfway through and can't switch devices, this could help people," Fraser said.

The researchers now seek to have volunteers test PowerShake in real environments, "to see if it actually works, and if people do find it useful," Fraser said.

The scientists detailed their findings May 11 at the annual CHI conference on human-computer interactions in San Jose, California.

It's any phone-obsessed person's nightmare: you're out, your phone's battery is depleted down into the red zone, and there's not an electrical plug in sight. But one day, mobile and wearable devices could engage in "power-sharing," by wirelessly charging each other on the go, researchers say.
This innovative solution could help people easily recharge mobile or wearable gadgets, particularly for tasks such as emergency phone calls, the scientists added.
Mobile and wearable devices are now virtually everywhere, but their battery lives remain limited, with many lasting for less than a day. [Top 10 Inventions that Changed the World]

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A number of devices now exist to provide extra power to mobiles and wearables, such as power packs, mobile hand generators and solar cells. But although external power packs have become popular, they add size and weight, and mobile hand generators and solar cells produce only limited amounts of power.
Instead, an invention called PowerShake allows mobile and wearable devices to wirelessly charge other mobile and wearable devices on the go, even when those devices are being held or worn. Wireless-charging technologies are becoming more prevalent, but many of these stations are fixed, and do not account for devices near or in contact with skin.
"When mobile phones first came out, people really found them liberating because they didn't have to be attached to a wire, but they actually still do have to be attached to a wire when they recharge," said study co-authorMike Fraser, a computer scientist at the University of Bristol in England. "So now we're seeking to liberate mobile phones again, to help them manage power without plugging in."
Wireless charging involves at least two coils — one in the power transmitter, and one in the power receiver. When an electric current passes through the power transmitter coil, it creates an electromagnetic field that can transfer charge to another coil. Power transmission is best at close distances, the scientists said.
The researchers experimented with a variety of power transmitter and receiver coils. They also devised electromagnetic shielding made of ferrite plates and copper tape on the back of coils in order to prevent any transmitted energy from reaching human tissue. They noted flexible coils were also possible, and potentially embeddable in watch straps.
In experiments, PowerShake fit into small devices, met wireless power transfer safety guidelines, and performed about as well at power transmission as commercial alternatives, such as the Qi wireless charging pad, transferring about 3.1 watts of power, the researchers said. They estimated that about 12 seconds of charging would support 1 minute of additional talk time, while 2 minutes of charging would support about 4 minutes of video watching.
One drawback of PowerShake is that twice as much energy needs to be transmitted as is received.
"The power transfer is not ever going to be cost-free," Fraser told Live Science. "That's just the intrinsic power cost of wireless charging in general — wireless charging is always going to consume more power than wired charging."
In workshops, the researchers found that volunteers exploring the potential usefulness of PowerShake liked the idea of sharing power with their friends or family. However, due to the power costs of PowerShake, volunteers noted that if they needed to make an emergency call, they would probably just ask to borrow a phone instead of asking for power. Still, "if one needs to complete something on a particular device, and have already started but are running out of power halfway through and can't switch devices, this could help people," Fraser said.
The researchers now seek to have volunteers test PowerShake in real environments, "to see if it actually works, and if people do find it useful," Fraser said.
The scientists detailed their findings May 11 at the annual CHI conference on human-computer interactions in San Jose, California.
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