경희대학교

Academics

Kyung Hee University Inaugurates Pangyo VI Campus

Offering diverse support programs to ensure the successful growth of resident companiesA new industry-academic cooperation platform where university research, education, and industrial sites meet The opening ceremony for the Kyung Hee Pangyo VI (Venture Incubating) Campus was held on Thursday, March 19. This campus is a networking space for startup support and regional innovation, established through a partnership between Kyung Hee University and SoulBrain, a company specializing in semiconductors. The ceremony was attended by key figures including President Jinsang Kim; Eun Yeol Lee Provost (Global) and Director of the RISE Project Group; Een-Kee Hong, Head of the University-Industry Cooperation Team and Dean of Research; Young-Soo Park, CEO of SoulBrain; and Weon-kyung Kim, CEO of the Gyeonggi Center for Creative Economy & Innovation. Participants gathered for the opening ceremony of the Kyung Hee Pangyo VI Campus. The campus serves as a new industry-academic cooperation platform where university research, education, and industry converge. “A Stepping Stone for Future Industry Talent and Technological Innovation” Located within the SoulBrain headquarters in Pangyo 2nd Techno Valley, the Kyung Hee Pangyo VI Campus is set to establish itself as a hub for the regional economy by encouraging startups among university members and local residents. With support from the Gyeonggi RISE (Regional Innovation System & Education) project, Kyung Hee has developed its own specialized startup support ecosystem. Building on this foundation, the university will select resident companies—primarily those designated as “G7” (Gyeonggi Province Focused Growth Startups)—and operate a variety of support programs to ensure their successful growth. Together with Kyung Hee, SoulBrain plans to pursue joint industry-academic research projects and invigorate technology-based entrepreneurship. In particular, both institutions look forward to fostering a startup ecosystem in fields where they share significant strengths, such as advanced materials, semiconductors, and AI. President Jinsang Kim remarked, “The convergence of university and industry capabilities will serve as a stepping stone for innovation in future industries.” At the opening ceremony, President Kim proclaimed the vision for the Kyung Hee Pangyo VI Campus, noting, “Advancements in science and technology are transforming human society at an unprecedented pace. In this period of ‘Great Transformation,’ Kyung Hee is striving to develop its own unique innovation model.” He emphasized the campus as a key part of this innovation “where university research, education, and the industrial field converge to create a new value for the future.” He added, “By combining the strengths of the university and the industrial sector, this campus will serve as a stepping stone for cultivating talent and driving technological breakthroughs in future industries like AI and semiconductors, positioning itself at the very center of change and innovation.” In his congratulatory remarks, Park, CEO of SoulBrain stated, “As the pace of technological innovation accelerates, the importance of securing top-tier talent and research collaboration is greater than ever. Now that Kyung Hee University’s research prowess has met the innovation ecosystem of Pangyo, I hope this campus becomes a central hub for future industrial sectors.” Kim, CEO of the Gyeonggi Center for Creative Economy & Innovation added, “I hope this space allows startups, corporations, researchers, and students to connect and grow together, serving as the starting point for leading South Korea’s future industrial competitiveness.”

2026.04.20

Academics

Bringing Science Museums to Life with Immersive Media

Team “In-cureactive” won the Minister of Education Award at the WE-Meet Project Competition for developing XR-based educational content specifically designed for science museums. Immersive Media Team Wins Minister of Education Award in WE-Meet Project Creating Synergy Through Interdisciplinary Collaboration for XR Science Museum Exhibits The “In-cureactive” team—composed of Sungmin Yoon (Electronic Engineering, ’21), Kihyun Park (Digital Contents, ’21), Yeoni Seo (Theater and Film, ’23) and Sara Lee (Taekwondo, ’23)—has been awarded the Minister of Education Award at the WE-Meet Project Competition. This nationwide industry-academic event is co-hosted by the Ministry of Education and the National Research Foundation of Korea and serves as a flagship program for the College of Immersive Media Innovation Convergence, a part of the Convergence and Open Sharing System (COSS). The team developed “XR-based Education Content for Science Museums,” a competitive game where visitors create molecules by touching chemical symbols displayed on the walls. The content supports up to six simultaneous participants and features an adaptive interface that recognizes the height of the user’s touch, ensuring a seamless experience for both children and adults. By utilizing an XR CAVE (Cave Automatic Virtual Environment) system—which integrates the side walls, center screen, and floor—the project offers a fully immersive experience. This innovation effectively transforms static exhibition spaces into dynamic, multi-user edutainment hubs. Q. How does it feel to receive the Minister of Education Award? Sungmin Yoon (hereafter Yoon): We didn’t start this project with the specific goal of winning an award. Instead, we focused entirely on identifying user needs and pain points and then finding ways to solve them. Following that logical flow of problem-solving was a deeply rewarding experience, and I think that focus is what ultimately led to this great result. Kihyun Park (hereafter Park): This was my first time experiencing the full, sequential process of a project—from initial use research to problem definition and final design. Receiving this award is especially meaningful because it feels like a validation of that entire journey. Q. What was the core problem or insight that sparked this project? Yoon: Since the competition theme was XR-based content development, our discussions led us to focus on science museum exhibition systems. We noticed that while many museums are equipped with high-tech hardware like LiDAR sensors for large-scale displays, visitors often remain passive observers, simply looking at the screens. Sara Lee (hereafter Lee): To address this, we planned interactive content that leverages existing systems while maximizing educational impact. This led us to our final direction: a chemical bonding experience where visitors actively participate to grasp scientific concepts. Q. What specific problems did you uncover during the user research phase? Lee: We visited museums in person to conduct surveys and interviews. Through this process, we confirmed that long wait times for experiential content and displays that focused purely on visual effects resulted in low participation. Furthermore, because the primary users are children with varying heights, the existing systems often struggled to accurately recognize their interactions. Yeoni Seo (hereafter Seo): To solve these issues, we designed gamification content that allows users to learn educational material through gameplay. We put a lot of thought into an interface that even young children—our main target audience—could use easily. We also designed the experience to accommodate more participants within a set time limit to significantly reduce the wait times noted during our research. Q. What challenges did you face during the implementation phase? Yoon: Since it was everyone’s first time actually developing content using an XR CAVE system, there were definitely hurdles. We received assistance from partner companies for the initial display calibration and touch system setup, and then we built the actual content on top of that foundation. Park: We put a lot of thought into the UX (user experience) design so it would be accessible to all ages, from children to adults. We designed the interface so that element symbols would appear only near the area where a player touches the wall. This allowed interaction to happen naturally regardless of the user’s height. Lee: We focused on making the content as user-friendly as possible. This involved careful level design to ensure the game wasn’t too difficult. We also worked on the “world-building” aspects—creating a laboratory atmosphere with specific background music, sound effects, and props—to help users feel fully immersed in the experience. Seo: While the team members didn’t have extensive development experience and all came from different majors, that diversity actually created a greater synergy. We divided roles based on our individual interests and academic backgrounds. Sungmin Yoon handled content development, Kihyun Park managed UX design, Sara Lee took charge of planning, and I used my background in Theater and Film to develop the scenario and narrative. Though each team member pursued the Immersive Media Convergence major for different reasons, they divided their responsibilities to align with their individuals interests. Q. What sparked your interest in the Immersive Media Convergence major? Seo: I used to think that theater/film and immersive media were entirely separate fields. However, after taking Professor Tack Woo’s “Introduction to Computer Games” course, I realized there are deep connections between immersive media and cinematic visuals. This naturally led to an interest in XR and AI technologies, prompting me to choose this major. My goal is to combine my Theater and Film major with immersive media to create entirely new types of content. Lee: My interest in game planning grew through my activities in the game development club, “Ludens.” Seeing the process of a plan being transformed into actual content made me think more specifically about my career path. I applied for the Immersive Media Convergence major because it allows me to learn planning, development, and design all at once. Yoon: I’ve always believed that XR and VR are fields with immense future potential. As hardware and communication technologies rapidly evolve, I wanted to contribute to realizing truly immersive media that transcends current technical barriers, such as limited immersion and low interaction levels. Park: While studying UX design, I found it fascinating that there are no standardized user experience patterns in XR and AR environments yet. I wanted to take on the challenge of defining how users interact within these new technological landscapes. Q. What are your goals for the future? Seo: I want to grow into a convergence-oriented talent who understands planning, development, and design alike. My ultimate goal is to create entirely new forms of content by merging my theater and film background with immersive media. Park: I’ve realized how vital it is to have a broad understanding of technology, design, and even business strategy. I plan to study these fields abroad in the future to gain a wider range of international experience. Yoon: My goal is work in the R&D of VR and XR devices. I want to develop technologies that enable highly immersive interactions. Lee: Through this project, I’ve gained certainty in my goal of becoming a game planner. I want to create content that delivers fresh, innovative experiences to users all around the world. Q. Any words of advice for students considering the Immersive Media Convergence major? Park: The Convergence and Open Sharing System (COSS) offers an excellent curriculum and a diverse array of practical training content. Through project-centered classes, you can build your real-world content development capabilities. On top of that, there are various programs like credit exchanges with other universities and overseas training opportunities, so you can truly gain as much as you are willing to pursue.

2026.04.06

Academics

“Developing Quantum Research into a Kyung Hee Brand”

The International Center for Quantum Matter (ICQM) received an in-kind donation of quantum research equipment from Femto Science Inc. A donation ceremony was held on Monday, January 12, at the University Administration Building on the Seoul Campus. Femto Science Inc. Donates 800 Million KRW Worth of Quantum Interface Control Equipment In-Kind Strengthening Cooperation in Quantum Device Research with the International Center for Quantum Matter (ICQM) Gaining Momentum in 2D Quantum Material Device Development with the Goal of Establishing an AI-Based Smart Fab Femto Science Inc., a holder of original plasma technology utilized in semiconductor manufacturing, has donated quantum interface control equipment valued at approximately 800 million KRW to the International Center for Quantum Matter (ICQM). Following this donation, both organizations intend to maintain a continuous partnership in the field of quantum device research. The donated equipment will be used for the precise control and analysis of interfaces, which are critical to the performance of quantum devices. An interface is the boundary where two different materials meet; the movement of electrons changes depending on the state of this boundary. These microscopic, invisible differences at the interface serve as a core factor in determining the stability and performance of a device. The introduction of this equipment is expected to significantly enhance research capabilities for next-generation quantum devices, including 2D quantum materials. Quantum devices, which utilize the unique properties of quantum matter to process information or control signals, are emerging as essential components for future computing and sensor technologies. The donation ceremony was held on Monday, January 12, at the University Administration Building on the Seoul Campus. Attendees included President Jinsang Kim, Provost Eunlim Chi, Dean Do-kyun Kim of the Office of Development & External Affairs, Dean Young-Kyun Kwon of the College of Science, and Professor Seok-Kyun Son of the Department of Physics. Representing Femto Science Inc. were CEO Moo-Hwan Kim and Advisor Dae-Hyun Kim. CEO Moo-Hwan Kim shared the vision behind the donation, stating, “As we expand our reach from semiconductor process technology into the field of quantum research equipment, we hope this collaboration with Kyung Hee University’s distinguished researchers will serve as a catalyst for mutual growth.” He added, “At this new technological turning point where quantum science, next-generation semiconductors, and AI technology converge, I hope our cooperation leads to meaningful achievements.” President Jinsang Kim remarked, “The adoption of AI and the development of new manufacturing process algorithms are core elements for the advancement of the quantum field, and these future industries begin in the laboratory.” He continued, “Quantum science is one of the six strategic focus areas currently being promoted by Kyung Hee. Our research collaboration with Femto Science, a company with core semiconductor process technology, is particularly significant as both institutions are pursuing a common goal.” He added, “We will provide unsparing support for cultivating the research environment and expanding infrastructure to ensure that the partnership between our two organizations continues to flourish.” Professor Seok-Kyun Son, Deputy Director of ICQM, stated, “Among various quantum materials, we plan to prioritize the development of devices based on 2D materials.” He further explained, “Our long-term goal is to establish a ‘Smart Fab’ where the entire process—from device fabrication and processing to measurement—is integrated and executed through AI, while researchers focus on monitoring the system.” He concluded by sharing his aspirations: “Through an open Smart Fab shared with external research institutes and universities, we aim to develop quantum research into a signature brand for Kyung Hee University.”

2026.02.23

Academics

Bridging the Education Gap with Artificial Intelligence

The “KHU-reka” team, composed of graduate students from the Department of Computer Engineering, received the Grand Prize (Minister of Science and ICT Award) at the K-Digital Challenge: NET Challenge Camp Season 12 hosted by the National Information Society Agency. Graduate student team from the Department of Computer Engineering wins the Minister of Science and ICT Award in the K-Digital Challenge by developing an AI-based education content creation service to improve accessibility in learning The “KHU-reka” team, composed of graduate students from the Department of Computer Engineering, won the Grand Prize (Minister of Science and ICT Award) at the K-Digital Challenge: NET Challenge Camp Season 12, hosted by the National Information Society Agency. This competition utilizes KOREN (Korea Advanced Research Network)—established to verify the development and results of application services and related technologies for high-speed networks—to develop innovative ideas in the field of Artificial Intelligence (AI) and network convergence while exploring their potential for commercialization. Ten teams competed in the final round of the competition. Generating intuitive visualization materials for complex mathematics and science subjectsUtilizing the high-speed network and High Performance Computing (HPC) resources of KOREN, the team developed “VizClass: Real-Time AI Educational Content Audio-Visual Interpretation Service.” This service automatically analyzes and visualizes the educational content requested by the user. VizClass was designed to narrow the education gap caused by regional and income disparities and to lower the barrier to entry in the science and engineering fields. Haeun Woo, the team leader, explained the motivation behind the service: “The gap in accessibility to educational resources between metropolitan and non-metropolitan areas persists, and the disparity in private education expenses according to income levels is increasing. Mathematics and science, in particular, involve complex and difficult concepts, leading to a significant gap depending on the learning environment.” VizClass is built upon three core technologies: customized commentary video generation, parallel Script2Video technology based on visualization points, and real-time video data streaming via the KOREN network. When a learner uploads educational materials, AI analyzes them to generate a commentary script and extracts visualization elements for each section to automatically produce an explanatory video. The entire process is handled through a real-time, automated system implemented as a web application. Data analyzed by AI is transmitted via the KOREN network to a high-performance computing center, where it is processed by a parallel computing-based video generation module. Once complete, the video is organized sequentially using controller-based scheduling technology and provided to the user through real-time streaming. This approach has more than doubled the processing speed and simultaneous performance compared to traditional sequential processing methods. Team member Jiseung Bae noted, “Thanks to KOREN, we were able to conduct development in a stable and fast network environment. We hope that in the future, students in underserved areas will also be able to access lag-free video content through the high-speed KOREN network.” VizClass service diagram Expanding the AI commentary ecosystem from textbook explanations to academic papersExisting education AI technologies have primarily focused on problem recommendations or text-based explanations. In contrast, VizClass utilizes AI to analyze learning materials, automatically extract visualization elements, and generate educational videos based on that data. Team member Sumin Son stated, “Beyond the basic concepts found in current textbooks, we plan to expand into an AI commentary ecosystem by supporting the visualization of advanced learning materials, such as academic papers, in the future.” The performance of VizClass was verified through practical testing by comparing a standard internet network with the KOREN network under identical conditions. The results showed that processing time for a single request was reduced by approximately 45.3% compared to the standard network, and generation time improved alongside video length. The number of simultaneous connections also increased on KOREN, enabling stable service even in high-quality video streaming environments. The service development process resulted in three research papers presented at international and domestic academic conferences, and the technologies related to VizClass have been officially registered as software with the Korea Copyright Commission. Additionally, the team received the SK Broadband Award, a special category prize. As a benefit of this award, team members will receive preferential screening and bonus points when applying for employment at SK Broadband.

2026.02.09

Academics

Interdisciplinary Education at Kyung Hee Produces Presidential Science Scholar: Minjae Kim

Student Minjae Kim (Software Convergence, ’19) has been selected as a 2025 Presidential Science Scholar, a prestigious national scholarship jointly administered by the Ministry of Science and ICT and the Korea Student Aid Foundation The Presidential Science Scholarship is one of Korea’s most competitive programs designed to identify outstanding science and engineering students at an early stage and support their continued academic and research development. Recipients receive full tuition coverage through graduation, along with a semester-based stipend to support academic activities. Student Kim was selected in recognition of a broad portfolio of engineering achievements, including the development of an educational drone platform, participation as an inventor in a patented electric vehicle (EV) charging payment system, and hands-on industry experience in the security and mobility sectors. Beyond individual technical outcomes, evaluators noted the consistency of his research direction, which centers on the concept of user-centered public technology—the application of engineering solutions to real-world societal needs. Educational drone platform and patented EV charging system innovation One of Student Kim’s representative projects is the development of easyDrone, an educational drone platform designed to move beyond one-time, toy-based drone experiences. The platform enables students to assemble drones themselves and engage directly with coding, transforming drones into reusable educational tools rather than disposable learning devices. Featuring a modular structure and an intuitive interface, easyDrone was designed for accessibility by elementary and middle school students. The project’s potential was recognized through its selection for commercialization support under the Korea SMEs and Startups Agency’s K-Unicorn Startup Academy program. His technical work later expanded into the field of electric vehicle charging infrastructure. While working as a researcher at a security and mobility company, Student Kim proposed improvements to EV charging payment systems and was registered as a co-inventor on a company-held patent. The technology integrates multiple charging cards and pricing schemes into a single digital wallet and automatically recommends the most suitable payment option based on predefined conditions. The system was validated through user-based testing in connection with a demonstration project under the Ministry of Trade, Industry and Energy’s Energy Technology Development Program. Interdisciplinary education linking ideas to practical problem solving Student Kim attributed the continuity of these research activities to the structured interdisciplinary curriculum of the Department of Software Convergence. “Courses such as data analysis and software convergence capstone design changed the way I approach problems, helping me study social issues and think about how scientific ideas can be applied to address real-world challenges through software,” he said. “Working across different industries and software applications also allowed me to take a more proactive role in shaping the direction of my academic and career path.” Currently, Student Kim is continuing research with the goal of pursuing graduate studies in UX/HCI and entrepreneurship. Building on his background in data structures, user behavior analysis, and software design gained through the department’s data science track, he aims to focus on research that contributes tangible value to society. “This support gives me the space to focus more seriously on research that I believe can contribute to society,” Student Kim concluded.

2026.02.02

Academics

Turning Marine Waste into Material, Light, and Form: Crafted from Recycled Oyster Shells

Comprised of Students Chansol Choi, Donghwa Jeong, Geon Park, and Yujin Lee, OOZZ was launched in 2024 with support from Korea’s Preliminary Startup Package program for young entrepreneurs. Since its founding, the team has focused on material-driven design rooted in environmental responsibility, presenting its work at major design exhibitions including the Seoul Design Fair and design fairs in Tokyo. This year, OOZZ collaborated with Professor Youbin Kim of the Department of Industrial Design to develop SOLEIL, a living-space object brand that treats recycled material not as an alternative, but as a primary design condition. The project was carried out through an industry–academia partnership with GreenOceans, a startup that developed MikaOceans, a water-soluble resin derived from discarded oyster shells. By combining MikaOceans with biochar-infused concrete, OOZZ created a collection of four living-space objects: three lamps and a side table. Rather than concealing the material’s origin, the designs foreground its mineral texture and surface irregularities, allowing the physical residue of marine waste to remain visible as a defining visual element. Soleil: a living-space object brand defined by unique recycled material The DDP Design Fair University Collaboration Program brings together design students and domestic industry partners to develop and exhibit fully realized products. Finalists are selected through evaluations by experts, peers, and the general public at the Young Designer Exhibition. Among 19 university teams from the Seoul metropolitan area, OOZZ received the highest overall evaluation. Under Professor Kim’s guidance, OOZZ developed four products—three lamps and a side table—drawing on modernist architectural references and the structural qualities of oyster shells. The team explored reduced forms, vertical compositions, and controlled apertures, focusing on how material behavior could inform both form and function. Through repeated experimentation with material combinations and fabrication methods, OOZZ strengthened not only its design sensibility but also its technical understanding of real-world production constraints. These efforts led to a material-related patent application and the publication of academic research—steps that helped strengthen understanding of, and confidence in, eco-friendly materials. The SOLEIL brand draws from the architectural concept of brise-soleil, a façade-based shading system that redirects incoming sunlight to improve thermal comfort. Reinterpreting this architectural logic at the scale of domestic products, the team employed controlled light paths and carefully calibrated surface depth. The products were refined through accumulated lighting data and ongoing dialogue with mentors and industry experts. Toward credible, material-based sustainability OOZZ’s long-term goal is to expand the everyday use of sustainable materials by establishing their design credibility. “As eco-friendly materials continue to diversify, designers play a key role in shaping how they are perceived,” said Student Chansol Choi. “When the inherent characteristics of these materials are properly understood and applied, public perception can shift naturally. OOZZ intends to contribute at a critical point in that process.” Professor Youbin Kim emphasized the broader significance of the project. “As ESG and the SDGs become central social agendas, sustainable design education is increasingly important,” she said. “SOLEIL is the result of practice-oriented education combined with students’ commitment. It demonstrates how design can translate social values into tangible form.”

2025.12.29

Academics

Reframing Job Readiness: A Three-Dimensional Competency Model

A faculty member from the Office of Career Development, in collaboration with undergraduate students, has developed an artificial intelligence–based platform that assesses job readiness using a three-dimensional competency model The platform, named Pertineo, derives its name from a Latin word meaning “to be relevant.” Once users enter their background information, the system evaluates job fit and potential by integrating employment outcome data with real-time web-based information. Pertineo analyzes competencies across three axes—learning level, job suitability, and performance capability—to generate a three-dimensional profile. The resulting profile is then used to reorganize users’ experiences in line with company-specific job descriptions, talent criteria, and current industry trends. Professor Yang-Soo Kim of the Office of Career Development, who led the platform’s design, emphasized that Pertineo is intended to strengthen the link between experience and actual job performance. “Pertineo connects applicants’ experiences directly to expected job outcomes, allowing for self-introduction statements that demonstrate clear criterion-related validity,” he said. “This enables employers to identify candidates who are better aligned with real workplace demands, while helping applicants articulate their experiences more clearly and substantively throughout the hiring process.” Competency analysis based on three axes The three-dimensional model is structured around learning level, job suitability, and performance capability. Learning level reflects industry-relevant learning experiences and is designed to capture the technical skills and expertise required in real workplace settings. Job suitability is evaluated in relation to a company’s strategy, direction, and desired talent profile. Performance capability relies on quantitative indicators to estimate potential job performance after employment. Users can review the results through visualized data generated by the 3D competency model and receive guidance on how to improve weaker areas. The platform is available free of charge to all enrolled KHU students. Those who secure employment may also apply for career counseling and interview coaching through the Office of Career Development. Development of Pertineo began when Student Seungpyo Hong (Computing), encountered Professor Kim’s idea during a university-run co-curricular program and proposed implementing it using artificial intelligence. His proposal marked the starting point of the project, which later grew into a collaborative effort with Students Wonjin Kim and Byeongmin Kwak (Computing), as well as Student Hyolim Kim (Digital Contents). Student Wonjin Kim, who worked on AI-based functionalities, said the biggest challenge was narrowing the gap between concept and implementation. “An idea can sound complete on paper, but making it work at a level that practitioners would actually accept was a different matter,” he said. “Because this platform is meant to be used in real settings, we spent a long time testing it with diverse datasets to make sure unexpected problems wouldn’t emerge later.” For Student Byeongmin Kwak, who participated in front-end development, usability was the primary concern. “We kept asking ourselves how users would feel at each step,” he said. “Working closely with designers helped us rethink how data should be processed and presented so that the platform feels intuitive rather than overwhelming.” Student Seungpyo Hong, who led back-end development, described the pressure that came with building a live service. “This wasn’t a class assignment or a competition project,” he said. “Knowing that real users would rely on the platform made reliability a constant concern, especially when working on authentication and AI streaming functions.” Following a pilot testing phase, Pertineo was officially launched in the second semester of the 2025 academic year. As corporate recruitment processes began in September, students started using the platform in real hiring contexts. The student developers shared a common perspective shaped by their own job-search experiences. “As students on the front lines of the job market, we understand how uncomfortable it can feel to share personal career histories,” they said. “By lowering the barriers to career consulting, we hope Pertineo can be used as a practical support tool—one that students feel comfortable turning to, rather than pressured by.”

2025.12.29

Academics

Innovation Toward the Future of Medicine: Kyung Hee University Medical Center Leaps Forward!

“A disease-free human society” has been the guiding aspiration of Kyung Hee University Medical Center since its establishment in 1971 As the avenue of praxis for the founding philosophy of Creating a Civilized World, the University committed itself to the advancement of human health. More than half a century later, this mission remains the bedrock of Kyung Hee University Medical Center. In dialogue with the flow of history, Kyung Hee University Medical Center continues to reflect on internal and external environmental changes, anticipate the future, and fortify a patient-centered, research-driven, and innovation-focused system. The spiritual foundation for a new leap forward toward the future of medicine has now been firmly established. Top 2% of tertiary care hospitals, "A hospital patients can trust" On October 30, 2025, Kyung Hee University Medical Center (hereafter Kyung Hee Hospital) received the highest rating of "1-A" in the Medical Quality Evaluation announced by the Ministry of Health and Welfare. Among 373 tertiary and general hospitals nationwide, the Hospital ranked in the top 2% of tertiary care hospitals, affirming its reputation as a "hospital patients can trust." In this evaluation, the Hospital received the highest rating in patient safety, quality management, and public service. Recent innovations in the medical system, including strengthened treatment for severe and rare diseases, expansion of essential medical services, and the introduction of customized radiation cancer treatment, were all positively reflected in the result. The Hospital is reorganizing its entire clinical system around the patient, creating an environment in which patients feel secure throughout the entire course of treatment. This embodies Kyung Hee’s philosophy of expanding the essence of medical care into a journey of healing experience. Building an integrated platform for future medicine, certified as a research-oriented hospital Kyung Hee Hospital has also demonstrated leadership in future medicine through its research capabilities. In March of this year, it received certification as a Research-Oriented Hospital from the Ministry of Health and Welfare. The Hospital was highly recognized for fostering a productive environment for convergent research and establishing a sustainable research-support system. This achievement is supported by an unparalleled interdisciplinary collaboration structure that brings together the Colleges of Medicine, Dentistry, Korean Medicine, Pharmacy, and Nursing Science. A dedicated research planning team develops and executes the Hospital’s mid- to long-term research strategy. In collaboration with affiliated laboratories, the Hospital is advancing multidisciplinary convergent projects including medical-materials research and precision-medicine data analytics, thereby constructing an integrated platform for the future of medicine. Expertise and public responsibility proven by national policy leadership and global evaluations Kyung Hee Hospital’s commitment to innovation in medicine is also validated in international evaluations. Major departments ranked prominently in Newsweek’s "Best Specialty Hospitals in Asia-Pacific" and "Best Specialty Hospitals in the World" evaluations in June and September of this year. The Department of Orthopedics ranked 23rd globally and 5th in the Asia-Pacific region, while the Department of Endocrinology ranked 28th globally and 13th in the Asia-Pacific, demonstrating both clinical capabilities and specialty expertise at a global level. Kyung Hee Hospital was also selected in October 2024 for the first round of the Top-Level Tertiary Care Hospital Restructuring Support Project, a key national initiative to normalize the healthcare system by transitioning top-level general hospitals into regional hub centers specializing in intensive and emergency care. Only eight hospitals nationwide were selected in the first round. Kyung Hee Hospital is reducing its general bed count from 758 to 684 and expanding its ICU and emergency-medical infrastructure, thereby establishing a hospital structure focused on essential medical care. To ensure the seamless operation of the ICU and emergency care system, the Hospital has also strengthened its clinical cooperation network. This restructuring carries major significance: it marks a shift away from competition for hospital bed expansion toward a healthcare delivery model centered on improving patient health and enhancing healthcare quality. Through this initiative, , Kyung Hee Hospital is building a sustainable, community-linked medical ecosystem and fulfilling the inherent public responsibility of healthcare. "People-centered innovation": the core calling of a medical institution Domestic and international evaluations and project selections are not ends in themselves; they embody a model for the future direction of medical institutions. The highest rating in the Medical Quality Evaluation, certification as a Research-Oriented Hospital, top rankings in patient-experience evaluations, and global specialty-hospital recognitions all stem from a single philosophy: people-centered innovation. President Joo Hyeong Oh of Kyung Hee University Medical Center stated, "As we enter a period of civilizational transition, medicine itself is also changing. Kyung Hee Hospital must build a culture rooted in exemplary research, strengthen expertise of our medical staff, and the fulfillment of our social responsibilities, grounded in our practical mission to care for and nurture the lives entrusted to us as a medical institution." He added, "This achievement, earned amid numerous challenges, reflects the history and dedication of Kyung Hee Hospital. We will continue to carry forward the history and philosophy of Kyung Hee and strive to become a medical institution that leads the future of medicine." Kyung Hee Hospital is leveraging cutting-edge technology and data to enhance the efficiency of medical care while fostering a culture of practice that offers patients deeper trust and stability. This is a lived demonstration that the essence of medicine lies not only in treatment but in protecting the dignity of human life. Going forward, the Hospital will continue to pioneer the future of medicine by building an integrated medical ecosystem where research, treatment, and education are organically connected, rooted in Kyung Hee’s philosophy.

2025.12.03

Academics

Four Kyung Hee Professors Selected as Global Top 1% Highly Cited Researchers (HCRs)

Professors Chulmo Koo and Namho Chung of the Smart Tourism Education Platform (STEP), Jin-Woo Bae of the Department of Biology, and Choong Seon Hong, Professor Emeritus of the Department of Computer Science, were named among the 2025 Highly Cited Researchers (HCRs) by Clarivate Analytics Kyung Hee’s four HCR selections place the University third among private comprehensive universities in Korea. The University continues to lead the country in the social sciences, producing the highest number of HCRs in this category with Professors Chulmo Koo and Namho Chung. Professor Koo is widely recognized as the first scholar to define the concept and scope of smart tourism. His seminal 2016 paper, “Smart Tourism,” is credited with establishing fundamental research guidelines for the field amid rapid advances in artificial intelligence and information technology. Professor Koo continues to focus on sustainable smart tourism and hospitality education platforms. Professor Chung has published over 200 papers in domestic and international academic journals. His main research areas include information technology management, tourist behavior & psychology, and tourism information. He is also extending the study of consumer information systems and knowledge-sharing activities to the hotel and tourism sectors. Professor Jin-Woo Bae was selected in the Cross-Field category. He drew significant academic attention for discovering gut microbes capable of improving obesity and diabetes. Professor Bae has since broadened his work to include viral ecology, expanding the frontier of microbiome research. Professor Choong Seon Hong was selected in the Computer Science category in recognition of his research on resource management and machine learning for wireless networks. He has published more than 300 articles in leading international journals. In 2024, he was named a Fellow of the IEEE, the world's most prestigious electrical, electronic, computer, and communications scholarship, and received the Grand Prize of the Undang Academic Award, the highest academic honor in Korea’s ICT field. Sustained outcome of long-term research-support policy In another international benchmark of research excellence, Stanford University and Elsevier, a global academic information analysis company, annually announce the Top 2% of Researchers in the World, based on lifetime citation impact and the impact of the most recent year. Kyung Hee currently has 62 researchers listed for lifetime impact and 120 for the past year, marking the University’s highest representation to date. In 2025, Kyung Hee set new institutional records by producing its highest number of both HCRs and Top 2% researchers, further demonstrating world-class research capability. This achievement carries particular significance, as all selected faculty members have grown into distinguished scholars under the University’s sustained emphasis on research support, which has resulted in strengthening the capabilities of its members and fostering a stable research ecosystem across all stages of academic life, from new appointments to retirement. "We will strive to create world-class research excellence." Kyung Hee's research-support policies for research and innovations have translated into strong international standing. In the 2025 THE World University Rankings, the University ranked 252nd globally and 5th among comprehensive universities in Korea, earning high marks particularly for research quality. In the 2025 QS Asia University Rankings, Kyung Hee ranked 39th in Asia, with consistently strong scores across all categories, including research output and quantitative data. The University will continue enhancing its research-support infrastructure to drive the multifaceted growth of faculty members into leading scholars and to advance international collaborative research with eminent academics. We will actively promote global joint research efforts both on and off campus, and reinforce support for researchers who demonstrate exceptional academic quality. We will also continue to recruit faculty with world-class capabilities and ensure the sustained cultivation of the next generation of scholars so that research excellence becomes a defining and enduring hallmark of Kyung Hee. President Jinsang Kim stated, "Kyung Hee is walking the path of Academe and Peace as a true university of future, a leader in this era of civilizational transition. These results show that our rising academic stature is now being recognized internationally. We are committed to continuously recruiting outstanding researchers and fully supporting both established and emerging scholars across our community in interdisciplinary collaboration to generate world-class research excellence."

2025.12.03

Academics

Kyung Hee Nuclear Engineering Students Continue to Win Honors at International Conferences

Two graduate students from Kyung Hee’s Department of Nuclear Engineering have recently earned international recognition for their outstanding research. Student Min Seek Kim won first place in the Bachelor’s and Master’s category of the American Society of Mechanical Engineers (ASME) Pressure Vessels & Piping (PVP) Division, while Student Do Yeon Lee received a graduate scholarship award at Structural Mechanics in Reactor Technology (SMiRT) Both students are in the fourth semester of the master’s program and conduct their research in Professor Yoon Suk Chang’s laboratory in the Department of Nuclear Engineering. Student Min Seek Kim presented a study titled “Numerical Analyses for Derivation of New Control Rod Replacement Criteria,” which examines the structural integrity of reactor control rods. As nuclear power plants operate more flexibly and at higher output, control rods undergo repeated insertion and withdrawal, increasing the risk of wear and structural degradation. His work addresses this problem by proposing safer, data-driven replacement criteria for worn control rods. Flexible operation and advanced reactor development In this study, Student Kim performed a series of numerical simulations on representative wear defects observed in the control rods of standard Korean nuclear power plants. By varying parameters such as defect type, length, depth, and contact angle (wrapping angle), the analysis quantified how each geometric parameter affects integrity. “Based on the finite element results, I proposed replacement thresholds for each defect type and geometry,” he said. “These findings can support safe reactor operation and long-term control-rod life management.” Student Do Yeon Lee presented a study titled “Creep Crack Growth Evaluation of SFR Pipe Using an Extended Damage Mode,” which addresses material reliability in fourth-generation nuclear reactors. In these next-generation systems, typical operating temperatures fall within the creep-sensitive range, meaning that structural components can gradually deteriorate due to creep crack growth. A reliable method for evaluating this behavior is therefore critical for safety. Student Lee incorporated creep effects into the Gurson-Tvergaard-Needleman (GTN) fracture model to develop and validate an extended damage model. Focusing on piping in a Sodium-cooled Fast Reactor (SFR), Lee analyzed how initial crack geometry influences creep crack growth and quantified the time required to reach allowable crack lengths suggested in prior studies. “These results can serve as baseline data for structural reliability in nuclear power systems and help establish inspection criteria for crack evaluation in reactor piping,” he said. Kyung Hee Graduate Program trains experts in advanced reactor technology The two students said that the strong research culture in their lab—including active encouragement to submit work to international conferences—helped them pursue ambitious projects early in graduate school. “In graduate school, I’ve learned what it means to take ownership of a research topic and drive it forward,” Student Lee said. Both students gained early research experience as undergraduates at Kyung Hee and went on to pursue master’s degrees in the Department of Nuclear Engineering. The nuclear industry is entering a period of renewed innovation, from small modular reactors (SMRs) to Generation-IV reactor systems, and Kyung Hee students are already working in that space, not just reading about it in class. Professor Chang’s laboratory is directly involved in the design of Korean SMR systems, placing Kyung Hee’s Department of Nuclear Engineering firmly at the forefront of advanced reactor development.

2025.10.17