Wired: “With 3.4 million users, the five-year-old site is a runaway hit in the hacker community, the go-to place for coders to show off pet projects and crowdsource any improvements. But the company has grander ambitions: It wants to change the way people work. It’s starting with software developers for sure, but maybe one day anyone who edits text in one form or another — lawyers, writers, and civil servants — will do it the GitHub way.
To first-time visitors, GitHub looks like a twisted version of Facebook, built in some alternate universe where YouTube videos and photos of cats have somehow morphed into snippets of code. But many of the underlying concepts are the same. You can “follow” other hackers to see what they’re working on. You can comment on their code — much like you’d do on a Facebook photo. You can even “star” a project to show that you like it, just as you’d “favorite” something on Twitter.
But it’s much more than a social network. People discover new projects and then play around with them, making changes, trying out new ideas. Then, with the push of a button, they merge into something better. You can also “fork” projects. That’s GitHub lingo for then when you make a copy of a project so you can then build and modify your own, independent version.
People didn’t just suggest changes to Lee’s Twitter patent license. It was forked 53 times: by Arul, by a computer science student in Portland, by a Belgian bicycle designer. These forks can now evolve and potentially even merge back into Lee’s agreement. The experiment also inspired Fenwick & West, one of Silicon Valley’s top legal firms (and GitHub’s law firm) to post 30 pages of standard documents for startups to GitHub earlier this year.”
The Other Side of Open is Not Closed
Dazza Greenwood at Civics.com: “Impliedly, the opposite of “open” is “closed” but the other side of open data, open API’s and open access is usually still about enabling access but only when allowed or required. Open government also needs to include adequate methods to access and work with data and other resources that are not fully open. In fact, many (most?) high value, mission critical and societally important data access is restricted in some way. If a data-set is not fully public record then a good practice is to think of it as “protected” and to ensure access according to proper controls.
As a metaphorical illustration, you could look at an open data system like a village square or agora that is architected and intended to be broadly accessible. On the other side of the spectrum, you could see a protected data system more like a castle or garrison, that is architected to be secure from intruders but features guarded gates and controlled access points in order to function.
In fact, this same conceptual approach applies well beyond data and includes everything you could consider an resource on the Internet. In other words, any asset, service, process or other item that can exist at a URL (or URI) is a resource and can be positioned somewhere on a spectrum from openly accessible to access protected. It is easy to forget that the “R” in URL stands for “Resource” and the whole wonderful web connects to resources of every nature and description. Data – structured, raw or otherwise – is just the tip of the iceberg.
Resources on the web could be apps and other software, or large-scale enterprise network services, or just a single text file with few lines of html. The concept of a enabling access permission to “protected resources” on the web is the cornerstone of OAuth2 and is now being extended by the OpenID Connect standard, the User Managed Access protocol and other specifications to enable a powerful array of REST-based authorization possibilities…”
Assessing Zuckerberg’s Idea That Facebook Could Help Citizens Re-Make Their Government
Gregory Ferenstein in TechCrunch: “Mark Zuckerberg has a grand vision that Facebook will help citizens in developing countries decide their own governments. It’s a lofty and partially attainable goal. While Egypt probably won’t let citizens vote for their next president with a Like, it is theoretically possible to use Facebook to crowdsource expertise. Governments around the world are experimenting with radical online direct democracy, but it doesn’t always work out.
Very briefly, Zuckerberg laid out his broad vision for e-government to Wired’s Steven Levy, while defending Internet.org, a new consortium to bring broadband to the developing world.
“People often talk about how big a change social media had been for our culture here in the U.S. But imagine how much bigger a change it will be when a developing country comes online for the first time ever. We use things like Facebook to share news and keep in touch with our friends, but in those countries, they’ll use this for deciding what kind of government they want to have. Getting access to health care information for the first time ever.”
When he references “deciding … government,” Zuckerberg could be talking about voting, sharing ideas, or crafting a constitution. We decided to assess the possibilities of them all….
For citizens in the exciting/terrifying position to construct a brand-new government, American-style democracy is one of many options. Britain, for instance, has a parliamentary system and has no constitution. In other cases, a government may want to heed political scientists’ advice and develop a “consensus democracy,” where more than two political parties are incentivized to work collaboratively with citizens, business, and different branches of government to craft laws.
At least once, choosing a new style of democracy has been attempted through the Internet. After the global financial meltdown wrecked Iceland’s economy, the happy citizens of the grass-covered country decided to redo their government and solicit suggestions from the public (950 Icelanders chosen by lottery and general calls for ideas through social networks). After much press about Iceland’s “crowdsourced” constitution, it crashed miserably after most of the elected leaders rejected it.
Crafting law, especially a constitution, is legally complex; unless there is a systematic way to translate haphazard citizen suggestions into legalese, the results are disastrous.
“Collaborative drafting, at large scale, at low costs, and that is inclusive, is something that we still don’t know how to do,” says Tiago Peixoto, a World Bank Consultant on participatory democracy (and one of our Most Innovative People In Democracy).
Peixoto, who helps the Brazilian government conduct some of the world’s only online policymaking, says he’s optimistic that Facebook could be helpful, but he wouldn’t use it to draft laws just yet.
While technically it is possible for social networks to craft a new government, we just don’t know how to do it very well, and, therefore, leaders are likely to reject the idea. In other words, don’t expect Egypt to decide their future through Facebook likes.”
Mapping the Twitterverse
Phys.org: “What does your Twitter profile reveal about you? More than you know, according to Chris Weidemann. The GIST master’s student has developed an application that follows geospatial footprints.
You start your day at your favorite breakfast spot. When your order of strawberry waffles with extra whipped cream arrives, it’s too delectable not to share with your Twitter followers. You snap a photo with your smartphone and hit send. Then, it’s time to hit the books.
You tweet your friends that you’ll be at the library on campus. Later that day, palm trees silhouette a neon-pink sunset. You can’t resist. You tweet a picture with the hashtag #ILoveLA.
You may not realize that when you tweet those breezy updates and photos of food, you are sharing information about your location.
Chris Weidemann, a graduate student in the Geographic Information Science and Technology (GIST) online master’s program at USC Dornsife, investigated just how much public geospatial data was generated by Twitter users and how their information—available through Twitter’s application programming interface (API)—could potentially be used by third parties. His study was published June 2013 in the International Journal of Geoinformatics…
Twitter has approximately 500 million active users, and reports show that 6 percent of users opt-in to allow the platform to broadcast their location using global positioning technology with each tweet they post. That’s about 30 million people sending geo-tagged data out into the Twitterverse. In their tweets, people can choose whether their information is displayed as a city and state, an address or pinpoint their precise latitude and longitude.
That’s only part of their geospatial footprint. Information contained in a post may reveal a user’s location. Depending upon how the account is set up, profiles may include details about their hometown, time zone and language.”
Twitter’s activist roots: How Twitter’s past shapes its use as a protest tool
Radio Netherlands Worldwide: “Surprised when demonstrators from all over the world took to Twitter as a protest tool? Evan “Rabble” Henshaw-Plath, member of Twitter’s founding team, was not. Rather, he sees it as a return to its roots: Inspired by protest coordination tools like TXTMob, and shaped by the values and backgrounds of Twitter’s founders, he believes activist potential was built into the service from the start.
It took a few revolutions before Twitter was taken seriously. Critics claimed that its 140-character limit only provided space for the most trivial thoughts: neat for keeping track of Ashton Kutcher’s lunch choices, but not much else. It made the transition from Silicon Valley toy into Middle East protest tool seem all the more astonishing.
Unless, Twitter co-founder Evan Henshaw-Plath argues, you know the story of how Twitter came to be. Evan Henshaw-Plath was the lead developer at Odeo, the company that started and eventually became Twitter. TXTMob, an activist tool deployed during the 2004 Republican National Convention in the US to coordinate protest efforts via SMS was, says Henshaw-Plath, a direct inspiration for Twitter.
Protest 1.0
In 2004, while Henshaw-Plath was working at Odeo, he and a few other colleagues found a fun side-project in working on TXTMob, an initiative by what he describes as a “group of academic artist/prankster/hacker/makers” that operated under the ostensibly serious moniker of Institute for Applied Autonomy (IAA). Earlier IAA projects included small graffiti robots on wheels that spray painted slogans on pavements during demonstrations, and a pudgy talking robot with big puppy eyes made to distribute subversive literature to people who ignored less-cute human pamphleteers.
TXTMob was a more serious endeavor than these earlier projects: a tactical protest coordination tool. With TXTMob, users could quickly exchange text messages with large groups of other users about protest locations and police crackdowns….”
Big Data and Disease Prevention: From Quantified Self to Quantified Communities
New Paper by Meredith A. Barrett, Olivier Humblet, Robert A. Hiatt, and Nancy E. Adler: “Big data is often discussed in the context of improving medical care, but it also has a less appreciated but equally important role to play in preventing disease. Big data can facilitate action on the modifiable risk factors that contribute to a large fraction of the chronic disease burden, such as physical activity, diet, tobacco use, and exposure to pollution. It can do so by facilitating the discovery of risk factors for disease at population, subpopulation, and individual levels, and by improving the effectiveness of interventions to help people achieve healthier behaviors in healthier environments. In this article, we describe new sources of big data in population health, explore their applications, and present two case studies illustrating how big data can be leveraged for prevention. We also discuss the many implementation obstacles that must be overcome before this vision can become a reality.”
A promising phenomenon of open data: A case study of the Chicago open data project
Paper by Maxat Kassen in Government Information Quarterly: “This article presents a case study of the open data project in the Chicago area. The main purpose of the research is to explore empowering potential of an open data phenomenon at the local level as a platform useful for promotion of civic engagement projects and provide a framework for future research and hypothesis testing. Today the main challenge in realization of any e-government projects is a traditional top–down administrative mechanism of their realization itself practically without any input from members of the civil society. In this respect, the author of the article argues that the open data concept realized at the local level may provide a real platform for promotion of proactive civic engagement. By harnessing collective wisdom of the local communities, their knowledge and visions of the local challenges, governments could react and meet citizens’ needs in a more productive and cost-efficient manner. Open data-driven projects that focused on visualization of environmental issues, mapping of utility management, evaluating of political lobbying, social benefits, closing digital divide, etc. are only some examples of such perspectives. These projects are perhaps harbingers of a new political reality where interactions among citizens at the local level will play an more important role than communication between civil society and government due to the empowering potential of the open data concept.”
Radical Abundance: How a Revolution in Nanotechnology Will Change Civilization
Book review by José Luis Cordeiro: Eric Drexler, popularly known as “the founding father of nanotechnology,” introduced the concept in his seminal 1981 paper in Proceedings of the National Academy of Sciences.This paper established fundamental principles of molecular engineering and outlined development paths to advanced nanotechnologies.
He popularized the idea of nanotechnology in his 1986 book, Engines of Creation: The Coming Era of Nanotechnology, where he introduced a broad audience to a fundamental technology objective: using machines that work at the molecular scale to structure matter from the bottom up.
He went on to continue his PhD thesis at MIT, under the guidance of AI-pioneer Marvin Minsky, and published it in a modified form as a book in 1992 as Nanosystems: Molecular Machinery, Manufacturing, and Computation.
Drexler’s new book, Radical Abundance: How a Revolution in Nanotechnology Will Change Civilization, tells the story of nanotechnology from its small beginnings, then moves quickly towards a big future, explaining what it is and what it is not, and enlightening about what we can do with it for the benefit of humanity.
In his pioneering 1986 book, Engines of Creation, he defined nanotechnology as a potential technology with these features: “manufacturing using machinery based on nanoscale devices, and products built with atomic precision.”
In his 2013 sequel, Radical Abundance, Drexler expands on his prior thinking, corrects many of the misconceptions about nanotechnology, and dismisses fears of dystopian futures replete with malevolent nanobots and gray goo…
His new book clearly identifies nanotechnology with atomically precise manufacturing (APM)…Drexler makes many comparisons between the information revolution and what he now calls the “APM revolution.” What the first did with bits, the second will do with atoms: “Image files today will be joined by product files tomorrow. Today one can produce an image of the Mona Lisa without being able to draw a good circle; tomorrow one will be able to produce a display screen without knowing how to manufacture a wire.”
Civilization, he says, is advancing from a world of scarcity toward a world of abundance — indeed, radical abundance.”
The Global Database of Events, Language, and Tone (GDELT)
“The Global Database of Events, Language, and Tone (GDELT) is an initiative to construct a catalog of human societal-scale behavior and beliefs across all countries of the world over the last two centuries down to the city level globally, to make all of this data freely available for open research, and to provide daily updates to create the first “realtime social sciences earth observatory.” Nearly a quarter-billion georeferenced events capture global behavior in more than 300 categories covering 1979 to present with daily updates.GDELT is designed to help support new theories and descriptive understandings of the behaviors and driving forces of global-scale social systems from the micro-level of the individual through the macro-level of the entire planet by offering realtime synthesis of global societal-scale behavior into a rich quantitative database allowing realtime monitoring and analytical exploration of those trends.
GDELT’s goal is to help uncover previously-obscured spatial, temporal, and perceptual evolutionary trends through new forms of analysis of the vast textual repositories that capture global societal activity, from news and social media archives to knowledge repositories.”
GDELT’s goal is to help uncover previously-obscured spatial, temporal, and perceptual evolutionary trends through new forms of analysis of the vast textual repositories that capture global societal activity, from news and social media archives to knowledge repositories.”
The New Reality of Social Production
Don Peppers on LinkedIn: “…Waze is yet another example of social production, or the increasingly common use of connected people working together to create value with little or no actual economic incentives involved. Instead, social production is based on a completely different set of principles – sharing and giving, rather than trading and selling. It is an important aspect of what some are now calling the “sharing economy,” and systems like Waze are ever more rapidly replacing or supplementing large portions of the commercial economy, as Martha Rogers and I document in our book Extreme Trust.
In the commercial economy, where profit-making entities operate, what you pay for determines what you get. I pay you, and you give me something of value. I may be a customer buying a product or service, or you may be the boss paying my salary, but either way neither of us is volunteering. We are trading our time or money for value in return. In the commercial economy, we all expect to pay for the things we want. When you pay the grocer $6 for a 12-pack of Diet Coke by the can, you don’t begrudge him the money. And you wouldn’t even consider asking the grocer to give you the soda voluntarily, for free – the way a Waze participant voluntarily reports a new hazard for other participants.
An economic system based on money, as ours is, facilitates the efficient division of labor, enabling us to accomplish more and more complex tasks by dividing them into simple components. The end result is that you don’t have to wire your own smartphone together or harvest your own wheat for your morning bagel. The division-of-labor principle has allowed technology to become so complex that none of us today could ever make even the simplest manufactured products all by ourselves.
But because of the very efficient way in which people are now electronically connected, many social production tasks can also be parsed up and allocated bit by bit among assorted different players – just talk to any of the 3.4 million volunteer coders and developers who work on the more than 300,000 different open-source software projects now registered at Sourceforge, for example. Moreover, these tasks are sometimes so complex, diffused, or difficult that accomplishing them with a commercial model just wouldn’t be practical. Imagine what it would have taken for Waze’s organizers to identify and monitor traffic hazards across the nation on their own, for instance. A small army of paid scouts or robotic monitors would have been required, continually updating the system, and the cost would have made the whole project completely unrealistic…”