There was a time when internet surfing and Internet Explorer went hand in hand.
Internet Explorer completely dominated the internet browsing market. Internet Explorer’s monopoly resulted in very few improvements and updates previously. However, the situation has changed drastically in the last decade or so. Internet Explorer faces stern competition from the likes of Mozilla Firefox, Google Chrome, Safari and Opera Next and a host of other up and coming internet browsers. The introduction of a number of new internet browsers may not please Microsoft, but all these changes are definitely set to improve the overall browsing experience of the ordinary users. This has resulted in an overall improvement. Such stiff competition also means that it is a market where each company is trying to give the users an edge by introducing features which others don’t have. So what are the changes that have come about? Here are some points.
Compatibility –The compatibility of a browser is the key to its use. For example Internet Explorer is only compatible with Windows OS and Safari is compatible only with Mac OS. Hence, compared to Google Chrome, Mozilla Firefox and Opera Next, Internet Explorer and Safari, lag behind in this regard, since can be used only on Windows, Mac OS and Linux.
Installation – Installation in all these browsers is similar. One has to download them from their respective websites, followed by the installation procedure. The only visible difference in the installation procedure is that Internet Explorer asks the user to reboot the computer/laptop after installation.
Updates – Safari and Internet Explorer clearly fall behind Mozilla Firefox, Google Chrome and Opera Next when it comes to updates. They install faster and much seamlessly and download the updates in the background and automatically apply the software when the programs are restarted. Manual installation of updates is also available on Mozilla Firefox. Moreover, Internet Explorer and Safari updates are not as regular as on the Mozilla Firefox, Google Chrome and Opera Next browsers. This means that any fault in one of these browsers is more likely to be fixed at an earlier stage than the Internet Explorer or Safari.
Design – Most of these browsers aim to be simplistic and minimalistic and are looking to save space. Features like Google Chrome’s Omnibox, in which the address bar doubles up as a search bar and its single click bookmarking set it apart from its peers. Apart from these, most of the browsers are similar in their design. The users can also change the skin of the browsers. They have a wide variety of choices to choose from. There is also an option where the user can personally make the skin of the browser.
Performance – All of the browsers are can handle speed with ease and are up to the web standards. All of them are marked improvements from the browsers of the recent past. These browsers are much faster and leaner than their predecessors. When they go head to head, they are neck and neck in terms of Web Standard Compatibility and speed.
Typing Braille on a touchscreen device is now entirely possible thanks to new app iBrailler Notes. (Photo from iBrailler Notes)
Relaxnews Published Sunday, February 15, 2015 10:49AM EST
It may sound impossible, but a Stanford engineer has developed an app that allows the blind to write in the tactile language Braille using an iPad.
To locate keys on the keyboard of iBrailler Notes, users hold their fingertips — but not their their thumbs — anywhere on the screen of their iPad and the software draws the keys around their fingers.
Relocating the eight keys is easy and can be done at any time, so if the user gets distracted or wants to change positions, they will follow him wherever he places his fingertips.
The app’s advanced features include an undo/redo function that kicks into gear with either a clockwise or a counterclockwise fingertip twist on the screen.
It embodies most Brailler formats, including scientific and mathematic Braille and Braille in other languages, which gets complex due to nuances, according to inventor Sohan Dharmaraja.
The iBrailler Notes app also offers one-click Google access and it provides search results by speech.
What’s more, it’s free, eliminating the need to buy a conventional Braille reader, most of which cost several thousand dollars and whose functions are limited in comparison to iBrailler Notes.
Earlier this month, Patently Apple discovered a patent issued to “Apple Electric Car, Inc.” It was intriguing, but the patent was given to a duo out of Miami, and the tech described in the patent wasn’t exactly something Apple would release.But while that patent didn’t come from Cupertino, a team at Apple is apparently interested in electric cars. Sources have told Reuters and The Wall Street Journalthat Apple has “several hundred” employees working on an electric car, known internally as Titan.
Whatever it’s testing, it remains to be seen if we’ll ever actually see an electric car roll into an Apple press event. Apple, like most tech companies, often experiments with technologies it never brings to market.
Still, according to the Journal, “the size of the project team and the senior people involved indicate that the company is serious.”
The paper pointed to talks with high-end car makers and Apple’s work with designer Marc Newsom, who has experience with car design.
Though Apple has billions in the bank, its last big “revolutionary” product was the iPad in 2010, and even that has taken a hit in the last year. The Apple Watch is coming up in April, but many Apple watchers are waiting for Cupertino to come up with something truly surprising and dazzling.
Could an electric car be the ticket? The Journal said the car project has enticed many an Apple employee to remain with the company. Apple might be on to something there; a recent report suggested that Elon Musk and Tesla Motors havepoached upwards of 150 Apple employees in recent years.
Tesla, of course, is currently one of the biggest names in electric cars. And it’s not opposed to a little competition. Last year, Tesla announced that it will not file any lawsuits against companies that want to use its patented technology for electric vehicles. Tesla and Apple are not strangers, either. In 2014, Musk confirmed that he had informal talks with execs at Apple, but he denied any acquisition plans.
For more, check out 5 Electric Cars That Failed to Go the Distance above.
Doctors at the Centre for Alzheimer’s Research in Sweden published results of their new study this week and say it shows promise. The study involved implanting nerve proteins into the brain to fight the degradation of cells that causes Alzheimer’s.
Alzheimer’s: degradation of brain cells
Published in the new edition of the science journal ‘Alzheimer’s and Dementia’ the study, with the unwieldy title of Changes in CSF cholinergic biomarkers in response to cell therapy with NGF in patients with Alzheimer’s disease, involves implanting a ‘nerve growth factor’ (NGF) right into the brain of a patient suffering from Alzheimer’s Disease.
Here’s why: Cells called cholinergic nerve cells break down in a person who has Alzheimer’s. These nerve cells need a specific group of proteins in order that they survive and fully function; the proteins they require are the NGF proteins, the ‘nerve growth factor’ proteins. As the cholinergic nerve cells degrade due to a lack of NGF the condition of the Alzheimer’s patience worsens.
Memory impairment slowed down
Traci Pedersen, an associate news editor of the online publication Psych Central, notes that to prevent the degradation of the nerve cells, they implanted NGF into the basal forebrain of the patients.
“In an attempt to thwart the breakdown of these nerve cells, the researchers introduced NGF directly into the brains of Alzheimer’s patients,” she wrote. “To do this, they placed NGF-producing cell capsules in the basal forebrain. These capsules, which can easily be removed, then released NGF to the surrounding cells in order to prevent their degradation.”
Among other things, Dr. Taher Darreh-Shori, who lead the study, said tests in the six patients they studied showed an increase in “cholinergic cell activity and metabolism in the brain” and that the patients, over time, showed a slowing down of impairment to their memory.
They intend to conduct another study, this time implanting NGF into the brains of a greater number of Alzheimer’s patients
This Jan. 6, 2006, file photo shows a tattoo artist at the Los Angeles county fairgrounds in Pomona, Calif. (AP Photo/Chris Carlson, File)
The Canadian Press Published Sunday, February 15, 2015 11:44AM EST
HALIFAX — When Alec Falkenham was getting his first tattoo, he was already thinking of ways to remove it.
Not that the PhD student at Dalhousie University has any regrets about getting inked. But he saw a connection between his pathology work and the tattooing process.
“Being a scientist, I was very interested in how a tattoo worked,” he said.
Falkenham said he realized he could use the same concepts from his work on heart cells to target cells containing tattoo pigment.
Now he says he has developed a topical cream that could eventually remove tattoos from people’s skin.
Falkenham’s method, which he calls bisphosphonate liposomal tattoo removal, is still in the research stages. But he says it could become an alternative to the current options.
“You’re destroying the skin in the process of all the other techniques I’ve seen so far,” said Falkenham. “What we’re trying to do is stay away from actually destroying the skin while still removing the tattoo.”
Falkenham’s cream allows a drug to penetrate the skin, killing cells that hold tattoo pigment while leaving the surrounding cells untouched.
He said laser removal, by contrast, heats the pigment, which can cause cells to rupture and lead to blisters and scarring.
But scarring is not always to be expected with laser tattoo removal, said Marina Munroe, who operates Clean Canvas Tattoo Removal in Halifax and performs laser treatments.
“It’s definitely a partnership when you remove someone’s tattoo,” Munroe said. “Not only does the session have to be done correctly, but the person has to take care of it.”
Laser removal at Munroe’s clinic generally costs $75 per square inch for one session. Munroe said most clients receive between three and six sessions, with effectiveness depending on the state of the tattoo.
The topical cream Falkenham is developing costs about 4.5 cents per square centimetre for each treatment. However, he cannot say how many treatments would be necessary because at this point he is only working on mice.
One in five Canadians has at least one tattoo, according to an Ipsos Reid poll conducted in 2012. The same poll says a tenth of the Canadians who get tattoos regret having them.
“We obviously have a lot of interest. I often hear from people asking if they can be a guinea pig,” Falkenham said, laughing.
For now, he and his research team are planning to move on to larger animals such as pigs. But Falkenham said he hopes the cream will eventually become a consumer product.
Chad Lieberman is quite famous for implementing innovative and bespoke strategies to help clients meet their specific goals and objectives.
Miami, Florida (PRUnderground) February 13th, 2015
We often judge the quality of a website by its success. It is therefore important for webmasters to understand the different tricks and tip for enhancing the performance of their websites. Chad Lieberman explains some strategies that webmasters can use to improve their website’s search engine rankings.
According to Chad Lieberman, many webmasters are familiar with the basics of SEO. However, SEO is dynamic. Search engines keep changing and improving their algorithms. The SEO landscape is never the same and strategies have to alter to accommodate these changes.
One simple strategy that Lieberman suggests is to ensure that your website URLs are search friendly. It is important to incorporate actual words in your URL to make it easy to understand and provide information of what the page contains. For example, instead of using a URL such as domainname/89200_9289.html, you should rename it to domainname/about_us.html.
Lieberman also advises webmasters to make use of multifunctional search engine optimization strategies such as suggested pages sections. Including suggested pages such as ‘other users found this article helpful’ or ‘other viewers also viewed these products’ will help your visitors navigate your website better. Because the content on these sections keeps updating depending on the content viewed, it provides your website with fresh content.
This strategy will also help search engines to gather information about the search habits of your users. Search engines will therefore send more traffic to your website depending on search queries made. You’ll therefore get a larger volume of relevant and specific traffic.
A simple strategy for improving the rankings of your website is to review your website’s title as it appears on search engine results pages. This not only makes a difference in the ranking of your website but also in encouraging readers to click through to your website.
It is important to ensure that your website’s titles and descriptions provide accurate information of what the reader can expect when they click through to your website. Be sure to include keywords in the titles and in the description. This will make the webpage more relevant to the search. It will also draw the attention of viewers and encourage them to click to your page.
Lieberman cautions webmasters against the temptation to use keywords repetitively. Search engines today penalize websites for keyword stuffing. Getting back into their good graces will take a long time. Avoid it completely by using keywords naturally and sparingly.
These tips ought to help you get started on a successful Internet marketing strategy.
About Chad Lieberman
Chad Ian Lieberman is an SEO expert whose company, 6W Search Engine Optimization, offers comprehensive digital marketing services. 6W SEO for almost 10 years has been implementing groundbreaking and tailored strategies to help clients meet their specific goals and objectives.
About 6W SEO LLC
6W Search Engine Optimization is a full-service digital marketing agency maintaining practice areas in organic search engine marketing, technology SEO, corporate online communications.
By Paul J. Zak | December 17, 2013 | 10 CommentsPaul Zak’s research is uncovering how stories shape our brains, tie strangers together, and move us to be more empathic and generous.
Ben’s dying.
That’s what Ben’s father says to the camera as we see Ben play in the background. Ben is two years old and doesn’t know that a brain tumor will take his life in a matter of months.
Ben’s father tells us how difficult it is to be joyful around Ben because the father knows what is coming. But in the end he resolves to find the strength to be genuinely happy for Ben’s sake, right up to Ben’s last breath.
Everyone can relate to this story. An innocent treated unfairly, and a protector who seeks to right the wrong—but can only do so by finding the courage to change himself and become a better person.
A recent analysis identifies this “hero’s journey” story as the foundation for more than half of the movies that come out of Hollywood, and countless books of fiction and nonfiction. And, if you take a look, this structure is in the majority of the most-watched TED talks.
Why are we so attracted to stories? My lab has spent the last several years seeking to understand why stories can move us to tears, change our attitudes, opinions and behaviors, and even inspire us—and how stories change our brains, often for the better. Here’s what we’ve learned.
Why the brain loves stories
The first part of the answer is that as social creatures who regularly affiliate with strangers, stories are an effective way to transmit important information and values from one individual or community to the next. Stories that are personal and emotionally compelling engage more of the brain, and thus are better remembered, than simply stating a set of facts.
Think of this as the “car accident effect.” You don’t really want to see injured people, but you just have to sneak a peek as you drive by. Brain mechanisms engage saying there might be something valuable for you to learn, since car accidents are rarely seen by most of us but involve an activity we do daily. That is why you feel compelled to rubberneck.
To understand how this works in the brain, we have intensively studied brain response that watching “Ben’s story” produces. We have used this to build a predictive model that explains why after watching the video about half of viewers donate to a childhood cancer charity. We want to know why some people respond to a story while others do not, and how to create highly engaging stories.
We discovered that there are two key aspects to an effective story. First, it must capture and hold our attention. The second thing an effective story does is “transport” us into the characters’ world.
What makes a story effective?
Why do our palms sweat as we watch James Bond fight for his life? Paul Zak is helping find the answer.
Any Hollywood writer will tell you that attention is a scarce resource. Movies, TV shows, and books always include “hooks” that make you turn the page, stay on the channel through the commercial, or keep you in a theater seat.
Scientists liken attention to a spotlight. We are only able to shine it on a narrow area. If that area seems less interesting than some other area, our attention wanders.
In fact, using one’s attentional spotlight is metabolically costly so we use it sparingly. This is why you can drive on the freeway and talk on the phone or listen to music at the same time. Your attentional spotlight is dim so you can absorb multiple informational streams. You can do this until the car in front of you jams on its brakes and your attentional spotlight illuminates fully to help you avoid an accident.
From a story-telling perspective, the way to keep an audience’s attention is to continually increase the tension in the story. Ben’s story does this. How will Ben’s father be able to enjoy his son’s last weeks of life? What internal resources will he draw upon to be strong and support his dying son?
We attend to this story because we intuitively understand that we, too, may have to face difficult tasks and we need to learn how to develop our own deep resolve. In the brain, maintaining attention produces signs of arousal: the heart and breathing speed up, stress hormones are released, and our focus is high.
Once a story has sustained our attention long enough, we may begin to emotionally resonate with story’s characters. Narratologists call this “transportation,” and you experience this when your palms sweat as James Bond trades blows with a villain on top of a speeding train.
Transportation is an amazing neural feat. We watch a flickering image that we know is fictional, but evolutionarily old parts of our brain simulate the emotions we intuit James Bond must be feeling. And we begin to feel those emotions, too.
Stories bring brains together
Emotional simulation is the foundation for empathy and is particularly powerful for social creatures like humans because it allows us to rapidly forecast if people around us are angry or kind, dangerous or safe, friend or foe.
Such a neural mechanism keeps us safe but also allows us to rapidly form relationships with a wider set of members of our species than any other animal does. The ability to quickly form relationships allows humans to engage in the kinds of large-scale cooperation that builds massive bridges and sends humans into space. By knowing someone’s story—where they came from, what they do, and who you might know in common—relationships with strangers are formed.
We have identified oxytocin as the neurochemical responsible for empathy and narrative transportation. My lab pioneered the behavioral study of oxytocin and has proven that when the brain synthesizes oxytocin, people are more trustworthy, generous, charitable, and compassionate. I have dubbed oxytocin the “moral molecule,” and others call it the love hormone. What we know is that oxytocin makes us more sensitive to social cues around us. In many situations, social cues motivate us to engage to help others, particularly if the other person seems to need our help.
When people watch Ben’s story in the lab—and they both maintain attention to the story and release oxytocin—nearly all of these individuals donate a portion of their earnings from the experiment. They do this even though they don’t have to.
This is surprising since this payment is to compensate them for an hour of their time and two needle sticks in their arms to obtain blood from which we measure chemical changes that come from their brains.
How we learn through stories
But it turns out that not all stories keep our attention and not all stories transport us into the characters’ worlds.
We ran another experiment that featured Ben and his father at the zoo to find out why. I should mention that Ben was really a boy with cancer who has now died, and the featured father is really his father. In the zoo video, there is no mention of cancer or death, but Ben is bald and his father calls him “miracle boy.” This story had a flat structure, rather than one with rising tension like the previous story. Ben and his father look at a giraffe, Ben skips ahead to look at the rhino, Ben’s father catches up. We don’t know why we are watching Ben and his father, and we are unsure what we are supposed to learn.
People who watched this story began tuning out mid-way through. That is, their scarce attention shifted from the story to scanning the room or thinking about what to buy at the grocery store after the experiment concluded. Measures of physiologic arousal waned and the empathy-transportation response did not occur. These participants also did not offer much in the way of donations to charity.
This evidence supports the view of some narrative theorists that there is a universal story structure. These scholars claim every engaging story has this structure, called the dramatic arc. It starts with something new and surprising, and increases tension with difficulties that the characters must overcome, often because of some failure or crisis in their past, and then leads to a climax where the characters must look deep inside themselves to overcome the looming crisis, and once this transformation occurs, the story resolves itself.
This is another reason why we look at car accidents. Maybe the person who survived did something that saved his or her life. Or maybe the driver made a mistake that ended in injury or death. We need to know this information.
How stories connect us with strangers
We also tested why stories can motivate us, like the characters in them, to look inside ourselves and make changes to become better people.
Those who donated after watching Ben’s story had more empathic concern of other people and were happier than those who did not donate money. This shows there is a virtuous cycle in which we first engage with others emotionally that leads to helping behaviors, that make us happier. Many philosophical and religious traditions advocate caring for strangers, and our research reveals why these traditions continue to influence us today—they resonate with our evolved brain systems that make social interactions rewarding.
The form in which a narrative is told also seems to matter. The narrative theorist Marshall McLuhan famously wrote in the 1960s that “the medium is the message,” and we’ve found this is true neurologically. The video showing Ben with his father talking on camera is better at both sustaining attention and causing empathic transportation than when people simply read what Ben’s father has to say themselves. This is good news for Hollywood filmmakers and tells us why we cry at sad movies by cry less often when reading a novel.
Does any of this matter to you?
We’ve recently used the knowledge we’ve developed to test stories that seek to motivate positive behavioral changes. In a recent experiment, participants watched 16 public-service ads from the United Kingdom that were produced by various charities to convince people not to drink and drive, text and drive, or use drugs. We used donations to the featured charities to measure the impact of the ads.
In one version of this experiment, if we gave participants synthetic oxytocin (in the nose, that will reach the brain in an hour), they donated to 57 percent more of the featured charities and donated 56 percent more money than participants given a placebo. Those who received oxytocin also reported more emotional transportation into the world depicted in the ad. Most importantly, these people said they were less likely to engage in the dangerous behaviors shown in the ads.
So, go see a movie and laugh and cry. It’s good for your brain, and just might motivate you to make positive changes in your life and in others’ lives as well.
Lawrence Berkeley National Lab (Berkeley Lab) scientists have demonstrated a new technique for growing nanowires with control over their light-emitting and electronic properties, using specially engineered catalysts.
The new approach could allow for making better next-generation devices such as solar cells, light emitting diodes, and high-power electronics, says Shaul Aloni, staff scientist at Berkeley Lab’s Molecular Foundry, and lead author on the study published in Nano Letters.
The researchers focused on nanowires made of gallium nitride. Normally, researchers use catalysts made of a single metal. The Berkeley team instead decided to use metallic alloys (mixtures) of gold and nickel as catalysts. By altering the concentrations of each of these in the alloy, the researchers could precisely manipulate, even on the same substrate in the same batch, the orientation of the nanowires.
The researchers also showed that depending on the growth direction chosen, different optical properties were observed, thanks to the crystal surfaces exposed at the surface of the nanowire. Aloni says the team will next focus more on the chemistry of the different nanowire surfaces to further tailor the nanowire’s optical properties.
This research was supported by the DOE Office of Science.
Abstract of Catalyst-directed crystallographic orientation control of GaN nanowire growth
In this work, we demonstrate that catalyst composition can be used to direct the crystallographic growth axis of GaN nanowires. By adjusting the ratio of gold to nickel in a bimetallic catalyst, we achieved selective growth of dense, uniform nanowire arrays along two nonpolar directions. A gold-rich catalyst resulted in single-crystalline nanowire growth along the ⟨11̅00⟩ or m axis, whereas a nickel-rich catalyst resulted in nanowire growth along the ⟨112̅0⟩ or a axis. The same growth control was demonstrated on two different epitaxial substrates. Using proper conditions, many of the nanowires were observed to switch direction midgrowth, resulting in monolithic single-crystal structures with segments of two distinct orientations. Cathodoluminescence spectra revealed significant differences in the optical properties of these nanowire segments, which we attribute to the electronic structures of their semipolar {112̅2} or {11̅01} sidewalls.
In another major step toward dissolving the boundaries between machine and human, the Defense Advanced Research Projects Agency (DARPA) has awarded prime contracts for Phase 1 of its Hand Proprioception and Touch Interfaces (HAPTIX) program to a multi-institution research team. HAPTIX (a play on “haptics“) seeks to create a prosthetic hand system that moves and provides sensation like a natural hand, according to DARPA.
Despite recent advances in technology for upper-limb prostheses, artificial arms and hands are still unable to provide users with sensory feedback, such as the “feel” of things being touched or awareness of limb position and movement.
HAPTIX seeks to create “a sensory experience so rich and vibrant that users would want to wear their prostheses full time,” said DARPA’s statement. “By restoring sensory functions, HAPTIX also aims to reduce or eliminate phantom limb pain, which affects about 80 percent of amputees.” The ultimate goal: help restore full and natural functionality to wounded Service members and veterans.
Specifically, the idea is to incorporate sensors that provide tactile and proprioceptive feedback to the patient from their hands, delivered through a patterned stimulation of sensory pathways in peripheral nerves. So the bionic hand would be able to perform movements of a human hand and experience pressure, touch, and texture. .
President Obama referred to DARPA’s numerous advanced prosthetics programs in his 2015 State of the Union address in January, saying the U.S. government is interested in “creating revolutionary prosthetics, so that a veteran who gave his arms for his country can play catch with his kids again.”
DARPA hopes to convince the FDA to fast-track approval for human trials of a complete, FDA-approved HAPTIX prosthesis system within four years.
DARPA is working with teams led by the following institutions:
Lawrence Livermore National Labs (LLNL) Neural Tech Group
Case Western Reserve University
Cleveland Clinic
Draper Laboratory
Nerves Incorporated
Ripple LLC
University of Pittsburgh
University of Utah
University of Florida
Miniaturizing electronics
LLNL said it intends to further develop the advanced prosthetic limb systems developed under DARPA’s Revolutionizing Prosthetics and Reliable Neural-Interface Technology (RE-NET) programs, intended to provide a direct, powerful link between user intent and prosthesis control. Meaning: control prosthetic hand movements with their thoughts and have natural sensations.
LLNL is developing wireless electronic packages for HAPTIX called smart packages. These packages would contain electronics that record and stimulate the peripheral nervous system to control movement and sensation in a patient’s prosthetic hand.
Smart packages intend to be designed to miniaturize electronics normally the size of a third of a cell phone into a package the size of a watch battery. The electronics would be made of ceramics and titanium, biocompatible materials that would seal the package tightly, preventing components from leaking into nerves or human tissue from entering the package.
The Neural Tech Group is also collaborating with Medtronic and Ardiem Medical. Some collaborators plan to develop the electrode arrays for sensation and muscle control, while others aim to validate and characterize it.
Here is an astonishing thing for you to see in Japan if you are planning to visit it in July.
It has become an undeniable fact that technology has taken over human role. This can be witnessed by you in a prefecture hotel in Nagasaki the Hotel Henn- na meaning strange things. Well, this is not so that hotel will be as strange because you are very much familiar with robots but seen them working like humans in very rare cases. Henn- na is scheduled to open this July. Interesting thing is that it will exactly operate on robots. More than ninety percent of hotels operations will be run by them.
Imagine you are standing on the counter and waiting for to be responded. It will be strange to see other focusing on your eye movement, body gestures and way you speak. This are the aspects that will make robots to check your demands to judge what to do you want. They are accurate and you wouldn’t be directed in a wrong way. The hotel will have many other facilities too. Initially it is a two storey building with 72 rooms. The rates are very affordable; one can bid for $60 for a single bed room. Triseaters are also available in at most $170. This is affordable enough to live in a strange and amusing hotel that acquires services or robots.
Technology is not adopted in cases or robots only. The rooms have sensors to detect body temperature and then auto adjust the room temperature accordingly. Power source in hotel is solar and it is enough to cut expenditures. Management plans to build 72 more rooms in the hotels. More than 1000 such hotels that will acquire the services of robots are planned to open in Japan.
Typing Braille on a touchscreen device is now entirely possible thanks to new app iBrailler Notes. (Photo from iBrailler Notes)
This Jan. 6, 2006, file photo shows a tattoo artist at the Los Angeles county fairgrounds in Pomona, Calif. (AP Photo/Chris Carlson, File)
Bruce's Blog 