As voters head to the polls for the 2020 elections, the U.S. faces on-going security threats such as disinformation campaigns, data breaches, and ballot tampering in an effort by foreign adversaries to erode the integrity of the democratic process. Recent events from Russian and Iranian hackers stealing data to threaten and intimidate voters to Russian actors actively targeting state, local, and territorial networks demonstrate that elections rely on crucial technological tools to ensure process integrity, the disruption of which would have a debilitating impact on national security and society.
Critical infrastructure (CI) provides essential services and is the backbone of the country’s economy, security, and health. From transportation enabling personal mobility and commerce, to electricity powering our homes and businesses, to telecommunications networks fostering global connectivity—particularly amid the pandemic—CI is the lynchpin to functioning social, economic, and political systems. While these systems have long been subject to threats from terrorism and natural disasters, cyberattacks represent among the most destabilizing and underappreciated risk. With the rapid digitalization of all facets of society and increasing dependence on information and communications technologies (ICT), attackers ranging from nation-states to hacktivists to organized criminal groups can identify vulnerabilities and infiltrate seemingly disparate systems to disrupt services and damage global society—all without a physical attack. As a designated CI subsector, election systems are vital to domestic and international security (see U.N. nonbinding consensus report A/70/174) and election security risks can threaten democracies worldwide.
Cyberattacks are rising in both volume and complexity, putting private companies and average citizens at the front line of this national security challenge that we have yet to fully understand. For instance, 99 percent of voting in the US takes place through a computer system or machine, but despite the highly computerized nature of the election process, it is not garnering the attention it needs. The 2000 presidential election and controversial recount in Florida prompted the first federal initiative through the Help America Vote Act (HAVA) to upgrade voting machines in 2002 and establish the Election Assistance Commission (EAC), but cybersecurity wasn’t the focus. More than a decade later, the Presidential Commission on Election Administration warned about the “impending crisis” in outdated voting technology, but still, little was done while the risks were mounting. After several Russian-led cyberattacks aimed at exfiltrating data from state information systems and attacks made toward the 2016 elections, the U.S. finally recognized the urgency to upgrade its antiquated election infrastructure and ensure the integrity of all technological tools that facilitate a fair voting process. Not until 2017 was election infrastructure designated as part of the federal government’s CI sector, which allowed states and localities to leverage the government’s cybersecurity expertise and access unclassified and classified information to improve resiliency. However, lack of coordination in the runup to 2020 has not materially improved security.
The rapidly evolving cyber landscape and ongoing use of outdated technology for CI makes the U.S. and other countries vulnerable, largely undefended targets. With the rise of great power competition and challenges from Russia and China, the cyber arena is a geopolitical plane for actors to deploy tools to disrupt, destroy, and undermine the U.S. and advance adversaries’ foreign policy goals. As voters prepare to cast their ballot in the 2020 elections, this FP Insider Report analyzes the underreported issue of voting machine infrastructure security, derives insights from other countries’ experiences with foreign interference, and pinpoints what voters and officials can do to strengthen security on Election Day—and beyond.
Key Adversarial Interests And Threats To U.S. Election Infrastructure
believing that Russia or other foreign governments will try to interfere in the election. Such fears are backed by the U.S. Intelligence Community (IC) which identifies Russia, China, and Iran as the primary threats to election security. Analysts concur that Russia poses the most persistent threat, but the Trump administration has turned its and the public’s focus to China and Iran, with U.S. Department of Homeland Security (DHS) officials instructed to “cease providing intelligence assessments on the threat of Russian [election] interference.”Going into Election Day, concerns regarding election interference are pervasive, with 75 percent of Americans
According to DHS, adversaries will likely target election-related infrastructure by using various cyber tools, such as exploiting poor cybersecurity practices on protected election systems or networks, compromising election system supply chains, conducting denial-of-service attacks, and more. Though key adversaries, specifically Russia, China, and Iran, have strategic geopolitical goals, other actors including Advanced Threat Persistent (ATP) groups and cybercriminals also represent notable threats to election infrastructure security.
Vying for international recognition and status, Russia seeks to constrain and undermine U.S. authority, according to foreign policy experts, and reassert itself as a global player with global and regional influence, particularly in regions where great power is absent or where there are multiple great powers (e.g. the Middle East, the Arctic). Given the U.S.’s economic, political, and military strength as well as its participation in NATO, Russia is unlikely to initiate a direct conflict with the U.S., but rather counter the U.S. where it can do so at acceptable costs through nontraditional means such as cyberattacks.
These efforts are deepening and becoming more targeted and refined. Between 2014 and 2017, the Russian government researched the “U.S. electoral process and related technology and equipment” specifically directing activity against U.S. voting boards at state and local levels. This was not the first Russian attack on election infrastructure. In addition to the 2016 hack on the Democratic National Committee (DNC), pro-Russian hackers infiltrated Ukraine’s central election computers in 2014 and rendered the vote-tallying system inoperable. The same year, Poland’s electoral commission’s website was also hacked, and in 2017, alleged Russian hackers leaked emails from the En Mache party ahead of the French elections. Given past demonstrated successes in entering U.S. election infrastructure and other election systems, experts assert that Russia is likely to continue its cyberattacks on voting machines in the 2020 election.
Recognizing the economic interdependence with the U.S. and benefits of engagement with the global international system, China is seeking to improve its relative posture globally through economic and technological means. China’s growing control over the ICT and digital media environment internationally—particularly in 5G , creation of the Strategic Support Force in the Chinese military which centralizes the PRC’s space, cyber, electronic, and psychological warfare capabilities, integration of big data into its Belt and Road Initiative (BRI), and installation of fiberoptic networks around the world suggests that China is investing in its cyber capabilities. China’s goals are to capture global market share, export its technology and domestic surveillance model abroad; censure content that is “politically sensitive” and damaging to the communist party’s legitimacy ; and conduct state-backed media campaigns, and cyber espionage operations. For instance, China used malware to target Tibetan individuals and organizations and in 2019, the Chinese government allegedly launched disinformation campaigns during the Taiwanese elections.
According to the director of national intelligence, China prefers that former Vice President Joe Biden win the 2020 elections, and researchers from the Harvard Belfer Center for Science and International Affair’s contend China possesses a higher capability than Russia and Iran to use cyber to achieve its policy goals. Reported instances of Chinese election interference have mainly been in the form of disinformation campaigns, funding preferred candidates, and cyber espionage operations such as attempting to hack the 2020 U.S. presidential campaigns. However, experts agree that China is unlikely to be as active as Russia in this election cycle or use similar Russian tactics such as hacking directly into U.S. voting machines given its manifold interests in preserving and strengthening the PRC’s role in cyberspace.
After Stuxnet, a 2010 malware attack made against Iranian nuclear facilities, Iran has invested more than $1 billion in its cyber capabilities to enhance its cybersecurity posture. Iran uses its cyber capabilities across various strategic dimensions, including: to surveil and control its domestic population and prevent another Arab Spring ; to project its regional power by targeting Israel, Saudi Arabia, Bahrain, and other Persian Gulf countries’ critical infrastructure and data; and to undermine and challenge global powers, notably the U.S. and U.K.
cyber espionage and attempts at destructive cyberattacks on critical infrastructure such as energy and financial institutions, Russia and China remain relatively more capable nation-state cyber actors—and thus greater risks. Recent Iranian activity, particularly using voter registration data to send threatening and fake emails, suggests that while Iran has been credited for conducting multiple cyberattacks, Iran’s cyber capabilities are still developing, especially abroad, and it can’t yet orchestrate a large-scale, multi-vector attack on voting machines. Iranian efforts, instead, mostly focus on online disinformation and propaganda as well as cyber espionage operations, such as trying to identify and attack a U.S. presidential campaign, government officials, and journalists or targeting organizations critical to the democratic process, including nongovernmental organizations (NGOs) and think tanks that work with candidates and political parties.While Iran poses a threat to U.S. election systems given its activities in
Russia and U.S. Elections: Disrupt, Divide, and Undermine
Unlike the use of traditional military force, the goal of cyberattacks is not destruction but disruption. According to the Estonia Foreign Intelligence Service, Russia’s goal in the U.S. and other Western elections is to ensure a more beneficial result by favoring Russian-friendly candidates, show how the West is failing to hold fair elections, and support its rhetoric of Western double standards. In the 2016 U.S. elections, Russia primarily used disinformation to erode public trust in the democratic process and “sow divisiveness” among U.S. citizens. Its efforts (as well as others’) were successful. While Americans’ confidence in elections has deteriorated since 2012, it reached a low point in 2016 following Russian interference in the elections. Today, 59 percent of voters say that they are not confident in the honesty of elections in the country.
Russian hacking has evolved, however, from the “cognitive level: propaganda, doxing, influence operations” to a “tactical, technical level” targeting civilian and military infrastructures, notably having used Ukraine as Russia’s main testing ground. “Information troops” and APT groups are central parts of Russia’s cyber information operations (IO) toolkit. According to the report by the U.S. Senate Intelligence Committee on Russian active measures campaigns, most known Russian cyber efforts have targeted the U.S. and its allies online and via social media to undermine trust in authorities, spread disinformation, and manipulate data to influence elections. Technical indicators such as RAM scrapers to bypass encryption, spear-phishing campaigns with third parties hiding behind false online personas, and other advanced malware toolkits and frameworks such as the costly NotPetya attack suggest that the Russian government is investing significant resources to build large-scale cyber espionage capabilities and unique operational security designs that can be used to attack the 2020 U.S. elections.
While no votes were changed in voting machines in 2016, Russian hackers were in a position to compromise votes and voter data in all 50 states. Russia’s cyber capabilities and Putin’s support for the “patriotic hackers [who] add their contribution to the fight against those who speak badly about Russia,” has emboldened hacktivists (a portmanteau of hack and activism) to continue cyberattacks without penalties while providing a degree of plausible deniability to the Russian government.
assert that its offensive abilities supersede China’s and Iran’s, and ramping up to Election Day, Russia is evidently using a plethora of cyber techniques to affect the 2020 elections. Just in the past three months, Russian military intelligence tried but failed to hack into campaign staff members, consultants, and think tanks’ computers and most recently, Russia alongside Iran also obtained and used voter registration data to intimidate and influence voters. Then, in mid-October, Microsoft and U.S. Cyber Command launched a series of covert preemptive strikes on Russian hackers to prevent TrickBot, a vast network of infected computers otherwise known as a botnet, from being used toward voting infrastructure. If TrickBot is successfully deployed, even if no votes are changed nor data destroyed, the disruption of the malware would be enough to exacerbate the preexisting doubts on the integrity and validity of the election results. The preemptive cyber operation made on TrickBot shows the necessity for all stakeholders from the public and private sector to coordinate and identify key risks to prevent nation-state actors such as Russia from disrupting and undermining the democratic process.Although Russian cyber capabilities are not equal to the U.S.’s, experts
Realism and Limitations to Election Infrastructure Security
Election infrastructure writ large includes everything from storage facilities, polling places, and centralized vote tabulation locations used in the election process. It also encompasses ICT for voter registration databases, voting machines, and other systems to manage the election process as well as report and display results on behalf of state and local governments. It notably does not include infrastructure used by political campaigns. The DHS does not have regulatory authority over federal elections but takes the lead in coordinating federal support for campaign and election security through the Cybersecurity and Infrastructure Security Agency (CISA), a subagency within DHS that is responsible for securing critical infrastructure and federal networks. However, and crucially, the agency has limited capacity to oversee or enforce cybersecurity protocols at the state or local level. States and localities are responsible for their own election security decisions and can choose to accept assistance from the federal government. In other words, DHS recommends election security policies and best practices, and the Election Assistance Commission’s (EAC) provides guidance on security issues, but states and local precincts need not follow them.
Compounding security issues is the fact that the U.S. election system is highly decentralized, with 8,000 jurisdictions across the country responsible for election administration. Combined with limited federal enforcement mechanisms, disparate security protocols, auditing, election equipment purchasing and management across the country increase the threat and likelihood of an attack. For instance, in 2016, DHS and the IC found that malicious actors scanned and probed states’ election-related systems through servers operated by a Russian company about which state and local election officials were unaware. U.S. Sen. Ron Wyden also asserts that the various cybersecurity protocols and standards at the state and local levels hinders the FBI’s, DHS’, and the IC’s ability to assess whether, or to what extent U.S. election systems have been compromised and therefore, what appropriate measures should be taken to enhance election system resilience. Conversely, analysts and experts contend that the U.S. system’s decentralized nature is its strongest asset. The variety of technology and protocols act as a deterrent to potential cyberattacks because actors must conduct several reconnaissance operations to learn each system and identify vulnerabilities and coordinate multiple attack vectors to orchestrate a large-scale cyber operation on each individual system.
Voting Machine Manufacturers: Critical Players in Safeguarding Election Integrity
Three private companies, Election Systems & Software (“ES&S”), Dominion Voting Systems (“Dominion”) and Hart InterCivic (“Hart”) manufacture and manage the vast majority of U.S. electronic voting machines, controlling 84.08 percent of total eligible voter population. ES&S is the largest vendor, holding 37.97 percent of the market share by precinct and servicing more than 90.31 million registered voters. Followed by Dominion who controls 35.14 percent by precinct and Hart with 10.97 percent by precinct.
2020 Aggregated Voting Machine Distribution by Vendor
The map only shows market share at the county-level and not the sub-county level. Click for more details.
The 2020 market share reflects standard equipment used across the U.S. in Election Day polling places and focuses mainly on ES&S, Dominion, and Hart InterCivic. All three companies create bespoke equipment and own the IP to their manufactured technology and, in select instances, IP of technology they acquired, which is reflected under their respective designations. For example, Premier Election Solutions (formerly Diebold Election Systems) was acquired by Dominion in 2010 and since then, Dominion owns the IP for both companies.
Areas highlighted in gray include smaller voting machine manufacturers Clear Ballot, Danaher, Microvote, Smartmatic/Los Angeles County, PopulexSlate, and Unisyn Voting Solution.
Fewer than 1 percent of registered voters live in jurisdictions that hand count paper ballots. Because of this, any counties that hand counts have been assigned to the manufacturer of the accessible equipment (as in most cases) or the standard equipment used in other municipalities in the same county. Hand-counted paper ballots or hand counts are reflected in Graphic 3 as a method of vote tallying.
Please also note that data used includes counties, cities, parishes, and districts, but for simplification the map only shows market share at the county-level and not the sub-county level. Depending on the county, other levels of government can decide which manufacturer they use, independent of what the county does. For instance, Bloomington, Illinois (city) uses ES&S standard technology, but the county it is in (McLean County, Illinois) uses Dominion standard technology. This particularly affects Massachusetts and a few counties in Wisconsin, where certain towns in the same county use different manufacturers. All counties in Massachusetts have been assigned to Dominion but it is noteworthy to mention that 44 towns also use ES&S DS200s and every town uses ES&S AutoARK BMDs for accessibility.
Unlike other critical infrastructure such as defense, nuclear, and energy, electronic voting machine manufacturers are not subject to oversight. Beyond the EAC’s voting system certification, no laws require states to continuously implement cybersecurity standards in their systems and protocols. Manufacturers do not need to disclose any breaches that occur or test and audit voting systems with a third party, screen employee backgrounds, patch security flaws, report foreign ownership, disclose information about financial operations or company ownership, and are not open to scrutiny by contractors and subcontractors in their supply chains to either DHS or EAC.
Further, the EAC’s certification program does not have an enforcement mechanism, and the commission is not responsible for federal oversight of election vendors. It only tests machines when they are new, have never received certification before, have been modified, or if the manufacturer wants to be certified with a higher standard. Without sufficient oversight measures to ensure the integrity of voting machines, manufacturers are unlikely to implement the same level of security protocols in voting machines or accurately report if security measures fail.
Global Supply Chain Risks Are Substantial
Not only is U.S. election infrastructure vulnerable to malicious attacks, but faulty or malign operational parts could contribute to system failure. Voting machines contain foreign-manufactured components, with 59 percent of suppliers based in China and Russia, creating supply chain risks because foreign businesses procedures are not subject to federal oversight. Components may not have modern cybersecurity protections, outdated malware detection software may not be able to identify and remove threats, and replacement parts may not be available. Vulnerabilities in supply chains can enable data theft and hardware exploitation that cause a system or network failure. If the hardware has a vulnerability, unless the equipment is taken apart and parts are replaced, hackers will always be able to exploit it.
In response to supply chain concerns voiced by Congress and Interos, a global supply chain risk management company, voting machine manufacturers issued a joint industry statement in January 2020, highlighting best-practice measures to ensure the sanctity of American votes, including routine system review and testing by all levels of government and establishing reasonable levels of security for supply chains in their terms and conditions. In particular, manufacturers note that Interos’ analysis relies on the suppliers’ corporate locations to identify whether components are foreign-produced, rather than subsidiaries—failing to truly account for supply chain vulnerabilities.
voluntary security measures they have put in place (e.g. training seminars, two-factor authentication, encryption, etc.) are still not enough. First, existing election system cybersecurity standards derive from a traditional threat model that focuses on potential election rigging by poll workers or election officials. Current standards do not consider nation-state adversaries that can conduct advanced operations against the voting system supply chain and the devices themselves.While voting machine manufacturers have made some efforts, the
Second, the lack of transparency in supply chains and operational protocols makes it unclear to what extent third parties organize and administer the technological tools for elections before voters cast their ballot. During an election, counties or states can hire a third party that is responsible for providing the online tools, voting machines, certification, counting, and supervision of the election process. Often, these third-party companies own and maintain the voting machines and rent them out to clients as needed. While some states and localities own voting machines, more research and oversight measures must be implemented to better understand the role third parties play in the election process.
Third, local election officials lack fundamental cybersecurity knowledge to recognize and help mitigate risks to election systems’ infrastructure and operations. For instance, in 2015 Maryland’s election systems vendor ByteGrid LLC was purchased by AltPoint Capital Partners, whose fund manager was tied to a Russian oligarch. Before the 2016 elections, DHS noticed suspicious online activity in Maryland’s election systems, but election officials did not know about the purchase or cyber activity until the FBI notified them in 2018. Although no evidence suggests ballot or data systems were compromised, it does not mean that no wrongdoing took place either.
Election officials do not have to participate in any cybersecurity training unless mandated by their state or local jurisdiction and are largely unable to identify cyberattacks. Only 28 percent of elected officials have basic controls to prevent phishing and some election administrators (5 percent) use personal emails or technology, which are less secure than government emails and devices. This makes them highly susceptible to falling victim to malicious cybercampaigns, particularly because 90 percent of overall data-loss occurs because of human error, usually through phishing or social engineering. Given the highly unregulated nature of the voting machine technology market and poor cybersecurity practices by manufacturers and election officials, experts anticipate that foreign adversaries will look at the supply chain weaknesses to harm U.S. election infrastructure.
Market Concentration Limiting Cyber- and Security-Related Innovations
The voting machine market also suffers from limited competition, which hampers innovation. State and local election boards mainly use Direct Recording Electronic (DRE) Voting Machines, Optical Scan Ballot Readers, and Ballot Marketing Devices (BMDs) to conduct election processes. Companies tend to sell products as a package with hardware, software, services, and support offered together, leaving little room for others to enter the market. The barriers to entry for potential newcomers are also high. Manufacturers’ registration with the EAC can take up to two years, and companies must meet certification and registration requirements with states and counties, which can cost on average, $2 million per certification for each voting system.
2020 Voting Machine Market Distribution by Registered Voters
(Number of registered voters in parentheses)
The total is more than 100 percent because a few jurisdictions use more than one vendor. Click for more details.
The totals are more than 100 percent because a few jurisdictions use more than one vendor. The 2020 market share chart reflects the standard equipment provided by vendors across the U.S. and is measured by registered voters. Because of this, jurisdictions that primarily use hand-counted paper ballots instead of a vendor were included. Also, the section in gray includes smaller voting machine manufacturers Clear Ballot, Danaher, Microvote, Smartmatic/Los Angeles County, PopulexSlate, and Unisyn Voting Solution.
State and local jurisdictions reinforce this market concentration by establishing routine purchasing procedures with a single vendor. Purchasers look to those companies that have already passed state and local requirements and typically enter long-term contracts of at least 10 years. The voting machines can’t operate with other companies’ systems, making it difficult to replace one part with a different vendor without replacing the whole system. Because of this concentration, even if a voting machine does not perform reliably or consistently, states continue to rely on the same manufacturer because they are bound by long-term contracts that obligate them to buy a range of related equipment and supplies from the same company. Given the high costs to entry, saturated market, and limited market opportunity, the voting machine market is not attracting substantial private sector investment and needed security provisions are not being developed and installed.
Broader Security Measures are Needed: Simply Updating Machines Isn’t Enough
After the U.S. Senate Select Committee on Intelligence’s reports on Russian efforts to hack into elections in 2016, states and local jurisdictions began upgrading their systems and moving towards hand-marked paper ballots. But, 71 percent of states that wanted to replace and upgrade their voting systems could not because they did not have the $200 million to $400 million per electronic voting machine to do so. Today, nine states still have paperless DRE Systems, with New Jersey, Tennessee, Mississippi, and Louisiana having paperless machines making up more than half of their polling place equipment. On a paperless machine, manipulation can occur without a trace because there is no way to validate the integrity of election results or provide a paper ballot or receipt.
Other jurisdictions that were able to upgrade their systems opted for ballot marking devices (BMDs) as their primary method of voting for all voters. Unlike hand-marked paper ballots (the most secure voting method), BMDs are slow and often the cause for long lines at polls. It prints out a ballot summary card that contains two separate records of voter intent, one as a record on plain text and the other in a barcode or QR code. When the card is scanned, the scanner only reads the barcode which cannot be verified or understood by the voter or poll workers. Because of this, experts warn that a hacked, misprogrammed, or misconfigured BMD could record votes incorrectly. If the ballot summary card reads as expected, no one may notice the error. In fact, 93 percent of voters do not catch BMD errors on printouts when they do occur and some counties can configure BMDs to “auto-cast” so that voters are not even given an option to verify the printed ballot.
Today, 17.48 percent or over 36.15 million registered voters will use BMDs across 12 states with Arkansas, Georgia, South Carolina, Texas, and West Virginia having more than half their counties rely on BMDs for all voting. In Pennsylvania, 40 percent of polling places reported malfunctions with ES&S’ BMDs in 2019 which incorrectly recorded votes and forced a county to count back-up paper receipts to identify the correct winners. Even more concerning is that manufacturers are promoting the use of BMDs for all voters, particularly BMDs hybrids that combine with a tabulator and/or scanner. Researchers found hybrids could add falsified votes to the paper ballot after it has been cast, thus any manual audits would approve illegitimate receipts.
Although Congress allocated $425 million for election improvements for FY2020, it was not enough. In the next two to five years, it will cost $735 million to upgrade all equipment to current cybersecurity standards and $833 million for extra state and local election cybersecurity assistance. States and localities argue that given the international nature of potential foreign interference, the federal government has the responsibility to provide funding to replace voting machines. However, Congress contends that the government should not “federalize” a practice that is a state and local responsibility. In 2019, some states allocated as much as $150 million to replace voting equipment statewide, but the process to replace the machines is to span the next few years. Other states have relegated the decision-making process to local jurisdictions who require funds to build up over a few years to make major purchases.
Overall Technology Changes by County from 2016 to 2020
While infrastructure improvements are needed, no machine is hacker-proof, even when hardware and software components are upgraded. Voting machines can be remotely hacked within 24 hours, but it can take a year or more and on average $8.64 million to identify a data breach, remove it, and contain damages. Simply segmenting a system from the ICT environment is not enough to stop malicious actors. Although a network layer can be “air-gapped,” that layer is the only one protected from potential compromise, and malicious actors can find alternative pathways. For instance, servers operate on other connected systems such as those connected to buildings, and unless all systems and technological components are equally air-gapped, advanced hackers can find vulnerabilities and bypass encryption to enter a system. The most notable example of such a hack is Target’s data breach in 2013. Despite the cybersecurity measures Target had invested in, 40 million credit and debit card numbers, along with 70 million phone numbers, addresses, and other personal information were stolen through a third-party HVAC provider who was remotely connected to Target’s internal network. Because of these risks, select states have resorted to paper ballots to administer elections. But most states that use paper ballots do not require audits to paper records and lack security protections, making them extremely unsafe to use, especially in close elections.
Only 34 states and D.C. require traditional post-election audits to provide high levels of confidence in the accuracy of the final vote tally and Colorado, Rhode Island, Virginia, and Nevada (which pilots statewide in 2020, all counties in 2022) are the only states with laws requiring “risk limiting audits” in their security protocol. Poor cybersecurity policies and practices are likely because of limited resources, lack of expertise and resources available to elected officials understand and identify cyberattacks, and a reluctance to adopt stricter security protocols because added computations slow down systems or make them harder to use.
Efforts to Go Wireless Amid COVID-19 Further Weaken Security
Despite security concerns and funding constraints, states have invested in enabling remote internet voting in place of paper-based systems to increase voter turnout and serve as an alternative to in-person voting amid COVID-19. Although internet voting may appeal to voters, no internet voting system is secure or reliable enough to use in elections. West Virginia, Denver, and Utah County offer online app-based voting using blockchain technology called Voatz for military and civilians overseas. However, Voatz’s blockchain technology offers no security, relying on HTTPS connection to transfer votes to the server. Assessments of the technology have found that hackers can access voters’ personal identification information and IP address, and change vote tallies. Compounding the risks, hackers could learn rough troop movements from military service personnel who use it.
Other states have connected machines to the internet to ease ballot counting and share results faster. Michigan, for instance, invested $82 million to install wireless modems in their machines. While enabling speed, internet connection also makes machines susceptible to remote malicious attacks, particularly “denial-of-service” (DoS) attacks. Hart, ES&S, and Dominion all have modems in some of their tabulators and scanners, which enable the devices to connect to cellphone networks and the internet. Currently, ES&S’s DS200 voting machine with optional wireless modems connected by AT&T, Sprint, and Verizon, face potential consequences from the EAC for inaccurately presenting its wireless technology as EAC certified. Manufacturers claim firewalls protect systems and the machines are not connected to the “public internet,” but no network is completely segregated. A completely isolated system would exclude software and certification updates and restrict file uploads.
To meet the highest standards of election integrity, either a system—at a minimum—must not be connected to the internet or the system must have end-to-end verifiability (e2e-v). This latter security measure is unlikely to be implemented by many localities because it will raise the cost of each machine and will stretch already limited resources. Today, Estonia is the only known nationwide internet-based voting system being used by a democratic country.
Learning from History: What the U.S. Can Glean from Election Interference Abroad
Despite recent headlines, foreign interference in elections is not a new phenomenon. From spreading online disinformation campaigns to infiltrating political organizations to channeling political money to support preferred candidates, for decades countries have been battling foreign actors who seek to politically influence governments to their favor. The Russian meddling in the 2016 U.S. elections simply brought to the American public’s attention the significance and magnitude to which adversaries could operate beyond their borders. Lessons can be learned from past foreign election interference and help inform a more coherent and robust U.S. cyberstrategy going forward.
In 2014, before the presidential election, CyberBerkut—a group of Russian state-sponsored hackers that support Russia’s military operations—infiltrated Ukraine’s central election computers and deleted files to render vote-tallying systems inoperable. The group later posted that they “completely destroyed the network and computer infrastructure of the Central Election Commission [CEC]” and shared emails and documents as proof. While government officials were able to repair the system, before election results were revealed, experts discovered malicious software that would have shown a false announcement that pro-Russian candidate Dmytro Yarosh as the winner (who in fact only received 1 percent of the vote) and Petro Poroshenko as the loser (who received the majority at 54.7 percent). The Organization for Security and Co-operation in Europe’s Office for Democratic Institutions and Human Rights (OSCE/ODIHR) found the hackers disrupted election material receipt and processing, preventing District Election Commissions (DECs) from sharing results with the CEC.
Russia considers Ukraine to be part of its territory and a strategic asset against the West. Apart from Russian claims to cultural ties, Ukraine is strategically and commercially vital to Russia given that Ukraine is the main conduit of Russian natural gas, with almost two-fifths of all gas that services western and eastern Europe travels through Ukrainian pipes. Ukraine’s warm-water ports are also home to Russia’s Black Sea fleet.
The Ukrainian presidential election followed the 2014 Ukrainian Revolution that ousted the Russia-backed president, Viktor Yanukovych, and prompted Russia’s annexation of Crimea. The main candidates at the time made their opposition to Russia a core part of their platform and conducting a successful and legitimate election was critical for Ukraine to demonstrate its potential to integrate into the EU and NATO. According to a range of regional experts, election interference was key to Russia’s strategy to undermining these candidates, and their objectives.
Although Yarosh was not elected president, Russia’s cyberattacks on Ukrainian election ICT infrastructure helped contribute to the public’s lack of confidence in the integrity of the electoral process (26 percent). In response, the CEC implemented operational upgrades and policies to secure the 2019 presidential election, including:
- Modernized information security systems.
- Segmented office network and critical networks.
- Upgraded critical network and information security equipment (such as firewalls, proxy, and SIEM).
- Replaced systems’ major hardware and software components.
In 2016, the Ukrainian government issued a national cybersecurity strategy to “create conditions for the safe functioning of cyberspace, application of cyberspace, to benefit of individuals, society, and [Ukraine].” After repeated cyber intrusions to industrial and information systems, Ukraine also passed several laws on cybersecurity; specifically, it upgraded its Law on the Protection of Information in Information and Telecommunication Systems (1994) with the most recent amendment in 2020 requiring all “state information resources” to be processed in a “comprehensive system of information protection” (CSIP).
Key Lessons Learned:
No silver bullet can preserve election integrity, but decision-makers must identify what attackers are likely seeking in their systems and have a uniformed approach by all stakeholders to secure systems.
Increasing funding and upgrading operational systems are not enough. Protecting the democratic process is not only a technical issue; it relies on the confidence of the voters that their ballots process correctly and that the elections are open, free, and fair based on a secret ballot. Legislation and budget appropriation must reflect these values while also having practical and enforceable measures such as mandating basic cyber hygiene behavior to mitigate human error.
Vigilant network monitoring can help administrators detect and respond to malicious attacks. The Ukrainian case study highlights the urgent need for elected officials and poll workers to undergo basic cybersecurity training to identify suspicious activity from the time polling places open to when results are verified and revealed.
Digital systems are an integral part of Estonian society and its economy and have been for some time. Ninety-nine percent of public services, including elections, are available online, with marriages, divorces, and real estate transactions as the only services unavailable digitally. In 2005, Estonia was the first country in the world to use internet voting (i-Voting) as an alternative to in-person voting for its national elections and was the first in 2007 to use i-Voting for its parliamentary elections. Recognized for its sophisticated cyber defenses, particularly against politically motivated hacking and disinformation by Russian malicious actors, the Estonian i-Voting model is often thought as a protype for successful online voting.
In the March 2019 parliamentary elections, 44 percent, or 247,232, of total votes were cast online. Using an ID-card or Mobile-ID, voters logged into the i-Voting system via computer to cast their ballot during a designated voting period. Individuals could change their vote any time during this voting period. Once a vote was made, the name was removed from the ballot and sent to the National Election Commission for counting. Digital signatures authorized votes, encryption secured voting, and blockchain enabled data integrity for non-repudiation.
While exceptionally advanced, the Estonia i-Voting model, as with any technology, is not completely secure. Key vulnerabilities include inadequate procedural controls, use of unsecure HTTP connection when setting up the platform, lack of security personnel to monitor site and hardware, poor cyber hygiene by operators (e.g. using personal devices to backup data), and no audit trails. Although no known instances of foreign hacking into Estonia’s online voting platform were reported, experts warn that online elections are largely “an academic research project,” that still poses significant security risks. I-Voting proponents, however, contest that internet voting mitigates risks because just one software needs managing, while voting machines require multiple pieces of software that no single entity can carefully oversee.
Key Lessons Learned:
It’s a myth that election infrastructure can be completely secure. Policies must balance accessibility and security, with ongoing training and monitoring necessary to target breaches early and manage outcomes. The inherent tension between elections and cybersecurity presents a number of challenges. Elections are principled on being open, free, and fair, and based on a secret ballot, whereas cybersecurity necessitates protecting data and information from unauthorized parties, ensuring the data is reliable and accurate, and only authorizing users to systems and resources they need.
This tension results in an inability to verify votes because once a ballot is cast, the identity of the voter is removed, thereby leaving no way for election officials to trace the ballot back to a legitimate voter. In Estonia’s case, to increase transparency in the i-Voting process, Estonia published the server software code for public reference, use, and recommendations on how to improve security. But allowing public access to this code provides bad actors with the tools and information they need to identify loopholes and weaknesses. Stakeholders must recognize that during the election process, there is a trade-off between security and accessibility, and as the 2016 elections have shown us with Russian probing in voting machines, not disclosing the weaknesses in our security posture doesn’t make systems more secure. The US election system lacks transparency during the formulation and execution of the security process, and it’s leaving CI more vulnerable because of it. Known vulnerabilities must be shared with the public and appropriately managed. As the Ukrainian case study demonstrated, stakeholders must identify likely targets and input security protocols protecting processes and information to mitigate the risks.
Education is critical to building public trust in the security of ubiquitous technology. At the time online voting was introduced to Estonia, only 2 percent of the population cast their vote through the system. Over the past 15 years, consistent security testing, monitoring, scrutiny, and improvements to the system as well as ongoing educational campaigns to inform the public about the technology has increased public trust in the system. The key lesson for the U.S. and other countries is that modernizing and digitizing the election process cannot happen overnight and requires long-term commitment both in terms of ongoing technological development and effective educational campaigns.
Cybersecurity relies on individual responsibility and behavior. While it is important for citizens to know the security measures that are in place to protect the election process, it is equally as important for voters to understand the failures of cybersecurity protocols so that they are empowered to make informed decisions while also remaining vigilant for untoward activity.
The Nov. 3 Election and Beyond
A fundamental link exists between the trust in election infrastructure and confidence in a fair democratic process. Russia will likely continue to target U.S. voting machines given Russia’s recent cyberattacks as well as political motivation to weaken U.S. institutions and erode public trust. A more secure and resilient electoral process is vital to safeguarding U.S. national interests against Russia, or any bad actor—foreign or domestic.
While there has been some progress in securing voting systems in the U.S., the approach has not been uniformed or evenly applied across all 50 states. Many local jurisdictions procure their own election technology and are responsible for inventorying, securing, and training staff on those technologies. Resources vary across the country with some precincts relying on IT personnel, technology providers, or external agencies to secure their election infrastructure. Lawmakers and election officials have yet to understand the technical requirements to implement and maintain a secure voting machine. Although the federal government provides some guidance, cybersecurity protocols such as user digital hygiene, use of malware detection software, and cybersecurity certifications are not a mandated national practice and need both greater attention and coordinated investment.
There is also a lack of political will to develop and implement a coordinated response. Before the 2016 elections, President Obama was reportedly aware of Russian efforts to interfere in the U.S. election and warned President Putin that the law for armed conflict applies to actions in cyberspace, particularly election interference. However, Russia continued to infiltrate U.S. election infrastructure, and no known actions were taken by the U.S. The current administration demonstrates further unwillingness to respond to Russian election meddling. President Trump has accepted Putin’s denial regarding interference in the 2016 elections and has consistently dismissed Congress’ and the intelligence community’s findings related to Russian election interference. While U.S. sanctions may harm specific Russians hackers, they have not deterred Russia from continuing its cyber operations as recent efforts have demonstrated with its intention to continuously interfere in the presidential race in its final days or immediately after the Nov. 3 elections.
Looking beyond 2020, a number of measures could materially strengthen election integrity and critical infrastructure security more broadly. Adherence to all DHS election infrastructure recommendations and adoption of cybersecurity best practices by election officials and employees, including post-election audits to ensure voting integrity, would help harmonize protocols and minimize risks associated with the decentralized voting system. Expansion of the Help America Vote Act (HAVA) to include base level cybersecurity standards for all state voting sites would also help to harmonize approaches and close existing security gaps. DHS and the EAC can continue to provide the technical expertise and facilitate private-public sector partnerships to ensure that security is built into the system at the component level. The creation of incentives for vendors to incorporate robust security systems in future machine designs could also reduce the use of patches and ad hoc, reactive security measures. Moreover, decision-makers must also remain proactive and design legislation and policies to rapidly address ever-evolving cyber threats. The recently updated Defending the Integrity of the Voting Systems Act that now designates foreign and domestic hacking a federal crime is a step in the right direction, but more work must be done to develop a comprehensive robust cybersecurity policy response.
The EAC should also routinely test all machines and issue a cybersecurity certification that the machines are up to date with the latest security protections. Cybersecurity certifications are not new and have been used by the U.S. Department of Defense (DOD) for defense acquisition and sustainment. These initiatives could be funded through a reallocation of the U.S. federal discretionary budget, specifically the DOD’s current budget—because it is the largest cybersecurity budget among federal agencies—and increase DHS’ funding from its current $1.7 billion allowance.
Finally, further research not only in election infrastructure but other sectors is needed to closely examine supply chains and identify what risks could be exploited by adversaries in U.S. critical infrastructure. From food and agriculture to transportation, impacts to critical infrastructure by way of cyberattacks can have a debilitating effect on physical and economic security as well as public health and safety. Having a comprehensive understanding of all the risks to our systems will strengthen U.S. and other nations’ resiliency and mitigate risks to critical networks.
Recommendations for Voters
While such investments won’t occur before this election, voters can take key actions to help preserve election integrity:
Before going to cast your vote, contact your election boards or your local election board websites and learn about what types of voting machines you’ll be using, what cybersecurity protocols are in place, and who is administering the election process in your locality.
If you are able to get a receipt of your vote do two things:
Read to make sure your vote was cast correctly (60% of voters don’t check their ballots after they cast them)
Keep your receipt; this is a verifiable paper trail to prove your vote was cast and keep it for your personal records.
Volunteer as a pollster. Because of COVID-19, the U.S. has a shortage of pollsters and volunteers. If you’re willing and able, do your part in ensuring the integrity of elections by helping process votes and educating voters on what they should know.
Check the credibility of the sources you are reading.
Read more than one source.
If an article cites a government document, take time to read it yourself. Get an unfiltered understanding of the document and issues at hand.
Take follow-up steps:
Write down what the voting experience was like. What did you like about it? What didn’t you like about it? Contact your local election boards, state, and federal representatives, and share this with them.
If your state does not have hand ballots or receipts, call or write to your representatives recommending concrete changes in how votes are cast in your area, which could include:
Increasing funding for voting machine upgrades;
Removing technology with access to internet;
Requesting better cybersecurity training courses.
In general, practice cyber hygiene: Voting machines are one part of the larger cyber ecosystem that can affect our elections. Seemingly disparate internet sources (such as social media and email) can allow hackers to abuse your data and access critical networks and information.
Don’t use the same password for everything.
Change your password routinely.
Use alphanumerical passwords with symbols.
Elections are fundamental to democracy and more work needs to be done to strengthen election integrity and security. As the world becomes more digitally interconnected and technology continues to rapidly evolve, all levels of government, the private sector, and the general public must be vigilant and proactive in protecting this and other critical infrastructure underpinning society.
Written by Helen You. Edited by Allison Carlson. Copyedited by Bernadette Kinlaw. Development by Catherine Snow. Art direction by Lori Kelley. Local voting data provided by Verified Voting.
- A Democratic Staff Report Prepared for the use of the Committee on Foreign Relations United States Senate China and Digital Authoritarianism the New Big Brother. (2020). https://www.foreign.senate.gov/imo/media/doc/2020%20SFRC%20Minority%20Staff%20Report%20-%20The%20New%20Big%20Brother%20-%20China%20and%20Digital%20Authoritarianism.pdf
- A plan to reduce Europe’s dependence on Russian gas looks shaky. (2019, January 5). The Economist; The Economist. https://www.economist.com/business/2019/01/05/a-plan-to-reduce-europes-dependence-on-russian-gas-looks-shaky
- Allen-Ebrahimian, B. (2020, January 10). China is meddling in Taiwan’s presidential election. Axios; Axios. https://www.axios.com/china-disinformation-taiwan-presidential-election-0f66ae16-0140-4c84-a833-bf5653cecf85.html
- Appel, A. (2018, October 16). Design flaw in Dominion ImageCast Evolution voting machine. freedom-to-tinker.com; Freedom to Tinker. https://freedom-to-tinker.com/2018/10/16/design-flaw-in-dominion-imagecast-evolution-voting-machine/
- Area1security.com. (2020). Phishing Election Administrators. Americans for Cybersecurity. https://cdn.area1security.com/reports/Area-1-Security-PhishingForElectionAdministrators.pdf
- Arkin, W. M., Dilanian, K., & McFadden, C. (2016, December 19). What Obama said to Putin on the Red Phone about the election hacks. NBC News; NBC News. https://www.nbcnews.com/news/us-news/what-obama-said-putin-red-phone-about-election-hack-n697116
- Baram, G. B., & Lim, K. (2020, June 5). Israel and Iran Just Showed Us the Future of Cyberwar with Their Unusual Attacks. Foreign Policy; Foreign Policy. https://foreignpolicy.com/2020/06/05/israel-and-iran-just-showed-us-the-future-of-cyberwar-with-their-unusual-attacks/
- Barnes, J. E., Perlroth, N., & Sanger, D. E. (2020, October 22). Russia Poses Greater Election Threat Than Iran, Many U.S. Officials Say. The New York Times. https://www.nytimes.com/2020/10/22/us/politics/russia-election-interference-hacks.html?referringSource=articleShare
- Barnes, J. E., Sanger, D. E., Bergman, R., & Jakes, L. (2020, September 21). As U.S. Increases Pressure, Iran Adheres to Toned-Down Approach. The New York Times. https://www.nytimes.com/2020/09/19/us/politics/us-iran-election.html
- Benaloh, J., Rivest, R., Ryan, P. Y. A., Stark, P., Teague, V., & Vora, P. (2016). End-to-end verifiability. www.microsoft.com. https://www.microsoft.com/en-us/research/publication/end-end-verifiablity/
- Bennett, C. (2014, November 2). States ditch electronic voting machines. TheHill; TheHill. https://thehill.com/policy/cybersecurity/222470-states-ditch-electronic-voting-machines
- Bernhard, M., McDonald, A., Meng, H., Hwa, J., Bajaj, N., & Chang, K. (2020). Can Voters Detect Malicious Manipulation of Ballot Marking Devices? University of Michigan. https://jhalderm.com/pub/papers/bmd-verifiability-sp20.pdf
- Bertrand, N. (2020, September 1). Trump blows past the intelligence to accuse China of backing Biden. POLITICO. https://www.politico.com/news/2020/09/01/trump-says-china-supporting-biden-407054
- Bikus, Z. (2019, March 21). World-Low 9% of Ukrainians Confident in Government. gallup.com; Gallup. https://news.gallup.com/poll/247976/world-low-ukrainians-confident-government.aspx
- Bing, C. (2017, May 4). FBI director: If left unchecked, Russian hackers will change vote tallies in a future U.S. election. Cyberscoop. https://www.cyberscoop.com/fbi-director-left-unchecked-russian-hackers-will-change-vote-tallies-future-u-s-election/
- Blaze, M. (2020). Matt Blaze Testimony Before the US House of Representatives Committee on House Administration Hearing on “2020 Election Security -Perspectives from Voting System Vendors and Experts.” U.S. House of Representatives, https://docs.house.gov/meetings/HA/HA00/20200109/110346/HHRG-116-HA00-Wstate-BlazeM-20200109-U1.pdf
- Blaze, M., Braun, J., Hursti, H., Hall, J. L., MacAlpine, M., & Moss, J. (2017). DEFCON 25 Voting Machine Hacking Village Report on Cyber Vulnerabilities in U.S. Election Equipment, Databases, and Infrastructure. In DEFCON. DEFCON. https://www.defcon.org/images/defcon-25/DEF%20CON%2025%20voting%20village%20report.pdf
- Bloomberg Law. (2020, January 3). America Won’t Give Up Its Hackable Wireless Voting Machines. news.bloomberglaw.com; Bloomberg Law. https://news.bloomberglaw.com/privacy-and-data-security/america-wont-give-up-its-hackable-wireless-voting-machines
- Brandon, J. (2018, November 6). Voting machines can be hacked in two minutes, expert warns. Fox News; Fox News. https://www.foxnews.com/tech/voting-machines-can-be-hacked-in-two-minutes-expert-warns
- Burgess, M. (2020, October 7). Iran’s total internet shutdown is a blueprint for breaking the web. Wired UK. https://www.wired.co.uk/article/iran-news-internet-shutdown
- Burt, T. (2019a, July 17). New cyberthreats require new ways to protect democracy. Microsoft. https://blogs.microsoft.com/on-the-issues/2019/07/17/new-cyberthreats-require-new-ways-to-protect-democracy/
- Burt, T. (2019b, October 4). Recent cyberattacks require us all to be vigilant. Microsoft on the Issues. https://blogs.microsoft.com/on-the-issues/2019/10/04/recent-cyberattacks-require-us-all-to-be-vigilant/
- Calamur, K. (2017, June 1). Putin Says, “Patriotic Hackers” May Have Targeted U.S. Election. The Atlantic; The Atlantic. https://www.theatlantic.com/news/archive/2017/06/putin-russia-us-election/528825/
- Cerulus, L. (2019, February 14). How Ukraine became a test bed for cyberweaponry. POLITICO; POLITICO. https://www.politico.eu/article/ukraine-cyber-war-frontline-russia-malware-attacks/
- Chalfant, M. (2017, February 22). Russia adds “information warfare” troops. TheHill; TheHill. https://thehill.com/policy/cybersecurity/320650-russia-claims-to-add-information-warfare-troops
- Chinese and Russian Influence in the Middle East. (2019, May 9). U.S. House of Representatives Committee on Foreign Affairs. https://docs.house.gov/Committee/Calendar/ByEvent.aspx?EventID=109455
- CISA. (2020a). Election Security Checklists Guides | CISA. www.cisa.gov; CISA. https://www.cisa.gov/publication/election-security-checklists-guides
- CISA. (2020b, February 21). Election Infrastructure Security | CISA. www.cisa.gov. https://www.cisa.gov/election-security
- Clark, D., Berson, T., & Lin, H. (2014). At the Nexus of Cybersecurity and Public Policy: Some Basic Concepts and Issues. In www.nap.edu. The National Academies. https://www.nap.edu/catalog/18749/at-the-nexus-of-cybersecurity-and-public-policy-some-basic.
- Clayton, M. (2014, June 17). Ukraine election narrowly avoided “wanton destruction” from hackers. The Christian Science Monitor; The Christian Science Monitor. https://www.csmonitor.com/World/Passcode/2014/0617/Ukraine-election-narrowly-avoided-wanton-destruction-from-hackers
- Cohen, I., & Ben Bassat, O. (2019, September 24). Mapping the connections inside Russia’s APT Ecosystem. Check Point Research; Check Point Research. https://research.checkpoint.com/2019/russianaptecosystem/
- Collier, K. (2019, December 16). Congress to approve $425 million for election security upgrades. CNN; CNN. https://www.cnn.com/2019/12/16/politics/congress-425-million-election-security-2019/index.html
- Cordesman, A. H. (2019). USA und China: Die Wahl zwischen Konflikt und Kooperation. SIRIUS – Zeitschrift Für Strategische Analysen, 3(1), 80–83. https://doi.org/10.1515/sirius-2019-1009
- Costello, J., & Mcreynolds, J. (2018). China’s Strategic Support Force: A Force for a New Era CHINA STRATEGIC PERSPECTIVES 13. https://ndupress.ndu.edu/Portals/68/Documents/stratperspective/china/china-perspectives_13.pdf
- Cyber Security Strategy Of Ukraine 1 General Provisions. (2016). https://ccdcoe.org/uploads/2018/10/NationalCyberSecurityStrategy_Ukraine.pdf
- CyberBerkut announced the destruction of the electronic system of the CEC of Ukraine. (2014, May 24). Военное Обозрение; Military Review. https://en.topwar.ru/48780-kiberberkut-zayavil-ob-unichtozhenii-elektronnoy-sistemy-cik-ukrainy.html
- Defense Intelligence Agency. (2017). Russia Military Power: Building A Military to Support Great Power Aspirations. Committee to Excellence in Defense of the Nation; Defense Intelligence Agency. https://www.dia.mil/Portals/27/Documents/News/Military%20Power%20Publications/Russia%20Military%20Power%20Report%202017.pdf
- Department of Homeland Security. (2020a). Homeland Threat Assessment. https://www.dhs.gov/sites/default/files/publications/2020_10_06_homeland-threat-assessment.pdf
- Department of Homeland Security Office of the Inspector General. (2020b, September 8). Whistleblower Reprisal Complaint. United States House Permanent Select Committee on Intelligence. https://intelligence.house.gov/uploadedfiles/murphy_wb_dhs_oig_complaint9.8.20.pdf
- Doffman, Z. (2019, August 8). Iranian Hackers Suspected Of Cyberattacks On Bahrain—A Warning Beyond The Gulf: Report. Forbes; Forbes. https://www.forbes.com/sites/zakdoffman/2019/08/08/iranian-hackers-suspected-of-cyberattacks-on-bahrain-sending-message-beyond-the-gulf-report/#23e5a5ae324b
- EECS: Computer Science and Engineering. (2020, January 8). Not enough voters detecting ballot errors and potential hacks, study finds. Michigan Engineering; University of Michigan. https://news.engin.umich.edu/2020/01/new-study-finds-voters-not-detecting-ballot-errors-potential-hacks/
- Election Systems & Software. (2020, January 9). Tom Burt - Hearing on “2020 Election Security – Perspectives from Voting System Vendors and Experts.” Election Systems & Software. http://essvote.com/media-resources/hearing-election-security-ess-statement/
- Elektroonilise hääletamise statistika. (2017, August 29). Valimised Eestis; Valimised Eestis. https://www.valimised.ee/et/valimiste-arhiiv/elektroonilise-h%C3%A4%C3%A4letamise-statistika
- Estonian Foreign Intelligence Service. (2020). International Security and Estonia 2020. https://www.valisluureamet.ee/pdf/raport-2020-en.pdf?fbclid=IwAR2ibXWKS91cIYMkTclabUwo7pkajJYhP9zo-f1joSmT6Somx2wWdxiBS7g
- EU Project Countering Election-Related Cyber Threats and Disinformation Campaigns in Ukraine. (2020). Post-Election Assessment of the Cybersecurity Infrastructure and Interagency Cooperation in Ukraine with Related Recommendations. Estonian Center of Eastern Partnership; Estonian Center of Eastern Partnership. https://eceap.eu/wp-content/uploads/2019/11/Post-Election-Assessment-RecommendationsFINAL.pdf
- Faith in Elections in Relatively Short Supply in U.S. (2020, February 13). Gallup.Com; Gallup.com. https://news.gallup.com/poll/285608/faith-elections-relatively-short-supply.aspx
- Favorito, G. (2019). Unresolved Security Threats for Ballot Marking Devices A general guide to BMD verifiability, auditability, privacy and preparation security threats. VoterGA. https://voterga.files.wordpress.com/2019/09/unresolved-bmd-security-threats.pdf
- Federal Bureau of Investigation. (2016). Targeting Activity Against State Board of Election Systems. https://s.yimg.com/dh/ap/politics/images/boe_flash_aug_2016_final.pdf
- Florida Department of State. (2015). ES&S -EVS Release 184.108.40.206, Version 4(Revision 1) ~EVS Release 220.127.116.11, Version 4-Test Report Addendum~. Florida Department of State. https://dos.myflorida.com/media/695182/ess-evs-release-4500-version-4-revision-1-test-report.pdf
- FocusEconomics. (2019). The World’s Largest Economies (2019-2023). FocusEconomics. https://www.focus-economics.com/blog/the-largest-economies-in-the-world
- FP Analytics. (2020c, July 20). 5G Explained - The Competitive Landscape. Foreign Policy; Foreign Policy. https://foreignpolicy.com/2020/02/24/5g-cellular-huawei-china-networks-supply-chain-competitive-landscape-power-map/
- Galloway, L.-A. (2019, July 25). Forever Day: The Threat that Never Ends. Infosecurity Magazine. https://www.infosecurity-magazine.com/opinions/forever-day-threat/
- Garrett, S., Eckman, S., & Shanton, K. (2020). Campaign and Election Security Policy: Overview and Recent Developments for Congress. Congressional Research Service. https://fas.org/sgp/crs/misc/R46146.pdf
- Geers, K., & Kostyuk, N. (2018, November 5). Hackers are using malware to find vulnerabilities in U.S. swing states. Expect cyberattacks. The Washington Post. https://www.washingtonpost.com/news/monkey-cage/wp/2018/11/05/hackers-are-using-malware-to-find-vulnerabilities-in-u-s-swing-states-expect-cyberattacks/
- Geller, E., Jin, B., Hermani, J., & Farrell, M. (2019, August 2). The scramble to secure America’s voting machines. POLITICO. https://www.politico.com/interactives/2019/election-security-americas-voting-machines/index.html
- Giles, K. (2011, June 1). “Information Troops” - A Russian Cyber Command? IEEE Xplore; IEEE Xplore. https://ieeexplore.ieee.org/document/5954699
- Giles, K. (2020). The Next Phase of Russian Information Warfare (by Keir Giles) | StratCom. Www.Stratcomcoe.Org; NATO Strategic Communications Centre of Excellence. https://www.stratcomcoe.org/next-phase-russian-information-warfare-keir-giles
- Gold, J. (2019, August 21). Estonia as an international cybersecurity leader. E-Estonia; e-estonia briefing centre. https://e-estonia.com/estonia-as-an-international-cybersecurity-leader/
- Greenburg, A. (2017a, May 9). The NSA Confirms It: Russia Hacked French Election ‘Infrastructure.’ WIRED; WIRED. https://www.wired.com/2017/05/nsa-director-confirms-russia-hacked-french-election-infrastructure/
- Greenburg, A. (2017b, June 9). How Russia Hacks Elections in the US and Around the World. Wired; Wired. https://www.wired.com/story/russia-election-hacking-playbook/
- Greenburg, A. (2018, August 22). The Untold Story of NotPetya, the Most Devastating Cyberattack in History. WIRED; WIRED. https://www.wired.com/story/notpetya-cyberattack-ukraine-russia-code-crashed-the-world/
- Harte, J. (2020, June 1). Exclusive: Philadelphia’s new voting machines under scrutiny in Tuesday’s elections. Reuters. https://www.reuters.com/article/us-usa-election-pennsylvania-machines-ex/exclusive-philadelphias-new-voting-machines-under-scrutiny-in-tuesdays-elections-idUSKBN23828J
- Hartig, H. (2020, August 18). 75% of Americans say it’s likely that Russia or other governments will try to influence 2020 election. Pew Research Center; Pew Research Center. https://www.pewresearch.org/fact-tank/2020/08/18/75-of-americans-say-its-likely-that-russia-or-other-governments-will-try-to-influence-2020-election/
- Help America Vote Act | U.S. Election Assistance Commission. (2020). Www.Eac.Gov. https://www.eac.gov/about_the_eac/help_america_vote_act.aspx
- Huntley, S. (2020, October 16). How we’re tackling evolving online threats. Google; Google. https://blog.google/threat-analysis-group/how-were-tackling-evolving-online-threats
- Huseman, J. (2019, October 28). The Market for Voting Machines Is Broken. This Company Has Thrived in It. propublica; ProPublica. https://www.propublica.org/article/the-market-for-voting-machines-is-broken-this-company-has-thrived-in-it
- IBM. (2019). Cost of a Data Breach Study. Ibm.Com; IBM. https://www.ibm.com/security/data-breach
- If You See Something, Say Something. Report suspicious activity to local law enforcement or call 911. National Terrorism Advisory System Bulletin BE PREPARED. (2020). U.S. Department of Homeland Security. https://www.dhs.gov/sites/default/files/ntas/alerts/20_0118_ntas_bulletin.pdf
- Information Warfare Monitor Investigating a Cyber Espionage Network. (2009). Information Warfare Monitor. https://citizenlab.ca/wp-content/uploads/2017/05/ghostnet.pdf
- Internet voting in Estonia. (2017, August 28). Elections in Estonia; Valimised. https://www.valimised.ee/en/internet-voting/internet-voting-estonia
- Interos. (2019, December 16). Study of Widely Used Voting Machine Finds 1 In 5 Components from China-based Companies. GlobeNewswire Newsroom; Interos. https://www.globenewswire.com/news-release/2019/12/16/1960784/0/en/Study-of-Widely-Used-Voting-Machine-Finds-1-In-5-Components-from-China-based-Companies.html
- Iran-Based Threat Actor Exploits VPN Vulnerabilities. (2020, September 5). us-cert.cisa.gov; CISA. https://us-cert.cisa.gov/ncas/alerts/aa20-259a
- i-Voting — e-Estonia. (2017). E-Estonia; e-estonia briefing centre. https://e-estonia.com/solutions/e-governance/i-voting/
- jkeroes. (2006). Security Analysis of the Diebold AccuVote-TS Voting Machine [YouTube Video]. In YouTube. https://www.youtube.com/watch?v=OJOyz7_sk8I
- Joint Industry Statement on Election Technology Supply Chain Security | Hart InterCivic. (2020). hart intercivic. https://www.hartintercivic.com/press-release/jointindustrystmtelectiontechsupplychainsecurity/
- Kamarck, E. (2019, August 28). Trump’s hostility to election security preparedness. Brookings Institute; Brookings Institute. https://www.brookings.edu/blog/fixgov/2019/08/28/trumps-hostility-to-election-security-preparedness/
- Kirby, J. (2020, September 15). Are China and Iran meddling in US elections? It’s complicated. Vox; Vox. https://www.vox.com/21418513/china-iran-us-election-meddling-russia
- Kolasky, R. (2019). Public-Private Initiatives to Secure the Supply Chain BEFORE THE UNITED STATES HOUSE OF REPRESENTATIVES COMMITTEE ON HOMELAND SECURITY. U.S. House of Representatives. https://docs.house.gov/meetings/HM/HM00/20191016/110074/HHRG-116-HM00-Wstate-KolaskyR-20191016.pdf
- Kotliarov, A.-Y., & Tsyba, S. (2020, June 12). Deregulative changes in information security in Ukraine | Lexology. www.lexology.com; Lexology. https://www.lexology.com/library/detail.aspx?g=aea6d419-1e24-42d3-8293-3a854e985868
- Lee, N. (2020, September 23). Here’s why most Americans are not able to vote online in 2020. CNBC; CNBC. https://www.cnbc.com/2020/09/23/why-us-cant-vote-online-in-2020-presidential-election-trump-biden.html
- Lewis, J. A. (2019, June 19). Iran and Cyber Power. Csis.Org; Center for Strategic and International Studies. https://www.csis.org/analysis/iran-and-cyber-power
- Lopez, C. T. (2020, January 31). DOD to Require Cybersecurity Certification in Some Contract Bids. U.S. Department of Defense; U.S. Department of Defense. https://www.defense.gov/Explore/News/Article/Article/2071434/dod-to-require-cybersecurity-certification-in-some-contract-bids/
- Lynch, D. (2019, June). Checking the Election: Risk-Limiting Audits. National Conference of State Legislatures; National Conference of State Legislatures. https://www.ncsl.org/research/elections-and-campaigns/checking-the-election-risk-limiting-audits.aspx
- MacMillan, H. (2018). Shifting Left: Secure Systems Engineering. United States Cybersecurity Magazine; United States Cybersecurity Magazine. https://www.uscybersecurity.net/csmag/shifting-left-secure-systems-engineering/
- Mankoff, J. (2009, March). Russian Foreign Policy. Council on Foreign Relations. https://www.cfr.org/book/russian-foreign-policy
- Mathis, J. (2020). Julie Mathis, Statement before the U.S. Committee on House Administration for a hearing on “2020 Election Security: Perspectives from Voting System Vendors and Experts". U.S. House of Representatives. https://docs.house.gov/meetings/HA/HA00/20200109/110346/HHRG-116-HA00-Wstate-MathisJ-20200109.pdf
- McCadney, A. C., Norden, L., & Howard, E. (2019, September 13). Voting Machine Security: Where We Stand Six Months Before the New Hampshire Primary. Brennan Center for Justice. https://www.brennancenter.org/our-work/analysis-opinion/voting-machine-security-where-we-stand-six-months-new-hampshire-primary
- McCarthy, N. (2014, July 13). The Average Cost Of A Data Breach Is Highest In The U.S. [Infographic]. Forbes; Forbes. https://www.forbes.com/sites/niallmccarthy/2018/07/13/the-average-cost-of-a-data-breach-is-highest-in-the-u-s-infographic/#554398592f37
- McManus, D., Hogan, P., Cogan, M., Funn, M., Howells, K., Administrator, L., & Charlson, N. (2018). Maryland State Board of Elections. https://elections.maryland.gov/press_room/documents/July%2013%20Press%20Statement.pdf
- Michel, C. (2019, October 26). Russia’s Long and Mostly Unsuccessful History of Election Interference. POLITICO Magazine; POLITICO. https://www.politico.com/magazine/story/2019/10/26/russias-long-and-mostly-unsuccessful-history-of-election-interference-229884
- Munoz, M. (2015, September 21). Cyber Security Case Study: Target Data Breach. www.cei.com; Cupertino Electric Inc. https://www.cei.com/about-cei/media-room/blog/cyber-security-targets-2013-data-breach
- National Conference of State Legislatures. (2019, October 25). Post-Election Audits. National Conference of State Legislatures; National Conference of State Legislatures. https://www.ncsl.org/research/elections-and-campaigns/post-election-audits635926066.aspx
- National Conference of State Legislatures. (2020, February 28). Funding Elections Technology. National Conference of State Legislatures; National Conference of State Legislatures. https://www.ncsl.org/research/elections-and-campaigns/funding-election-technology.aspx
- National Counterintelligence and Security Center. (n.d.). Foreign Threats to U.S. Elections Election Security Information Needs. https://www.dni.gov/files/ODNI/documents/DNI_NCSC_Elections_Brochure_Final.pdf
- National Cybersecurity Center. (2019). The Denver Mobile Voting Pilot: A Report. National Cybersecurity Center. https://cyber-center.org/wp-content/uploads/2019/08/Mobile-Voting-Audit-Report-on-the-Denver-County-Pilots-FINAL.pdf
- NIS Cooperation Group. (2018). Compendium on Cyber Security of Election Technology CG Publication 03/2018 NIS Cooperation Group. NIS Cooperation Group. https://www.ria.ee/sites/default/files/content-editors/kuberturve/cyber_security_of_election_technology.pdf
- Norden, L., & Cortes, E. (2019, August 15). What Does Election Security Cost? Brennan Center for Justice; Brennan Center for Justice. https://www.brennancenter.org/our-work/analysis-opinion/what-does-election-security-cost
- Norden, L., Ramachandran, G., & Deluzio, C. (2019, December 11). A Framework for Election Vendor Oversight. Brennan Center for Justice; Brennan Center for Justice. https://www.brennancenter.org/our-work/policy-solutions/framework-election-vendor-oversight
- O’brien, C. (2018, July 18). FBI director: Russia ‘continues to engage in malign influence operations’ against U.S. POLITICO; POLITICO. https://www.politico.com/story/2018/07/18/fbi-wray-russia-meddling-732337
- O’Connor, T. (2019, December 17). How the top powers U.S., Russia, China compare with other militaries during the past decade. Newsweek. https://www.newsweek.com/how-top-powers-us-russia-china-compare-other-militaries-across-globe-during-past-decade-1477523
- On the Protection of Information Stored in Information and Telecommunication Systems | Centre for Democracy and Rule of Law. (2005, June 12). Centre for Democracy and Rule of Law. https://cedem.org.ua/en/library/on-the-protection-of-information-stored-in-information-and-telecommunication-systems/
- OSCE. (2014). Office for Democratic Institutions and Human Rights UKRAINE EARLY PRESIDENTIAL ELECTION OSCE/ODIHR Election Observation Mission Final Report. OSCE. https://www.osce.org/files/f/documents/a/b/120549.pdf
- Otto, G. (2019, April 24). Are election tech vendors making the right cybersecurity moves? cyberscoop; CyberScoop. https://www.cyberscoop.com/election-security-es-s-dhs-pen-testing-idaho-national-labs-procircular/
- Parks, M. (1 C.E. 2018). 5 Ways Election Interference Could (And Probably Will) Worsen In 2018 And Beyond. npr.org; NPR. https://www.npr.org/2018/01/27/579683042/5-ways-election-interference-could-and-probably-will-worsen-in-2018-and-beyond
- Parks, M. (2020, April 28). States Expand Internet Voting Experiments Amid Pandemic, Raising Security Fears. npr.org; NPR. https://www.npr.org/2020/04/28/844581667/states-expand-internet-voting-experiments-amid-pandemic-raising-security-fears
- Parks, M. (2019, September 4). Cyber Experts Warn of Vulnerabilities Facing 2020 Election Machines. npr.org; NPR. https://www.npr.org/2019/09/04/755066523/cyber-experts-warn-of-vulnerabilities-facing-2020-election-machines
- Perlroth, N., & Krauss, C. (2018, March 15). A Cyberattack in Saudi Arabia Had a Deadly Goal. Experts Fear Another Try. The New York Times. https://www.nytimes.com/2018/03/15/technology/saudi-arabia-hacks-cyberattacks.html
- Person, R. (2019, May 2). Russian Grand Strategy in the 21st Century | NSI. Nsiteam.Com. https://nsiteam.com/russian-grand-strategy-in-the-21st-century/
- Petersen, M. (2019, January 9). The Naval Power Shift in the Black Sea. War on the Rocks; War on the Rocks. https://warontherocks.com/2019/01/the-naval-power-shift-in-the-black-sea/
- Polish Election Commission Website Hacked. (2014, November 19). Www.Worldpoliticsreview.Com. https://www.worldpoliticsreview.com/articles/14487/polish-election-commission-website-hacked
- Porche, I. (2019, June 24). Fighting and Winning the Undeclared Cyber War. Www.Rand.Org. https://www.rand.org/blog/2019/06/fighting-and-winning-the-undeclared-cyber-war.html.
- Presidential Commission on Election Administration Presents Recommendations to President Obama | U.S. Election Assistance Commission. (2014, January 22). Www.Eac.Gov. https://www.eac.gov/news/2014/01/22/presidential-commission-on-election-administration-presents-recommendations-to-president-obama
- Riley, M., Robertson, J., & Kocieniewski, D. (2016, September 29). The Computer Voting Revolution Is Already Crappy, Buggy, and Obsolete. bloomberg.com. https://www.bloomberg.com/features/2016-voting-technology/
- Rosenzweig, P. (2018). THINKING ANALYTICALLY ABOUT ELECTORAL SECURITY. https://www.rstreet.org/wp-content/uploads/2018/04/Final-140.pdf
- Rumer, E. (2017, June 14). Russia and the West in a New Standoff. Carnegie Endowment for International Peace. https://carnegieendowment.org/2017/06/14/russia-and-west-in-new-standoff-pub-71250
- Russian Strategic Intentions A Strategic Multilayer Assessment (SMA) White Paper. (2019). https://nsiteam.com/social/wp-content/uploads/2019/05/SMA-Russian-Strategic-Intentions-White-Paper-PDF-compressed.pdf
- S. Boyko. (2016). UN Groups of Governmental Experts on Developments in the Field of Information and Telecommunications in the Context of International Security. International Affairs, 62(005), 242–254. https://doi.org/10.21557/iaf.47559235
- Sanger, D. E. (2020, February 26). Why Russia Is Rooting for Both Trump and Sanders. The New York Times. https://www.nytimes.com/2020/02/26/podcasts/the-daily/russia-trump-sanders.html?
- Sanger, D. E., & Perlroth, N. (2020, October 12). Microsoft Takes Down a Risk to the Election, and Finds the U.S. Doing the Same. The New York Times. https://www.nytimes.com/2020/10/12/us/politics/election-hacking-microsoft.html
- Sanger, D., & Edmondson, C. (2019, July 25). Russia Targeted Election Systems in All 50 States Report Finds. The New York Times. https://www.nytimes.com/2019/07/25/us/politics/russian-hacking-elections.html
- Seawright, A. (2020, May 8). Countering China’s Influence Operations: Lessons from Australia. Www.Csis.Org. https://www.csis.org/analysis/countering-chinas-influence-operations-lessons-australia
- Senate Select Committee on Intelligence STATEMENT FOR THE RECORD WORLDWIDE THREAT ASSESSMENT of the US INTELLIGENCE COMMUNITY. (2019). https://www.dni.gov/files/ODNI/documents/2019-ATA-SFR---SSCI.pdf
- Shahbaz, A. (2018). The Rise of Digital Authoritarianism. Freedom House; Freedom House. https://freedomhouse.org/report/freedom-net/2018/rise-digital-authoritarianism
- Six Russian GRU Officers Charged in Connection with Worldwide Deployment of Destructive Malware and Other Disruptive Actions in Cyberspace. (2020, October 19). Www.Justice.Gov. https://www.justice.gov/opa/pr/six-russian-gru-officers-charged-connection-worldwide-deployment-destructive-malware-and
- Sozan, M. (2017, October 26). On HAVA’s 15th Anniversary, Congress Needs to Make U.S. Elections More Secure. Center for American Progress; Center for American Progress. https://www.americanprogress.org/issues/democracy/reports/2017/10/26/441417/on-havas-15th-anniversary-congress-needs-to-make-u-s-elections-more-secure/
- Specter, M., Koppel, J., Daniel, M., & Mit, W. (2020). The Ballot is Busted Before the Blockchain: A Security Analysis of Voatz, the First Internet Voting Application Used in U.S. Federal Elections *. Massachusetts Institute of Technology. https://internetpolicy.mit.edu/wp-content/uploads/2020/02/SecurityAnalysisOfVoatz_Public.pdf
- Springall, D., Finkenauer, T., Durumeric, Z., Kitcat, J., Hursti, H., MacAlpine, M., & Halderman, J. A. (2014). Security Analysis of the Estonian Internet Voting System. Proceedings of the 2014 ACM SIGSAC Conference on Computer and Communications Security - CCS ’14. https://doi.org/10.1145/2660267.2660315
- Stark, P. (2019). There is no Reliable Way to Detect Hacked Ballot-Marking Devices. University of California, Berkeley. https://www.stat.berkeley.edu/~stark/Preprints/bmd-p19.pdf
- Statement by NCSC Director William Evanina: Election Threat Update for the American Public. (2020, August 7). Www.Dni.Gov. https://www.dni.gov/index.php/newsroom/press-releases/item/2139-statement-by-ncsc-director-william-evanina-election-threat-update-for-the-american-public
- Statement by Secretary Johnson on the Designation of Election Infrastructure as a Critical Infrastructure Subsector. (2017, January 6). Department of Homeland Security. https://www.dhs.gov/news/2017/01/06/statement-secretary-johnson-designation-election-infrastructure-critical
- Stevens, T. (2020, February 14). Mobile voting app used in Utah County could be hacked, experts say. The Salt Lake Tribune; The Salt Lake Tribune. https://www.sltrib.com/news/politics/2020/02/14/new-study-raises/
- Stewart, K., & Taylor, J. (2018, March 23). Online Voting: The Solution to Declining Political Engagement? rand.org; RAND. https://www.rand.org/blog/2018/03/online-voting-the-solution-to-declining-political-engagement.html
- Temple-Raston, D. (2019, December 26). The ruthless Russian hacking unit that tried to crash Ukraine. The Washington Post; The Washington Post. https://www.washingtonpost.com/outlook/the-ruthless-russian-hacking-unit-that-tried-to-crash-ukraine/2019/12/26/beaf477a-1470-11ea-a659-7d69641c6ff7_story.html
- The National Academics of Sciences, Engineering and Medicine. (2018). Securing the Vote. National Academies Press. https://doi.org/10.17226/25120
- Timberg, C. (2019, November 19). Russian hackers who stole DNC emails failed at social media. WikiLeaks helped. Washington Post. https://www.washingtonpost.com/business/technology/russian-hackers-who-stole-dnc-emails-failed-at-social-media-wikileaks-helped/2019/11/12/751690ae-0580-11ea-a5e2-fccc16fa3576_story.html
- Two Alleged Hackers Charged with Defacing Websites Following Killing of Qasem Soleimani. (2020, September 15). Www.Justice.Gov; U.S. Department of Justice. https://www.justice.gov/usao-ma/pr/two-alleged-hackers-charged-defacing-websites-following-killing-qasem-soleimani
- Ukraine Warned Of Russian Cyberattacks Aimed At Presidential Vote. (2019, March 28). RadioFreeEurope/RadioLiberty; RadioFreeEurope/RadioLiberty. https://www.rferl.org/a/ukraine-warned-of-russian-cyberattacks-aimed-at-presidential-vote/29847899.html
- Ukrainian Election Task Force. (2019, May). Foreign Interference in Ukraine’s Democracy. Ukrainian Election Task Force. https://www.atlanticcouncil.org/wp-content/uploads/2019/05/Foreign_Interference_in_Ukraines_Election.pdf
- University of Pennsylvania. (2016). The Business of Voting: Market Structure and Innovation in Election Technology Industry | electionline. Electionline.Org; University of Pennsylvania. https://electionline.org/resources/the-business-of-voting-market-structure-and-innovation-in-election-technology-industry/
- Uria, D. (2018, June 18). Dozens of states tighten election security -- by going back to paper. UPI; UPI. https://www.upi.com/Top_News/US/2018/06/18/Dozens-of-states-tighten-election-security-by-going-back-to-paper/5601528861198/
- U.S. Congress. (2020, October 20). S.1321 - 116th Congress (2019-2020): Defending the Integrity of Voting Systems Act. Www.Congress.Gov; U.S. 116th Congress. https://www.congress.gov/bill/116th-congress/senate-bill/1321
- U.S. Department of Homeland Security. (2016). GRIZZLY STEPPE -Russian Malicious Cyber Activity. https://us-cert.cisa.gov/sites/default/files/publications/JAR_16-20296A_GRIZZLY%20STEPPE-2016-1229.pdf
- U.S. Department of Homeland Security. (2018a, March 27). Election Security. Department of Homeland Security. https://www.dhs.gov/topic/election-security
- U.S. Department of Homeland Security. (2018b, September 21). Joint Statement from the Department Of Homeland Security and Office of the Director of National Intelligence on Election Security. Department of Homeland Security; Department of Homeland Security. https://www.dhs.gov/news/2016/10/07/joint-statement-department-homeland-security-and-office-director-national
- U.S. Election Assistance Commission. (2015). United States Election Assistance Commission Testing & Certification Program Manual. U.S. Election Assistance Commission. https://www.eac.gov/sites/default/files/eac_assets/1/28/Cert%20Manual%207%208%2015%20FINAL.pdf
- U.S. Election Assistance Commission. (2020). Registered Manufacturers | U.S. Election Assistance Commission. www.eac.gov. https://www.eac.gov/voting-equipment/registered-manufacturers
- U.S. House of Representative. (2012, April 26). - IRANIAN CYBER THREAT TO THE U.S. HOMELAND. www.govinfo.gov. https://www.govinfo.gov/content/pkg/CHRG-112hhrg77381/html/CHRG-112hhrg77381.htm
- U.S. Senate Select Intelligence Committee. (2019). Select Committee of Intelligence United States Senate on Russian Active Measures Campaigns and Interference in the 2016 Election Volume 2: Russia’s Use of Social Media with Additional Views, https://www.intelligence.senate.gov/sites/default/files/documents/Report_Volume2.pdf
- U.S. Senate Select Intelligence Committee. (2020). Select Committee of Intelligence United States Senate on Russian Active Measures Campaigns and Interference in the 2016 Election Volume 5: Counterintelligence Threats and Vulnerabilities, https://www.intelligence.senate.gov/sites/default/files/documents/report_volume5.pdf
- U.S. Vote Foundation. (2019). The Future of Voting | Executive Summary. www.usvotefoundation.org; U.S. Vote Foundation. https://www.usvotefoundation.org/e2e-viv/
- Vavra, S. (2017, August 13). The world’s top cyber powers. Axios; Axios. https://www.axios.com/the-worlds-top-cyber-powers-1513304669-4fa53675-b7e6-4276-a2bf-4a84b4986fe9.html
- Vavra, S. (2019, July 10). Why Cyber Command’s latest warning is a win for the government’s information sharing efforts. CyberScoop; CyberScoop. https://www.cyberscoop.com/cyber-command-information-sharing-virustotal-iran-russia/
- Verizon. (2018). 2018 Data Breach Digest. Verizon. https://enterprise.verizon.com/resources/reports/2018-data-breach-digest.pdf
- Voo, J., Hemani, I., Jones, S., Desombre, W., & Cassidy, D. (2020). National Cyber Power Index 2020 Methodology and Analytical Considerations. Harvard Kennedy School Belfer Center for Science and International Affairs. https://www.belfercenter.org/sites/default/files/2020-09/NCPI_2020.pdf
- Voting technology | MIT Election Lab. (2016). mit.edu; Massachusetts Institute of Technology. https://electionlab.mit.edu/research/voting-technology
- vvk-ehk/evalimine - Estonia e-voting code. (2020). github; GitHub. https://github.com/vvk-ehk/evalimine/issues
- Watkins, A. (2017, August 14). Obama team was warned in 2014 about Russian interference. POLITICO; POLITICO. https://www.politico.com/story/2017/08/14/obama-russia-election-interference-241547
- Welch, C. (2014, May 13). Estonia’s online voting system could easily be rigged by hackers. The Verge; The Verge. https://www.theverge.com/2014/5/13/5714438/estonia-e-voting-system-could-easily-be-rigged-by-hackers
- White House. (2018). NATIONAL CYBER STRATEGY. The White House. https://www.whitehouse.gov/wp-content/uploads/2018/09/National-Cyber-Strategy.pdf
- Working Together to Build a Better World. (2017, December 30). Ie.China-Embassy.Org. http://ie.china-embassy.org/eng/ztlt/2d2/t1532122.htm
- World’s most hi-tech voting system raises cyber defenses. (2017, July 20). e-estonia; e-estonia briefing centre. https://e-estonia.com/worlds-most-hi-tech-voting-system-raises-cyber-defences/
- Wuesst, C. (2014). SECURITY RESPONSE Targeted Attacks Against the Energy Sector Candid Wueest. In Symantec. Symantec. https://docs.broadcom.com/doc/targeted-attacks-against-engery-sector-14-en
- WV’s Secure Mobile Voting Application. (2012). wv.gov; West Virginia Secretary of State. https://sos.wv.gov/elections/Pages/MobileVote.aspx
- Xinbo, W. (2020). The China Challenge: Competitor or Order Transformer? The Washington Quarterly, 43(3), 99–114. https://doi.org/10.1080/0163660x.2020.1813402
- Yadron, D. (2015, December 21). Iranian Hackers Infiltrated New York Dam in 2013. Wall Street Journal. https://www.wsj.com/articles/iranian-hackers-infiltrated-new-york-dam-in-2013-1450662559
- Zetter, K. (2014, November 3). An Unprecedented Look at Stuxnet, the World’s First Digital Weapon. WIRED; WIRED. https://www.wired.com/2014/11/countdown-to-zero-day-stuxnet/
- Zetter, K. (2019, March 15). Experts: Elections commission downplaying unseen risks to 2020 vote. POLITICO; POLITICO. https://www.politico.com/story/2019/03/15/election-machine-security-2020-cybersecurity-1222803
- Zetter, K. (2020, August 13). Election commission orders top voting machine vendor to correct misleading claims. POLITICO; POLITICO. https://www.politico.com/news/2020/08/13/election-voting-machine-misleading-claims-394891
- Украина. Президентские выборы 2014 | Электоральная география 2.0. (2014). Electoral Geography; Electoral Geography. http://www.electoralgeography.com/new/ru/countries/u/ukraine/ukraina-prezidentskie-vybory-2014.html