http://www.washingtonpost.com/ac2/wp-dyn/A20454-2005Apr2?language=printer A Trail of DNA and Data By Paul Saffo Sunday, April 3, 2005; Page B01 If you're worried about privacy and identity theft, imagine this: The scene: Somewhere in Washington. The date: April 3, 2020. You sit steaming while the officer hops off his electric cycle and walks up to the car window. "You realize that you ran that red light again, don't you, Mr. Witherspoon?" It's no surprise that he knows your name; the intersection camera scanned your license plate and your guilty face, and matched both in the DMV database. The cop had the full scoop before you rolled to a stop. "I know, I know, but the sun was in my eyes," you plead as you fumble for your driver's license. "Oh, don't bother with that," the officer replies, waving off the license while squinting at his hand-held scanner. Of course. Even though the old state licensing system had been revamped back in 2014 into a "secure" national program, the new licenses had been so compromised that the street price of a phony card in Tijuana had plummeted to five euros. In frustration, law enforcement was turning to pure biometrics. "Could you lick this please?" the officer asks, passing you a nanofiber blotter. You comply and then slide the blotter into the palm-sized gizmo he is holding, which reads your DNA and runs a match against a national genomic database maintained by a consortium of drug companies and credit agencies. It also checks half a dozen metabolic fractions looking for everything from drugs and alcohol to lack of sleep. The officer looks at the screen, and frowns, "Okay, I'll let you off with a warning, but you really need more sleep. I also see that your retinal implants are past warranty, and your car tells me that you are six months overdue on its navigation firmware upgrade. You really need to take care of both or next time it's a ticket." This creepy scenario is all too plausible. The technologies described are already being developed for industrial and medical applications, and the steadily dropping cost and size of such systems will make them affordable and practical police tools well before 2020. The resulting intrusiveness would make today's system of search warrants and wiretaps quaint anachronisms. Some people find this future alluring and believe that it holds out the promise of using sophisticated ID techniques to catch everyone from careless drivers to bomb-toting terrorists in a biometric dragnet. We have already seen places such as Truro, Mass., Baton Rouge, La. and Miami ask hundreds or thousands of citizens to submit to DNA mass-testing to catch killers. Biometric devices sensing for SARS symptoms are omnipresent in Asian airports. And the first prototypes of systems that test in real time for SARS, HIV and bird flu have been deployed abroad. The ubiquitous collection and use of biometric information may be inevitable, but the notion that it can deliver reliable, theft-proof evidence of identity is pure science fiction. Consider that oldest of biometric identifiers -- fingerprints. Long the exclusive domain of government databases and FBI agents who dust for prints at crime scenes, fingerprints are now being used by electronic print readers on everything from ATMs to laptops. Sticking your finger on a sensor beats having to remember a password or toting an easily lost smart card. But be careful what you touch, because you are leaving your identity behind every time you take a drink. A Japanese cryptographer has demonstrated how, with a bit of gummi bear gelatin, some cyanoacrylic glue, a digital camera and a bit of digital fiddling, he can easily capture a print off a glass and confect an artificial finger that foils fingerprint readers with an 80 percent success rate. Frightening as this is, at least the stunt is far less grisly than the tale, perhaps aprocryphal, of some South African crooks who snipped the finger off an elderly retiree, rushed her still-warm digit down to a government ATM, stuck it on the print reader and collected the victim's pension payment. (Scanners there now gauge a finger's temperature, too.) Today's biometric advances are the stuff of tomorrow's hackers and clever crooks, and anything that can be detected eventually will be counterfeited. Iris scanners are gaining in popularity in the corporate world, exploiting the fact that human iris patterns are apparently as unique as fingerprints. And unlike prints, iris images aren't left behind every time someone gets a latte at Starbucks. But hide something valuable enough behind a door protected by an iris scanner, and I guarantee that someone will figure out how to capture an iris image and transfer it to a contact lens good enough to fool the readers. And capturing your iris may not even require sticking a digital camera in your face -- after all, verification requires that the representation of your iris exist as a cloud of binary bits of data somewhere in cyberspace, open to being hacked, copied, stolen and downloaded. The more complex the system, the greater the likelihood that there are flaws that crooks can exploit. DNA is the gold standard of biometrics, but even DNA starts to look like fool's gold under close inspection. With a bit of discipline, one can keep a card safe or a PIN secret, but if your DNA becomes your identity, you are sharing your secret with the world every time you sneeze or touch something. The novelist Scott Turow has already written about a hapless sap framed for a murder by an angry spouse who spreads his DNA at the scene of a killing. The potential for DNA identity theft is enough to make us all wear a gauze mask and keep our hands in our pockets. DNA can of course be easily copied -- after all, its architecture is designed for duplication -- but that is the least of its problems. Unlike a credit card number, DNA can't be retired and swapped for a new sequence if it falls into the hands of crooks or snoops. Once your DNA identity is stolen, you live with the consequences forever. This hasn't stopped innovators from using DNA as an indicator of authenticity. The artist Thomas Kinkade signs his most valuable paintings with an ink containing a bit of his DNA. (He calls it a "forgery-proof DNA Matrix signature.") We don't know how much of Tom is really in his paintings, but perhaps it's enough for forgers to duplicate the ink, as well as the distinctive brush strokes. The biggest problem with DNA is that it says so much more about us than an arbitrary serial number does. Give up your Social Security number and a stranger can inspect your credit rating. But surrender your DNA and a snoop can discover your innermost genetic secrets -- your ancestry, genetic defects and predispositions to certain diseases. Of course we will have strong genetic privacy laws, but those laws will allow consumers to "voluntarily" surrender their information in the course of applying for work or pleading for health care. A genetic marketplace not unlike today's consumer information business will emerge, swarming with health insurers attempting to prune out risky individuals, drug companies seeking customers and employers managing potential worker injury liability. Faced with this prospect, any sensible privacy maven would conclude that DNA is too dangerous to collect, much less use for a task as unimportant as turning on a laptop or working a cash machine. But society will not be able to resist its use. The pharmaceutical industry will need our DNA to concoct customized wonder drugs that will fix everything from high cholesterol to halitosis. And crime fighters will make giving DNA information part of our civic duty and national security. Once they start collecting, the temptation to use it for other purposes will be too great. Moreover, snoops won't even need a bit of actual DNA to invade our privacy because it will be so much easier to access its digital representation on any number of databanks off in cyberspace. Our Mr. Witherspoon will get junk mail about obscure medical conditions that he's never heard of because some direct marketing firm "bot" will inspect his digital DNA and discover that he has a latent disease or condition that his doctor didn't notice at his annual checkup. It is tempting to conclude that Americans will rise up in revolt, but experience suggests otherwise. Americans profess a concern for privacy, but they happily reveal their deepest financial and personal secrets for a free magazine subscription or cheesy electronic trinket. So they probably will eagerly surrender their biometric identities as well, trading fingerprint IDs for frequent shopper privileges at the local supermarket and genetic data to find out how to have the cholesterol count of a teenager. Biometric identity systems are inevitable, but they are no silver bullet when it comes to identity protection. The solution to identity protection lies in the hard work of implementing system-wide and nationwide technical and policy changes. Without those changes, the deployment of biometric sensors will merely increase the opportunities for snoops and thieves -- and escalate the cost to ordinary citizens. It's time to fix the problems in our current systems and try to anticipate the unique challenges that will accompany the expanded use of biometrics. It's the only way to keep tomorrow's crooks from stealing your fingers and face and, with them, your entire identity. Paul Saffo is a director of the Institute for the Future, a forecasting organization based in Silicon Valley. -- Eugen* Leitl <a href="http://leitl.org">leitl</a> ______________________________________________________________ ICBM: 48.07078, 11.61144 http://www.leitl.org 8B29F6BE: 099D 78BA 2FD3 B014 B08A 7779 75B0 2443 8B29 F6BE http://moleculardevices.org http://nanomachines.net [demime 1.01d removed an attachment of type application/pgp-signature]