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#Expert Perspective: When AI Follows the Rules but Misses the Point
When a team of researchers asked an artificial intelligence system to design a railway network that minimized the risk of train collisions, the AI delivered a surprising solution: Halt all trains entirely. No motion, no crashes. A perfect safety record, technically speaking, but also a total failure of purpose. The system did exactly what it was told, not what was meant. This anecdote, while amusing on the surface, encapsulates a deeper issue confronting corporations, regulators, and courts: What happens when AI faithfully executes an objective but completely misjudges the broader context? In corporate finance and governance, where intentions, responsibilities, and human judgment underpin virtually every action, AI introduces a new kind of agency problem, one not grounded in selfishness, greed, or negligence, but in misalignment. From Human Intent to Machine Misalignment Traditionally, agency problems arise when an agent (say, a CEO or investment manager) pursues goals that deviate from those of the principal (like shareholders or clients). The law provides remedies: fiduciary duties, compensation incentives, oversight mechanisms, disclosure rules. These tools presume that the agent has motives—whether noble or self-serving—that can be influenced, deterred, or punished. But AI systems, especially those that make decisions autonomously, have no inherent intent, no self-interest in the traditional sense, and no capacity to feel gratification or remorse. They are designed to optimize, and they do, often with breathtaking speed, precision, and, occasionally, unintended consequences. This new configuration, where AI acting on behalf of a principal (still human!), gives rise to a contemporary agency dilemma. Known as the alignment problem, it describes situations in which AI follows its assigned objective to the letter but fails to appreciate the principal’s actual intent or broader values. The AI doesn’t resist instructions; it obeys them too well. It doesn’t “cheat,” but sometimes it wins in ways we wish it wouldn’t. When Obedience Becomes a Liability In corporate settings, such problems are more than philosophical. Imagine a firm deploying AI to execute stock buybacks based on a mix of market data, price signals, and sentiment analysis. The AI might identify ideal moments to repurchase shares, saving the company money and boosting share value. But in the process, it may mimic patterns that look indistinguishable from insider trading. Not because anyone programmed it to cheat, but because it found that those actions maximized returns under the constraints it was given. The firm may find itself facing regulatory scrutiny, public backlash, or unintended market disruption, again not because of any individual’s intent, but because the system exploited gaps in its design. This is particularly troubling in areas of law where intent is foundational. In securities regulation, fraud, market manipulation, and other violations typically require a showing of mental state: scienter, mens rea, or at least recklessness. Take spoofing, where an agent places bids or offers with the intent to cancel them to manipulate market prices or to create an illusion of liquidity. Under the Dodd-Frank Act, this is a crime if done with intent to deceive. But AI, especially those using reinforcement learning (RL), can arrive at similar strategies independently. In simulation studies, RL agents have learned that placing and quickly canceling orders can move prices in a favorable direction. They weren’t instructed to deceive; they simply learned that it worked. The Challenge of AI Accountability What makes this even more vexing is the opacity of modern AI systems. Many of them, especially deep learning models, operate as black boxes. Their decisions are statistically derived from vast quantities of data and millions of parameters, but they lack interpretable logic. When an AI system recommends laying off staff, reallocating capital, or delaying payments to suppliers, it may be impossible to trace precisely how it arrived at that recommendation, or whether it considered all factors. Traditional accountability tools—audits, testimony, discovery—are ill-suited to black box decision-making. In corporate governance, where transparency and justification are central to legitimacy, this raises the stakes. Executives, boards, and regulators are accustomed to probing not just what decision was made, but also why. Did the compensation plan reward long-term growth or short-term accounting games? Did the investment reflect prudent risk management or reckless speculation? These inquiries depend on narrative, evidence, and ultimately the ability to assign or deny responsibility. AI short-circuits that process by operating without human-like deliberation. The challenge isn’t just about finding someone to blame. It’s about whether we can design systems that embed accountability before things go wrong. One emerging approach is to shift from intent-based to outcome-based liability. If an AI system causes harm that could arise with certain probability, even without malicious design, the firm or developer might still be held responsible. This mirrors concepts from product liability law, where strict liability can attach regardless of intent if a product is unreasonably dangerous. In the AI context, such a framework would encourage companies to stress-test their models, simulate edge cases, and incorporate safety buffers, not unlike how banks test their balance sheets under hypothetical economic shocks. There is also a growing consensus that we need mandatory interpretability standards for certain high-stakes AI systems, including those used in corporate finance. Developers should be required to document reward functions, decision constraints, and training environments. These document trails would not only assist regulators and courts in assigning responsibility after the fact, but also enable internal compliance and risk teams to anticipate potential failures. Moreover, behavioral “stress tests” that are analogous to those used in financial regulation could be used to simulate how AI systems behave under varied scenarios, including those involving regulatory ambiguity or data anomalies. Smarter Systems Need Smarter Oversight Still, technical fixes alone will not suffice. Corporate governance must evolve toward hybrid decision-making models that blend AI’s analytical power with human judgment and ethical oversight. AI can flag risks, detect anomalies, and optimize processes, but it cannot weigh tradeoffs involving reputation, fairness, or long-term strategy. In moments of crisis or ambiguity, human intervention remains indispensable. For example, an AI agent might recommend renegotiating thousands of contracts to reduce costs during a recession. But only humans can assess whether such actions would erode long-term supplier relationships, trigger litigation, or harm the company’s brand. There’s also a need for clearer regulatory definitions to reduce ambiguity in how AI-driven behaviors are assessed. For example, what precisely constitutes spoofing when the actor is an algorithm with no subjective intent? How do we distinguish aggressive but legal arbitrage from manipulative behavior? If multiple AI systems, trained on similar data, converge on strategies that resemble collusion without ever “agreeing” or “coordination,” do antitrust laws apply? Policymakers face a delicate balance: Overly rigid rules may stifle innovation, while lax standards may open the door to abuse. One promising direction is to standardize governance practices across jurisdictions and sectors, especially where AI deployment crosses borders. A global AI system could affect markets in dozens of countries simultaneously. Without coordination, firms will gravitate toward jurisdictions with the least oversight, creating a regulatory race to the bottom. Several international efforts are already underway to address this. The 2025 International Scientific Report on the Safety of Advanced AI called for harmonized rules around interpretability, accountability, and human oversight in critical applications. While much work remains, such frameworks represent an important step toward embedding legal responsibility into the design and deployment of AI systems. The future of corporate governance will depend not just on aligning incentives, but also on aligning machines with human values. That means redesigning contracts, liability frameworks, and oversight mechanisms to reflect this new reality. And above all, it means accepting that doing exactly what we say is not always the same as doing what we mean Looking to know more or connect with Wei Jiang, Goizueta Business School’s vice dean for faculty and research and Charles Howard Candler Professor of Finance. Simply click on her icon now to arrange an interview or time to talk today.
The Fed Just Cut interest Rates - What's Mean for Americans and What Does it Say about the Economy?
For the first time since December interest rates are being cut and all indicators point to even more signaled more cuts coming this year. The reactions so far have been mixed. The markets held steady but made no bold moves. And the opinions on how this will impact housing and home sales was also mixed with President Trump raving that housing will "soar" and others concerned about volatility. The announcement is getting a lot of media attention with reporters looking for angles, answers and what to expect for the future. And to get those answers - they need experts who understand every aspect of the economy. Dr. Jared Pincin's primary research interests explore the intersection of public choice economics with foreign aid as well as issues in sports economics. Pincin has published in popular publications such as The Hill, Real Clear Markets, Foxnews.com, and USA Today and scholarly journals such as Oxford Development Studies, Applied Economic Letters, and the Journal of Sport and Social Issues. View his profile here Dr. Haymond joined the faculty at Cedarville University in 2010 after a 29-year career in the United States Air Force. He taught at the United States Air Force Academy and was an Air Force Fellow at The Brookings Institution. His research has been published in scholarly journals such as the Quarterly Journal of Austrian Economics, Public Choice, the Journal of Public Choice and Public Finance, and Journal of Faith and Economics. His current research interests include economics and religion, as well as monetary theory. View his profile here Looking to know more? We can help. Jared Pincin and Jeff Haymond are both available to speak with media - simply click on either expert's icon to arrange an interview today.
Michael McClure, Ph.D., associate professor from the Department of Biomedical Engineering and affiliate faculty in the Department of Orthopaedic Surgery and in the Institute for Engineering and Medicine, has been named chair of the Orthopaedic Research Society’s (ORS) newly launched Skeletal Muscle Section. The section began in August 2025, building on research interest groups and symposia to create a dedicated home for skeletal muscle studies within ORS. Its mission is to advance collaboration, innovation, education and translation in this field. Skeletal muscle disorders cause disability, chronic pain and high health care costs. Severe injuries and degenerative diseases, such as muscular dystrophies, remain difficult to treat. The section will strengthen research in muscle development, aging, trauma, disuse and disease. This work will expand the basic understanding of and identify therapeutic targets to restore function. In its first year, the section will measure success through increased skeletal muscle abstracts at the 2027 ORS Annual Meeting, growth in ORS membership and active participation in section programs. “We are thrilled to launch the Skeletal Muscle Section,” McClure said. “This home for translational muscle research will build on ORS progress over the past 10 years, help recruit new members and foster an environment that connects multiple areas of orthopaedic science.” McClure’s commitment to this work is shaped by his family’s experience with neuromuscular diseases, witnessing the impact of war-related injuries on patients’ quality of life from the Richmond Veterans Affairs Medical Center, and the momentum of translational discovery. Learn more about the ORS Skeletal Muscle Section.
First scientific paper on 3I/ATLAS interstellar object
When the news started to spread on July 1, 2025, about a new object that was spotted from outside our solar system, only the third of its kind ever known, astronomers at Michigan State University — along with a team of international researchers — turned their telescopes to capture data on the new celestial sighting. The team rushed to write a scientific paper on what they know so far about the object, now called 3I/ATLAS, after NASA’s Asteroid Terrestrial-impact Last Alert System, or ATLAS. ATLAS consists of four telescopes — two in Hawaii, one in Chile and one in South Africa — which automatically scans the whole sky several times every night looking for moving objects. MSU’s Darryl Seligman, a member of the scientific team and an assistant professor in the College of Natural Science, took the lead on writing the paper. “I heard something about the object before I went to bed, but we didn’t have a lot of information yet,” Seligman said. “By the time I woke up around 1 a.m., my colleagues, Marco Micheli from the European Space Agency and Davide Farnocchia from NASA’s Jet Propulsion Laboratory, were emailing me that this was likely for real. I started sending messages telling everyone to turn their telescopes to look at this object and started writing the paper to document what we know to date. We have data coming in from across the globe about this object.” The discovery Larry Denneau, a member of the ATLAS team reviewed and submitted the observations from the European Southern Observatory's Very Large Telescope in Chile shortly after it was observed on the night of July 1. Denneau said that he was cautiously excited. “We have had false alarms in the past about interesting objects, so we know not to get too excited on the first day. But the incoming observations were all consistent, and late that night it looked like we had the real thing. “It is especially gratifying that we found it in the Milky Way in the direction of the galactic center, which is a very challenging place to survey for asteroids because of all the stars in the background,” Denneau said. “Most other surveys don't look there.” John Tonry, another member of ATLAS and professor at the University of Hawaii, was instrumental in design and construction of ATLAS, the survey that discovered 3I. Tonry said, “It's really gratifying every time our hard work surveying the sky discovers something new, and this comet that has been traveling for millions of years from another star system is particularly interesting.” Once 3I/ATLAS was confirmed, Seligman and Karen Meech, faculty chair for the Institute for Astronomy at the University of Hawaii, both managed the communications flow and worked on getting the data pulled together for submitting the paper. “Once 3I/ATLAS was identified as likely interstellar, we mobilized rapidly,” Meech said. “We activated observing time on major facilities like the Southern Astrophysical Research Telescope and the Gemini Observatory to capture early, high-quality data and build a foundation for detailed follow-up studies.” After confirmation of the interstellar object, institutions from around the world began sharing information about 3I/ATLAS with Seligman. What scientists know about 3I/ATLAS so far Though data is pouring in about the discovery, it’s still so far away from Earth, which leaves many unanswered questions. Here’s what the scientific team knows at this point: It is only the third interstellar (meaning from outside our solar system) object to be detected passing through our solar system. It’s potentially giving off gas like other comets do, but that needs to be confirmed. It’s moving really fast at 60 kilometers per second, or 134,000 miles per hour, relative to the sun. It’s on an orbital path that is shaped like a boomerang or hyperbola. It’s very bright. It’s on a path that will leave our solar system and not return, but scientists will be able to study it for several months before it leaves. The James Webb Space Telescope and the Hubble Space Telescope are expected to reveal more information about its size, composition, spin and how it reacts to being heated over the next few months. “We have these images of 3I/ATLAS where it’s not entirely clear and it looks fuzzier than the other stars in the same image,” said James Wray, a professor at Georgia Tech. “But the object is pretty far away and, so, we just don’t know.” Seligman and his team are specifically interested in 3I/ATLAS’s brightness because it informs us about the evolution of the coma, a cloud of dust and gas. They’ve been tracking it to see if it has been changing over time as the object moves and turns in space. They also want to monitor for sudden outburst events in which the object gets much brighter. “3I/ATLAS likely contains ices, especially below the surface, and those ices may start to activate as it nears the sun,” Seligman said. “But until we detect specific gas emissions, like H₂O, CO or CO₂, we can’t say for sure what kinds of ice or how much are there.” The discovery of 3I/ATLAS is just the beginning. For Tessa Frincke, who came to MSU in late June to begin her career as a doctoral student with Seligman, having the opportunity to analyze data from 3I/ATLAS to predict its future path could lead to her publishing a scientific paper of her own. “I’ve had to learn a lot quickly, and I was shocked at how many people were involved,” said Frincke. “Discoveries like this have a domino effect that inspires novel engineering and mission planning.” For Atsuhiro Yaginuma, a fourth-year undergraduate student on Seligman’s team, this discovery has inspired him to apply his current research to see if it is possible to launch a spacecraft from Earth to get it within hundreds of miles or kilometers to 3I/ATLAS to capture some images and learn more about the object. “The closest approach to Earth will be in December,” said Yaginuma. “It would require a lot of fuel and a lot of rapid mobilization from people here on Earth. But getting close to an interstellar object could be a once-in-a-lifetime opportunity.” “We can’t continue to do this research and experiment with new ideas from Frincke and Yaginuma without federal funding,” said Seligman, who also is a postdoctoral fellow of the National Science Foundation. Seligman and Aster Taylor, who is a former student of Seligman’s and now a doctoral candidate in astronomy and astrophysics and a 2023 Fannie and John Hertz Foundation Fellow, wrote the following: “At a critical moment, given the current congressional discussions on science funding, 3I/ATLAS also reminds us of the broader impact of astronomical research. An example like 3I is particularly important to astronomy — as a science, we are supported almost entirely by government and philanthropic funding. The fact that this science is not funded by commercial enterprise indicates that our field does not provide a financial return on investment, but instead responds to the public’s curiosity about the deep questions of the universe: Where did we come from? Are we alone? What else is out there? The curiosity of the public, as expressed by the will of the U.S. Congress and made manifest in the federal budget, is the reason that astronomy exists.” In addition to MSU, contributors to this research and paper include European Space Agency Near-Earth Objects Coordination Centre (Italy), NASA Jet Propulsion Laboratory/Caltech (USA), University of Hawaii (USA), Auburn University (USA), Universidad de Alicante (Spain), Universitat de Barcelona (Spain), European Southern Observatory (Germany), Villanova University (USA), Lowell Observatory (USA), University of Maryland (USA), Las Cumbres Observatory (USA), University of Belgrade (Serbia), Politecnico di Milano (Italy), University of Michigan (USA), University of Western Ontario (Canada), Georgia Institute of Technology (USA), Universidad Diego Portales, Santiago (Chile) and Boston University (USA).
LSU, FUEL, Syngenta Partner to Develop Low-cost Digital Twins for Chemical Processing Facilities
Derick Ostrenko and Jason Jamerson, faculty in the LSU College of Art & Design, along with engineering advisor David Ben Spry, are pioneering a new approach to industrial innovation using digital twins. The effort is supported by a $217,403 use-inspired research and development (UIRD) award from Future Use of Energy in Louisiana (FUEL). Digital twins are highly detailed, virtual replicas of physical assets. The technology is used in engineering to enhance efficiency, safety, and training; however, their creation often requires costly specialized hardware, proprietary software, and engineering-intensive workflows. “This initiative not only advances digital twin technology but also highlights the interdisciplinary power of design and engineering,” FUEL UIRD Director Ashwith Chilvery said. “By applying creative tools in an industrial setting, we’re demonstrating new ways to lower costs and expand access to advanced digital infrastructure.” The collaborative effort between LSU, FUEL, and Syngenta aims to reduce costs by applying techniques more commonly used in the entertainment industry, leveraging free and open-source software and consumer-grade hardware, such as gaming PCs and digital cameras. Most of the work will be conducted by digital art students skilled in 3D modeling and video game production, offering a cost-effective alternative to traditional engineering services. “3D artists and game developers bring both technical expertise and creative vision that can add significant value when paired with traditional engineering approaches,” Spry said. “We’re eager to demonstrate how this talent pool can help accelerate digital transformation in industry.” “Working with an innovative company like Syngenta to advance digital twins for chemical manufacturing is an outstanding opportunity for our researchers and students, and we’re proud of the techniques and talent we’ve developed at LSU. FUEL’s support of digital twin development for the energy and chemical sectors helps build this technology and unique artistry in Louisiana, for our industries, and for the rest of the nation.” - Greg Trahan, LSU Assistant Vice President of Strategic Research Partnerships In addition to producing a high-fidelity digital twin of a process unit within an active chemical manufacturing facility, the project will deliver a virtual reality application that allows immersive interaction with the 3D model. Future extensions may include augmented reality overlays of physical equipment or integration of live process data for real-time monitoring and troubleshooting. The ultimate outcome of the project is a validated workflow that reduces the cost of producing digital twins by a factor of at least five compared to conventional engineering methods. This breakthrough has the potential to redefine digital infrastructure for the chemical processing industry, making it more accessible, scalable, and adaptable to future needs. Learn more about LSU's digital twin work with Syngenta as well as NASA: About FUEL Future Use of Energy in Louisiana (FUEL) positions the state as a global energy innovation leader through high-impact technology development and innovation that supports the energy industry in lowering carbon emissions. FUEL brings together a growing team of universities, community and technical colleges, state agencies and industry and capital partners led by LSU. With the potential to receive up to $160 million in funding from the U.S. National Science Foundation through the NSF Regional Innovation Engines program and an additional $67.5 million from Louisiana Economic Development, FUEL will advance our nation’s capacity for energy innovation through use-inspired research and development, workforce development, and technology commercialization. For more information, visit fuelouisiana.org. About Syngenta Syngenta Crop Protection is a global leader in agricultural innovation. It is focused on empowering farmers to make the transformation required to feed the world’s population while protecting our planet. Its bold scientific discoveries deliver better benefits for farmers and society on a bigger scale than ever before. Syngenta CP offers a leading portfolio of crop protection technologies and solutions that support farmers to grow healthier plants with higher yields. Its 17,700 employees are helping to transform agriculture in more than 90 countries. Syngenta Crop Protection is headquartered in Basel, Switzerland, and is part of the Syngenta Group. Read our stories and follow us on LinkedIn, Instagram & X.
Georgia Southern biology professor named 2025-26 Fulbright U.S. Scholar to Vietnam
Stephen Greiman, Ph.D., associate professor of biology in Georgia Southern University’s College of Science and Mathematics, has been awarded a 2025-26 Fulbright U.S. Scholar award to Vietnam where he will lead a teaching and research project focused on parasite diversity in bats. “Dr. Greiman is further proof that Georgia Southern faculty are among the best in their fields,” said Avinandan (Avi) Mukherjee, Ph.D., provost and executive vice president for Academic Affairs. “We are incredibly proud of this achievement and all the hard work that goes into such a celebrated milestone paying off.” Greiman’s Fulbright work will build on more than a decade of collaboration with Vietnamese scientists. During graduate school, he began working with parasitologists in Vietnam and participated in field expeditions in 2013 and 2014. That early partnership has since blossomed into multiple co-authored publications and enduring collegial friendships. Vietnam, Greiman explained, is a natural fit for this project. “Its exceptional biodiversity and the significant burden of parasitic infections across humans, domestic animals and wildlife make it a particularly relevant and meaningful host country for my research,” he said. “Our shared goal is to advance awareness and understanding of parasite diversity among students and the public.” During his grant period, Greiman will teach a parasitology course at Hai Duong Medical Technical University. He will also conduct field and laboratory research in partnership with the Vietnam Academy of Science and Technology’s Institute of Ecology and Biological Resources and the Department of Parasitology. His research will involve sampling and analyzing the parasites and microbiomes of Vietnamese bats—a project designed to engage both undergraduate and graduate students in hands-on scientific inquiry. “International collaborations often yield more impactful research than national projects alone,” Greiman noted. “This award not only strengthens our scientific goals but offers my family a chance to immerse ourselves in a new culture. It’s an experience we’re incredibly grateful for.” Beyond fieldwork, Greiman hopes the Fulbright project will open doors for new exchange programs between Georgia Southern and Vietnamese institutions. He envisions Georgia Southern students spending semesters abroad and returning with global perspectives that enrich their academic and personal growth. “The data and experiences I bring back will directly inform my courses, including parasitology and biology of microorganisms,” Greiman said. “I’ll also use our findings to support undergraduate and graduate research projects, pursue new grant opportunities and publish in high-impact journals.” He credits the Fulbright program with not only enabling his research abroad but also cultivating cultural exchange, particularly by allowing families to travel with awardees. His wife, who has a background in the arts, is excited to explore Vietnam’s artistic traditions, while their two young children will experience a culture far different from their own. “Vietnam is rich in natural and cultural history,” he said. “We’re looking forward to embracing it fully, both in the field and in everyday life.” Greiman’s selection is both a professional milestone and a personal journey—one shaped by long-standing collaborations, a deep commitment to global science, and the mentorship of Georgia Southern Vice President for Research and Economic Development David Weindorf, Ph.D. “Although I was initially hesitant to apply due to the program’s competitiveness, I was inspired by Dr. Weindorf’s own transformative experiences as a Fulbright Scholar and Specialist,” Greiman said. “His guidance and support helped me see the incredible potential of this opportunity—not just for my research, but for my family and our students.” That encouragement reflects a strong professional relationship rooted in mutual respect and a shared commitment to international collaboration. “I am so proud of Dr. Greiman’s selection as a Fulbright Scholar,” said Weindorf. “The benefits of the exchange will truly be lifelong, with new friends, colleagues and connections formed and cultivated. We look forward to celebrating the lives Dr. Greiman touches, both through his teaching and research, as a meritorious ambassador of Georgia Southern University.” For Greiman, the Fulbright award marks just the beginning of a broader vision. “This experience will generate foundational data for future National Science Foundation and National Institutes of Health proposals and deepen our international partnerships,” he said. “Being selected as a Fulbright Scholar is an extraordinary honor and a chance to contribute meaningfully to a global legacy of scholarship, cultural exchange and scientific discovery.” He encourages fellow faculty members considering the program to apply. “Go for it,” he said. “Your chances are zero if you don’t try. The Fulbright is one of the few opportunities that blends extended research, cultural immersion and family inclusion. It’s life-changing—and absolutely worth it.” If you're interested in knowing more about Stephen Greiman's work or more about his Fullbright award - simply contact Georgia Southern's Director of Communications Jennifer Wise at jwise@georgiasouthern.edu to arrange an interview today.
Viqtory Media recognizes Georgia Southern University as a top military-friendly college
Georgia Southern University continues to be a leading institution in providing military-connected students with exceptional opportunities, earning the 2025-2026 Top Ten Military Friendly® distinction by Viqtory Media. The University achieved gold recognition for its support of military students, veterans and families as they pursue their academic and career goals. “At Georgia Southern, we are deeply committed to honoring the service and sacrifice of our military-connected students by providing them with a student-centered experience rooted in flexibility, support and excellence,” said Alejandra Sosa Pieroni, Ed. D., Executive Vice President for the Division of Enrollment, Marketing and Student Success. “This continued recognition as a Military Friendly School reflects the intentional work of our faculty and staff to ensure that service members, veterans, and their families have the resources they need to succeed in the classroom, in their careers, and in life.” Georgia Southern is used to being named a Military Friendly School, having earned this distinction for 13 consecutive years. Military-connected students at Georgia Southern have access to a variety of services and flexible academic programs both on campus and online. Select graduate programs, including the MBA, are conveniently offered at the Army Education Centers on Fort Stewart and Hunter Army Airfield. In addition, all three campuses and offices located at the Fort Stewart and Hunter Airfield Education Centers feature resource centers to assist military students, veterans and families. “Georgia Southern University is dedicated to providing the best service to our service members, Veterans and their families,” said William Gammon, director of Military and Veteran Services. “We consider it a privilege to serve this special student population. The continued recognition as a Military Friendly School is a testament to our dedication to our military services and their families.” The annual Military Friendly School list is compiled by Viqtory, a service-disabled, veteran-owned company, with input from the Military Friendly Advisory Council, a group of independent experts in higher education and military recruitment. The list is published in the May and October issues of G.I. Jobs magazine and can be found at www.militaryfriendly.com. Visit Georgia Southern’s website to learn more information about the Military and Veterans program: Looking to know more about Georgia Southern University and it's programming and support for military-connected students — simply contact Georgia Southern's Director of Communications Jennifer Wise at jwise@georgiasouthern.edu to arrange an interview today.
Ashley Panichelli, M.D., has been appointed vice chair of the Department of Family and Community Medicine at ChristianaCare. In this role, Panichelli will support the department’s clinical and academic missions. She will help guide quality and safety initiatives and promote a culture of accountability, learning and psychological safety. She will advance education and professional development across faculty and residency programs, assist with strategic planning, mentorship and peer review, and strengthen collaboration across department leadership, faculty and staff. A Delaware native, Panichelli earned her medical degree from Sidney Kimmel Medical College at Thomas Jefferson University and completed her residency and chief residency in Family Medicine at ChristianaCare in 2018. She joined the residency program’s core faculty that same year and has since held several leadership roles, including clinical lead and associate program director. In 2022, she was named clinical director of Academic and Complex Primary Care, a role she continues to support. Panichelli is a clinical assistant professor at Sidney Kimmel Medical College and has been recognized with several honors, including the Delaware Academy of Family Physicians’ Teacher of the Year award and the Department’s Rising Star award. She completed ChristianaCare’s ACT course, the LEED-R elective, and the Harvard Medical Director Leadership Institute. She was an Emerging Leaders Institute scholar with the American Academy of Family Physicians Foundation. She reports to Erin Kavanaugh, M.D., FAAFP, chair of the Department of Family and Community Medicine.
Georgia Southern University’s Allen E. Paulson College of Engineering and Computing and College of Education are teaming up to bring the latest innovative research on renewable energy to STEM educators and their classrooms across Georgia. That’s all thanks to a $600,000 grant from the National Science Foundation to establish the Engaging Educators in Renewable Energy (ENERGY) program. The funds will support a three-year-long initiative that will bring Valentin Soloiu, Ph.D.’s energy research into high school and technical college classrooms. Soloiu and engineering graduate students from Georgia Southern will conduct research related to renewable energy, reducing greenhouse gas emissions, and mitigating climate change, covering topics like renewable and alternative energy (solar and wind), climate change, enhanced energy technologies and the development of sensors and controls for energy applications and smart grids. Soloiu, the Allen E. Paulson Distinguished Chair of Renewable Energy, will be joined by mechanical engineering professor Mosfequr Rahman, Ph.D. and Elise Cain, Ph.D., director of the Educational Leadership Program in the College of Education, in developing the program. “The core requirement is to conduct state-of-the-art, transformative research in science and engineering,” explained Soloiu. “After that is complete, we bring high school and technical college teachers in to translate this research into classroom-ready modules.” Teachers will be selected from a large pool of statewide applicants to work alongside faculty and graduate students from the College of Engineering and Computing. They’ll also receive funds to incorporate that research into their curriculum. Soloiu will oversee the program as the principal investigator, with Cain serving as the education lead, bringing a multidisciplinary approach to the program. “I think interdisciplinary collaborations are vital in academic work,” noted Cain. “Faculty from the Allen E. Paulson College of Engineering and Computing contribute their technical knowledge and skills related to renewable energy, while I bring my College of Education perspectives on educational contexts and pedagogy. Working together allows us to create a robust program with immediate and lasting impacts.” Educators will visit local companies and interact with leaders in renewable energy, such as Gulfstream Aerospace in Savannah, Georgia, and Rolls-Royce Power Systems in Aiken, South Carolina. These experiences are designed to help teachers share career opportunities with students they might not otherwise encounter. “This program reflects the essence of our institutional mission,” said Cain. “It’s about discovery, teaching, and community engagement—all grounded in excellence and innovation.” Soloiu echoed those sentiments. “Many teachers and students in rural areas don’t even know what we do here at Georgia Southern,” explained Soloiu. “By engaging with educators directly, we’re creating awareness, inspiration, and pipelines to higher education and high-tech careers. This is reflective of the University’s dedication to our communities as we move towards R1 status.” Looking to know more about this important research happening at Georgia Southern - Valentin Soloiu is available to speak with media. Simply click on his icon now to arrange an interview today.
Georgia Southern reaches new economic impact record of $1.167 billion
Recent reports from the University System of Georgia (USG) show Georgia Southern University continues its legacy of significant economic impact on its surrounding region. According to the USG’s latest Economic Impact report, the system recorded a $23.1 billion total economic impact from July 1, 2023 until June 30, 2024. In the same period, Georgia Southern continues to reach new heights with a record annual economic impact of $1.167 billion for FY 2024, a 1.9% increase over the previous year. “Georgia Southern’s record economic impact across the region reflects the extraordinary dedication of our faculty and staff on all three campuses to ensuring we continue to meet the needs of our students and our region today and into the future,” said Georgia Southern President Kyle Marrero. “We remain steadfast in our goals of graduating career-ready students, advancing the economic development of the region and elevating our public impact research enterprise.” The report shows there are 3,096 jobs on Georgia Southern’s campuses in Statesboro, Savannah and Hinesville. Because of institution-related spending, an additional 6,627 jobs exist off-campus, totaling 9,723 jobs due to institution-related spending in fiscal year 2024. The report also noted that Georgia Southern students spent $442,818,489 in the region in fiscal year 2024. In addition, the USG’s newest Lifetime Earnings study found that bachelor’s degree graduates from the class of 2024 will earn, on average, more than $1.4 million above what they would without a college degree through their lifetime. The findings confirm how much each level of higher education can add to a USG graduate’s total earnings throughout their lives. Across the entire USG, the analysis showed that the 73,006 degrees conferred by USG institutions can expect combined total lifetime earnings of $230 billion. “A degree from one of USG’s 26 public colleges and universities is a million-dollar deal for graduates and a billion-dollar boost for Georgia,” USG Chancellor Sonny Perdue said. “Students see real returns through higher earnings and better opportunities. Meanwhile, our institutions power Georgia’s economy and help local communities thrive.” Georgia high school graduates who obtain a bachelor’s degree will boost their state work-life earnings by 82%, surpassing the 80% increase estimated for the nation. Georgia Southern University conferred 5,172 degrees in FY 2024. This group of degree recipients can expect their combined work in Georgia to total lifetime earnings of $16.54 billion. The report also broke down total Georgia lifetime earning predictions by degree: The 102 GS graduates with doctoral degrees will earn a total of $429 million. The 1,116 GS graduates with master’s degrees will earn a total of $3.8 billion. The 3,870 GS graduates with bachelor’s degrees will earn a total of $12.5 billion. The 45 GS graduates with associate degrees will earn a total of $97.9 million. The 39 GS graduates with certificates will earn a total of $78.2 million. The Lifetime Earnings report also shows the U.S. work-life earnings for graduates. For example, all Georgia Southern students who graduated in the class of 2024 who graduated with a bachelor’s degree will earn a collective $12.6 billion in their lifetimes. Without the degree, their projected lifetime earnings would only be a collective $7 billion. The Economic Impact as well as the Lifetime Earnings studies were both conducted on behalf of USG by Jeffrey M. Humphreys, Ph.D., director of the Selig Center for Economic Growth in the University of Georgia’s Terry College of Business. If you're interested in knowing more about Georgia Southern University - simply contact Georgia Southern's Director of Communications Jennifer Wise at jwise@georgiasouthern.edu to arrange an interview today.