Improving
the in-person voting experience amid COVID-19
“Adding
necessary safety measures to help mitigate the spread of COVID-19 could
potentially impact lines and waiting times in the upcoming election,” said
Macht, assistant professor of mechanical, industrial and systems engineering.
“Our work here at URI will help develop recommendations to make voting as positive an experience as possible in terms of both safety and waiting times.”
“Our work here at URI will help develop recommendations to make voting as positive an experience as possible in terms of both safety and waiting times.”
Her
research results are expected to improve safety and efficiency at voting
locations during the upcoming election, and resulting tools will provide
valuable planning guidance to others in the future.
The project will explore the implications of designing voting processes, meant to mitigate COVID-19, at certain voting facilities across the country including Rhode Island, Michigan and Los Angeles County.
To accomplish this, Macht and her team will use voting technology data from each facility. They will integrate the data with layout planning specific to each locale to create simulation models that also account for social distancing, sanitization procedures, and other logistical changes meant to prevent the spread of the virus.
And,
based on their findings, they will recommend resource allocations, and physical
layout changes for each individual locations. The URI research team will
utilize virtual reality to provide election administrators with greater
accuracy in its models.
According
to Macht, her team will be looking at physical layouts in terms of what needs
to fit and occur within the layout, how those elements are oriented, and what
resources are needed to make it all happen.
For
example, Macht noted that if you were to designate one person to wipe down
voting equipment between every use, and that person covers an eight-hour
period, you would need to consider numerous factors, including: a) that
person’s potential exposure to COVID-19 while undertaking their tasks; b) the
equipment and supplies needed for those tasks to be completed; c) the most
efficient way to implement the cleaning procedures; d) the integrity of the
voting process during any new measures; and, e) the impact of the time needed
to clean on voter wait times and queues.
Because
regulatory changes can occur rapidly as the virus evolves and case numbers
change from state to state, researchers have the added challenge of following
state policies relating to public health and social recommendations, in near
real time.
Tradeoffs
between COVID-19 process changes and voting system performance will be measured
for different types of voting systems, including paper ballot and mechanical
ballot systems, according to Macht. “We’ll be able to generate customized
guidelines for the election officials we are working with. It is not going to
be a ‘one-size fits all’ approach.
“Election
administrators everywhere want to make sure the system works so that people
have the opportunity and will want to participate. If we can execute elections
in November where lines are minimal and it is safe for everyone to vote, then we
will have been successful,” said Macht.
Funders
for this URI VOTES research include the Democracy Fund, the Stanford-MIT
Project on Healthy Elections, and other anonymous donors.
