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대학뉴스 > 커뮤니티(영문) 게시판목록 | UNIST
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[UNISTar Success Stories] UNIST Graduate Selected as Damon Runyon Fellow at Penn
[UNISTar Success Stories—Turning Imagination into Reality] ② Dr. Sangin Kim (Department of Biological Sciences)
《Editor’s Note: Transformative ideas often begin with simple yet fundamental questions. At UNIST, those questions are explored through rigorous research and collaboration, leading to advances that extend beyond the laboratory. Through [UNISTar Success Stories—Turning Imagination into Reality], we present alumni contributing to global scientific progress.》 Sangin Kim, Ph.D., a graduate of UNIST, has been awarded a Damon Runyon Postdoctoral Fellowship, one of the most competitive fellowships in cancer research. He is currently a postdoctoral researcher at the Perelman School of Medicine at the University of Pennsylvania (Penn), working with Professor Roger Greenberg. His research focuses on the intersection of DNA damage response and anti-cancer immunity, an area central to the development of next-generation cancer therapies. This year's cohort includes 13 fellows from institutions such as Harvard University, Stanford University, Cornell University, UC Berkeley, and Penn. Only two fellows, including Kim, earned their doctoral degrees outside the United States, reflecting the program's international scope and selectivity. The Damon Runyon Fellowship provides $300,000 over four years to support early-career scientists pursuing innovative cancer research. The program places particular emphasis on a researcher's ability to define significant scientific questions and pursue them with independence. Its alumni include numerous Nobel and Lasker Award recipients. Kim completed both his undergraduate and doctoral training at UNIST. During his doctoral studies, he investigated the role of DNA replication-associated proteins in maintaining genomic stability, contributing to a deeper understanding of the mechanisms underlying cancer development. His work has been published in leading journals, including Nucleic Acids Research and PNAS. He has been received several honors recognizing his research potential, including the Early-Career Researcher Award from the Genetics Society of Korea and the Young Investor Research Award from the Korean Society for Molecular and Cellular Biology (KSMCB), and was also selected as the recipient of the Asan Foundation Biomedical Science Scholarship in 2021. Continuous scholarship support throughout his academic training enabled him to pursue sustained, in-depth research on a single scientific question. Reflecting on his journey, Dr. Kim said, "It is a privilege to be selected for the Damon Runyon Postdoctoral Fellowship. I see this as recognition of the research foundation I developed at UNIST, and I intend to build on it through continued work." The recognition also carries personal significance. His doctoral advisor, Professor Kyungjae Myung, was also selected as a Damon Runyon Fellow in 1999, establishing a connection across generations of researchers. Kim attributes his development to UNIST's academic environment, including a discussion-based curriculum, an English-language research setting, and a globally connected alumni network. These experiences enabled him to engage effectively in international research contexts early in his career. His current work examines how disruptions in DNA damage response pathways lead to the formation of abnormal double-stranded RNA, which in turn activates immune responses and reveals vulnerabilities in cancer cells. He is also investigating how defects in DNA replication quality control may contribute to rare neurodegenerative diseases. In parallel with his research, Kim contributes to mentoring students while maintaining collaborative ties with UNIST, extending the impact of his training beyond his own work. Looking ahead, he aims to further investigate the biological mechanisms underlying cancer and rare diseases, with a focus on identifying fundamental vulnerabilities that can inform future therapeutic strategies. "Throughout my journey—from undergraduate studies at UNIST to my current postdoctoral research—the most valuable lesson I gained at UNIST was how to think through scientific problems," he said. "I hope to carry that forward and contribute to the next generation of research."
2026-04-17
JooHyeon Heo
333
UNIST Undergraduate Team Places Third at International Medical AI Hackathon
Team ULSANER demonstrates strong performance in both model evaluation and applied implementation.
A team of undergraduate students from UNIST placed third at the 2026 AI in Healthcare Hackathon, an international competition focused on medical image analysis. Competing as Team ULSANER, the four-member group advanced to the final round held in Uzbekistan from March 27–28, 2026. Among 58 finalist teams from 17 countries, the team achieved the top score in the initial model evaluation stage before securing third place overall following final presentations and technical assessments. Organized by Central Asian University as part of the CAU Tech Hackathon 2026, the competition drew more than 1,200 participants across approximately 300 teams worldwide. Team ULSANER, consisting of Jeong Jae Lee and MinSeong Kim from the Department of Industrial Engineering, Minguk Jeon from the Department of Computer Science and Engineering, and HyeRi Cho from the Department of Biomedical Engineering. Their interdisciplinary collaboration enabled the integration of computational methods with domain-specific insights. The final challenge required participants to develop an AI system, capable of classifying 12 types of skin lesions from biopsy images and identifying lesion regions through segmentation. Evaluation criteria extended beyond model accuracy to include clarity of presentation and practical usability. To address this task, the team developed a deep learning–based framework integrating classification and segmentation. Using an automated optimization approach, they systematically evaluated model architectures and hyperparameters before applying an ensemble method to ensure consistent performance across new data. Model robustness was strengthened through cross-validation, focal loss to address class imbalance, and data augmentation techniques. This approach improved segmentation performance, increasing the Intersection over Union (IoU) metric from 0.8474 to 0.8528. To demonstrate real-world applicability, the team implemented a web-based interface, SkinScanner, enabling users to upload images and view both classification results and segmented outputs. The interface incorporated the clinically recognized ABCD rule—asymmetry, border, color, and diameter—to enhance interpretability and user understanding. “The project brought together our academic training and collaborative problem-solving across disciplines," said Jeong Jae Lee, who led the team. “Refining the system through each stage of the competition was particularly meaningful.” MinSeong Kim noted that anomaly detection in complex data has broad applications beyond healthcare, while Minguk Jeon emphasized the efficiency gained through automated optimization. HyeRi Cho added that the experience highlighted the importance of interpretability and trust in AI systems.
2026-04-08
JooHyeon Heo
405
UNIST Hosted Inaugural International Day, Centered on Nowruz
Student-led initiative supports cross-cultural engagement on campus
On March 31, UNIST held its inaugural 2026 International Day, centered on Nowruz, a spring festival of longstanding cultural significance across Central Asia. Organized by the Office of International Affairs, the event was designed to encourage interaction among members of the university community and to support greater understanding of diverse cultural backgrounds. Planning and execution were led by the first cohort of Global Ambassadors, a student initiative established this year to promote international engagement on campus. Nowruz, meaning 'new day' in Persian, marks the arrival of spring and the beginning of a new year. Observed for more than 3,000 years across Central Asia, the Middle East, and the Caucasus, the festival is associated with themes of renewal and community. The program opened with remarks from the Consul General of Kazakhstan in Busan. It was followed by traditional music and cultural performances, as well as interactive booths representing five Central Asian countries. These booths offered opportunities to experience elements of everyday culture, including food and customary practices, and facilitated informal exchange among participants. Students at UNIST engage with Central Asian cultural traditions during the '2026 International Day: Nowruz' on March 31, 2026. Kanysh Berlibekov, a student in the School of Business Administration at UNIST, said, "It was meaningful to share a traditional holiday from my home country at UNIST. The opportunity to experience different cultures together made the event especially memorable." Kyeong Seok Lee of the Department of Design noted, "The event reflected a high level of preparation by the students involved. Participation was strong across the campus community, particularly in the cultural performances and food." Young-Bin Park, Dean of Public Relations and International Affairs, said, "International Day will serve as a platform for expanding opportunities for engagement among members of the UNIST community. We will continue to develop programs that support a more globally connected campus environment." UNIST plans to build on the inaugural event by further developing International Day as a regular program supporting cultural exchange and community engagement.
2026-03-31
JooHyeon Heo
251
UNIST Hosts 2026 Freshmen Sports Day to Foster Community and Campus Engagement
Annual program fosters peer connection and early integration into campus life.
UNIST held its 2026 Freshmen Sports Day, offering first-year students an opportunity to build connections and engage with campus life through a structured, team-based program. Took place on March 28, the event has been attended by approximately 440 participants, including freshmen, Campus Advisors (CAs), and organizing staffs. Activities included soccer, basketball, relay races, tug-of-war, and team-based challenges designed to encourage participation and collaboration. Organized by the School of New UNISTars, the program aims to support students’ transition to university by strengthening peer networks early in the academic term. First introduced in 2024, the event has continued in response to student feedback indicating limited opportunities for interaction following orientation and the start of classes. As in previous years, it was scheduled in late March, prior to midterm examinations. The program emphasized participation and collective engagement rather than competition. Organizers provided advance guidance to ensure that students could participate safely and at an appropriate level, and safety briefings—including hygiene practices and emergency response procedures—were conducted before the event. Comprehensive on-site measures were also in place, including a first-aid station and an ambulance to allow for immediate response in case of injury or emergency. The event was conducted in accordance with established safety protocols. Participants were organized into 69 teams, grouped into six larger divisions. Each team adopted a name inspired by the Chinese zodiac, forming the basis of a thematic structure designed to encourage group identity and participation. Two top-performing groups, comprising approximately 120 students, received modest support funds for use at campus facilities. Food trucks were also available on-site, providing refreshments throughout the day. In Cheol Bang, Head of the School of New UNISTars, said, “The event provided an opportunity for students to build connections through shared activities. UNIST will continue to offer programs that support a smooth and well-rounded transition to university life.”
2026-03-30
JooHyeon Heo
423
UNIST Hosts Inaugural Integration Bee, Fostering Mathematical Engagement Across Disciplines
Inspired by inspired by MIT tradition, students compete in the inaugural Integration Bee 2026, hosted by the UNIST Department of Physics.
UNIST Department of Physics held its inaugural 2026 Integration Bee, introducing a new academic competition designed to strengthen students’ mathematical problem-solving skills and encourage cross-disciplinary engagement. Held on March 26, the event brought together students to solve integral calculus problems in a timed, tournament-style format. The competition emphasized both speed and accuracy, reflecting the central role of integration in physics, engineering, and related fields. The Integration Bee originated at the Massachusetts Institute of Technology (MIT) in 1981 and has since become a recognized format for testing proficiency in integral calculus. Similar competitions have recently been adopted at universities across Korea, reflecting growing interest in applied mathematics and problem-based learning. A total of 19 students participated in the preliminary round, with eight advancing to the final stage. The final competition drew an audience of undergraduate and graduate students, as well as faculty and staff, creating a setting that combined academic rigor with active peer engagement. Participants were required to solve complex integrals within strict time limits, demanding both analytical precision and rapid reasoning. Finalists solve integral problems during the UNIST Integration Bee 2026, demonstrating speed and precision in mathematical reasoning. JeongJun Park from the Department of Mechanical Engineering, was honored with the Grand Integrator Award, as the overall winner. “It was meaningful to take part in a competition I had followed with interest since high school,” Park said. “Seeing how quickly participants approached challenging problems across disciplines was particularly impressive.” HyunMin Cho from the Department of Mechanical Engineering, who placed second, noted, “The level of problem-solving demonstrated by other participants was highly motivating. The event was well organized, especially for its first year.” SeHoon Bahng from the Department of Physics who shared third place, said, “Although I initially felt some pressure, I was able to focus as the competition progressed. The experience renewed my interest in mathematics.” Ye Ji Lee, also a third-place finisher, added, “Working through problems alongside other participants made the event especially engaging. I look forward to participating again.” Min Sup Hur, Head of the Department of Physics, emphasized the broader significance of the initiative, “This inaugural competition reflects strong student interest in academic challenge. We will continue to develop programs that support intellectual growth and collaborative learning.”
2026-03-27
JooHyeon Heo
618
UNIST Secured Second Place at IEEE SaTML 2026
Researchers at UNIST has earned international recognition for developing a method to detect and mitigate hidden malicious triggers in artificial intelligence systems—an emerging threat to the reliability of large language models (LLMs). Led by Professor Saerom Park of the Department of Industrial Engineering and the Graduate School of Artificial Intelligence, and Professor Sung Whan Yoon of the Graduate School of Artificial Intelligence and the Department of Electrical Engineering, the team placed second in the Anti-Backdoor (Anti-BAD) Challenge at the IEEE Conference on Secure and Trustworthy Machine Learning (SaTML 2026), held in Munich, Germany, from March 23 to 25, 2026. Backdoor attacks embed hidden signals into AI models during training, causing them to produce unintended outputs when specific inputs—known as triggers—are encountered. Because these models otherwise perform as expected, these vulnerabilities present a persistent challenge for the safe deployment of AI systems. The competition challenged participants to develop methods, capable of reducing the impact of such triggers across a range of applications, including text generation, classification, and multilingual tasks. In response, the UNIST team proposed a unified framework designed to operate effectively across these varied settings. Their approach integrates model quantization, model merging, outlier parameter detection, and confidence calibration. Together, these techniques enable the identification and suppression of anomalous behaviors while preserving overall model performance. The methods does not rely on prior knowledge of attack patterns, making it applicable to a broad class of models and use cases. Contributors to the study include JiEun Yun and KiWan Kwon of the Department of Industrial Engineering, and SeungBum Ha of the Graduate School of Artificial Intelligence. "Even in the absence of prior information about the attack methods, it is possible to meaningfully reduce backdoor risks in large language models,” said JiEun Yun. "This work is a step toward ensuring that AI systems can be deployed with greater confidence." The IEEE SaTML is a leading international forum dedicated to advancing research on the security, robustness, and trustworthiness of machine learning systems. The annual competition serves as a benchmark for emerging approaches to safeguarding next-generation AI technologies.
2026-03-27
JooHyeon Heo
568
UNIST Strengthens Laboratory Safety Through Practice-Based Training, Sustaining Zero-Accident Record
School of Energy and Chemical Engineering marks 1,374 days without incident.
On March 24, UNIST School of Energy and Chemical Engineering conducted a joint safety training exercise in collaboration with the Ulsan Fire Headquarters, reinforcing its sustained commitment to a safety-centered research environment. Held at the central plaza between the Main Administration Building and engineering buildings, the program focused on strengthening students’ ability to respond effectively to fire and other emergency situations. The training emphasized repeated, scenario-based exercises designed to build practical skills and reinforce safety awareness. Since 2021, the school has implemented a structured safety improvement plan, placing safety at the forefront of its academic and research activities. As of the training date, it has maintained a continuous zero-accident record for 1,374 days, reflecting the impact of consistent, hands-on training and proactive risk management. The exercise was designed to mirror potential risks encountered in laboratory and everyday settings. Participants rotated through four sessions: evacuation using emergency descent devices and earthquake simulation; fire response using outdoor hydrants and extinguishers; first aid procedures, including the Heimlich maneuver and CPR, and response protocols for fires involving water-reactive substances. New elements were introduced this year to enhance the program’s realism and relevance, including a mobile earthquake simulation unit and specialized training tailored to the handling of water-reactive materials. These additions provided participants with more comprehensive exposure to emergency scenarios aligned with the School’s research environment. Students highlighted the practical value of the training. “Practicing emergency response procedures and learning to use safety equipment directly was highly instructive,” one participant noted. “It reinforced the importance of safety both in the laboratory and in daily life.” In addition to annual training exercises, the School conducts monthly safety inspections and ongoing internal safety education to maintain a comprehensive safety framework. It plans to further expand and refine these programs to support a research environment in which students and faculty can work with confidence. Hyunhyub Ko, Head of the School of Energy and Chemical Engineering, emphasized the importance of continued investment in safety education. “We will continue to provide practice-based, tailored training alongside theoretical instruction so that members of our community are prepared to respond effectively in emergency situations.”
2026-03-25
JooHyeon Heo
513
Decoding Fear's Chemistry: Professor Haejin Yoon Wins HFSP Accelerator Grant
One of only two Korea-based researchers selected for the highly competitive accelerator track among seven national awardees.
Professor Haejin Yoon in the Department of Biological Sciences at UNIST has been selected for the Human Frontier Science Program (HFSP) Accelerator Grant, a highly competitive international funding program in the life sciences, often referred to as the Nobel Prize fund. She is one of only two researchers in Korea chosen for the accelerator category this year, among a total of seven national awardees. Established in 1989, HFSP supports interdisciplinary and cross-border collaboration in fundamental life sciences research. The program has funded more than 8,500 researchers from 73 countries, including 31 Nobel laureates. The HFSP Accelerator Grant specifically supports the expansion of existing international research teams, making it one of HFSP’s most competitive funding tracks. Professor Yoon's project, entitled 'A metabolomic approach to examine endogenous precursors of volatile organic compounds in fear odours' examines how emotional states, such as fear are translated into chemical signals emitted from the human body. The research focuses on the formation of volatile organic compounds (VOCs) released from the skin and the roles of skin microbiota and host metabolism in this process. Integrating approaches from metabolomics, microbiome science, and chemical ecology, the study aims to identify the biological pathways through which emotional signals are chemically expressed. The project will be conducted in collaboration with research teams in the United Kingdom, Germany, and Canada, with funding of approximately $100,000 per year over two years. "This research seeks to explain, at the molecular level, how emotions, such as fear are converted into chemical signals on the skin," said Professor Yoon. "By connecting metabolomics, microbiome research, and chemical ecology, we aim to provide a new perspective on how emotional states are biologically transmitted." UNIST President Chong Rae Park noted, "This marks UNIST’s first selection for the HFSP program and reflects the growing global competitiveness of our early-career researchers. We will continue to support innovative research that advances fundamental science and contributes to the international research community." UNIST has also expanded its global research engagement through initiatives, such as Horizon Europe, including hosting National Contact Point briefings, inviting EU evaluators, and strengthening collaboration with European partners.
2026-03-25
JooHyeon Heo
506
President Park’s Next Goal: AI Transformation of Manufacturing in Korea’s Southeastern Industrial Hub
[HelloDD Interview] President Chong Rae Park Emphasizes a 'Tech Bridge' Strategy Connecting Research Excellence with Industrial Impact.
《Editor's Note: This article is based on an interview with President Chong Rae Park of UNIST, originally published by HelloDD (Daeduck Net) on February 25, 2026, under the title "From Research Excellence to Regional Impact: President Park's Vision for AI-Driven Transformation of the Busan-Ulsan-Gyeongnam Manufacturing Hub."》 President Chong Rae Park of UNIST often reflects on his rural upbringing in Gyeongsangnam-do when speaking about the values that shaped his leadership. Although he later studied and worked at Seoul National University, he says his worldview was deeply influenced by his early years in the region. Today, his signature jacket bearing the UNIST logo reflects both personal pride and a broader commitment—to lead a university that not only excels in research but also drives innovation across regional industries. Since assuming office, President Park has consistently advocated for 'AI-driven innovation' as a central strategy for UNIST. l Image Credit: Hello DD Since assuming office, President Park has consistently emphasized AI-driven innovation as a central strategic direction for UNIST. His vision positions the university as a catalyst that connects cutting-edge academic research with real-world industrial transformation, particularly within South Korea's manufacturing sector. In an interview with Daeduck Net, President Park outlined UNIST's strategy to accelerate the AI-based transformation of the Busan–Ulsan–Gyeongnam (BUG) region—one of Korea's most significant industrial clusters—while strengthening the university's role as a driver of regional innovation. President Park emphasized that research achieves its highest purpose when it transforms the industries and communities around it. "UNIST has already demonstrated global excellence in research," he said. "The next challenge is ensuring that those discoveries move beyond the laboratory and generate meaningful impact in industry and society." Bridging Research and Industry through AI Since taking office, President Park has emphasized AI-driven innovation as a cornerstone of UNIST's long-term strategy. Located in Ulsan—Korea's largest heavy industrial city and home to major automotive, shipbuilding, offshore engineering, and petrochemical industries—the university occupies a unique position within the nation's industrial ecosystem. President Park describes this approach as the 'Tech Bridge' strategy, a framework designed to connect academic research capabilities with the practical needs of industry. "Ulsan possesses tremendous industrial assets through its national industrial complexes," President Park explained. "By integrating AI technologies tailored to the region's industrial strengths, we can significantly enhance the competitiveness of local industries." UNIST's research excellence is already widely recognized internationally. In the 2025 CWTS Leiden Ranking, which evaluates the quality of scientific publications, UNIST ranked first among Korean universities for nine consecutive years. Yet, President Park believes the next phase of growth must focus on translating research leadership into broader societal and industrial impact. UNIST ranked No. 1 nationwide in the ‘2025 Leiden Ranking Traditional Edition,’ marking an unbroken nine-year steak. l Image Credit: CTWS Leiden Ranking Accelerating AI Adoption in Manufacturing AI is rapidly reshaping global manufacturing, and UNIST is expanding partnerships with major industry leaders to support this transition. The university has launched a collaboration with HD Hyundai to develop AI technologies for the shipbuilding and maritime industries. It is also working with the Korea Hydro & Nuclear Power (KHNP) to apply AI technologies that enhance operational intelligence within energy systems. These partnerships aim to integrate advanced AI capabilities into industrial processes, improving efficiency, safety, and productivity. The MOU signing ceremony between UNIST and HD Hyundai Group took place at the HD Hyundai Global R&D Center (GRC) in Seongnam, Gyeonggi Province on November 20, 2025. To further strengthen collaboration between academia and industry, UNIST established the Ulsan Innovation Forum, a platform designed to bring together scientists, engineers, and industry leaders to explore AI-driven industrial transformation. The inaugural forum was successfully held last year, with a second edition planned for this year. "Researchers and business leaders must have regular opportunities to meet and collaborate," President Park noted. "That is how we close the gap between discovery and application." The inaugural '2025 Future Energy Innovation Forum' in the Main Administration of UNIST on September 16, 2025. UNIST's Tech Bridge strategy also places strong emphasis on supporting small and medium-sized enterprises (SMEs) across the regional supply chain. While Ulsan's industrial ecosystem is built around major global corporations, many similar companies have historically had limited access to advanced research capabilities. To address this gap, UNIST has opened its research infrastructure to industry partners through open laboratories for collaborative R&D, access to the UNIST Supercomputing Center, and shared use of advanced research equipment and prototyping facilities. Together, these resources provide companies with a one-stop platform for analysis, validation, prototype development, and commercialization. "In many cases, regional SMEs operate within large supply chains, yet lack their own R&D capacity," President Park explained. "Our goal is for UNIST to serve as the intellectual engine that supports these companies, helping them adopt advanced technologies and drive innovation." Expanding AI-Driven Innovation Across the Busan-Ulsan-Gyeongnam Region UNIST's vision extends beyond Ulsan to the broader BUG region, which represents one of Korea's largest and most strategically important manufacturing clusters. The university aims to serve as the central hub for AI innovation in the southeastern region of Korea, enabling regional industries to adopt and integrate advanced technologies more rapidly. A key component of this strategy is the UNIST Novatus Graduate School, established in 2025 to provide advanced education for working professionals in emerging technologies. Through this, UNIST offers specialized training designed to help industry professionals apply AI directly within real industrial environments. "Our goal is to ensure that AI transformation spreads across the region and becomes a practical tool for industry—not merely a concept," President Park said. The opening ceremony for the Novatus Graduate School took place at the Pioneers Campus on September 3, 2025. Beyond Nobel Prizes—Nurturing Pioneer-Driven, Nobel-Caliber Talent Looking ahead, President Park believes universities must focus not only on academic achievement, but also on cultivating individuals capable of connecting scientific discovery with real-world innovation. "Rather than simply producing Nobel Prize winners, we must cultivate people like Alfred Nobel—innovators who connect scientific discovery with industry and society," President Park said. According to President Park, this requires educational systems that emphasize insight, creativity, and entrepreneurial thinking, preparing students to navigate an era of rapid technological transformation. UNIST is therefore exploring new methods to evaluate teaching effectiveness and ensure that its educational programs equip students with the capabilities needed for the future. Diagram of the UNIAI system configuration. | Image Credit: IT Strategy Team UNIST is also advancing its 'AI-Powered Campus' initiative by applying AI technologies within its own institutional operations. In November 2025, UNIST launched UNIAI, Korea's first generative-AI platform developed internally. The system provides chatbot-based assistance that helps students, faculty, and staff navigate complex campus regulations and administrative processes. Earlier AI initiatives have already delivered measurable efficiency gains. For example, AI-assisted processes reduce the review time for technology-transfer contracts from one month to a single day. "Universities must lead by example," President Park said. "By embedding AI in our own operations and education, we can drive broader innovation in both academia and industry."
2026-02-28
JooHyeon Heo
695
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[UNISTar Success Stories] UNIST Graduate Selected as Damon Runyon Fellow at Penn
[UNISTar Success Stories—Turning Imagination into Reality] ② Dr. Sangin Kim (Department of Biological Sciences)
《Editor’s Note: Transformative ideas often begin with simple yet fundamental questions. At UNIST, those questions are explored through rigorous research and collaboration, leading to advances that extend beyond the laboratory. Through [UNISTar Success Stories—Turning Imagination into Reality], we present alumni contributing to global scientific progress.》 Sangin Kim, Ph.D., a graduate of UNIST, has been awarded a Damon Runyon Postdoctoral Fellowship, one of the most competitive fellowships in cancer research. He is currently a postdoctoral researcher at the Perelman School of Medicine at the University of Pennsylvania (Penn), working with Professor Roger Greenberg. His research focuses on the intersection of DNA damage response and anti-cancer immunity, an area central to the development of next-generation cancer therapies. This year's cohort includes 13 fellows from institutions such as Harvard University, Stanford University, Cornell University, UC Berkeley, and Penn. Only two fellows, including Kim, earned their doctoral degrees outside the United States, reflecting the program's international scope and selectivity. The Damon Runyon Fellowship provides $300,000 over four years to support early-career scientists pursuing innovative cancer research. The program places particular emphasis on a researcher's ability to define significant scientific questions and pursue them with independence. Its alumni include numerous Nobel and Lasker Award recipients. Kim completed both his undergraduate and doctoral training at UNIST. During his doctoral studies, he investigated the role of DNA replication-associated proteins in maintaining genomic stability, contributing to a deeper understanding of the mechanisms underlying cancer development. His work has been published in leading journals, including Nucleic Acids Research and PNAS. He has been received several honors recognizing his research potential, including the Early-Career Researcher Award from the Genetics Society of Korea and the Young Investor Research Award from the Korean Society for Molecular and Cellular Biology (KSMCB), and was also selected as the recipient of the Asan Foundation Biomedical Science Scholarship in 2021. Continuous scholarship support throughout his academic training enabled him to pursue sustained, in-depth research on a single scientific question. Reflecting on his journey, Dr. Kim said, "It is a privilege to be selected for the Damon Runyon Postdoctoral Fellowship. I see this as recognition of the research foundation I developed at UNIST, and I intend to build on it through continued work." The recognition also carries personal significance. His doctoral advisor, Professor Kyungjae Myung, was also selected as a Damon Runyon Fellow in 1999, establishing a connection across generations of researchers. Kim attributes his development to UNIST's academic environment, including a discussion-based curriculum, an English-language research setting, and a globally connected alumni network. These experiences enabled him to engage effectively in international research contexts early in his career. His current work examines how disruptions in DNA damage response pathways lead to the formation of abnormal double-stranded RNA, which in turn activates immune responses and reveals vulnerabilities in cancer cells. He is also investigating how defects in DNA replication quality control may contribute to rare neurodegenerative diseases. In parallel with his research, Kim contributes to mentoring students while maintaining collaborative ties with UNIST, extending the impact of his training beyond his own work. Looking ahead, he aims to further investigate the biological mechanisms underlying cancer and rare diseases, with a focus on identifying fundamental vulnerabilities that can inform future therapeutic strategies. "Throughout my journey—from undergraduate studies at UNIST to my current postdoctoral research—the most valuable lesson I gained at UNIST was how to think through scientific problems," he said. "I hope to carry that forward and contribute to the next generation of research."
2026-04-17
JooHyeon Heo
333
UNIST Undergraduate Team Places Third at International Medical AI Hackathon
Team ULSANER demonstrates strong performance in both model evaluation and applied implementation.
A team of undergraduate students from UNIST placed third at the 2026 AI in Healthcare Hackathon, an international competition focused on medical image analysis. Competing as Team ULSANER, the four-member group advanced to the final round held in Uzbekistan from March 27–28, 2026. Among 58 finalist teams from 17 countries, the team achieved the top score in the initial model evaluation stage before securing third place overall following final presentations and technical assessments. Organized by Central Asian University as part of the CAU Tech Hackathon 2026, the competition drew more than 1,200 participants across approximately 300 teams worldwide. Team ULSANER, consisting of Jeong Jae Lee and MinSeong Kim from the Department of Industrial Engineering, Minguk Jeon from the Department of Computer Science and Engineering, and HyeRi Cho from the Department of Biomedical Engineering. Their interdisciplinary collaboration enabled the integration of computational methods with domain-specific insights. The final challenge required participants to develop an AI system, capable of classifying 12 types of skin lesions from biopsy images and identifying lesion regions through segmentation. Evaluation criteria extended beyond model accuracy to include clarity of presentation and practical usability. To address this task, the team developed a deep learning–based framework integrating classification and segmentation. Using an automated optimization approach, they systematically evaluated model architectures and hyperparameters before applying an ensemble method to ensure consistent performance across new data. Model robustness was strengthened through cross-validation, focal loss to address class imbalance, and data augmentation techniques. This approach improved segmentation performance, increasing the Intersection over Union (IoU) metric from 0.8474 to 0.8528. To demonstrate real-world applicability, the team implemented a web-based interface, SkinScanner, enabling users to upload images and view both classification results and segmented outputs. The interface incorporated the clinically recognized ABCD rule—asymmetry, border, color, and diameter—to enhance interpretability and user understanding. “The project brought together our academic training and collaborative problem-solving across disciplines," said Jeong Jae Lee, who led the team. “Refining the system through each stage of the competition was particularly meaningful.” MinSeong Kim noted that anomaly detection in complex data has broad applications beyond healthcare, while Minguk Jeon emphasized the efficiency gained through automated optimization. HyeRi Cho added that the experience highlighted the importance of interpretability and trust in AI systems.
2026-04-08
JooHyeon Heo
405
UNIST Hosted Inaugural International Day, Centered on Nowruz
Student-led initiative supports cross-cultural engagement on campus
On March 31, UNIST held its inaugural 2026 International Day, centered on Nowruz, a spring festival of longstanding cultural significance across Central Asia. Organized by the Office of International Affairs, the event was designed to encourage interaction among members of the university community and to support greater understanding of diverse cultural backgrounds. Planning and execution were led by the first cohort of Global Ambassadors, a student initiative established this year to promote international engagement on campus. Nowruz, meaning 'new day' in Persian, marks the arrival of spring and the beginning of a new year. Observed for more than 3,000 years across Central Asia, the Middle East, and the Caucasus, the festival is associated with themes of renewal and community. The program opened with remarks from the Consul General of Kazakhstan in Busan. It was followed by traditional music and cultural performances, as well as interactive booths representing five Central Asian countries. These booths offered opportunities to experience elements of everyday culture, including food and customary practices, and facilitated informal exchange among participants. Students at UNIST engage with Central Asian cultural traditions during the '2026 International Day: Nowruz' on March 31, 2026. Kanysh Berlibekov, a student in the School of Business Administration at UNIST, said, "It was meaningful to share a traditional holiday from my home country at UNIST. The opportunity to experience different cultures together made the event especially memorable." Kyeong Seok Lee of the Department of Design noted, "The event reflected a high level of preparation by the students involved. Participation was strong across the campus community, particularly in the cultural performances and food." Young-Bin Park, Dean of Public Relations and International Affairs, said, "International Day will serve as a platform for expanding opportunities for engagement among members of the UNIST community. We will continue to develop programs that support a more globally connected campus environment." UNIST plans to build on the inaugural event by further developing International Day as a regular program supporting cultural exchange and community engagement.
2026-03-31
JooHyeon Heo
251
UNIST Hosts 2026 Freshmen Sports Day to Foster Community and Campus Engagement
Annual program fosters peer connection and early integration into campus life.
UNIST held its 2026 Freshmen Sports Day, offering first-year students an opportunity to build connections and engage with campus life through a structured, team-based program. Took place on March 28, the event has been attended by approximately 440 participants, including freshmen, Campus Advisors (CAs), and organizing staffs. Activities included soccer, basketball, relay races, tug-of-war, and team-based challenges designed to encourage participation and collaboration. Organized by the School of New UNISTars, the program aims to support students’ transition to university by strengthening peer networks early in the academic term. First introduced in 2024, the event has continued in response to student feedback indicating limited opportunities for interaction following orientation and the start of classes. As in previous years, it was scheduled in late March, prior to midterm examinations. The program emphasized participation and collective engagement rather than competition. Organizers provided advance guidance to ensure that students could participate safely and at an appropriate level, and safety briefings—including hygiene practices and emergency response procedures—were conducted before the event. Comprehensive on-site measures were also in place, including a first-aid station and an ambulance to allow for immediate response in case of injury or emergency. The event was conducted in accordance with established safety protocols. Participants were organized into 69 teams, grouped into six larger divisions. Each team adopted a name inspired by the Chinese zodiac, forming the basis of a thematic structure designed to encourage group identity and participation. Two top-performing groups, comprising approximately 120 students, received modest support funds for use at campus facilities. Food trucks were also available on-site, providing refreshments throughout the day. In Cheol Bang, Head of the School of New UNISTars, said, “The event provided an opportunity for students to build connections through shared activities. UNIST will continue to offer programs that support a smooth and well-rounded transition to university life.”
2026-03-30
JooHyeon Heo
423
UNIST Hosts Inaugural Integration Bee, Fostering Mathematical Engagement Across Disciplines
Inspired by inspired by MIT tradition, students compete in the inaugural Integration Bee 2026, hosted by the UNIST Department of Physics.
UNIST Department of Physics held its inaugural 2026 Integration Bee, introducing a new academic competition designed to strengthen students’ mathematical problem-solving skills and encourage cross-disciplinary engagement. Held on March 26, the event brought together students to solve integral calculus problems in a timed, tournament-style format. The competition emphasized both speed and accuracy, reflecting the central role of integration in physics, engineering, and related fields. The Integration Bee originated at the Massachusetts Institute of Technology (MIT) in 1981 and has since become a recognized format for testing proficiency in integral calculus. Similar competitions have recently been adopted at universities across Korea, reflecting growing interest in applied mathematics and problem-based learning. A total of 19 students participated in the preliminary round, with eight advancing to the final stage. The final competition drew an audience of undergraduate and graduate students, as well as faculty and staff, creating a setting that combined academic rigor with active peer engagement. Participants were required to solve complex integrals within strict time limits, demanding both analytical precision and rapid reasoning. Finalists solve integral problems during the UNIST Integration Bee 2026, demonstrating speed and precision in mathematical reasoning. JeongJun Park from the Department of Mechanical Engineering, was honored with the Grand Integrator Award, as the overall winner. “It was meaningful to take part in a competition I had followed with interest since high school,” Park said. “Seeing how quickly participants approached challenging problems across disciplines was particularly impressive.” HyunMin Cho from the Department of Mechanical Engineering, who placed second, noted, “The level of problem-solving demonstrated by other participants was highly motivating. The event was well organized, especially for its first year.” SeHoon Bahng from the Department of Physics who shared third place, said, “Although I initially felt some pressure, I was able to focus as the competition progressed. The experience renewed my interest in mathematics.” Ye Ji Lee, also a third-place finisher, added, “Working through problems alongside other participants made the event especially engaging. I look forward to participating again.” Min Sup Hur, Head of the Department of Physics, emphasized the broader significance of the initiative, “This inaugural competition reflects strong student interest in academic challenge. We will continue to develop programs that support intellectual growth and collaborative learning.”
2026-03-27
JooHyeon Heo
618
UNIST Secured Second Place at IEEE SaTML 2026
Researchers at UNIST has earned international recognition for developing a method to detect and mitigate hidden malicious triggers in artificial intelligence systems—an emerging threat to the reliability of large language models (LLMs). Led by Professor Saerom Park of the Department of Industrial Engineering and the Graduate School of Artificial Intelligence, and Professor Sung Whan Yoon of the Graduate School of Artificial Intelligence and the Department of Electrical Engineering, the team placed second in the Anti-Backdoor (Anti-BAD) Challenge at the IEEE Conference on Secure and Trustworthy Machine Learning (SaTML 2026), held in Munich, Germany, from March 23 to 25, 2026. Backdoor attacks embed hidden signals into AI models during training, causing them to produce unintended outputs when specific inputs—known as triggers—are encountered. Because these models otherwise perform as expected, these vulnerabilities present a persistent challenge for the safe deployment of AI systems. The competition challenged participants to develop methods, capable of reducing the impact of such triggers across a range of applications, including text generation, classification, and multilingual tasks. In response, the UNIST team proposed a unified framework designed to operate effectively across these varied settings. Their approach integrates model quantization, model merging, outlier parameter detection, and confidence calibration. Together, these techniques enable the identification and suppression of anomalous behaviors while preserving overall model performance. The methods does not rely on prior knowledge of attack patterns, making it applicable to a broad class of models and use cases. Contributors to the study include JiEun Yun and KiWan Kwon of the Department of Industrial Engineering, and SeungBum Ha of the Graduate School of Artificial Intelligence. "Even in the absence of prior information about the attack methods, it is possible to meaningfully reduce backdoor risks in large language models,” said JiEun Yun. "This work is a step toward ensuring that AI systems can be deployed with greater confidence." The IEEE SaTML is a leading international forum dedicated to advancing research on the security, robustness, and trustworthiness of machine learning systems. The annual competition serves as a benchmark for emerging approaches to safeguarding next-generation AI technologies.
2026-03-27
JooHyeon Heo
568
UNIST Strengthens Laboratory Safety Through Practice-Based Training, Sustaining Zero-Accident Record
School of Energy and Chemical Engineering marks 1,374 days without incident.
On March 24, UNIST School of Energy and Chemical Engineering conducted a joint safety training exercise in collaboration with the Ulsan Fire Headquarters, reinforcing its sustained commitment to a safety-centered research environment. Held at the central plaza between the Main Administration Building and engineering buildings, the program focused on strengthening students’ ability to respond effectively to fire and other emergency situations. The training emphasized repeated, scenario-based exercises designed to build practical skills and reinforce safety awareness. Since 2021, the school has implemented a structured safety improvement plan, placing safety at the forefront of its academic and research activities. As of the training date, it has maintained a continuous zero-accident record for 1,374 days, reflecting the impact of consistent, hands-on training and proactive risk management. The exercise was designed to mirror potential risks encountered in laboratory and everyday settings. Participants rotated through four sessions: evacuation using emergency descent devices and earthquake simulation; fire response using outdoor hydrants and extinguishers; first aid procedures, including the Heimlich maneuver and CPR, and response protocols for fires involving water-reactive substances. New elements were introduced this year to enhance the program’s realism and relevance, including a mobile earthquake simulation unit and specialized training tailored to the handling of water-reactive materials. These additions provided participants with more comprehensive exposure to emergency scenarios aligned with the School’s research environment. Students highlighted the practical value of the training. “Practicing emergency response procedures and learning to use safety equipment directly was highly instructive,” one participant noted. “It reinforced the importance of safety both in the laboratory and in daily life.” In addition to annual training exercises, the School conducts monthly safety inspections and ongoing internal safety education to maintain a comprehensive safety framework. It plans to further expand and refine these programs to support a research environment in which students and faculty can work with confidence. Hyunhyub Ko, Head of the School of Energy and Chemical Engineering, emphasized the importance of continued investment in safety education. “We will continue to provide practice-based, tailored training alongside theoretical instruction so that members of our community are prepared to respond effectively in emergency situations.”
2026-03-25
JooHyeon Heo
513
Decoding Fear's Chemistry: Professor Haejin Yoon Wins HFSP Accelerator Grant
One of only two Korea-based researchers selected for the highly competitive accelerator track among seven national awardees.
Professor Haejin Yoon in the Department of Biological Sciences at UNIST has been selected for the Human Frontier Science Program (HFSP) Accelerator Grant, a highly competitive international funding program in the life sciences, often referred to as the Nobel Prize fund. She is one of only two researchers in Korea chosen for the accelerator category this year, among a total of seven national awardees. Established in 1989, HFSP supports interdisciplinary and cross-border collaboration in fundamental life sciences research. The program has funded more than 8,500 researchers from 73 countries, including 31 Nobel laureates. The HFSP Accelerator Grant specifically supports the expansion of existing international research teams, making it one of HFSP’s most competitive funding tracks. Professor Yoon's project, entitled 'A metabolomic approach to examine endogenous precursors of volatile organic compounds in fear odours' examines how emotional states, such as fear are translated into chemical signals emitted from the human body. The research focuses on the formation of volatile organic compounds (VOCs) released from the skin and the roles of skin microbiota and host metabolism in this process. Integrating approaches from metabolomics, microbiome science, and chemical ecology, the study aims to identify the biological pathways through which emotional signals are chemically expressed. The project will be conducted in collaboration with research teams in the United Kingdom, Germany, and Canada, with funding of approximately $100,000 per year over two years. "This research seeks to explain, at the molecular level, how emotions, such as fear are converted into chemical signals on the skin," said Professor Yoon. "By connecting metabolomics, microbiome research, and chemical ecology, we aim to provide a new perspective on how emotional states are biologically transmitted." UNIST President Chong Rae Park noted, "This marks UNIST’s first selection for the HFSP program and reflects the growing global competitiveness of our early-career researchers. We will continue to support innovative research that advances fundamental science and contributes to the international research community." UNIST has also expanded its global research engagement through initiatives, such as Horizon Europe, including hosting National Contact Point briefings, inviting EU evaluators, and strengthening collaboration with European partners.
2026-03-25
JooHyeon Heo
506
President Park’s Next Goal: AI Transformation of Manufacturing in Korea’s Southeastern Industrial Hub
[HelloDD Interview] President Chong Rae Park Emphasizes a 'Tech Bridge' Strategy Connecting Research Excellence with Industrial Impact.
《Editor's Note: This article is based on an interview with President Chong Rae Park of UNIST, originally published by HelloDD (Daeduck Net) on February 25, 2026, under the title "From Research Excellence to Regional Impact: President Park's Vision for AI-Driven Transformation of the Busan-Ulsan-Gyeongnam Manufacturing Hub."》 President Chong Rae Park of UNIST often reflects on his rural upbringing in Gyeongsangnam-do when speaking about the values that shaped his leadership. Although he later studied and worked at Seoul National University, he says his worldview was deeply influenced by his early years in the region. Today, his signature jacket bearing the UNIST logo reflects both personal pride and a broader commitment—to lead a university that not only excels in research but also drives innovation across regional industries. Since assuming office, President Park has consistently advocated for 'AI-driven innovation' as a central strategy for UNIST. l Image Credit: Hello DD Since assuming office, President Park has consistently emphasized AI-driven innovation as a central strategic direction for UNIST. His vision positions the university as a catalyst that connects cutting-edge academic research with real-world industrial transformation, particularly within South Korea's manufacturing sector. In an interview with Daeduck Net, President Park outlined UNIST's strategy to accelerate the AI-based transformation of the Busan–Ulsan–Gyeongnam (BUG) region—one of Korea's most significant industrial clusters—while strengthening the university's role as a driver of regional innovation. President Park emphasized that research achieves its highest purpose when it transforms the industries and communities around it. "UNIST has already demonstrated global excellence in research," he said. "The next challenge is ensuring that those discoveries move beyond the laboratory and generate meaningful impact in industry and society." Bridging Research and Industry through AI Since taking office, President Park has emphasized AI-driven innovation as a cornerstone of UNIST's long-term strategy. Located in Ulsan—Korea's largest heavy industrial city and home to major automotive, shipbuilding, offshore engineering, and petrochemical industries—the university occupies a unique position within the nation's industrial ecosystem. President Park describes this approach as the 'Tech Bridge' strategy, a framework designed to connect academic research capabilities with the practical needs of industry. "Ulsan possesses tremendous industrial assets through its national industrial complexes," President Park explained. "By integrating AI technologies tailored to the region's industrial strengths, we can significantly enhance the competitiveness of local industries." UNIST's research excellence is already widely recognized internationally. In the 2025 CWTS Leiden Ranking, which evaluates the quality of scientific publications, UNIST ranked first among Korean universities for nine consecutive years. Yet, President Park believes the next phase of growth must focus on translating research leadership into broader societal and industrial impact. UNIST ranked No. 1 nationwide in the ‘2025 Leiden Ranking Traditional Edition,’ marking an unbroken nine-year steak. l Image Credit: CTWS Leiden Ranking Accelerating AI Adoption in Manufacturing AI is rapidly reshaping global manufacturing, and UNIST is expanding partnerships with major industry leaders to support this transition. The university has launched a collaboration with HD Hyundai to develop AI technologies for the shipbuilding and maritime industries. It is also working with the Korea Hydro & Nuclear Power (KHNP) to apply AI technologies that enhance operational intelligence within energy systems. These partnerships aim to integrate advanced AI capabilities into industrial processes, improving efficiency, safety, and productivity. The MOU signing ceremony between UNIST and HD Hyundai Group took place at the HD Hyundai Global R&D Center (GRC) in Seongnam, Gyeonggi Province on November 20, 2025. To further strengthen collaboration between academia and industry, UNIST established the Ulsan Innovation Forum, a platform designed to bring together scientists, engineers, and industry leaders to explore AI-driven industrial transformation. The inaugural forum was successfully held last year, with a second edition planned for this year. "Researchers and business leaders must have regular opportunities to meet and collaborate," President Park noted. "That is how we close the gap between discovery and application." The inaugural '2025 Future Energy Innovation Forum' in the Main Administration of UNIST on September 16, 2025. UNIST's Tech Bridge strategy also places strong emphasis on supporting small and medium-sized enterprises (SMEs) across the regional supply chain. While Ulsan's industrial ecosystem is built around major global corporations, many similar companies have historically had limited access to advanced research capabilities. To address this gap, UNIST has opened its research infrastructure to industry partners through open laboratories for collaborative R&D, access to the UNIST Supercomputing Center, and shared use of advanced research equipment and prototyping facilities. Together, these resources provide companies with a one-stop platform for analysis, validation, prototype development, and commercialization. "In many cases, regional SMEs operate within large supply chains, yet lack their own R&D capacity," President Park explained. "Our goal is for UNIST to serve as the intellectual engine that supports these companies, helping them adopt advanced technologies and drive innovation." Expanding AI-Driven Innovation Across the Busan-Ulsan-Gyeongnam Region UNIST's vision extends beyond Ulsan to the broader BUG region, which represents one of Korea's largest and most strategically important manufacturing clusters. The university aims to serve as the central hub for AI innovation in the southeastern region of Korea, enabling regional industries to adopt and integrate advanced technologies more rapidly. A key component of this strategy is the UNIST Novatus Graduate School, established in 2025 to provide advanced education for working professionals in emerging technologies. Through this, UNIST offers specialized training designed to help industry professionals apply AI directly within real industrial environments. "Our goal is to ensure that AI transformation spreads across the region and becomes a practical tool for industry—not merely a concept," President Park said. The opening ceremony for the Novatus Graduate School took place at the Pioneers Campus on September 3, 2025. Beyond Nobel Prizes—Nurturing Pioneer-Driven, Nobel-Caliber Talent Looking ahead, President Park believes universities must focus not only on academic achievement, but also on cultivating individuals capable of connecting scientific discovery with real-world innovation. "Rather than simply producing Nobel Prize winners, we must cultivate people like Alfred Nobel—innovators who connect scientific discovery with industry and society," President Park said. According to President Park, this requires educational systems that emphasize insight, creativity, and entrepreneurial thinking, preparing students to navigate an era of rapid technological transformation. UNIST is therefore exploring new methods to evaluate teaching effectiveness and ensure that its educational programs equip students with the capabilities needed for the future. Diagram of the UNIAI system configuration. | Image Credit: IT Strategy Team UNIST is also advancing its 'AI-Powered Campus' initiative by applying AI technologies within its own institutional operations. In November 2025, UNIST launched UNIAI, Korea's first generative-AI platform developed internally. The system provides chatbot-based assistance that helps students, faculty, and staff navigate complex campus regulations and administrative processes. Earlier AI initiatives have already delivered measurable efficiency gains. For example, AI-assisted processes reduce the review time for technology-transfer contracts from one month to a single day. "Universities must lead by example," President Park said. "By embedding AI in our own operations and education, we can drive broader innovation in both academia and industry."
2026-02-28
JooHyeon Heo
695
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