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The following is an excerpt from my January column in which we were
asked to make predictions regarding the future of computing and computing
devices. Part of my fictitious account of Philip Gumshoe in the year 2004
dealt with voting machines.
Election only two working days away, I made a quick stop to vote. At
the nearest ATM, I pulled out my plastic Voter Registration card, swiped
it through the slot provided, and pressed my left forefinger to the scanner.
When a happy face appeared on the screen, I pressed the OK icon to begin.
Waiting for pictures of the Place 1 candidates to appear, I reflected
on how far the voting process had come in the past four years. The government
moved fast after the “Florida fiasco” of the 2000 Presidential election
to get the bucks to local governments to update their voting machines and
ballots. A little Company called MicroVote might have made a killing with
their ATM-style voting machines, but an electronics wizard at a tiny bank
in Texas (located across the street from a courthouse) managed to
code a simple, elegant voting program for ATMs. Now banks get a small per-vote
fee from local governments for hosting the voting, and the machines are
updated and maintained at no cost to the voters. More important, as soon
as the last vote is cast, the tallies are in. Made just about everyone
happy except for the guy who had a contract from IDG Books to write “Voting
for Dummies.”
The ATM gave me five minutes to complete my ballot. I didn’t need that
much time. Within three minutes, I touched the Place 10 candidate picture,
a waving flag appeared on the screen, and the card slot regurgitated my
Voter Registration card. Constitutional Right exercised, I set out to find
Oscar.
Although my account was almost purely conjecture (with the exception
of the real company, MicroVote), the issue of voting machine is becoming
a hotly contested issue. With our local elections just past, I’ll pass
on some real news items related to voting machines.
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DeAtley, Danny, “Bye –Bye Ballot Box?”, Texas Technology,
March, 2001.
| “Won’t it be nice when the words “dimpled” and
“pregnant” are once again used primarily to describe a person’s physical
characteristics?
…Bill Stotesbery, vice president of marketing for
Hart
InterCivic, certainly hopes that day will arrive soon, thanks to his
company’s products. The Austin-based business has developed the eSlate,
a device Stotesbery describes as “like a Palm Pilot on steroids,” capable
of displaying and recording electronic, paperless ballots (and in essence
putting an end to the pesky chad in all its shapes and sizes.)
… Here’s how it works: Voters enter the voting booth
where they see their ballot on the eSlate screen. Using control buttons
below the screen, voters scroll through the list of on-screen candidates.
Once voters have scrolled to their desired candidate, they press the enter
key, at which time, the candidate’s name is surrounded by a red box while
the remaining candidates’ names fade to gray. The device then proceeds
to the next page of the electronic ballot where the process is repeated…Unlike
butterfly ballots, you can just go back to a previous page and select again.
The device will override your previous selection; no more overvotes.
…(The eSlate) has been designed to be fully ADA
accessible, up to and including compatibility with sip and puff devices.)
But at what cost?…traditionally under-funded centers
of government remain wary of the $15,000 to $20,000 per precinct cost,
despite the claim that the system can pay for itself in as few as five
years. |
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Weber, Tom, “Flaws in Computer Voting Make Paper More Accurate,”
E-World, Wall Street Journal, March 19, 2001
| PRINCETON, N.J. -- Rebecca Mercuri loves computers.
But when it comes to counting votes in an election, she favors plain old
paper. Computers, she says, just can't be trusted with our democracy.
"I fear for what's happening," says Ms. Mercuri,
a 46-year-old authority on voting systems whose expertise is suddenly in
great demand. Ms. Mercuri is no Luddite. She has programmed for decades
and teaches computer science at Bryn Mawr College. Nonetheless, she says,
"the idea of running an election on the Internet is totally horrifying."
With Florida post-mortems in full swing and a scant
20 months to go until the next major U.S. election, pressure to mend broken
ballot systems is mounting. It seems only natural to sweep away clunky
levers and the now-notorious chads and replace them with gleaming computer
screens. But Ms. Mercuri and other respected scientists caution against
that.
Their warnings are important for the voting-system
debate. But they are also remarkable for the way they challenge stereotypes
about technology mavens. In our offices, schools and even our homes, it
often seems that computer people are forever trying to drag the rest of
us along with them into the wired future. Here, though, some of technology's
best minds are telling us to slow down.
Eleven days before Americans went to the polls last
fall, Ms. Mercuri was ensconced in the University of Pennsylvania's Moore
Building, five floors above the historic ENIAC computer. She was defending
her doctoral dissertation, "Electronic Vote Tabulation Checks & Balances,"
in which she argues that fully electronic ballot systems can't sufficiently
guard against mistakes or tampering.
Ms. Mercuri delves into such esoterica as non-deterministic
polynomial time functions to prove her case. Complicated math aside, the
crux of her argument is this: Completely computerized voting systems can
give us accountable ballots or anonymous ballots, but not both. Any system
that can be audited to assure that votes were captured and counted correctly
will jeopardize the privacy of the ballot. Measures that protect voter
anonymity make it difficult to verify an election's accuracy.
Consider the ever-growing complexity of computer
systems. It isn't enough to inspect software for hiccups that might miscount
votes (or, worse, trapdoors that might give a villain the means to fix
an election). What about the operating system used to run the software?
The compiler used to turn the raw computer code into a finished program?
Even computer chips themselves could harbor a time bomb in their built-in
microcode.
Other voting methods aren't flawless. Lever machines
can be pried open, and paper-ballot boxes can be stuffed. But tampering
with them on a nationwide scale would be a formidable task. Programmers
like to talk about making systems scalable, or easy to extend. Scalability
can help a Web store serving thousands of customers eventually cater to
millions. But a computer bug in the wrong place could undermine a national
election.
As for anonymity, voting-systems companies usually
turn to crack-proof codes to ensure that information remains private. But
no matter how good the encryption, you still need to worry about how the
information could be altered or misread before and after it is encoded…
So what does she suggest? Electronic voting systems
are fine, she says -- as long as they produce a paper record that can serve
as the true ballot. Voters could enter their choices on a computer, which
could then print out a slip of paper. The voter would then inspect the
paper record to make sure it was accurate and put it in the counting box.
The computer systems could then be used for the
instant results demanded by impatient Americans. But the paper would remain
as a permanent record, always available for a recount. "Paper is somehow
seen as old technology," Ms. Mercuri says. "But the great thing about it
is that it's tangible." You can't, she adds, audit an electron. Read more
about her research
on her Web site. |
Joyce says:
I recently logged onto the TechSIS system at Texas Tech University
to view a degree audit and to help my son get registered for next fall.
Locating the open sections of Accounting and Statistics with just a few
clicks took me back a few (well, a lot of) years. In the ‘60’s Gregory
Gym at the University of Texas saw no more arduous physical contests than
those in which several hundred students raced between tables competing
for a meager stack of punch cards, tickets into the classes that would
eventually earn them their freedom. It saw no more frenzied strategizing
than the damage control that took place when a student’s carefully planned
schedule was blown away by the unexpected closure of a “got to have” class.
With TechSIS, if a class is closed, wait a few hours and log in again,
or do a quick search for an open class.
Think of doing the same with your vote. Log on. Look at pictures, possibly
click to read platforms, click to vote, click to send. Think of the shut-ins
and the perpetually busy that could now make it to the polls. Think of
the election officers watching the tallies as easily as checking basketball
scores.
The scenario is inviting but forbidding. Expense, privacy, security
and opportunity for graft just scratch the surface. If you remember the
Poll Tax, you’ll recognize a more ominous issue. The keys to democracy
would once again be taken from the “have-nots.” Citizens who did not belong
to the technological literati could be deprived of their vote because their
lives never afforded them the opportunity to learn to use a computer.
With seventeen years’ experience in the computer field, I even shudder
to consider my first time in front of a voting machine. I still have yet
to meet a friendly VCR or ATM.
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