Are paper ballots safe?

Sep 4, 2018

1 min

Scott  Thorp



The State of Georgia wants to replace its 16-year-old voting machines with paper ballots for fear of Russian election hacking, but are paper ballots safe?


“Safe from hacking? Perhaps. Safe from voter error? Not so much,” said Scott Thorp, a user-centered design expert and chair of the Department of Art and Design at Augusta University. “User-centered design for paper ballots is crucial for free and fair elections. Good design should never influence how people vote. A design mistake might actually have cost Al Gore the presidency in 2000. Who is to say it couldn’t cost the governorship in Georgia this year?”


Thorp, who also worked as a professor and design coordinator at the Savannah College of Art and Design, is available to discuss:


• What user-centered design is

• How design can influence people’s behavior

• How bad design can lead to human error

• Why designing paper ballots with users in mind is crucial for free and fair elections


Thorp, who is also associate vice president for research at Augusta University, has worked for more than a decade as an exhibiting artist. His research interests include user-centered design, design thinking, and the psychology of creativity.


Contact us to schedule an interview with Scott Thorp or learn more about his expertise.


Source:



Connect with:
Scott  Thorp

Scott Thorp

Associate Vice President for Research / Chair, Depart of Art and Design

At Augusta University, Scott Thorp seeks to create a creative community around a nationally ranked art and design department.

User-Centered DesignConcept DevelopmentContemporary ArtDigital PhotographyCreativity Research
Powered by

You might also like...

Check out some other posts from Augusta University

Can a Mother's ZIP Code Shape a Baby's Future? featured image

2 min

Can a Mother's ZIP Code Shape a Baby's Future?

Where an expectant mother lives might reveal important clues about her baby's health before birth. According to a recent Augusta University Jagwire article, researchers at the Medical College of Georgia have found that mapping birth outcomes by ZIP code can help identify communities where mothers and newborns face greater health risks, providing valuable information for healthcare providers and public health officials. The two-part study out of the Department of Anesthesiology and Perioperative Medicine at the Medical College of Georgia at Augusta University, led by Mary Arthur, MD, explored the relationship between neighborhood characteristics and neonatal outcomes. By combining geographic mapping with maternal and infant health data, the researchers identified areas with higher rates of adverse birth outcomes and examined how factors such as access to prenatal care and other social determinants of health might contribute to those disparities. The findings suggest that geographic data can become a valuable tool for improving maternal and infant health. By identifying communities at greater risk, healthcare systems and policymakers can better target prenatal education, outreach programs and healthcare resources to support expectant mothers before complications arise. For journalists covering maternal health, healthcare disparities and public policy, Arthur offers valuable insight into how community-level data can help guide interventions that improve pregnancy outcomes and give more babies a healthier start in life. "The maps make it very easy to visualize those ZIP codes that link to poor neonatal outcomes. They're also helpful for planning strategic interventions to help the people who live in those particular areas in terms of making sure there are outreach programs for mothers in those areas to have access to prenatal care." Mary Arthur, MD To learn more about this important research and connect with Mary Arthur, contact AU's External Communications Team mediarelations@augusta.edu to arrange an interview today.

Can One Gene Change the Future of Heart Disease? featured image

2 min

Can One Gene Change the Future of Heart Disease?

Heart disease remains the world's leading cause of death, but researchers are continuing to uncover the genetic mechanisms that drive it. According to a recent Augusta University Jagwire article highlighting new research, scientists are investigating how a little-studied gene might influence the development of cardiovascular disease and whether it could become a future target for treatment. At the center of the research is Kunzhe Dong, PhD, an investigator at Augusta University's Immunology Center of Georgia, who is examining the role of the SH3BGRL2 gene in cardiovascular cells. While the gene has previously been associated with cancer biology, early findings suggest it might also play an important role in regulating how blood vessels respond to stress and injury. Understanding that relationship could reveal new biological pathways involved in heart disease and identify novel opportunities for precision medicine. The research aims to determine how changes in gene expression affect the function of cardiovascular cells and contribute to disease progression. By better understanding these molecular mechanisms, scientists hope to identify new therapeutic targets and improve the ability to prevent or treat cardiovascular disease before irreversible damage occurs. The work also reflects a broader shift toward precision medicine, where treatments are tailored to the underlying biology of each patient rather than relying solely on traditional risk factors. "This gene is well known in one field, but now we're seeing it's also important in cardiovascular cells." Kunzhe Dong, PhD To learn more about this research and connect with Kunzhe Dong, contact AU's External Communications Team mediarelations@augusta.edu to arrange an interview today.

Beyond the Chair: How AI Is Transforming Modern Dentistry featured image

2 min

Beyond the Chair: How AI Is Transforming Modern Dentistry

A recently published article from Augusta University’s Jagwire is highlighting how artificial intelligence is rapidly changing the future of dentistry not only in patient care, but also in education, research and clinical decision-making. The article features insights from Theodore Ravenel and third-year dental student Reid Loveless, who discuss both the opportunities and risks associated with AI integration in the profession. Ravenel explains how AI-powered tools are already assisting dentists with cavity detection, orthodontic planning, bone-loss analysis, and treatment forecasting, while also helping researchers process enormous amounts of clinical data more efficiently. He also emphasizes the importance of ethical safeguards, patient privacy and ensuring that AI tools are trained using diverse and accurate datasets. “It is really reshaping dentistry and how we practice dentistry.” Theodore Ravenel, DMD Loveless offers the perspective of a future clinician learning in an increasingly technology-driven environment. He describes how AI-supported educational tools developed by faculty such as Rafael Pacheco are helping students navigate complex patient scenarios, receive immediate feedback, and strengthen clinical reasoning skills. The article also highlights emerging technologies being used at the Dental College of Georgia, including virtual reality simulators and AI chatbots that provide students with real-time evaluations of dental procedures. Researchers such as Zoya Kurago are also leveraging AI to analyze large-scale datasets tied to cancer and oral disease research. Despite the excitement surrounding these advances, the article stresses that AI is intended to support, not replace, human clinicians. Empathy, communication and patient trust remain essential components of quality care. To learn more about how Augusta University is preparing future dental professionals for an AI-driven healthcare landscape, contact Rafael Pacheco at rapacheco@augusta.edu.

View all posts