Thursday, February 6, 2014

Press Releases: Unleash the beef

Published in the Portland Phoenix

I’ve got some beefs with the Maine media. The state’s Freedom of Access Act is meant to be used by all Mainers, for all sorts of reasons. But the press has historically been fickle about which issues they’ll issue those requests about.
Of course, the press should have — and did — demand access to the so-called Alexander report, the $1 million hatchet job a conservative crony of Republican Governor Paul LePage did in order to justify failing to expand health-care coverage to tens of thousands of Mainers.
But what about a case described as “the second federal probe into serious allegations against Governor LePage’s administration,” in which “it’s been nine months since these allegations were first made and we know that documents have been destroyed, the FBI is now involved and favoritism may have been played”? No freedom-of-information requests there.
At least not from the media; those quotes are from Ben Grant, chairman of the Maine Democratic Party, explaining why his organization last week made FOAA requests for correspondence between the LePage administration and Department of Health and Human Services and Maine Center for Disease Control officials relating to shredding of documents used to justify the awarding of $4 million in public-health grants.
This is even more galling because it was a press inquiry for public records that started the whole affair. The Lewiston Sun Journal’s inquiry into CDC grants led to the shredding of supporting documents, according to whistleblower complaints filed by former Maine CDC worker Sharon Leahy-Lind.
But rather than dig to the bottom of the affair itself, the Sun Journal has left the opportunity for what should be straight-up investigative news coverage to become politicized by the involvement of the Maine Dems.
This is a disservice to Mainers, who expect their media outlets to engage in investigation without partisanship. Now the press coverage will not be about whether the governor ordered the shredding, but the Republican administration’s response to the Democrats’ request, and the political gamesmanship and tit-for-tat that ensues.
>> Even more craven and spineless were the reporters called to an off-the-record meeting with LePage on January 27. According to Press Herald State House reporter Steve Mistler’s account, the administration didn’t invite the Press HeraldSun Journal, or the Bangor Daily News’s bureau chief, though apparently another BDN reporter was there.
My problem isn’t with the selective invitation, which is just another example of the governor’s longstanding ill-will toward the press. I’m disappointed that only one of the reporters who was there appears to have objected to the off-the-record nature of the discussion.
When public officials speak on issues to reporters, Mainers have an expectation — of both the public servants and the press — that they should be able to hear or read what was said. This sort of control of access and information has been decried at the highest levels of the media world, against restrictive White House Press Office policies under both George W. Bush and Barack Obama. It has no place there, and none here in Maine either.
>> My last beef isn’t with a reporter, but a politician fearing questioning. It’s a national story that after the State of the Union address last week, New York Republican Congressman Michael Grimm reacted badly to being asked by television reporter Michael Scotto about a federal probe into his campaign’s fundraising activities.
After storming out of the interview, Grimm returned and was caught on camera threatening Scotto, saying “I will throw you off this fucking balcony,” and “I will break you.” Grimm’s non-apology apology claimed he expects “a certain level of professionalism and respect” from reporters. This is very much like the threatened violence and claimed appeal to standards of decency that LePage has at times used when criticizing reporters for doing their jobs well (i.e. asking questions that make politicians uncomfortable and demanding public accountability).
In case it’s not clear, here’s the official notice from the media to all who serve the public: Transparency is part of the job, not a luxury. If you don’t like it, don’t get elected or take a job with a government agency. It’s as simple as that, and we’ll brook no beefs about it. 

Congressional hopefuls: Maine candidates respond to SOTU

Published in the Portland Phoenix

In his State of the Union address last week, President Barack Obama laid out several initiatives for the coming year, focusing on boosting educational and economic opportunities for workers, and suggesting that his administration has felt the public backlash against the use of drones at home and abroad, as well as National Security Agency dragnet surveillance of all Americans.
Every member of Congress issued a statement that was widely publicized, with his or her reaction to the president’s speech; Maine’s delegation was no exception. What you didn’t hear elsewhere, though, is the perspective from those seeking to take their seats in Washington. The overall message: Partisanship is alive and well in Maine, too.
US Senate candidates
Shenna Bellows, Democrat
 The former executive director of the American Civil Liberties Union of Maine supports Obama’s call to raise the minimum wage to “at least $10.10,” though she notes that Obama’s move only affects workers on federal contracts, and only takes effect in 2015. But she criticized his “lack of a commitment to stop the controversial NSA spying program,” saying he “spoke of the need for privacy without talking about specific measures” to ensure it for all Americans. She also called out Obama’s rhetoric on protecting workers and the environment, contrasting those comments with his administration’s secretive negotiations about the Trans-Pacific Partnership, which leaked documents show is heavily biased in favor of corporate interests.
Erick Bennett, Republican The conservative political consultant who was convicted of domestic assault on his wife in an incident during which a police report says he threatened to kill her was critical of Obama, saying the government had spent too much money on the Affordable Care Act, and so much on the economic bailout that “we could have given a million dollars to every man, woman, and child in this country. That would have eliminated poverty and many other problems we face.” The economy is so bad, he said, that “there are plenty of Americans such as myself that will take whatever work they can to avoid starving.” But he objected to Obama’s proposals to raise workers’ income and provide additional savings methods, saying they were misusing the role of government. And he complained that the latest agreement with Iran, in which that country will for the first time open its nuclear facilities to outside inspectors, was “a bad deal” because it only lasts six months.
US House, 1st District candidates
Isaac Misiuk, Republican
 The former retail manager and real-estate agent now studying at the University of Southern Maine echoed a popular conservative talking point when he said he “would have liked to hear [Obama] apologize for lying” about people’s ability to keep their health-insurance plans under the Affordable Care Act. He also said it was unfair to ask “the rich to pay more in taxes” than those less well off. He also defended the 40-plus Republican-led US House votes to reverse the ACA, saying the president “has forgotten that Congress holds the ability to repeal laws.”
Richard Murphy, Independent The Army National Guardsman and property manager said the speech showed Obama “will continue to ignore traditional checks and balances found in the United States Constitution,” and criticized the president for “spending millions of taxpayer dollars on vacations when those who contribute to his salary and fund every trip he takes cannot afford to take a vacation themselves.” Murphy said he agreed with the president’s “list of topics of things that needed to be addressed,” but disagreed with Obama on how to go about it, saying the president is “out of touch with American taxpayers.”
US House, 2nd District
Emily Cain, Democrat
 The state senator from Penobscot County says many of Obama’s ideas “require more detail before knowing what their full impact would be,” but nevertheless says several ideas “have great potential.” One of those is the move to raise the minimum wage for some; Cain calls for Congress to raise the minimum wage for everyone. She also praised the president’s call for gender equity in pay. But she expressed concern that “Congress has proven itself to be polarizing and stubborn at times. That attitude gets us nowhere and does nothing to help the people they are elected to serve.” 
Troy Jackson, Democrat The Aroostook County logger and state senate majority leader state specifically praised Obama’s call to raise wages for federal contract employees. “Many in Congress don’t understand how important a living wage is because they have never had to struggle in a minimum wage job.” Jackson backs raising the minimum wage “to a living wage for all people,” not just federal contractors.
Alden Smith, Democrat The US Navy veteran (and current Navy reservist) agrees with Obama that jobs will go where there is high-quality infrastructure, and supports investment in Maine to attract new business. He supports raising the minimum wage: “The choices between heat and food will be eased a bit. I am sorry to see that the same raise is not applied to our elderly and our disabled veterans.” He supports ending the US military presence in the Middle East, but wants to ensure the Veterans Administration “is structured and equipped to meet the needs of our veterans in the coming years.”
Bruce Poliquin, Republican The former state treasurer was not directly reachable, but posted on Twitter and Facebook his reactions, which included agreeing with the president that “the poor and middle class have been left behind.” Poliquin asked “why opportunities have been shrinking during [Obama’s] economic ‘recovery.’” He objected to “a wasteful spending binge that has piled up an additional $5 trillion of debt with no plan to pay it off,” saying that Obama has “raised taxes on American families and the companies that employ them to among the highest in the industrialized world.”
Kevin Raye, Republican The former state senate president and co-owner of Raye’s Mustard Mill says he is “deeply troubled by the President’s vow to use Executive Orders to circumvent the will of the people’s elected representatives. The President sets a tone and, unfortunately, his divisive approach exacerbates the dysfunction that has become such an impediment to America’s ability to solve problems.”
Blaine Richardson, Independent The retired Navy captain and construction-business owner says Obama “made it very clear . . . that he is unwilling to work with the Congress to progress his agenda. This shows that he is no longer willing to maneuver within the traditional checks and balances found in the United States Constitution.” He heard Obama promote “more big government,” including “more regulations, more laws, more sanctions and more American involvement overseas.”

Thursday, January 30, 2014

The rise of e-currencies: How bitcoins and their ilk could save — or destroy! — the world

Published in the Portland Phoenix and the Providence Phoenix

Bitcoins, and other e-currencies along similar lines, are all the rage these days — and everyone’s talking about them as if they know what bitcoins actually are, or do, or something. It won’t surprise you to learn that most people know only part of the picture, and most of those hardly understand the part they know.
In fairness, bitcoins are a challenging concept to understand. But we here at the Phoenix are always up for a challenge, so we’ll break it down for you. First, we’ll have an explanation of what bitcoins are, what they’re not, and what they make possible. Then we’ve assembled a set of arguments that explain how and why bitcoins are both the end of the world as we know it, and the next step to saving the world we love so well.
A useful point to start is to note that the word bitcoin, when used with a lowercase b, refers to the units of currency; when capitalized, Bitcoin refers to a software and the Internet-based communications methods used to track and exchange them. There are also other e-currencies, such as litecoin; all of them use the basic structure and concepts underlying the Bitcoin system, and differ only in the most arcane of technical details. They’re also not nearly as popular, nor as widely accepted — in part because bitcoins got there first.
Something from nothingDuring, and in the wake of, the 2008 financial crisis, the institutions we had relied on to ensure economic stability turned on us. Several deeply concerning and fundamental facts about the world’s currency became widely apparent:
>>Banks can’t be trusted Not only are they often working in opposition to their depositors’ best interests, but they gambled with other people’s money, lost, and then asked for government bailouts to pay off the debt.
>>Governments can’t be trusted Rather than protecting their people’s interests, governments sometimes see their citizens as just another cash source. In March 2013, faced with an impending economic collapse, the government of Cyprus confiscated 10 percent of all the money held in accounts in that country’s banks.
>>And anyway, money’s value is imaginary Governments, including the United States, can create massive amounts of new money out of thin air, and give it to whomever they want (usually the banks, as opposed to the people). This has always been true, but politicians and other financial experts no longer seem to worry that regular people object.
>>Still, money is an inescapable, integral part of our daily lives It’s a very flexible medium of exchange, which I can accept in remuneration for (to pick an example) my reporting and writing and spend in a grocery store in exchange for food.
Some people had expressed those concerns long before the 2008 meltdown; afterward, more people understood them much more clearly.
Out of these problems came a seemingly simple solution: Create another currency, not beholden to a government, and find a way to store it safely without banks.
Of course, it turns out those are two very hard things to do, while still preserving the confidence and security we expect from a monetary system. The most difficult problem is how to prevent counterfeiting — which is of course far easier with a digital item than a physical one (as the movie and music industries have learned, to their dismay).
Government currency — and even most other alternative currencies (such as time-dollars) — have a centralized authority that can verify the authenticity of money. In the United States, it’s the Federal Reserve. Replacing this system with another one that also required central authority and verification made the whole exercise moot. The real goal was to decentralize verification, while still ensuring nobody copied e-currency and, effectively, spent it twice.
In late 2008 and into 2009, a person or group going by the name of Satoshi Nakamoto proposed a system called Bitcoin, offering a solution to the double-spending problem that was ingenious for its simplicity: The central authority keeping track of transactions should be the public at large, and the ledger should be available online to all who asked.
But that created another pair of questions: How to get the hundreds, even thousands, of different computers storing their own copies of the ledger to agree on when to update it, and what changes to add when updating?
Bitcoin offered an elegant solution to this problem, too. Whenever anyone wants to spend a bitcoin, they broadcast that intent to the network of ledger-keepers via the Internet. As each request comes in, each ledger-keeper computer checks its copy of the official record, to ensure that the spender’s identity is valid, that she actually has the correct amount available, and that she hasn’t spent it elsewhere already. If it looks good, each ledger-keeper adds the transaction to its own list of approved transactions that need to be added to its ledger in the next update. The ledger-keepers communicate about their individual approved lists; if a majority of them agree, the transaction is finalized and added to the shared official ledger. These checks and updates happen in computer software and encrypted communications across the Internet, and take only a few minutes.
Adding strength to this system is the fact that anyone can install the software on their computer to make it a ledger-keeper, receive their own copy of the ledger, and contribute to validation and verification of transactions. The ledger itself is fully public, showing which accounts sent how many bitcoins to which other accounts, and when.
Of course this raises the question of privacy. One of the things people like about physical cash is that it’s not particularly traceable. Bills have serial numbers, but most people don’t pay attention to those details, and it would be terribly hard to track any substantial sum. (See wheresgeorge.com for an example of trying to track dollar bills’ physical movements.)
Because it’s so central to our lives (we don’t typically want to broadcast which doctors we go to, how often, nor how much we pay them, for instance) privacy is also a cornerstone of traditional electronic payments: We trust the merchants and banks to keep our information away from wrongdoers. (The recent, and ongoing, revelations about card-system hacking at Target offer a warning against being too trusting that way.) At the very least, though, merchants and banks don’t publish their transactions online for all to see.
But that is exactly what the Bitcoin system proposed doing.
Satoshi Nakamoto had a solution for this, too: Every account would have a pseudonym in this new currency system, and everyone could create and use as many accounts (and pseudonyms) as they wanted. The ledger would store the pseudonyms of the sender and receiver (not their real identities), and the ledger-keeping software would confirm through secure encrypted communication that the people using those pseudonyms were the people who had created them, by comparing digital signatures stored when the account was created against the digital signature presented during a transaction. (For those who wish to dig deeper into how a publicly available ledger can store a signature in a way that is truly secured so only one person can sign it, look into public-key cryptography. There’s enough reading online to occupy the rest of your days.)
This seemed to solve all the problems that had faced digital currency: quick and easy transaction approvals, protection against counterfeiting and double-spending, privacy protections for buyers and sellers, and avoidance of a central authority that could steal everything on a whim.
The next trick was getting people to actually use it.
Bit-miningIn 2009, Satoshi Nakamoto released a software program, also called Bitcoin, that for the first time allowed users who installed it on their computers to begin operating as ledger-keepers on the fledgling Bitcoin network. The software was open-source, meaning anyone who wants to can read the actual programming code it uses, which lets tech-savvy types check to ensure the software does only what it says it does, and nothing else nefarious or bothersome (such as stealing your passwords or using your computer to send spam emails).
To encourage broad distribution of the software, and most importantly, large numbers of copies of its ledger, the system includes a reward for those people who offer their computers to serve as ledger-keepers. At the moment, those people receive, on occasion (based on an extremely complicated mathematical formula), some new bitcoins. This process is somewhat confusingly called “mining,” which is meant to evoke the idea that by doing some work (keeping the ledger, checking new transactions, and updating the ledger), new bitcoins are discovered, as one might mine a precious metal.
At any given moment, the number of ledger-keepers varies. People connect their computers to the internet and disconnect them; people turn off the Bitcoin software and turn it back on again. The system doesn’t care, as long as there are several connected, and there are lots.
It’s an analogy of convenience, and only works to a point; we advise not getting too caught up in mining or ledger-keeping. (If you’re a programmer with thousands of actual dollars just lying around, there’s plenty to learn and do along those lines; if not, best not to worry, but instead to know that large numbers of independent, security-minded, anti-fraud experts have checked out the system and been satisfied that it’s safe and secure, protected by the principles of mathematics that underlie computer cryptography and secure transmission of information. Also, it’s useful to know that when the rare problems have been found, they’ve been fixed quickly, easily, and without harm to innocent parties.)
Now, and increasingly into the future, those who spend the time, energy, expertise, and real-world expense (in electricity and computing power) to keep the ledger are paid not by “mined” bitcoins — the 21-millionth and final bitcoin will be mined in about the year 2140 — but by small fees added on top of ordinary everyday bitcoin transactions. There are somewhere around 12 million bitcoins in circulation right now.
Once the network was established, with several copies of the transaction ledger in place and the ledger-keeper programs communicating with each other, it became possible to actually spend bitcoins. That’s where you come in — and where the promise and problems all begin.
Money by numbersA bitcoin is, in reality, nothing more than a few pieces of electronic data. You can do silly things like print them out on pages of paper, or engrave them into metal (and people have), but their only useful form is electronic.
There are, for all practical purposes, only two ways to get bitcoins. First, you can buy them, in online exchanges that will take your dollars and give you bitcoins, the same way you might give your dollars to a bank in exchange for euros or yen before an overseas trip. (The exchange rate varies, just like those other currencies; its highest ever was in December, at over $1200 per bitcoin. The current price is around $800, though you can buy smaller increments without purchasing an entire bitcoin.)
Second, you can sell a product or service that’s desired by people, and accept bitcoins as payment. (You’ll likely have to accept other forms of payment too, just like stores that take cash, checks, and credit cards.) When you have a customer who wants to buy using bitcoins, you accept the payment. Simple as that. Among the major players already accepting bitcoins are online retail giants Tiger Direct and Overstock.com; so does the Sacramento Kings basketball team. EBay is considering accepting bitcoin bids and payments.
(The aforementioned “mining” is the third way to get bitcoins, and it’s extremely technical, expensive, and not particularly accessible to regular people. I’ve tried it, wouldn’t recommend it, and it’s generally accepted as appropriate only for techie types with a lot of actual dollars (and time) on their hands. Think of this system as the equivalent of the US Mint — it makes the actual physical money and enables a particular economic system, but we don’t know how and shouldn’t try it at home. There is one significant difference: Only a finite number of bitcoins can ever be made, unlike the almighty unlimited dollar.)
To truly understand how the Bitcoin system works, and where its strengths and weaknesses lie, we have to look at the mechanics of how money changes hands.
First, there’s the cash method, which is obvious. I give you a dollar bill, and you give me something I want in exchange. It’s immediate, private (nobody other than the two of us know it happened), and secure (you and I have both looked at the bill and agree it is a real dollar and not counterfeit). It also has the potential to be anonymous; even if you know the face of the person you handed a dollar to at the toll plaza, you have no idea what their name is, and they don’t know you either. If you ran into each other tomorrow, you probably wouldn’t recognize each other.
Next is the electronic method, which includes checks, credit cards, wire transfers, and pretty much everything else. In that situation, I have account data (sometimes printed on a check or magnetically encoded on a credit card) that connects me to a pile of dollars held electronically in a bank somewhere. I give you that information and the authorization to deduct one dollar from that pile, in exchange for which you give me something I want.
It seems simple, and is often instantaneous, but it’s actually very complicated  — and expensive. When I swipe a debit card at a store, for example, the merchant’s machine has to read the code and transmit it securely to a central authority, which checks its database to see which bank I’m with, and then contacts that bank to ask if I have a dollar available in my pile. The bank isn’t going to answer that question for just anyone — it should only answer it for me or people I authorize — so it needs to be sure the request is coming from a legitimate user. This can be done a few ways, one of which is to ask for my PIN code, which I have established secretly with the bank in advance. I enter my PIN, which is then transmitted and verified, and then my bank responds by saying (I hope) that I do have a dollar available. Because it has received authorization from me (in the form of my PIN), my bank also sends a message along telling the store that it will transfer the dollar to the merchant’s account.
The cost adds up. Each of those steps takes electricity; some of them require specific equipment (the card-swiper, PIN-entry device, for example); others require high-speed data networks. Of course, the banks charge for their services, and for playing the middle-man in this transaction. And since every step is recorded electronically, it’s hard to keep transactions untraceable or anonymous.
The Bitcoin system throws all of that away, leaving an interaction much more like the cash transaction, but handled electronically — making it unnecessary to carry around large amounts of cash, as well as enabling transactions across distances.
Bitcoin will destroy the worldGovernments don’t like cash; it’s hard to trace, anonymous, and secure. Digital cash (which is essentially what bitcoins are) is even worse: It can travel instantly anywhere, and lacks things like serial numbers that can allow tracking, even after the fact.
Financial writer Cameron Keng posted on forbes.com the charge that “Bitcoin represents more of the same short-sighted capitalism that got us into this mess, minus the accountability.” (Of course, the accountability was laughable.)
Software engineer and writer Alex Payne has called the Bitcoin system “a marriage of dubious technology and questionable economics wrapped up in a crypto-libertarian political agenda,” which encompasses pretty much all of the criticisms of bitcoins.
He’s not talking about the time-tested technology of public-key cryptography, which the Bitcoin system uses to verify identities. Rather he’s expressing concern about the nature of the public ledger and the software by which it is maintained and updated. It is true that this arrangement is entirely new — it is, in fact, the major breakthrough of the Bitcoin system. And it’s true that it has flaws: In August 2010, someone figured out a way to spend the same coin multiple times; that counterfeiting attempt was detected, stopped, and reversed, but it does suggest there may be other vulnerabilities yet undiscovered.
The economics question is based on the concept of “money supply,” which is a tool by which centralized economies influence key aspects of their markets, such as interest rates. When the US Federal Reserve wants to lower interest rates, for example, it creates money out of thin air and then offers it cheaply to banks. If it wants to raise interest rates, it takes money out of circulation.
New York Times economics writer Paul Krugman wrote that having a currency with a limited total supply of money encourages hoarding, not spending, because scarcity makes the currency more valuable. (This is true, but it ignores the fact that bitcoins are almost infinitely indivisible into fractions far smaller than pennies, so while the total supply of money is limited at the top, it is effectively unlimited in terms of how many people can have, use, and exchange bitcoins.)
The “crypto-libertarian political agenda” Payne scorns calls attention to the perspective of some bitcoin fans: Because it’s new, because it’s independent of governments, and because it’s Internet-based, some people have expressed hope that bitcoins will help them avoid taxation, regulation, or other outside meddling. Libertarian-in-chief Ron Paul has called bitcoins potential “destroyers of the dollar,” and plenty of libertarian types are excited about the idea of a currency that is not tied to any particular government.
Regulators in the United States and elsewhere are paying attention, and issuing statements about how they will treat bitcoins. (It varies significantly by country;  the United States said it would pay attention when dollars and bitcoins started to be interchanged — which is already happening, thereby beginning to attract government scrutiny.) Of course, government regulation and taxation helps pay for things like roads and fire departments, as well as limiting crime.
And oh yes, the crime. An online site called Silk Road is perhaps the poster child for the sort of crime made easier by verifiable (but anonymous) transactions over the Internet between total strangers. A clearinghouse for all sorts of illegal drugs, it was shut down by the FBI late last year; bitcoins were its currency. There is also a site that purportedly allows people to commission assassinations and pay via bitcoin. And of course there are plenty of other examples of ways bitcoins can be used nefariously.
There are other weaknesses: Transactions in bitcoins are not reversible in the way credit-card charges can be disputed and reversed. Of course refunds are possible, but only from the person you gave the money to. If an item is not as advertised, or never arrives, there is no third party available to handle a complaint or refund a buyer’s money.
And there are the costs. Running the ledger-keeping computers takes electricity, and the more computers are part of the network, the more it will require. It’s a fair claim, but usually avoids the fact that government money systems are also expensive: Pennies, for example, cost more than two cents each to mint. Printing dollars is more cost-effective: each new $100 bill costs just over 12 cents.
Of course, all this technology means bitcoins are not quite as populist as supporters might have you believe. Sure, they’re not beholden to governments, but to even use one you have to install a program on your computer to store and track your bitcoin holdings; when you do that, you’ll encounter all kinds of notices and alerts telling you that if you lose or forget the password to your Bitcoin-holding account, the bitcoins themselves will be lost forever, These are not the sorts of messages that embolden non-tech-savvy types to continue and engage with the system.
Bitcoin will save the worldDespite all of those problems and potential downfalls, there is a lot of promise, much of it based on a key distinction, made by money-technology writer David Wolman (a college friend of mine) in Wired magazine: There are two ways to use the word bitcoin.
First is as a unit of currency and exchange, as in “This item costs 1.2 bitcoins.”
And there is significant promise in this arena. Chris Dixon, a venture-capitalist investor in Silicon Valley, notes that the payment industry is massive, with people paying $500 billion a year in fees just to move their money from one place to another. Distributing the work of handling transactions, and reducing identity fraud in the bargain, could substantially reduce those fees.
For most people, bitcoins would be an easy intermediary. They could buy bitcoins with dollars, send the bitcoins somewhere else cheaply, and the recipient would convert the bitcoins into their own local currency. Using the Bitcoin system would solve the problems of high-cost transactions that sometimes take days to process, especially in the massive sector that is remittances to developing countries from workers in developed countries who send huge chunks of their earnings home.
For people who worry about government overreaching its power a bit more, it solves the problem of having someone else control their money, with the ability to seize or freeze it. And using bitcoins could help avoid the issues that arose when major payment-processing companies were pressured by the US government to stop transferring funds to WikiLeaks, in an attempt to deprive that whistleblower organization of financial support.
As several security researchers have pointed out — and a goodly number of self-appointed investigative teams have proven — Bitcoin is not anonymous. In fact, it’s barely pseudonymous. After the feds shut down Silk Road, the site’s bitcoins were consolidated in one account. Since all the transactions are public, it didn’t take much effort to go from reading the FBI media announcements saying 26,000 bitcoins had been seized, to checking the ledger to watch as a brand-new account suddenly filled up with just that amount.
(This led to a hilariously ironic development: Because all the transactions are public in the ledger, and because there’s an option to send a message with a payment, all sorts of anti-government types started sending the feds tiny amounts of bitcoin — yes, giving the feds their money, just for the privilege of sending them a rude message.)
But beyond these financial advantages, there is another way to think about, and use, Bitcoin.
The Bitcoin system is, Wolman writes, “more than just a currency; it’s an open-source protocol.”
Marc Andreesen, co-author of the very first web-browser program and now a venture capitalist, wrote recently in the New York Times that Bitcoin is a major development, solving a longstanding problem: “how to establish trust between otherwise unrelated parties over an untrusted network like the Internet. The practical consequence of solving this problem is that Bitcoin gives us, for the first time, a way for one Internet user to transfer a unique piece of digital property to another Internet user, such that the transfer is guaranteed to be safe and secure, everyone knows that the transfer has taken place, and nobody can challenge the legitimacy of the transfer. The consequences of this breakthrough are hard to overstate.”
And they are just being explored. Trumpeted by Wired as an “NSA-Proof Twitter,” a new system called Twister has emerged, combining the encryption and identity confirmation of Bitcoin with the peer-to-peer connection-management system of BitTorrent (which allows multiple computers to exchange information rapidly and efficiently over the Internet) to create a vastly distributed social network that cannot be taken down by malicious governments or corporations. This would be a great boon to people in places like Iran or San Francisco, where authorities have shut down access to Twitter in an attempt to quell public protests. Other uses are just being imagined now, and will no doubt be developed and tested soon. 

Friday, January 17, 2014

Righting Wrongs: Pressure builds to close Guantanamo

Published in the Portland Phoenix

After years of delay, nearly 150 inmates still held by the United States at the Guantanamo Bay prison camp in Cuba may have improved hopes of getting released before they die. Human-rights groups are calling for the release process to accelerate, expressing gratitude that the government has made even a little bit of progress, while demanding prosecution of those who approved the use of torture against the detainees held at Guantanamo.
This month marks 12 years since the first inmates arrived there, and nearly five years since President Barack Obama signed an executive order calling for its closure. But the prison is still operating, holding people who were captured overseas and were at one time suspected of some sort of terrorist intention or action against the United States.
“Most of the people at Guantanamo have never been charged, let alone convicted, with any crime,” says Zeke Johnson, director of the security and human rights program at Amnesty International’s US headquarters in New York.
Of the 155 inmates still there, 77 have been cleared by US authorities for release — in some cases the clearance happened many years ago  — but have not yet been transferred out of the camp. Most of those are Yemenis whose home country is very unstable, which leads US officials to fear they would return to terrorist activities if they were sent there.
Another American fear has also delayed releases: the cruelly ironic concern that, if released, some of the inmates would be treated inhumanely upon their return home. So, the US rationale has been that it is somehow better to keep them in solitary confinement for 22 hours a day for years on end than to potentially risk their safety elsewhere.
In March 2011, Obama set up a Periodic Review Board that was to look at the cases of inmates who had not been previously cleared for release; that board issued its first decision last week, declaring that a former bodyguard for Osama bin Laden was no longer a threat to the United States, and could therefore be released  — just as soon as a suitable country was found to accept him. Unfortunately, the man, Mahmoud Abd Al Aziz Al Mujahid is Yemeni, so he may not be going anywhere anytime soon.
There are 70 other inmates whose cases will be reviewed in the coming months, though again, their chances of actual release are questionable. But under the latest National Defense Reauthorization Act, signed into law last month, Obama has greater flexibility to determine who can be released. “He really needs to pick up the pace,” Johnson says, to bring inmates to a fair trial in federal court or to release them.
The president’s ability to do that remains limited, though; Congress continues to block any efforts to bring detainees to the US, even for further detention and trial.
Meanwhile, six men are facing trial under the military commission system created by Obama in 2009; that system has been criticized for failing to uphold international standards of fair and open trials.
The National Religious Campaign Against Torture mobilized late last week to call once again for the closing of Guantanamo, and to encourage Obama to step up his efforts under his new powers.
Amnesty International (which in 2008 brought a replica of a Guantanamo cell to Portland; see “A Night in Guantanamo,” by Jeff Inglis, June 20, 2008) made similar statements, and issued a six-page report condemning the existence of the prison and the American treatment of its inmates as counter to international law and human-rights standards, including those to which the United States holds other countries.
The report also called for prosecutions of those who authorized and conducted torture against Guantanamo inmates; despite admissions that officials as high as President George W. Bush authorized torture, no Americans have been charged with crimes in connection with the treatment of inmates there. 

Wednesday, January 15, 2014

Neutrinos: A little-noticed breakthrough lets scientists see the distant cosmos like never before

Published on GlobalPost

PORTLAND, Maine — Imagine being one of the very first humans, tens of thousands of years ago, to actually look up at the night sky. You’d see dozens of lights and other sights, with no understanding of what they were, where they were, or anything else. You might think they were just “pinholes in the curtain of night.”
Only after centuries of study, with the invention of countless increasingly complex devices to peer into the sky, can we say we know anything at all about planets, stars, galaxies, and the universe as a whole.
But a recent scientific discovery has brought us back to that very first night: to the very beginning of our exploration, and to the realization of just how rudimentary our knowledge is.
After decades of searching, scientists have detected high-energy subatomic particles originating from previously unknown sources in the universe.
The particles themselves aren't news. Neutrinos — nearly massless, charge-less byproducts of radioactive decay — were first theorized in 1930 and first detected in 1956 during nuclear experiments on Earth.
Since then, we have learned that neutrinos are literally everywhere. In the time it takes to read this sentence, about 700 trillion of them run through your body. Almost all of the neutrinos scientists have detected originated either from the Sun, from the Earth’s atmosphere, or from man-made nuclear activities.
However, an almost impossibly tiny proportion come from the far reaches of the universe. Tracing those neutrinos' movements offers the possibility of greatly expanding our understanding of the cosmos.
For more than a decade, a research project called IceCube has sought to do just that — to detect neutrinos from outside our galactic neighborhood, using a cubic-kilometer detector embedded in the Antarctic ice sheet.
A paper published in the journal Science revealed late last year that IceCube had detected 28 of the particles.
And that’s rocked the physics world.
These minuscule particles from distant sources are analogous to the light emitted by the first stars ever seen by human eyes.
Because they are so tiny and electrically neutral, neutrinos “can travel at nearly the speed of light from the edge of the universe without being deflected by magnetic fields or absorbed by matter,” according to IceCube’s explanatory webpage.
Most vitally, “they travel in straight lines from their source,” which means when we "detect them here on Earth, we can calculate where they came from, like a laser pointer aimed back out into space,” said Francis Halzen, a physicist at the University of Wisconsin-Madison, who directs IceCube.
“At the moment we don’t know what we’re mapping,” he added.
Still, the accomplishment is significant, in that it may lead to the discovery of more distant parts of the cosmos than we have ever known. It could even lead to new fields of physics. Some scientists suspect these extra-galactic neutrinos may be able to tell us more about the heretofore invisible “dark matter” that many believe makes up most of the mass of the universe.
Very high-energy neutrinos, like the 28 detected by IceCube, are as much as billion times more energetic than those commonly found here on Earth. They are thought to come from supernovas and black holes, but nobody is sure yet.
“The energy requirements of these sources are so large” that theorists’ imaginations are being stretched to come up with possible explanations, Halzen said. “We are really looking at the violent processes” of the universe.
Halzen has spent most of his career searching for neutrinos and trying to explain their origins, and not even he knows what we’ll find.
IceCube is only the first glance from the first “eye” ever to look at the sky in this way. “It’s like a map of the universe with 28 pixels,” he said. “That’s a lot of emptiness.”
Finding even these few neutrinos has taken decades of innovation and science. As far back as the 1970s, Halzen said, it was clear that finding high-energy neutrinos would require a massive detector.
Scientists thought that using a cubic kilometer of ice in the South Polar Plateau could be a way to achieve this. They embedded equipment in the ice, setting up a grid of deep holes and inserting long strings with detectors at regular intervals. The goal of wiring this massive cube was to detect tiny light pulses emitted when, at extremely rare intervals, a neutrino actually hit a piece of matter.
In 1999, your correspondent witnessed an early, small-scale test of the idea at the South Pole. Using hot-water hoses to “drill” the holes that house the equipment, a detector was built just 1 percent of the size of IceCube's. The effort consumed massive quantities of fuel to power huge water heaters near the South Pole. When that project — called AMANDA, for Antarctic Muon and Neutrino Detector Array — proved the concept was valid, construction began on the larger IceCube. It only finished in December 2010.
Now the task is to keep adding to the neutrino map, in part with IceCube, but also by finding more efficient means of detecting high-energy neutrinos, Halzen said. As that picture comes into sharper focus, physicists and astronomers can compare it with other maps of the universe, including those marking known locations of black holes, pulsars, and supernovas.
Right now, “there’s nothing that stands out” as matching up, Halzen said, though it’s obviously quite early in the process.