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An anonymous reader writes "Scientists at the University of California, Berkeley have designed a super-thin flexible skin that lights up when touched. 'Thinner than a sheet of paper, the skin is made from layers of plastic and a pressure-sensitive rubber. A conductive silver ink, organic LEDs, and thin-film transistors made from semiconductor-enriched carbon nanotubes are sandwiched between the layers. Applying pressure sends a signal through the rubber that ultimately turns on the LEDs, which light up in red, green, yellow or blue. Instead of using the material to create bodysuits for Burning Man or other illuminated party tricks, scientists suggest that it might be used for smart wallpapers, health-monitoring devices, or in robotics. The type of interactive pressure sensor developed by the Berkeley scientists could also be useful in artificial skin for prosthetic limbs'"

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We live in a silent century. Though no less powerful than their pre-millennial ancestors, our post-millennial innovations are mostly intangible; even when they do occupy physical space, they but wobble neighboring air particles and scarcely make a sound.

Compiling the "Sounds of the 21st Century" is a steep challenge, therefore, but one that legendary beatboxer Beardyman didn't shy from.

"There's an absence of sound rather than a defining sound," he tells Wired.co.uk. Pay attention to the objects around you—the ones that are truly 21st century make next to no noise when we interact with them. The clatter of keyboards? 20th century. The din of car engines? 20th century. The cacophony of the city? Choose whichever century BC you like.

To create a track that begins to "encapsulate the mood of living in the future," as Beardyman puts it, you have to amplify the silent touches we make to interact with modern society. First and foremost, the tapping of fingers on smartphones. "That's all everyone does these days. That's [partly] the point of the video," he says.

In the song, Beardyman meshes beatboxing, phone-tapping, key-bashing, and other sounds in a glitchy track, which will be performed live on September 2 at the O2 Campus Party Europe opening party.

Beardyman presents "the sounds of the 21st century"

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A writer for publications including The New York Times and Wired, Clive Thompson is used to defending the latest trends in digital technology from naysayers and skeptics. In 2008, he was one of the first to describe how sites like Twitter were about more than sharing what you had for breakfast. Now he’s written his first book, Smarter Than You Think, an investigation of how technology is helping us to learn more and retain information longer. Clive took some time to talk with us about the new book, distraction, MOOCs, and how he uses technology with his kids.

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Soulskill

angry tapir writes "Researchers at Microsoft Research have produced a prototype software system that can be used on smartphones to infer a user's mood. The 'MoodScope' system produced by researchers uses smartphone usage patterns to determine whether someone is happy, calm, excited, bored or stressed and could potentially add a new dimension to to mobile apps (as well as, as the researchers note, open up a Pandora's Box of privacy issues). The researchers created a low-power background service for iPhones and Android handsets that (with training) can offer reasonable detection of mood and offers and API that app developers could hook into."

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By THE NEW YORK TIMES

With more people reading the Times on smart phones, you can now experience Lens on the New York Times iPad/iPhone or Android app.

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Dan Goodin

greyweed

Recently discovered malware targeting Android smartphones exploits previously unknown vulnerabilities in the Google operating system and borrows highly advanced functionality more typical of malicious Windows applications, making it the world's most sophisticated Android Trojan, a security researcher said.

The infection, named Backdoor.AndroidOS.Obad.a, isn't very widespread at the moment. The malware gives an idea of the types of smartphone malware that are possible, however, according to Kaspersky Lab expert Roman Unuchek in a blog post published Thursday. Sharply contrasting with mostly rudimentary Android malware circulating today, the highly stealthy Obad.a exploits previously unknown Android bugs, uses Bluetooth and Wi-Fi connections to spread to near-by handsets, and allows attackers to issue malicious commands using standard SMS text messages.

"To conclude this review, we would like to add that Backdoor.AndroidOS.Obad.a looks closer to Windows malware than to other Android trojans, in terms of its complexity and the number of unpublished vulnerabilities it exploits," Unuchek wrote. "This means that the complexity of Android malware programs is growing rapidly alongside their numbers."

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Jeremy Keith notes that what happens between the breakpoints is just as important as the breakpoints themselves—perhaps even more so. While I agree with this, we do have to start somewhere. In a way, this part of the process reminds me of storyboarding, or creating animation keyframes, with the in-between frames being developed later. We’re going to do that here.

Major breakpoints are conditions that, when met, trigger major changes in your design. A major breakpoint might be, for example, where your entire layout must change from two columns to four.

Let’s say you’ve chosen three basic design directions from your thumbnails. Think about what your major breakpoints will look like (Figure 7.6). And here’s the key: try to come up with as few major breakpoints as possible. That might sound crazy, since we’re talking about responsive design. After all, we have media queries, so let’s use about 12 of them, right? No! If a linear layout works for every screen and is appropriate for your particular concept, then there’s no need for different layouts. In that case, simply describe what will happen when the screen gets larger. Will everything generally stay the same, with changes only to font size, line height and margins? If so, sketch those. For these variations, make thumbnails first, explore some options, and then move on to larger, more detailed sketches. Use your breakpoint graph as a guide at first and make sketches according to the breakpoints you’ve estimated on your graph.

When thinking about major breakpoints, remember to think about device classes. If you’re thinking about smartphones, tablets, laptops/desktops, TVs, and game consoles, for example, you’re heading in the right direction. If you’re thinking in terms of brand names and specific operating systems, you’re on the wrong track. The idea is to think in terms of general device classifications and, sometimes, device capabilities. Capabilities are more important when designing web applications, since you should be thinking about what screens will look like both with and without any particular capability.

Rough sketches of major breakpoints can help you determine:

Rough sketches are more detailed than thumbnails, but they shouldn’t take a long time to create. In a short period, you should have a sketch of each major breakpoint for each of your chosen designs. This should be enough to decide on one of the designs.

  • Whether or not more major breakpoints are needed
  • Which design choice will be the most labor intensive; you might opt for a design that will better fit within time and budget constraints
  • Whether or not a particular device class has been neglected or needs further consideration
  • What technologies you’ll need to develop the design responsively


Figure 7.6: Most websites need very few major breakpoints.

Minor breakpoints are conditions that, when met, trigger small changes in your design. An example would be moving form labels from above text fields to the left of those fields, while the rest of the design remains the same.

So where and when will you sketch minor breakpoints? In the browser, when you do your web-based mockup. You’ll find out why and how in the next chapter. In the meantime, simply focus on making sketches of the state of your web pages or app screens at the major breakpoints of each design.

At this point, don’t worry too much if you notice that the initial breakpoints on your breakpoint graph simply won’t do. Those were just a starting point, and you’re free to revise your estimate based on your sketches. You might even decide that you need an extra breakpoint for a given design and record that in sketch form; you can add that breakpoint to your graph. This is a cycle of discovery, learning, and revision.

Think about your content while sketching

While sketching, you’ll certainly be thinking about the way things should look. My experience is that much UI sketching of this type revolves around the layout of elements on the screen. I’ve found it useful to keep thinking about the content while sketching, and to consider what will happen to the content in various situations. When designing responsively, it can be useful to consider how you’ll handle the following content in particular:

  • Text
  • Navigation
  • Tables

Oh, sure, there are many more things to consider, and you’ll end up creating your own list of “things to do some extra thinking about” as the project progresses. For now, let’s take a look at the items listed above.

Text

Before you say, “Hey, wait a minute, didn’t you just tell me that I didn’t have to draw text while sketching?” hear me out. While sketching, there are a couple of text-related issues you’ll need to tackle: column width and text size, both of which are relevant in proportion to the screen and the other elements on the page.

Column width is fairly obvious, but it can be difficult to estimate how wide a column will be with actual text. In this case, sketching on a device might give you a better idea of the actual space you have to work with. Another method I’ve used is just to make a simple HTML page that contains only text, and load that into a device’s browser (or even an emulator, which while not optimal still gives a more realistic impression than lines on paper). When the text seems too large or too small, you can adjust the font size accordingly. Once it seems right, you’ll be able to make your sketches a bit more realistic.

Note: Distinguish between touchability and clickability. Many designers, myself included, have made the mistake of refining links for people who click on them using a mouse, or even via the keyboard, without considering how touchable these links are for people on touch devices.

Think about the size of links—not only the text size, but also the amount of space around them. Both of these factors play a role in the touchability or clickability of links (and buttons): large links and buttons are easier targets, but slightly smaller links with plenty of space around them can work just as well. That said, there’s a decent chance that no matter what you choose to sketch, you’ll end up making changes again when you create your mockups.

This is the great thing about sketching that I can’t repeat often enough: you’re going to refine your design in the browser anyway, so the speed with which you can try things out when sketching means you won’t have to do detail work more than once (unless your client has changes, but we all know that never happens).

Navigation

Navigation is another poster child for sketching on actual devices. The size issues are the same as with links, but there’s a lot more thinking to do in terms of the design of navigation for various devices, which means navigation might change significantly at each major breakpoint.

Think back to Bryan Rieger’s practice of designing in text first, and ponder what you would do before the very first breakpoint if you had only plain HTML and CSS at your disposal—in other words, if you had no JavaScript. That means no, you can’t have your menu collapsed at the top of the screen and have it drop down when someone touches it. If you have your menu at the top, it’s in its expanded form and takes up all the vertical space it normally would.

This is a controversial enough subject, with even accessibility gurus in disagreement: JavaScript, after all, is currently considered an “accessibility supported” technology. But this isn’t necessarily about accessibility. It’s about thinking about what happens when a browser lacks JavaScript support, or if the JavaScript available on the device is different than what you’d expect. Your content will be presented in a certain way before JavaScript does its thing with it, no matter what the browser. So why not think about what that initial state will be?

In the chapter on wireframes, I talked about my preferred pattern for navigation on the smallest screens: keep it near the bottom of the screen and place a link to that navigation near the top of the screen. JavaScript, when available and working as expected, can move that navigation up to the top and create the drop-down menu on the fly.

But a pattern is not design law, so how you choose to handle the smallest screens will depend on your project. If I had only a few links in my navigation, I might very well put the menu at the top from the very start, and there it would stay at every breakpoint.

Remember that JavaScript and CSS let you do a lot of rearranging of stuff on the screen. That knowledge should empower you to safely design a great page with plain HTML and use JavaScript and CSS to spice it up any way you like. This is the essence of progressive enhancement.

Tables

Tables! Oh, the bane of the responsive designer (or wait, is that images? Or video? Or layout? Ahem). Tables are tough to deal with on small screens. I’d love to tell you I have all the answers, but instead I have more questions. Hopefully, these will lead you to a solution. It’s good to think about these while you’re sketching.

First of all, what types of tables will you be dealing with? Narrow? Wide? Numerical? Textual? Your content inventory should give you enough information to answer these simple questions. Once you’ve considered those, try to categorize the types of tables you have into something like the following classes (Figure 7.7):

  • Small-screen-friendly tables, which you’ll probably leave as they are, because they’re small enough and will work fine on most small screens.
  • Blockable tables, which you can alter with CSS so that each row in the table functions visually as a block item in a list (Figure 7.8).
  • Chartable tables, which contain numerical data that can be transformed into a chart, graph, or other visualization that will take up less space on a small screen.
  • Difficult tables, which are hard enough to deal with that you’ll need to come up with a different plan for them, sometimes even on a case-by-case basis. These are our enemies, but unfortunately, are the friends of our clients, who all love Microsoft Excel. Oh well.


Figure 7.7: There are several different types of tables, and different ways of dealing with them on small screens. (Sources: mobilism.nl and eu-verantwoording.nl)


Figure 7.8: One way of dealing with small screen tables is to treat each row as a block.

Thinking again in terms of progressive enhancement, the base design should probably just include the whole table, which means that the user will have to scroll horizontally to see the whole thing in many cases. On top of this, we can employ CSS and JavaScript, when they’re available, to do some magic for us. Blockable and chartable tables can be blocked with CSS and charted with JavaScript. Plenty of designers and developers have experimented with many different options for tables, from simply making the table itself scrollable to exchanging columns and rows.

The fun part is that what you do on small screens isn’t necessarily what you’ll do on larger screens. That’s why now—when all you have to do is sketch and it won’t take much time—is the time to think about the changes you’ll be making at each breakpoint.

What to do if you get stuck

Every designer gets stuck at some point. It’s no big deal unless you treat it like one. There are countless ways to deal with it, from asking yourself what if questions (“What if it weren’t a table, but a list?” is what I asked myself before “blockifying” the attendees table for the Mobilism site) to the cliché taking a shower, which you hopefully do on a regular basis anyway. The reason this chapter focuses so much on sketching is because the act of drawing itself can actually stimulate your brain to come up with more ideas, provided you push it hard enough by sketching past your comfort zone of first-come ideas.

If your problem is that you’re stuck creatively, there are many inspiring books and resources to get your creative engine started during the bitter cold of designer’s block. Although there are plenty of resources on design and creativity itself (try such classics as Edward de Bono’s Lateral Thinking), the greatest inspiration can come from sources outside the realm of design.1 Trying to combine things that normally aren’t combined can lead to surprising results. It’s a simple little trick, but I’ve often used Brian Eno and Peter Schmidt’s Oblique Strategies to force me to take a different approach.2 Worst case, it’s a lot of fun. Best case, you’ve got a great idea!

If your problem is that you’re not sure how to handle something in the context of responsive design, there’s no harm in researching how others have solved problems like yours. Just be sure to use your creativity and tailor any ideas you might find to your own situation; after all, you’re a designer. At the time of this writing I find Brad Frost’s This Is Responsive to be one of the most exhaustive collections of responsive design patterns and resources available.3 You can spend hours going through there and you’ll certainly come across something that will get you unstuck.

Excerpted from Responsive Design Workflow by Stephen Hay. Copyright © 2013.
Used with permission of Pearson Education, Inc. and New Riders.

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