Electronic Devices Quotes

Everyday it gets easier to connect with an electronic device that it is to connect with real people.

I’m with you on measuring this week in letters and the two-day drought we are about to experience. If only there was a way to transport letters faster, through some sort of electronic device that codes messages and sends them through the air. But that’s just crazy talk. Friday from me: Sending letters through the sky? Like when airplanes attach notes to their tails? I thought they only advertised for going-out-of-business sales. But perhaps our letters would be okay up there as well. I wonder how much they charge per word.

Miracles are like meatballs, because nobody can exactly agree on what they are made of, where they come from, or how often they should appear. Some people say that a sunrise is a miracle, because it is somewhat mysterious and often very beautiful, but other people say it is simply a fact of life, because it happens every day and far too early in the morning. Some people say that a telephone is a miracle, because it sometimes seems wondrous that you can talk with somebody who is thousands of miles away, and other people say it is merely a manufactured device fashioned out of metal parts, electronic circuitry, and wires that are very easily cut. And some people say that sneaking out of a hotel is a miracle, particularly if the lobby is swarming with policemen, and other people say it is simply a fact of life, because it happens every day and far too early in the morning. So you might think that there are so many miracles in the world that you can scarcely count them, or that there are so few that they are scarcely worth mentioning, depending on whether you spend your mornings gazing at a beautiful sunset or lowering yourself into a back alley with a rope made of matching towels.

Holding and synthesizing information in your brain creates your personality. You’re surrendering your personality to an electronic device in your pocket.

Sure, they all have iPods, smartphones, whatever. Generally speaking, it’s in our own best interest to keep some kind of electronic device in their hands. Otherwise they might talk to us.

Back then, things were plainer: less money, no electronic devices, little fashion tyranny, no girlfriends. There was nothing to distract us from our human and filial duty which was to study, pass exams, use those qualifications to find a job, and then put together a way of life unthreateningly fuller than that of our parents, who would approve, while privately comparing it to their own earlier lives, which had been simpler, and therefore superior.

All the electronic devices are powered by white smoke. When smoke goes out, device is dead.

When we constantly fill up all our "empty" time with stimulation in the form of electronic devices, games, and distractions, our brains become disengaged and the thinking process is effectively halted. We never get to hear our own inner voice-we don't develop a relationship with ourselves and our minds. We don't get to know who we are because we're not listening.

there are just two activities that are significantly correlated with depression and other suicide-related outcomes (such as considering suicide, making a plan, or making an actual attempt): electronic device use (such as a smartphone, tablet, or computer) and watching TV. On the other hand, there are five activities that have inverse relationships with depression (meaning that kids who spend more hours per week on these activities show lower rates of depression): sports and other forms of exercise, attending religious services, reading books and other print media, in-person social interactions, and doing homework.

A well-dressed, self-assured business executive steps into a quiet corner of the conference room, crowded with people. Everyone there is aware of her presence. She's dark-haired, petite, and alluring. She is quick to smile, and when she does, her whole face lights up. Her enthusiasm is infectious. Young men and women nod as they pass by, briefly breaking off their conversations with colleagues. The executive looks down at her compact electronic device and quickly texts: "Smile. Talk into the mic. Good luck.

How Smart Is a Rock? To appreciate the feasibility of computing with no energy and no heat, consider the computation that takes place in an ordinary rock. Although it may appear that nothing much is going on inside a rock, the approximately 1025 (ten trillion trillion) atoms in a kilogram of matter are actually extremely active. Despite the apparent solidity of the object, the atoms are all in motion, sharing electrons back and forth, changing particle spins, and generating rapidly moving electromagnetic fields. All of this activity represents computation, even if not very meaningfully organized. We’ve already shown that atoms can store information at a density of greater than one bit per atom, such as in computing systems built from nuclear magnetic-resonance devices. University of Oklahoma researchers stored 1,024 bits in the magnetic interactions of the protons of a single molecule containing nineteen hydrogen atoms.51 Thus, the state of the rock at any one moment represents at least 1027 bits of memory.

When a printed book—whether a recently published scholarly history or a two-hundred-year-old Victorian novel—is transferred to an electronic device connected to the Internet, it turns into something very like a Web site. Its words become wrapped in all the distractions of the networked computer. Its links and other digital enhancements propel the reader hither and yon. It loses what the late John Updike called its “edges” and dissolves into the vast, rolling waters of the Net. The linearity of the printed book is shattered, along with the calm attentiveness it encourages in the reader.

Sitting in meditation is the most boring thing if your energies are frozen and locked at different places in body. Get your energies flowing. Don't see Yoga as some good routine. It's all about exploring the body like you explore features of an electronic device.

Now the line is: Forget the classics, concentrate on an education for the 21st century! Which apparently means knowing how to operate electronic devices and figure out a spreadsheet. That's not education, it's vocational training. What once were means seem to have become ends in education. And our more with-it "educators" shift with every passing wind, clutching at the latest gimmick the way drowning men do at straws.

Twenge finds that there are just two activities that are significantly correlated with depression and other suicide-related outcomes (such as considering suicide, making a plan, or making an actual attempt): electronic device use (such as a smartphone, tablet, or computer) and watching TV. On the other hand, there are five activities that have inverse relationships with depression (meaning that kids who spend more hours per week on these activities show lower rates of depression): sports and other forms of exercise, attending religious services, reading books and other print media, in-person social interactions, and doing homework.

Toddlers walk through life like we all wish we could: confident, demanding, and 100 percent positive that they are the center of the universe. They can kick their father in the testicles and feel nothing. They love to laugh. They love to destroy expensive cosmetics and to fingerpaint with long-wearing lipstick. Toddlers love to render electronic devices useless. They enjoy making debit cards and keys vanish into thin air. They like to permanent marker on shit. Toddlers live that #thuglyfe better than any of us could even try to because toddlers. don’t. give. a. fuck. The quicker you understand that, the better. Repeat after me: Toddlers don’t care and they never did.

Now that Connor's gotten a job helping Tara's uncle, an inventor, he gets to keep all of Mr. St. Claire's old tools. I think our parents should focus less on me, and pay more attention to the fact that Connor has dismantled most of the electronic devices in our house, our old lawn mower, and basically any object that has more than one part.

According to one survey, half of people under the age of thirty said they would sacrifice their sense of smell rather than part with a favored electronic device.

I would like you to respect me” isn’t as good as, “I would like you to turn off your electronic devices at dinner so we can just talk to each other.

Old media companies will be further challenged in the next 15 years, as a new wave of user-generated content washes over the Internet, thanks to the increasing availability and affordability of portable, digital-based electronic devices. The cameraphones which seemed like such novelties just a few years ago will be in everyone's purse and pocket a few years from now.

Infrared satellite imagery, optical telescopes, and the Hubbell space telescope bring vastness within our visual sphere. Electron microscopes let us wander the remote universe of our own cells. But at the middle scale, that of the unaided eye, our senses seem to be strangely dulled. With sophisticated technology, we strive to see what is beyond us, but are often blind to the myriad sparkling facets that lie so close at hand. We thing we're seeing when we've only scratched the surface. Our acuity at this middle scale seems diminished, not by any failing of the eyes, but by the willingness of the mind. Has the power of our devices led us to distrust our unaided eyes? Or have we become dismissive of what takes no technology but only time and patience to perceive? Attentiveness alone can rival the most powerful magnifying lens.

[...]he also had a device which looked rather like a largish electronic calculator. This had about a hundred tiny flat press buttons and a screen about four inches square on which any one of a million "pages" could be summoned at a moment's notice. It looked insanely complicated, and this was one of the reasons why the snug plastic cover it fitted into had the words Don't Panic printed on it in large friendly letters. The other reason was that this device was in fact that most remarkable of all books ever to come out of the great publishing corporations of Ursa Minor - The Hitch Hiker's Guide to the Galaxy. The reason why it was published in the form of a micro sub meson electronic component is that if it were printed in normal book form, an interstellar hitch hiker would require several inconveniently large buildings to carry it around in.

An electronic computer is also made up of matter, but organised differently; what is there so magical about the workings of the huge, slow cells of the animal brain that they can claim themselves to be conscious, but would deny a quicker, more finely-grained device of equivalent power - or even a machine hobbled so that it worked with precisely the same ponderousness - a similar distinction?

In our quest to become more connected we have actually created a disturbing disconnect where real social interaction has been abandoned in favor of the immediate gratification afforded by electronic devices.

the true birth of the digital age, the era in which electronic devices became embedded in every aspect of our lives, occurred in Murray Hill, New Jersey, shortly after lunchtime on Tuesday, December 16, 1947.

when an atomic bomb is detonated above the earth’s atmosphere, it can generate a “pulse wave,” which travels at the speed of light, and will short-circuit every electronic device that the “wave” touches on the earth’s surface.

A person needs ideas in order to survive. A person whom ascribes to a philosophy for living and is dedicated to constant learning will find that ordinary life is enough without living in a zone of consumer consumption and media devices.

Look at this generation, with all of its electronic devices and multitasking. I will confidently predict less success than Warren, who just focused on reading. If you want wisdom, you’ll get it sitting on your ass. That’s the way it comes.

I acquired a central ability that was to help me through my entire career: patience. I'm serious. Patience is usually so underrated. I mean, for all these projects, from third grade all the way to eighth grade, I just learned things gradually, figuring out how to put electronic devices together without so much as cracking a book ... I learned to not worry so much about the outcome, but to concentrate on the step I was on and to try to do it as perfectly as I could when I was doing it.

Our marvelous electronic devices can seduce us into believing we are hard at work, but we are merely sending and receiving insignificant messages, while the real work goes undone, day after day, week after week, year after year. Real thinking and grappling hurt like hell. That’s why so many people avoid it like a root canal.

There was a school here now, in Concourse C. Like educated children everywhere, the children in the airport school memorized abstractions: the airplanes outside once flew through the air. You could use an airplane to travel to the other side of the world, but—the schoolteacher was a man who’d had frequent-flyer status on two airlines—when you were on an airplane you had to turn off your electronic devices before takeoff and landing, devices such as the tiny flat machines that played music and the larger machines that opened up like books and had screens that hadn’t always been dark, the insides brimming with circuitry, and these machines were the portals into a worldwide network. Satellites beamed information down to Earth. Goods traveled in ships and airplanes across the world. There was no place on earth that was too far away to get to. They were told about the Internet, how it was everywhere and connected everything, how it was us. They were shown maps and globes, the lines of the borders that the Internet had transcended. This is the yellow mass of land in the shape of a mitten; this pin here on the wall is Severn City. That was Chicago. That was Detroit. The children understood dots on maps—here—but even the teenagers were confused by the lines. There had been countries, and borders. It was hard to explain.

Our medicines are not something you'll find at the drugstore, but at the bookshop, in the library, or downloaded onto your electronic reading device. We are bibliotherapists, and the tools of our trade are books. Our apothecary contains Balzacian balms and Tolstoyan tourniquets, the salves of Saramago and the purges of Perec and Proust.

You've got it pretty damned easy, kiddo. If ever you should find yourself complaining about the task of looking up the calories in a restaurant food online and logging it into the electronic device in the palm of your hand, I want you to picture your grandfather silently shaking his head in disgust, ashamed at how lazy and stupid his progeny has become.

Here’s a mnemonic device that might be useful. LEO the lion says GER LEO: you Lose Electrons in Oxidation GER: you Gain Electrons in Reduction

It looked insanely complicated, and this was one of the reasons why the snug plastic cover it fitted into had the words DON’T PANIC printed on it in large friendly letters. The other reason was that this device was in fact that most remarkable of all books ever to come out of the great publishing corporations of Ursa Minor—The Hitchhiker’s Guide to the Galaxy. The reason why it was published in the form of a micro sub meson electronic component is that if it were printed in normal book form, an interstellar hitchhiker would require several inconveniently large buildings to carry it around in.

So, to sum up, King Harald Bluetooth united the tribes and formed the Kingdom of Denmark,’ Poe said. ‘And your point is …?’ Fatty Scraps said. ‘My point is that when the company who invented Bluetooth needed a name for technology that unites electronic devices, they thought of the king who united the tribes,’ Poe explained. ‘The Bluetooth logo is King Harald’s joined-up initials in ancient Viking.

Sleep hygiene is a set of practices sleep experts recommend to obtain quality rest on a daily basis. Recommendations include low levels of stimulation in the evening, exercise and exposure to lots of natural light during the day, banning electronics from the bedroom, and sticking to a regular sleep-wake schedule. Children and teens who are stressed tend to have poor sleep hygiene if left to their own devices.

In order to give your mind a little rest, you need to “forget” things deliberately from time to time. This is like draining all the energy from your batteries in order to fully recharge them. When you drain all the energy from the battery of your electronic device and recharge it, the battery lasts longer. Give some rest to your mind. Cease to think about all those duties and responsibilities for a little while.

But the biggest news that month was the departure from Apple, yet again, of its cofounder, Steve Wozniak. Wozniak was then quietly working as a midlevel engineer in the Apple II division, serving as a humble mascot of the roots of the company and staying as far away from management and corporate politics as he could. He felt, with justification, that Jobs was not appreciative of the Apple II, which remained the cash cow of the company and accounted for 70% of its sales at Christmas 1984. “People in the Apple II group were being treated as very unimportant by the rest of the company,” he later said. “This was despite the fact that the Apple II was by far the largest-selling product in our company for ages, and would be for years to come.” He even roused himself to do something out of character; he picked up the phone one day and called Sculley, berating him for lavishing so much attention on Jobs and the Macintosh division. Frustrated, Wozniak decided to leave quietly to start a new company that would make a universal remote control device he had invented. It would control your television, stereo, and other electronic devices with a simple set of buttons that you could easily program. He informed the head of engineering at the Apple II division, but he didn’t feel he was important enough to go out of channels and tell Jobs or Markkula. So Jobs first heard about it when the news leaked in the Wall Street Journal. In his earnest way, Wozniak had openly answered the reporter’s questions when he called. Yes, he said, he felt that Apple had been giving short shrift to the Apple II division. “Apple’s direction has been horrendously wrong for five years,” he said.

When I ask Kim what a capitalist is, he tells me it is someone who is from the city. He says the Khmer Rouge government views science, technology, and anything mechanical as evil and therefore must be destroyed. The Angkar says the ownership of cars and electronics such as watches, clocks, and televisions created a deep class division between the rich and the poor. This allowed the urban rich to flaunt their wealth while the rural poor struggled to feed and clothe their families. These devices have been imported from foreign countries and thus are contaminated. Imports are defined as evil because they allowed foreign countries a way to invade Cambodia, not just physically but also culturally. So now these goods are abolished. Only trucks are allowed to operate, to relocate people and carry weapons to silence any voices of dissent against the Angkar.

According to strong AI, it is simply the algorithm that counts. It makes no difference whether that algorithm is being effected by a brain, an electronic computer, an entire country of Indians, a mechanical device of wheels and

It is also possible to carve atomic devices using electron beams. For example, scientists at Cornell University have made the world’s smallest guitar, one that is twenty times smaller than a human hair, carved out of crystalline silicon. It has six strings, each one hundred atoms thick, and the strings can be plucked using an atomic force microscope. (This guitar will actually play music, but the frequencies it produces are well above the range of the human ear.)

If I reach behind my hair, just at the nape of my neck, I can feel it; the slight bump of the tiny electronic device that the men who invaded New Haven surgically implanted in me. Other chips were placed in the rest of the children stolen from the facility. As far as I can tell, they’re a means of keeping tabs on us…and for most they’re meant to neutralize the gifts we were born with. What they meant to do and what they actually did, however, were far removed from each other.

he also had a device that looked rather like a largish electronic calculator. This had about a hundred tiny flat press buttons and a screen about four inches square on which any one of a million “pages” could be summoned at a moment’s notice.

The word spread. It began with the techno-literates: young summoners who couldn’t quite get their containment circles right and who had fallen back on Facebook to keep themselves occupied while the sacred incense was cooked in their mum’s microwaves; eager diviners who scoured the internet for clues as to the future of tomorrow, and who read the truth of things in the static at the corners of the screen; bored vampires who knew that it was too early to go out and hunt, too late still to be in the coffin. The message was tweeted and texted onwards, sent out through the busy wires of the city, from laptop to PC, PC to Mac, from mobile phones the size of old breeze blocks through to palm-held devices that not only received your mail, but regarded it as their privilege to sort it into colour-coordinated categories for your consideration. The word was whispered between the statues that sat on the imperial buildings of Kingsway, carried in the scuttling of the rats beneath the city streets, flashed from TV screen to TV screen in the flickering windows of the shuttered electronics stores, watched over by beggars and security cameras, and the message said: We are Magicals Anonymous. We are going to save the city.

The Japanese see the seasons as signposts, visible reminders of our own natural rhytms. In modern life, these often get disrupted, as we extend our days with strong artificial light, interrupt our sensitive biorhytms with blue lights from our electronic devices and push ourselves to be highly productive just because it's another weekday. We push on, regardless of whether our body is trying to tell us it's time to hibernate, or get outside for some summer sunshine - and then we wonder why we get sick.

You have to practice what you preach. Declare the family dinner table to be an electronics-free zone: no texting and no cell phone use allowed at the dinner table. That means you too, Dad. Although teenage girls are more likely than teenage boys to be addicted to texting and instant messaging, there seems to be a gender reversal in the over-30 crowd, with Dad more likely than Mom to be surreptitiously checking messages on his Blackberry at the dinner table.19 All electronic devices should be prohibited at mealtime.

Emotional chaos supplied by detachment, remoteness, and aloneness creates its own pathos of loneliness, quiet desperation, and despair. A person who lives in seclusion experiences a stronger yearning to blunt their solitude by establishing a false sense of connection via the artifice of plugging into television, engaging in Internet surfacing, and participating in other entertaining diversionary activities that fill the void of mental stillness. Americans multitasking on electronic devices is escapism at megabyte speed.

playing juvenile pranks. In twelfth grade he built an electronic metronome—one of those tick-tick-tick devices that keep time in music class—and realized it sounded like a bomb. So he took the labels off some big batteries, taped them together, and put it in a school locker; he rigged

Myth Number 4: Social Media Is the Shiny New Thing. Two Years from Now, That Bubble Will Burst Yes, it is the shiny new thing. No, two years from now, that bubble will not burst. There is no bubble. What social media represents is an evolution in the field of communications, just as the Internet and mobility before it. The tools will change, the platforms will evolve, but the way in which people communicate with other people through digital networks and electronic devices has been fundamentally transformed through the development of social media. We did not grow tired of the telephone, of the...

We should note that almost every technological transformation of consequence has taken place under Western auspices—if not Western in the strict geographical sense, then Western in the notion of a cultural landscape shaped by free thought and the chance for profit. Even non-Western innovations, like stirrups and gunpowder, have been quickly modified and improved by Western militaries. Jet fighters, GPS-guided bombs, and laser-guided munitions are all products of Western expertise. Even the jihadists’ most innovative and lethal weapons—improvised explosive devices and suicide belts—are cobbled together from Western-designed explosives and electronics.

The school was in central London, and each day we travelled up to it from our separate boroughs, passing from one system of control to another. Back then, things were plainer: less money, no electronic devices, little fashion tyranny, no girlfriends. There was nothing to distract us from our human and filial duty, which was to study, pass exams, use those qualifications to find a job, and then put together a way of life unthreateningly fuller than that of our parents, who would approve, while privately comparing it to their own earlier lives, which had been simpler, and therefore superior. None of this, of course, was ever stated: the genteel social Darwinism of the English middle classes always remained implicit.

All information will come in by super-realistic television and other electronic devices as yet in the planning stage or barely imagined. In one way this will enable the individual to extend himself anywhere without moving his body—even to distant regions of space. But this will be a new kind of individual—an individual with a colossal external nervous system reaching out and out into infinity. And this electronic nervous system will be so interconnected that all individuals plugged in will tend to share the same thoughts, the same feelings, and the same experiences. There may be specialized types, just as there are specialized cells and organs in our bodies. For the tendency will be for all individuals to coalesce into a single bio-electronic body.

Radionics was conceived as a diagnostic and treatment technology at a time when modern electronic theory and biomedicine had not become the dominant sciences they are today. Early radionic devices incorporated the new discoveries of radio and electronics into their design. During that period, the functional assumptions of radionic technology did not seem as implausible as it does today. However, it wasn't long before radionics became outmoded and completely non-scientific. As Mizrach has noted, radionics continued to appropriate the methods of orthodox science into its design and terminology, making the probability of understanding what it could accomplish even more difficult to assess. I will examine this appropriation in a spirit of tolerance, given the state of electronics and medicine circa 1910, when radionics was first discovered. I will do so in order to shift the focus of this interesting technology from the scientific to the metaphysical, where the reader not limited by a need for scientific approval can evaluate it. My aim is to provide a reasonable means of evaluating radionic technology as an artistic methodology.

From the pocket of her windbreaker he extracted what he falsely believed to be a portable marine radio, which along with two granola bars he'd pilfered from Honey's belongings after she was snatched by the club-handed lunatic. Shreave started pressing buttons on the compact gadget and barking, "Mayday! Mayday! There was no response from the Coast Guard pilot or any other human, and for a good reason. Except for its LED screen, the instrument in Shreave's possession was electronically dissimilar to a radio in all significant respects. Most crucial was the absence of either an audio receiver or a transmitter. "SOS! SOS!" he persisted. "Help!" The device was in fact a mobile GPS unit, as technogically impenetrable to Shreave as the Taser gun he'd found beneath Honey's bed.

the strangely elusive and counterintuitive character of the quantum world has encouraged some to suggest that the idea of entities like electrons which can be in unpicturable states such as superpositions of being ‘here’ and being ‘there’ is no more than a convenient manner of speaking which facilitates calculations, and that electrons themselves are not to be taken with ontological seriousness. The counterattack of the scientific realist appeals to intelligibility as the key to reality. It is precisely because the assumption of the existence of electrons allows us to understand a vast range of directly accessible phenomena—such as the periodic table in chemistry, the phenomenon of superconductivity at low temperatures and the behaviour of devices such as the laser—that we take their existence seriously.

If you think neuro-electric or neuro-electromagnetic weapons or mind-control methods are far out, consider this. If you Google “Voice-to-Skull device” the U.S. Army’s Website appears. However, when you click on the link, you discover that the page has been taken down. Still, a description remains on the Federation of American Scientist’s Website. The device is described there as: Nonlethal weapon which includes (1) a neuro-electromagnetic device which uses microwave transmission of sound into the skull of persons or animals by way of pulsed-modulated microwave radiation; and (2) a silent sound device which can transmit sound into the skull of persons or animals. Note: The sound modulation may be voice or audio subliminal messages. One application of V2K is use as an electronic scarecrow to frighten birds in the vicinity of airports.37

Because all such things are aspects of the holomovement, he feels it has no meaning to speak of consciousness and matter as interacting. In a sense, the observer is the observed. The observer is also the measuring device, the experimental results, the laboratory, and the breeze that blows outside the laboratory. In fact, Bohm believes that consciousness is a more subtle form of matter, and the basis for any relationship between the two lies not in our own level of reality, but deep in the implicate order. Consciousness is present in various degrees of enfoldment and unfoldment in all matter, which is perhaps why plasmas possess some of the traits of living things. As Bohm puts it, "The ability of form to be active is the most characteristic feature of mind, and we have something that is mindlike already with the electron. "11 Similarly, he believes that dividing the universe up into living and nonliving things also has no meaning. Animate and inanimate matter are inseparably interwoven, and life, too, is enfolded throughout the totality of the universe. Even a rock is in some way alive, says Bohm, for life and intelligence are present not only in all of matter, but in "energy, " "space, " "time, " "the fabric of the entire universe, " and everything else we abstract out of the holomovement and mistakenly view as separate things. The idea that consciousness and life (and indeed all things) are ensembles enfolded throughout the universe has an equally dazzling flip side. Just as every portion of a hologram contains the image of the whole, every portion of the universe enfolds the whole. This means that if we knew how to access it we could find the Andromeda galaxy in the thumbnail of our left hand. We could also find Cleopatra meeting Caesar for the first time, for in principle the whole past and implications for the whole future are also enfolded in each small region of space and time. Every cell in our body enfolds the entire cosmos. So does every leaf, every raindrop, and every dust mote, which gives new meaning to William Blake's famous poem: To see a World in a Grain of Sand And a Heaven in a Wild Flower, Hold Infinity in the palm of your hand And Eternity in an hour.

Simply saying, “I saw a spirit and I know what I saw,” isn’t enough and does nothing to advance the field of paranormal research. Empirical, observable evidence has to be gathered. Skeptics frequently use the “cognitive function” defense to explain away paranormal activity, so multiple electronic recording devices (video and audio) are a must when conducting paranormal research to limit the margin of error. We’ll look more at this later in the chapter.

. . . the Thunderhead screamed. It began with alarms everywhere in the world. Just a few at first, but more joined in the cacophony. Fire alarms, tornado sirens, buzzers, whistles, and millions upon millions of horns, all blaring a singular, anguished wail—and still it was not enough. Now every speaker on every electronic device in the world came to life, letting off a shrill feedback shriek, and around the world people fell to their knees, hands over their ears to shield themselves from the deafening din, but nothing could assuage the Thunderhead’s fury and despair. For ten minutes, the Thunderhead’s ear-rending squall filled the world. Echoing in the Grand Canyon; resounding in Antarctic ice shelves, causing glaciers to calve. It bellowed up the slopes of Mount Everest, and scattered herds on the Serengeti. There was not a being on Earth that did not hear it. And when it was done, and silence returned, everyone knew that something had changed.

But of course Google doesn’t want the thermostat as a mere consumer-electronics device – it wants to amass and analyse the records of millions of interactions with millions of thermostats. That becomes a stack of Big Data that Google can bundle and sell to interested parties. Google spent the money, not because the Nest thermostat is worth it, but to demonstrate its determined willingness to frighten off possible rivals from the home-automation space. Google did that to prove its own intent to dominate there.

What they found is that there’s simply no way for the states to do it without enhancing the power grid. The model also showed that regional and national approaches to transmission—rather than leaving each state to its own devices—would allow every state to meet the emission-reduction goals with 30 percent fewer renewables than they would need otherwise. In other words, we’ll save money by building renewables in the best locations, building a unified national grid, and shipping zero-emissions electrons wherever they’re needed.

Oh, were we talking about dinner? Well, let me say this: I don’t take it lightly if when I write the word beef someone chooses to read lamb. People talking about a book as if it were just another thing, like a dish, or a product like an electronic device or a pair of shoes, to be rated for consumer satisfaction—that was just the goddamn trouble, you said. Even those aspiring writers your students seemed never to judge a book on how well it fulfilled the author’s intentions but solely on whether it was the kind of book that they liked. And so you got papers stating things like “I hate Joyce, he’s so full of himself,” or “I don’t see why I should have to read about white people problems.” You got customer reviews full of umbrage, suggesting that if a book didn’t affirm what the reader already felt—what they could identify with, what they could relate to—the author had no business writing the book at all. Those hilarious stories that people loved, and loved to share—the book clubber who said, When I read a novel I want someone to die in it; the complaint against Anne Frank’s diary, in which nothing much happens and then the story just breaks off—did not make you laugh.

could be summoned at a moment’s notice. It looked insanely complicated, and this was one of the reasons why the snug plastic cover it fitted into had the words DON’T PANIC printed on it in large friendly letters. The other reason was that this device was in fact that most remarkable of all books ever to come out of the great publishing corporations of Ursa Minor—The Hitchhiker’s Guide to the Galaxy. The reason why it was published in the form of a micro sub meson electronic component is that if it were printed in normal book form, an interstellar hitchhiker would require several inconveniently large buildings to carry it around in.

I described living cells as being crammed full of protein molecules. Acting individually or in small assemblies, they perform reiterated molecular processes that can be regarded, I argued, as a form of computation. Moreover, large numbers of proteins linked into huge interacting networks operate, in effect, like circuits of electrical or electronic devices. Networks of this kind are the basis for the animate wanderings of single cells and their ability to choose what to do next. Here I have broadened the view to encompass multiple cells - 'societies' of cells. Through a variety of strategies - including diffusive hormones, electrical signals, and mechanical interactions - the computational networks of individual cells are linked. During evolution, cells acquired the capacity to work together in social groups; it became advantageous for most cells to become highly specialised. Liver cells, muscle cells, skin cells, and so on abandoned their opportunities for unlimited replication. They began the communal expansion of interlinked abilities that led to the plants and animals we see around us today. But the basis of this diversification of cell chemistry was yet another form of computation - one that operates on DNA. Control mechanisms, again based on protein switches, created extensive but subtle modifications of the core genetic information.

had about a hundred tiny flat press buttons and a screen about four inches square on which any one of a million “pages” could be summoned at a moment’s notice. It looked insanely complicated, and this was one of the reasons why the snug plastic cover it fitted into had the words DON’T PANIC printed on it in large friendly letters. The other reason was that this device was in fact that most remarkable of all books ever to come out of the great publishing corporations of Ursa Minor—The Hitchhiker’s Guide to the Galaxy. The reason why it was published in the form of a micro sub meson electronic component is that if it were printed in normal book form, an interstellar hitchhiker would require several inconveniently large buildings to carry it around in.

When electronic communication networks enter the habitat of the individual consumer they are equipped from the start with a safety device: the possibility of instant, trouble-free and (hopefully) painless disconnection — of cutting off communication in a way that would leave parts of the network unattended and deprive them of relevance, together with their power to be a nuisance. It is that safety device, and not the facility of getting in touch, let alone of staying together permanently, that endears the electronic substitute for face-to-face socializing to men and women trained to operate in a market-mediated world. In such a world, it is the act of getting rid of the unwanted, much more than the act of getting hold of the desired, that is the meaning of individual freedom.

Since our civilization is irreversibly dependent on electronics, abolition of EMR is out of the question. However, as a first step toward averting disaster, we must halt the introduction of new sources of electromagnetic energy while we investigate the biohazards of those we already have with a completeness and honesty that have so far been in short supply. New sources must be allowed only after their risks have been evaluated on the basis of the knowledge acquired in such a moratorium. 
With an adequately funded research program, the moratorium need last no more than five years, and the ensuing changes could almost certainly be performed without major economic trauma. It seems possible that a different power frequency—say 400 hertz instead of 60—might prove much safer. Burying power lines and providing them with grounded shields would reduce the electric fields around them, and magnetic shielding is also feasible. 
A major part of the safety changes would consist of energy-efficiency reforms that would benefit the economy in the long run. These new directions would have been taken years ago but for the opposition of power companies concerned with their short-term profits, and a government unwilling to challenge them. It is possible to redesign many appliances and communications devices so they use far less energy. The entire power supply could be decentralized by feeding electricity from renewable sources (wind, flowing water, sunlight, georhermal and ocean thermal energy conversion, and so forth) into local distribution nets. This would greatly decrease hazards by reducing the voltages and amperages required. Ultimately, most EMR hazards could be eliminated by the development of efficient photoelectric converters to be used as the primary power source at each point of consumption. The changeover would even pay for itself, as the loss factors of long-distance power transmission—not to mention the astronomical costs of building and decommissioning short-lived nuclear power plants—were eliminated. Safety need not imply giving up our beneficial machines. 
Obviously, given the present technomilitary control of society in most parts of the world, such sane efficiency will be immensely difficult to achieve. Nevertheless, we must try. Electromagnetic energy presents us with the same imperative as nuclear energy: Our survival depends on the ability of upright scientists and other people of goodwill to break the military-industrial death grip on our policy-making institutions.

The Confederate Air Force planes carried gear that when flown close to a cell phone tower allowed those on board to log in passively and see a real-time record of every phone making a call. Task force personnel could then search for numbers in which they were interested, and the database would tell them if those phones were in use, and if so, where. “We’d pinpoint the location, we’d go hit the target,” said an operator. The cell phone tower info might guide the task force to a particular city block. At that point, the operators would use an “electronic divining rod,” a handheld paddlelike sensor that could be programmed to detect a specific phone and would beep increasingly loudly as it got closer to the device.22 The divining rod could even detect a phone that had been turned off, although not one with the battery and SIM card removed.

Distraction leaches the authenticity out of our communications. When we are not emotionally present, we are gliding over the surface of our interactions and we never tangle in the depths where the nuances of our skills are tested and refined. A medical professor describes the easy familiarity with which her digital-native resident students master medical electronic records—but is troubled by the fact that they enter data with their eyes focused on their digital devices, not on the patient in the room with them. Preoccupation with technology acts as a screen between the student and the patient’s real emotion, real fear, and real concern. It may also prevent these residents from noticing physical symptoms that the patient fails to mention. The easy busyness of medical record entry is a way to sidestep the more challenging dynamics of human connection. But experienced physicians know that interpersonal skills are essential to mastering the art and science of medical diagnosis.

Well, what we called a computer in 1977 was really a kind of electronic abacus, but...' 'Oh, now, don't underestimate the abacus,' said Reg. 'In skilled hands it's a very sophisticated calculating device. Furthermore it requires no power, can be made with any materials you have to hand, and never goes bing in the middle of an important piece of work.' 'So an electric one would be particularly pointless,' said Richard. 'True enough,' conceded Reg. 'There really wasn't a lot this machine could do that you couldn't do yourself in half the time with a lot less trouble,' said Richard, 'but it was, on the other hand, very good at being a slow and dim-witted pupil.' Reg looked at him quizzically. 'I had no idea they were supposed to be in short supply,' he said. 'I could hit a dozen with a bread roll from where I'm sitting.' 'I'm sure. But look at it this way. What really is the point of trying to teach anything to anybody?' This question seemed to provoke a murmur of sympathetic approval from up and down the table.

The climate for relationships within an innovation group is shaped by the climate outside it. Having a negative instead of a positive culture can cost a company real money. During Seagate Technology’s troubled period in the mid-to-late 1990s, the company, a large manufacturer of disk drives for personal computers, had seven different design centers working on innovation, yet it had the lowest R&D productivity in the industry because the centers competed rather than cooperated. Attempts to bring them together merely led people to advocate for their own groups rather than find common ground. Not only did Seagate’s engineers and managers lack positive norms for group interaction, but they had the opposite in place: People who yelled in executive meetings received “Dog’s Head” awards for the worst conduct. Lack of product and process innovation was reflected in loss of market share, disgruntled customers, and declining sales. Seagate, with its dwindling PC sales and fading customer base, was threatening to become a commodity producer in a changing technology environment. Under a new CEO and COO, Steve Luczo and Bill Watkins, who operated as partners, Seagate developed new norms for how people should treat one another, starting with the executive group. Their raised consciousness led to a systemic process for forming and running “core teams” (cross-functional innovation groups), and Seagate employees were trained in common methodologies for team building, both in conventional training programs and through participation in difficult outdoor activities in New Zealand and other remote locations. To lead core teams, Seagate promoted people who were known for strong relationship skills above others with greater technical skills. Unlike the antagonistic committees convened during the years of decline, the core teams created dramatic process and product innovations that brought the company back to market leadership. The new Seagate was able to create innovations embedded in a wide range of new electronic devices, such as iPods and cell phones.

One day Marlboro Man invited my sister, Betsy, and me to the ranch to work cattle. She was home from college and bored, and Marlboro Man wanted Tim to meet another member of my family. “Working cattle” is the term used to describe the process of pushing cattle, one by one, through a working chute, during which time they are branded, dehorned, ear tagged, and “doctored” (temperature taken, injections given). The idea is to get all the trauma and mess over with in one fell swoop so the animals can spend their days grazing peacefully in the pasture. When Betsy and I pulled up and parked, Tim greeted us at the chute and immediately assigned us our duties. He handed my sister a hot shot, which is used to gently zap the animal’s behind to get it to move through the chute. It’s considered the easy job. “You’ll be pushing ’em through,” Tim told Betsy. She dutifully took the hot shot, studying the oddly shaped object in her hands. Next, Tim handed me an eight-inch-long, thick-gauge probe with some kind of electronic device attached. “You’ll be taking their temperature,” Tim informed me. Easy enough, I thought. But how does this thing fit into its ear? Or does it slide under its arm somehow? Perhaps I insert it under the tongue? Will the cows be okay with this? Tim showed me to my location--at the hind end of the chute. “You just wait till the steer gets locked in the chute,” Tim directed. “Then you push the stick all the way in and wait till I tell you to take it out.” Come again? The bottom fell out of my stomach as my sister shot me a worried look, and I suddenly wished I’d eaten something before we came. I felt weak. I didn’t dare question the brother of the man who made my heart go pitter-pat, but…in the bottom? Up the bottom? Seriously? Before I knew it, the first animal had entered the chute. Various cowboys were at different positions around the animal and began carrying out their respective duties. Tim looked at me and yelled, “Stick it in!” With utter trepidation, I slid the wand deep into the steer’s rectum. This wasn’t natural. This wasn’t normal. At least it wasn’t for me. This was definitely against God’s plan.

The cheerleaders of the new data regime rarely acknowledge the impacts of digital decision-making on poor and working-class people. This myopia is not shared by those lower on the economic hierarchy, who often see themselves as targets rather than beneficiaries of these systems. For example, one day in early 2000, I sat talking to a young mother on welfare about her experiences with technology. When our conversation turned to EBT cards, Dorothy Allen said, “They’re great. Except [Social Services] uses them as a tracking device.” I must have looked shocked, because she explained that her caseworker routinely looked at her purchase records. Poor women are the test subjects for surveillance technology, Dorothy told me. Then she added, “You should pay attention to what happens to us. You’re next.” Dorothy’s insight was prescient. The kind of invasive electronic scrutiny she described has become commonplace across the class spectrum today. Digital tracking and decision-making systems have become routine in policing, political forecasting, marketing, credit reporting, criminal sentencing, business management, finance, and the administration of public programs. As these systems developed in sophistication and reach, I started to hear them described as forces for control, manipulation, and punishment

I will give technology three definitions that we will use throughout the book. The first and most basic one is that a technology is a means to fulfill a human purpose. For some technologies-oil refining-the purpose is explicit. For others- the computer-the purpose may be hazy, multiple, and changing. As a means, a technology may be a method or process or device: a particular speech recognition algorithm, or a filtration process in chemical engineering, or a diesel engine. it may be simple: a roller bearing. Or it may be complicated: a wavelength division multiplexer. It may be material: an electrical generator. Or it may be nonmaterial: a digital compression algorithm. Whichever it is, it is always a means to carry out a human purpose. The second definition I will allow is a plural one: technology as an assemblage of practices and components. This covers technologies such as electronics or biotechnology that are collections or toolboxes of individual technologies and practices. Strictly speaking, we should call these bodies of technology. But this plural usage is widespread, so I will allow it here. I will also allow a third meaning. This is technology as the entire collection of devices and engineering practices available to a culture. Here we are back to the Oxford's collection of mechanical arts, or as Webster's puts it, "The totality of the means employed by a people to provide itself with the objects of material culture." We use this collective meaning when we blame "technology" for speeding up our lives, or talk of "technology" as a hope for mankind. Sometimes this meaning shades off into technology as a collective activity, as in "technology is what Silicon Valley is all about." I will allow this too as a variant of technology's collective meaning. The technology thinker Kevin Kelly calls this totality the "technium," and I like this word. But in this book I prefer to simply use "technology" for this because that reflects common use. The reason we need three meanings is that each points to technology in a different sense, a different category, from the others. Each category comes into being differently and evolves differently. A technology-singular-the steam engine-originates as a new concept and develops by modifying its internal parts. A technology-plural-electronics-comes into being by building around certain phenomena and components and develops by changing its parts and practices. And technology-general, the whole collection of all technologies that have ever existed past and present, originates from the use of natural phenomena and builds up organically with new elements forming by combination from old ones.

More than anything, we have lost the cultural customs and traditions that bring extended families together, linking adults and children in caring relationships, that give the adult friends of parents a place in their children's lives. It is the role of culture to cultivate connections between the dependent and the dependable and to prevent attachment voids from occurring. Among the many reasons that culture is failing us, two bear mentioning. The first is the jarringly rapid rate of change in twentieth-century industrial societies. It requires time to develop customs and traditions that serve attachment needs, hundreds of years to create a working culture that serves a particular social and geographical environment. Our society has been changing much too rapidly for culture to evolve accordingly. There is now more change in a decade than previously in a century. When circumstances change more quickly than our culture can adapt to, customs and traditions disintegrate. It is not surprising that today's culture is failing its traditional function of supporting adult-child attachments. Part of the rapid change has been the electronic transmission of culture, allowing commercially blended and packaged culture to be broadcast into our homes and into the very minds of our children. Instant culture has replaced what used to be passed down through custom and tradition and from one generation to another. “Almost every day I find myself fighting the bubble-gum culture my children are exposed to,” said a frustrated father interviewed for this book. Not only is the content often alien to the culture of the parents but the process of transmission has taken grandparents out of the loop and made them seem sadly out of touch. Games, too, have become electronic. They have always been an instrument of culture to connect people to people, especially children to adults. Now games have become a solitary activity, watched in parallel on television sports-casts or engaged in in isolation on the computer. The most significant change in recent times has been the technology of communication — first the phone and then the Internet through e-mail and instant messaging. We are enamored of communication technology without being aware that one of its primary functions is to facilitate attachments. We have unwittingly put it into the hands of children who, of course, are using it to connect with their peers. Because of their strong attachment needs, the contact is highly addictive, often becoming a major preoccupation. Our culture has not been able to evolve the customs and traditions to contain this development, and so again we are all left to our own devices. This wonderful new technology would be a powerfully positive instrument if used to facilitate child-adult connections — as it does, for example, when it enables easy communication between students living away from home, and their parents. Left unchecked, it promotes peer orientation.

The Memory Business Steven Sasson is a tall man with a lantern jaw. In 1973, he was a freshly minted graduate of the Rensselaer Polytechnic Institute. His degree in electrical engineering led to a job with Kodak’s Apparatus Division research lab, where, a few months into his employment, Sasson’s supervisor, Gareth Lloyd, approached him with a “small” request. Fairchild Semiconductor had just invented the first “charge-coupled device” (or CCD)—an easy way to move an electronic charge around a transistor—and Kodak needed to know if these devices could be used for imaging.4 Could they ever. By 1975, working with a small team of talented technicians, Sasson used CCDs to create the world’s first digital still camera and digital recording device. Looking, as Fast Company once explained, “like a ’70s Polaroid crossed with a Speak-and-Spell,”5 the camera was the size of a toaster, weighed in at 8.5 pounds, had a resolution of 0.01 megapixel, and took up to thirty black-and-white digital images—a number chosen because it fell between twenty-four and thirty-six and was thus in alignment with the exposures available in Kodak’s roll film. It also stored shots on the only permanent storage device available back then—a cassette tape. Still, it was an astounding achievement and an incredible learning experience. Portrait of Steven Sasson with first digital camera, 2009 Source: Harvey Wang, From Darkroom to Daylight “When you demonstrate such a system,” Sasson later said, “that is, taking pictures without film and showing them on an electronic screen without printing them on paper, inside a company like Kodak in 1976, you have to get ready for a lot of questions. I thought people would ask me questions about the technology: How’d you do this? How’d you make that work? I didn’t get any of that. They asked me when it was going to be ready for prime time? When is it going to be realistic to use this? Why would anybody want to look at their pictures on an electronic screen?”6 In 1996, twenty years after this meeting took place, Kodak had 140,000 employees and a $28 billion market cap. They were effectively a category monopoly. In the United States, they controlled 90 percent of the film market and 85 percent of the camera market.7 But they had forgotten their business model. Kodak had started out in the chemistry and paper goods business, for sure, but they came to dominance by being in the convenience business. Even that doesn’t go far enough. There is still the question of what exactly Kodak was making more convenient. Was it just photography? Not even close. Photography was simply the medium of expression—but what was being expressed? The “Kodak Moment,” of course—our desire to document our lives, to capture the fleeting, to record the ephemeral. Kodak was in the business of recording memories. And what made recording memories more convenient than a digital camera? But that wasn’t how the Kodak Corporation of the late twentieth century saw it. They thought that the digital camera would undercut their chemical business and photographic paper business, essentially forcing the company into competing against itself. So they buried the technology. Nor did the executives understand how a low-resolution 0.01 megapixel image camera could hop on an exponential growth curve and eventually provide high-resolution images. So they ignored it. Instead of using their weighty position to corner the market, they were instead cornered by the market.

GCHQ has traveled a long and winding road. That road stretches from the wooden huts of Bletchley Park, past the domes and dishes of the Cold War, and on towards what some suggest will be the omniscient state of the Brave New World. As we look to the future, the docile and passive state described by Aldous Huxley in his Brave New World is perhaps more appropriate analogy than the strictly totalitarian predictions offered by George Orwell's Nineteen Eighty-Four. Bizarrely, many British citizens are quite content in this new climate of hyper-surveillance, since its their own lifestyle choices that helped to create 'wired world' - or even wish for it, for as we have seen, the new torrents of data have been been a source of endless trouble for the overstretched secret agencies. As Ken Macdonald rightly points out, the real drives of our wired world have been private companies looking for growth, and private individuals in search of luxury and convenience at the click of a mouse. The sigint agencies have merely been handed the impossible task of making an interconnected society perfectly secure and risk-free, against the background of a globalized world that presents many unprecedented threats, and now has a few boundaries or borders to protect us. Who, then, is to blame for the rapid intensification of electronic surveillance? Instinctively, many might reply Osama bin Laden, or perhaps Pablo Escobar. Others might respond that governments have used these villains as a convenient excuse to extend state control. At first glance, the massive growth of security, which includes includes not only eavesdropping but also biometric monitoring, face recognition, universal fingerprinting and the gathering of DNA, looks like a sad response to new kinds of miscreants. However, the sad reality is that the Brave New World that looms ahead of us is ultimately a reflection of ourselves. It is driven by technologies such as text messaging and customer loyalty cards that are free to accept or reject as we choose. The public debate on surveillance is often cast in terms of a trade-off between security and privacy. The truth is that luxury and convenience have been pre-eminent themes in the last decade, and we have given them a much higher priority than either security or privacy. We have all been embraced the world of surveillance with remarkable eagerness, surfing the Internet in a global search for a better bargain, better friends, even a better partner. GCHQ vast new circular headquarters is sometimes represented as a 'ring of power', exercising unparalleled levels of surveillance over citizens at home and abroad, collecting every email, every telephone and every instance of internet acces. It has even been asserted that GCHQ is engaged in nothing short of 'algorithmic warfare' as part of a battle for control of global communications. By contrast, the occupants of 'Celtenham's Doughnut' claim that in reality they are increasingly weak, having been left behind by the unstoppable electronic communications that they cannot hope to listen to, still less analyse or make sense of. In fact, the frightening truth is that no one is in control. No person, no intelligence agency and no government is steering the accelerating electronic processes that may eventually enslave us. Most of the devices that cause us to leave a continual digital trail of everything we think or do were not devised by the state, but are merely symptoms of modernity. GCHQ is simply a vast mirror, and it reflects the spirit of the age.

Stanford University’s John Koza, who pioneered genetic programming in 1986, has used genetic algorithms to invent an antenna for NASA, create computer programs for identifying proteins, and invent general purpose electrical controllers. Twenty-three times Koza’s genetic algorithms have independently invented electronic components already patented by humans, simply by targeting the engineering specifications of the finished devices—the “fitness” criteria. For example, Koza’s algorithms invented a voltage-current conversion circuit (a device used for testing electronic equipment) that worked more accurately than the human-invented circuit designed to meet the same specs. Mysteriously, however, no one can describe how it works better—it appears to have redundant and even superfluous parts. But that’s the curious thing about genetic programming (and “evolutionary programming,” the programming family it belongs to). The code is inscrutable. The program “evolves” solutions that computer scientists cannot readily reproduce. What’s more, they can’t understand the process genetic programming followed to achieve a finished solution. A computational tool in which you understand the input and the output but not the underlying procedure is called a “black box” system. And their unknowability is a big downside for any system that uses evolutionary components. Every step toward inscrutability is a step away from accountability, or fond hopes like programming in friendliness toward humans. That doesn’t mean scientists routinely lose control of black box systems. But if cognitive architectures use them in achieving AGI, as they almost certainly will, then layers of unknowability will be at the heart of the system. Unknowability might be an unavoidable consequence of self-aware, self-improving software.

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One of the earliest studies found that using an iPad—an electronic tablet enriched with blue LED light—for two hours prior to bed blocked the otherwise rising levels of melatonin by a significant 23 percent. A more recent report took the story several concerning steps further. Healthy adults lived for a two-week period in a tightly controlled laboratory environment. The two-week period was split in half, containing two different experimental arms that everyone passed through: (1) five nights of reading a book on an iPad for several hours before bed (no other iPad uses, such as email or Internet, were allowed), and (2) five nights of reading a printed paper book for several hours before bed, with the two conditions randomized in terms of which the participants experienced as first or second. Compared to reading a printed book, reading on an iPad suppressed melatonin release by over 50 percent at night. Indeed, iPad reading delayed the rise of melatonin by up to three hours, relative to the natural rise in these same individuals when reading a printed book. When reading on the iPad, their melatonin peak, and thus instruction to sleep, did not occur until the early-morning hours, rather than before midnight. Unsurprisingly, individuals took longer to fall asleep after iPad reading relative to print-copy reading. But did reading on the iPad actually change sleep quantity/quality above and beyond the timing of melatonin? It did, in three concerning ways. First, individuals lost significant amounts of REM sleep following iPad reading. Second, the research subjects felt less rested and sleepier throughout the day following iPad use at night. Third was a lingering aftereffect, with participants suffering a ninety-minute lag in their evening rising melatonin levels for several days after iPad use ceased—almost like a digital hangover effect. Using LED devices at night impacts our natural sleep rhythms, the quality of our sleep, and how alert we feel during the day.

The creation groans from all the pain and sorrow that surrounds us. We have a strong sense that life is not the way it’s supposed to be.[4] We cry out at injustices, rail against inequalities, long for things to get fixed. The long march for racial, gender, and economic equality is an ongoing struggle. Progress is rare. When it comes to electronics, the advances seem to arrive on a regular basis. Every holiday season, we’re greeted by upgrades, by a new network from 3G to 4G to 5G. Products make progress seem easy and inevitable. The hard work of design and engineering is hidden. Yet, even the latest, greatest technology breaks down. Unfortunately, we don’t know how to fix our gadgets. The mechanics that drive our devices often defy our comprehension. We toss out our old computers and cell phones, and we embrace the new and improved. Replacing isn’t the same as redeeming.

The new surveillance is spearheaded by burgeoning, ever-more-sophisticated electronic means that include-among a staggering array of devices-potent lasers, parabolic microphones and other "bugs" with more powerful transmitters, subminiature tape recorders, improved remote camera and videotape systems, advanced ways of seeing in the dark, voice-stress analyzers, and powerful new tracking cfevices.o'h.

The stigma for bus travel has evaporated,” says Joseph P. Schwieterman, director of the Chaddick Institute for Metropolitan Development at DePaul University. “People are willing to endure a longer commute for a mobile office benefit.” His research found that nearly 60 percent of discount bus travelers used a personal electronic device en route in 2014, up from 46 percent a year earlier, while the numbers held steady at 52 percent for Amtrak and 35 percent for the airlines. The study did not include a separate category for luxury buses.

With a bored pride; in their own hands a shallow mindless electronic device - it is without doubt - a damning indictment of modern society.

The invention of “electronic ink” is just around the corner. This invention will enable the use of flexible paper-like devices to display electronic texts, thereby resolving the issue of using cumbersome, bulky electronic devices such as laptops and PDAs. Some day not so far in the future you will be able to carry around a newspaper in your briefcase that constantly updates itself wirelessly via the Internet. You will be able to carry a small “book” in your book bag that can call up the text not only for all of your classes in school, but also every book ever published (or at least digitized). Imagine—the entire Library of Congress in your book bag.

Unlike most electronic devices, we wanted to keep Kindle simple. Kindle is wireless and ready to use right out of the box – no setup, no software to install, no computer required. "New Kindle leaves rivals farther back." - New York Times "Amazon's newest Kindle is the best ebook-reading device on the market. It's better than the Apple iPad, the Barnes & Noble Nook, the various Sony readers…" - Fast Company "Battery life is long

We face the most compelling era of mankind: exponential growth of new technologies, cheaper electronic devices and the globalization of knowledge, commerce, and ideas along with the rapid growth of emerging markets of colossal sizes will generate the best opportunities, connections, higher risks and challenges for everyone.

Description: SCP-1290 is a pair of prototype electronic devices that were built by Prometheus Labs as part of research into long-range teleportation. Each device consists of a platform 2 m in diameter attached to a 5 m x 20 m x 3 m main unit, both of which draw power from a dedicated generator. The two copies of SCP-1290 are located at diametrically opposed (antipodal) locations of the Earth, with SCP-1290-1 located in [REDACTED], Colombia and SCP-1290-2 located in [REDACTED], Singapore.

There are other problems more closely related to the question of culture. The poor fit between large scale and Korea’s familistic tendencies has probably been a net drag on efficiency. The culture has slowed the introduction of professional managers in situations where, in contrast to small-scale Chinese businesses, they are desperately needed. Further, the relatively low-trust character of Korean culture does not allow Korean chaebol to exploit the same economies of scale and scope in their network organization as do the Japanese keiretsu. That is, the chaebol resembles a traditional American conglomerate more than a keiretsu network: it is burdened with a headquarters staff and a centralized decision-making apparatus for the chaebol as a whole. In the early days of Korean industrialization, there may have been some economic rationale to horizontal expansion of the chaebol into unfamiliar lines of business, since this was a means of bringing modern management techniques to a traditional economy. But as the economy matured, the logic behind linking companies in unrelated businesses with no obvious synergies became increasingly questionable. The chaebol’s scale may have given them certain advantages in raising capital and in cross-subsidizing businesses, but one would have to ask whether this represented a net advantage to the Korean economy once the agency and other costs of a centralized organization were deducted from the balance. (In any event, the bulk of chaebol financing has come from the government at administered interest rates.) Chaebol linkages may actually serve to hold back the more competitive member companies by embroiling them in the affairs of slow-growing partners. For example, of all the varied members of the Samsung conglomerate, only Samsung Electronics is a truly powerful global player. Yet that company has been caught up for several years in the group-wide management reorganization that began with the passing of the conglomerate’s leadership from Samsung’s founder to his son in the late 1980s.72 A different class of problems lies in the political and social realms. Wealth is considerably more concentrated in Korea than in Taiwan, and the tensions caused by disparities in wealth are evident in the uneasy history of Korean labor relations. While aggregate growth in the two countries has been similar over the past four decades, the average Taiwanese worker has a higher standard of living than his Korean counterpart. Government officials were not oblivious to the Taiwanese example, and beginning in about 1981 they began to reverse somewhat their previous emphasis on large-scale companies by reducing their subsidies and redirecting them to small- and medium-sized businesses. By this time, however, large corporations had become so entrenched in their market sectors that they became very difficult to dislodge. The culture itself, which might have preferred small family businesses if left to its own devices, had begun to change in subtle ways; as in Japan, a glamour now attached to working in the large business sector, guaranteed it a continuing inflow of Korea’s best and brightest young people.73

We may not have become a crueler society—although it sure feels as if we have—but the Internet has seismically shifted the tone of our interactions. The ease, the speed, and the distance that our electronic devices afford us can also make us colder, more glib, and less concerned about the consequences of our pranks and prejudice. Having lived humiliation in the most intimate possible way, I marvel at how willingly we have all signed on to this new way of being.

Kindle” means Amazon’s portable electronic reading devices and tablets.

Simon and Garfunkel were prophetic. The Sound of Silence certainly applies today with so many people communicating through electronic devices. It isn't uncommon to see kids standing side by side talking without speaking. We bow and pray to the back-lit gods we made.

Doctors and researchers, from local emergency rooms to the Centers for Disease Control (CDC), link the growing use of handheld electronic devices to an alarming increase in injuries to children, especially when parents or caregivers are distracted and fail to properly supervise young children in the moment. The Wall Street Journal, in a roundup of research and interviews with experts on the subject, noted that injuries to children under age five rose 12 percent between 2007 and 2010, after falling for much of the prior decade, according to the most recent data from the CDC.

Something was wrong with the devices themselves. Digging deep into the internal structure of the circuit boards with powerful microscopes, Simon's team had discovered broken and incorrect connections, electronic dead-ends, short circuits, and nonsensical pathways.

Where the techno-medical model of birth reigns, women who give birth vaginally generally labor in bed hooked up to electronic fetal monitors, intravenous tubes, and pressure-reading devices. Eating and drinking in labor are usually not permitted. Labor pain within this model is seen as unacceptable, so analgesia, and anesthesia are encouraged. Episiotomies (the surgical cut to enlarge the vaginal opening) are routinely performed, out of a belief that birth over an intact perineum would be impossible or that, if possible, it might be harmful to mother or baby. Instead of being the central actor of the birth drama, the woman becomes a passive, almost inert object - representing a barrier to the baby's eventual passage to the outside world. Women are treated as a homogenous group within the medical model, with individual variations receding in importance.

•   FAR 91.21 – You must determine that the iPad, as a portable electronic device, does not cause interference in the airplane’s communication or navigation equipment.

In the formative years of digital computing, following World War II, both the operating system and applications were considered afterthoughts by designers. The “hardware” of electronics, as distinct from the “software” of programs, was so difficult that engineers could hardly see past it. The most important type of hardware was the circuitry or processors that actually carried out the instructions given the computer. A second set of devices made it possible to get data into and out of a computer. A third class stored information. A fourth class allowed one computer to send information to another, over special cable or telephone lines. The question of software generally arose only after the hardware pieces fell into place.

The S curve is not just important as a model in its own right; it’s also the jack-of-all-trades of mathematics. If you zoom in on its midsection, it approximates a straight line. Many phenomena we think of as linear are in fact S curves, because nothing can grow without limit. Because of relativity, and contra Newton, acceleration does not increase linearly with force, but follows an S curve centered at zero. So does electric current as a function of voltage in the resistors found in electronic circuits, or in a light bulb (until the filament melts, which is itself another phase transition). If you zoom out from an S curve, it approximates a step function, with the output suddenly changing from zero to one at the threshold. So depending on the input voltages, the same curve represents the workings of a transistor in both digital computers and analog devices like amplifiers and radio tuners. The early part of an S curve is effectively an exponential, and near the saturation point it approximates exponential decay. When someone talks about exponential growth, ask yourself: How soon will it turn into an S curve? When will the population bomb peter out, Moore’s law lose steam, or the singularity fail to happen? Differentiate an S curve and you get a bell curve: slow, fast, slow becomes low, high, low. Add a succession of staggered upward and downward S curves, and you get something close to a sine wave. In fact, every function can be closely approximated by a sum of S curves: when the function goes up, you add an S curve; when it goes down, you subtract one. Children’s learning is not a steady improvement but an accumulation of S curves. So is technological change. Squint at the New York City skyline and you can see a sum of S curves unfolding across the horizon, each as sharp as a skyscraper’s corner. Most importantly for us, S curves lead to a new solution to the credit-assignment problem. If the universe is a symphony of phase transitions, let’s model it with one. That’s what the brain does: it tunes the system of phase transitions inside to the one outside. So let’s replace the perceptron’s step function with an S curve and see what happens.

Marc Goodman is a cyber crime specialist with an impressive résumé. He has worked with the Los Angeles Police Department, Interpol, NATO, and the State Department. He is the chief cyber criminologist at the Cybercrime Research Institute, founder of the Future Crime Institute, and now head of the policy, law, and ethics track at SU. When breaking down this threat, Goodman sees four main categories of concern. The first issue is personal. “In many nations,” he says, “humanity is fully dependent on the Internet. Attacks against banks could destroy all records. Someone’s life savings could vanish in an instant. Hacking into hospitals could cost hundreds of lives if blood types were changed. And there are already 60,000 implantable medical devices connected to the Internet. As the integration of biology and information technology proceeds, pacemakers, cochlear implants, diabetic pumps, and so on, will all become the target of cyber attacks.” Equally alarming are threats against physical infrastructures that are now hooked up to the net and vulnerable to hackers (as was recently demonstrated with Iran’s Stuxnet incident), among them bridges, tunnels, air traffic control, and energy pipelines. We are heavily dependent on these systems, but Goodman feels that the technology being employed to manage them is no longer up to date, and the entire network is riddled with security threats. Robots are the next issue. In the not-too-distant future, these machines will be both commonplace and connected to the Internet. They will have superior strength and speed and may even be armed (as is the case with today’s military robots). But their Internet connection makes them vulnerable to attack, and very few security procedures have been implemented to prevent such incidents. Goodman’s last area of concern is that technology is constantly coming between us and reality. “We believe what the computer tells us,” says Goodman. “We read our email through computer screens; we speak to friends and family on Facebook; doctors administer medicines based upon what a computer tells them the medical lab results are; traffic tickets are issued based upon what cameras tell us a license plate says; we pay for items at stores based upon a total provided by a computer; we elect governments as a result of electronic voting systems. But the problem with all this intermediated life is that it can be spoofed. It’s really easy to falsify what is seen on our computer screens. The more we disconnect from the physical and drive toward the digital, the more we lose the ability to tell the real from the fake. Ultimately, bad actors (whether criminals, terrorists, or rogue governments) will have the ability to exploit this trust.