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Electronic voting (a.k.a e-voting and including Internet voting and other online voting) could be any of several means of determining people's collective intent electronically. Electronic voting includes voting by kiosk, internet, telephone, punch card, and optical scan ballot (a.k.a. mark-sense).
Electronic voting systems have been in use since the 1960s when punch card systems debuted. The newer mark-sense ballots allow a computer to count a voter's mark with an optical sensor. Internet and telephone voting systems have gained popularity for non-governmental purposes since the 1980s but suffer security problems preventing their application for government elections.
Direct recording electronic (DRE) systems, with interfaces much more like an ATM can, depending on design and implementation, provide instant feedback to the voters in case of invalid votes, and they can provide instant counts after polling. With a paper printout of each ballot -- verifiable by each voter -- they can also offer certain verifiability. By contrast, in a paperless system, voters must have faith in the accuracy of the counting software. Vendors of voting equipment tend to prefer proprietary software for business reasons; this alarms some observers. Open source software, based on its established track record related to security design (as opposed to the "security through obscurity" approach by proprietary software), would provide a large degree of transparency for such systems, at the cost of loss of exclusivity to vendors.
Electronic Voting Machines are used on a large scale in India (See Indian voting machines). In 2002, in the United States, the Help America Vote Act apparently mandated the use of electronic voting in all states. It seems likely that such systems will eventually be mandated across most or all democratic countries.
Direct Recording Electronic (DRE) voting systems tally votes directly to computer memory. The voting machines typically take the form of a box or enclosure (rather like an ATM) or a laptop computer. Indian voting machines use a two-piece system with a balloting unit presenting the voter with a button (momentary switch) for each choice connected by a cable to an electronic ballot box.
DRE voting systems are often favored because they can incorporate assistive technologies for handicapped people, allowing them to vote without involving another person in the process. They can also offer immediate feedback on the vailidity of a particular ballot so that the voter can have an opportunity to correct problems if they are noticed.
A fundamental challenge with DRE voting machines is the re-count of votes to verify that the hardware/software involved performed its task correctly. The Mercuri Method of electronic voting, described by Rebecca Mercuri, addresses the problem by having the voting machine print a paper ballot or receipt that is verified by the voter before being dropped into a ballot box. If the paper is treated as a ballot, it is primary and the electronic records are used for recounts and audits. If the paper is treated as a receipt or audit trail, it would then be used for recounts, if necessary because of legal challenges, or on a random sampling basis to ensure the integrity of the process.
David Chaum proposes a solution to the repeatability and verifiability issues that allows the voter to verify that the vote is cast appropriately and that the vote is counted. He proposes a two-layer printout from a DRE voting machine (Chaum, 1988). The layers, when combined, show the human-readable vote. The voter selects one layer to destroy at the poll and takes the other layer as a receipt, and the voter can verify that his particular vote was counted with that receipt, but the actual vote cast is thoroughly encrypted. The chief drawback to Chaum's method is that the cryptographic mathematics involved are not understood by most observers, election officials, legislators, and procurement officials.
Another challenge for DRE systems is a requirement in some areas that the entire ballot be presented to the voter simultaneously, so the voter can "vote for President, then vote for dog catcher, then leave," according to Rebecca Mercuri in a November 14, 2003 presentation. DRE systems in those areas need particularly large screens to accommodate all choices.
In mark-sense voting the user marks a paper ballot and feeds it into a ballot box. The votes may be tallied by automatic sensors at a central location or at the precinct. With precinct-tallied votes, the systems usually verify that the ballot is legitimate as they accept the ballot.
Improper marks on the ballot are the primary cause of problems with mark-sense voting. The marks may be inadvertent, accidentally outside the prescribed locations, made with an incompatible writing instrument, or incomplete.
With punch card ballots, voters create holes in prepared ballot cards to indicate their choices. There are two main vendor systems, Datavote and Votomatic. Datavote systems use a cutting tool and vacuum to clean away material from unperforated cards indicating the voters' choices. Votomatic machines require the voter to punch out a perforated rectangle (ie, a chad) from the card using a stylus.
The Datavote systems tend to have higher accuracy than Votomatic machines. Votomatic machines suffer from all manner of problems related to handling the perforated cards - problems that featured prominently in the 2000 U.S. Presidential Election.
With Internet voting people cast their ballots online, generally via a web interface, although email voting has occasionally been tried. With web voting the voter navigates to the proper election site using a web browser on an ordinary PC and authenticates himself or herself to see the appropriate blank ballot form presented onscreen. The voter then fills out the ballot form and, when satisfied, clicks the "cast vote" button to send the completed ballot back to the election server.
Some corporations routinely use Internet voting to elect officers and Board members and for other proxy elections. However, its use for public elections where the security, privacy, and auditability standards are much higher, is generally considered prohibitively dangerous because, besides all of the dangers of ordinary electronic voting, there are additional severe security problems inherent in the PC and in the Internet that have no good solutions with current technology.
The main weakness of the PC architecture is its vulnerability to malicious code, which can be introduced through a hundred different channels to interfere with voting in lots of ways, many of them undetectable. The voter may be prevented from voting, or the privacy of the vote might be compromised, or the vote might be altered before transmission without the voter's knowledge, etc.
The weaknesses of the Internet include its vulnerability to many kinds of denial of service attacks, spoofing attacks, and man-in-the-middle attacks, which could lead to massive, selective voter disenfranchisement, or to automated vote buying and selling. Attacks on Internet voting systems can be launched remotely from anywhere in the world, and might change the results of elections undetectably; or if the attack is detected, there may be no way to correct the tally.
Because of these security concerns (detailed in ) the U.S. military cancelled the SERVE program (Secure Electronic Registration and Voting Experiment) in early 2004 that would have allowed military personnel and overseas citizens of eight states to vote online in the 2004 presidential election.
Telephone voting allows people to call different telephone numbers to indicate preference for different options, or a voter might call one number and indicate a preference by pressing buttons in a menu system. Its main drawback is the difficulty in verifying the identity of the voter and in permitting only one vote per person. Its chief advantage is the ease in getting people to participate.
The Fox TV Network used telephone voting to determine the winner of the American Idol television talent contest. In the case of the 2003 Ruben Studdard/Clay Aiken contest, another drawback of telephone voting appeared. Viewers were asked to call a number indicating their preference, but the telephone systems, presumably two identical systems for counting votes, were operating very near capacity for the duration of the voting period. Perhaps as a result, out of 24 million votes cast, Studdard "won" by only 130,000 votes.
she is authorized to cast a vote .
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