Research AreaConducting Research on Human-Robot Interaction Using Vision, Hearing, Speech, Gesture, and Tools to Explore Core Technologies in the Next Generation of Intelligent Robotics
Research AreaEstablishing a Research Foundation to Lead Advanced Medical Science Research and Training Excellent Medical Science Researchers with Multidisciplinary Research Capabilities
Research AreaTraining of Specialized Personnel for Next-Generation System Semiconductor Design and Practical Training of System Semiconductor Design Professionals
Research AreaDevelopment of Core Technologies for Exascale Computing Systems and Training of Personnel, as well as Research on Next-Generation Computing Architectures and Application Service Technologies
Research AreaEstablishment of Research Infrastructure and Beam-Type Centrifuge Model Testing Facilities Specialized in the Field of Geotechnical Engineering
Research AreaTraining Advanced Personnel with Integrated Theories Across Multiple Stages of Process-Design-Software-UI/UX in Semiconductor-Based System Design, and Conducting Research on Various Wearable Computers and Artificial Intelligence Computer Technologies
Research AreaSecuring Promising Future Technologies That Are the Source of Added Value in the Bioindustry Using MRI (Magnetic Resonance Imaging) Equipment, and Developing Platform Technologies Applicable to Image-Based Diagnostic Devices by Integrating AI Technologies
Research AreaResearch on High-Efficiency Low-Pollution Combustion Technologies to Respond to Carbon Dioxide Regulations and Training Talent in New Combustion Technologies for Carbon Dioxide Reduction
Research AreaResearch on the Safety and Design of New Reactors, Power Conversion Research for New Reactors, and Advanced Materials Research for New Reactors
Research AreaResearch on Exploring National Cooperation Strategies for Promoting Biotechnology by Integrating Bio-Process Engineering and Related Academic Fields
Research AreaDevelopment of Core Components for Robots, such as High-Efficiency, High-Power Electric Drive and Hydraulic Systems, and Creation of Highly Maneuverable and Reliable Humanoid Robot Systems
Research AreaPolicy research and training in disaster management, human error and organizational resilience technologies, social machine and big data-based disaster monitoring technologies, large-scale disaster response and rescue technologies, disaster data analysis and simulation technologies
Research AreaReactor core design, system design, high-performance nuclear fuel/materials development, advanced control technology, power cycle design and development, and nanotechnology
Research AreaDevelopment of a wireless charging electric bus using wireless power transfer technology and development of compact wireless charging technology for passenger cars
Research AreaDevelopment of a wearable free-form light therapy platform, research on the medical application and mechanism of the free-form light therapy platform
Research AreaComprehensive collaborative research on the implementation and application of multiscale chiral structures encompassing molecular, nanometer, and macroscopic levels
DepartmentGraduate School of Science and Technology Policy
Research AreaRecognizing the 'existential risks' that humanity collectively faces in the Anthropocene era, such as climate change, fine dust, earthquakes, urbanization, and the spread of artificial intelligence, and proposing an integrated understanding and response to these issues
Research AreaOperating and supporting collaborative programs necessary for developing technology and cultivating skilled professionals in the future semiconductor field
Research AreaDevelopment of a prototype model for human infant-level developmental cognition, and the creation of an intelligence computing model that simulates human brain activity through empirical research in computational neuroscience
Research AreaResearch on probability theory based on an analytical approach, research on artificial intelligence and machine learning based on probability theory, and research on stochastic partial differential equations
Research AreaBuilding a practical support system for small and medium-sized enterprises through the creation of an industry-academia-research innovation ecosystem to support demand-based technological innovation and activate shared R&D among SMEs
Research AreaPlanning and scenario design for digital future homes based on the three elements of a household, as well as conceptualization and development of technologies for implementing future homes
Research AreaDevelopment of Core Element Technologies for the Implementation of Lithium Metal Batteries and Creation of Prototypes of Lithium Metal Batteries Combining KAIST's Element Technologies
Research AreaDevelopment of semiconductor design technologies related to displays, such as OLED driving circuits, as well as research on artificial intelligence hardware, including AI processors and neuromorphic synapses
Research AreaDevelopment of technologies for the reuse of bio-waste resources, clean hydrogen production and utilization, and solar energy integration fusion device development technologies
Research AreaResearch on leading technologies in the semiconductor ecosystem, focusing on the foundry and packaging sectors (device-material-packaging)
Research AreaPresenting a high-speed development process centered on D sketching, combining AI and VR to lead the future robotics, protein, and mobility industries
Research AreaDevelopment of artificial intelligence models to analyze data-driven students' learning patterns and provide customized learning accordingly
Research AreaResearch on leading technologies for the joint establishment of a new AI chip platform (SW) ecosystem based on Intel's 'Gaudi' series, including AI semiconductors, AI servers, and data centers
Research AreaEstablishment of Infrastructure and Support for Core Technologies in Synthetic Biology for the Design of mRNA/DNA Pharmaceuticals and Preclinical Support, as well as Development of Facilities for mRNA/DNA Pharmaceutical Design and Preclinical Sample Production
Research AreaResearch for the development of various foundational technologies in synthetic biology, including purpose-customized chassis living technologies based on systems metabolic engineering
Research AreaDevelopment of SW+HW platforms for various decision-making and collaboration utilized in intelligent swarm systems to be applied in defense weapon systems
Research AreaDevelopment of natural spatial interface technologies to achieve efficiency and satisfaction in actual physical workspaces within XR environments
Research AreaCollaborative Research and Network Building Related to the Areas of Interest of Both Institutions: Next-Generation Biology (Sequencing and Genome Engineering), Novel Modalities, Synthetic Biology, AI & Digital Technologies for Society, and New Sustainable Materials
Research AreaEstablishment of a global top-tier smart city international cooperation and advisory network, along with research on infrastructure for collecting, processing, storing, and sharing data within cities
Research AreaResearch on Cell-Compatible Materials and Chemical Methodologies to Form Thin and Robust Shells of Living Functional Cells at the Single Entity or Specific Number Level, While Maintaining Cell Viability
Research AreaImplementation of Unprecedented Multidimensional Hybrid Nanostructures through Hierarchical Assembly of Nanostructures Using Nanostructures as Building Blocks
Research AreaConducting Pioneering Research to Develop Core Technologies for a New Concept of Mirror, the 'Time-Reversing Mirror,' Through a Physical Redefinition of 'Mirrors,' and Expanding Applications in Fields Such as Random Scattering Lasers, Holography-Based 3D Displays, and Non-Invasive Optical Surgery
Research AreaClosely Collaborating with Shipbuilding and Marine Research Institutions and Related Industries to Research and Develop Innovative Marine Systems, Secure Core Technologies, and Conduct Research and Development on Next-Generation Technologies
Research AreaResearch on the collection of high-speed property data for steel and other metallic materials, as well as polymer materials, related to production
Research AreaSupport for entrepreneurial exploration activities of university and research institute researchers to promote the commercialization of public technologies
Research AreaJoint Research on Core Technologies Across All Fields of Hyundai Heavy Industries, Including Shipbuilding, Offshore Plants, Electrical and Electronics, and Construction Machinery, and Establishment of a Mid- to Long-Term Cooperation System
Research AreaConvergence research that integrates the latest technologies in additive manufacturing, measurement and diagnostics, robotic automation, virtual production, ICT convergence system control, and logistics management with manufacturing
DepartmentCho Chun Shik Graduate School of Mobility
Research AreaBy advancing EMC design technology for hyper-connected E-Vehicles, we ensure the safety and reliability of hyper-connected E-Vehicles and play a key role in EMC design technology research
Research AreaBasic research on human functions necessary for healthcare system development, basic research on human responses to various stimuli, performance improvement of health medical assistive devices, development of new health medical assistance methods, and development of unobtrusive sensor technologies
Research AreaResearch on core technologies for e-Powertrain (electric motor-based electric power systems) and autonomy for mobile agricultural machinery
Research AreaEstablishing an organic technical standard and management system among research teams for large-scale and complex wearable robots to facilitate research and development of human augmentation wearable robots
Research AreaSetting the UX direction for mobile transactions and asset management, designing key UI, developing signature UI/GUI guidelines, researching personalized menu/home UI and interfaces, studying diversified investment method UX scenarios, and developing omnichannel (branch-linked) user scenarios
Research AreaExploration of new materials suitable for nano-assembly and development of new principles and technologies for three-dimensional nano-assembly control
Research AreaResearch on the activation of redox biocatalysts by photogenerated electrons from various organic and inorganic photosensitive materials, as well as the self-assembly control phenomena of amyloid peptides
Research AreaSecuring new antigen diagnostic foundational technology that integrates nucleic acid amplification reactions capable of implementing the accuracy of existing nucleic acid amplification tests and the simplicity of antigen tests for the rapid and accurate detection and monitoring of novel infectious disease pathogens
Research AreaDeveloping catalysts with high activity, selectivity, and durability by controlling heterogeneous catalysts widely used in the chemical industry at the atomic level and applying them to surface reactions
Research AreaResearch on Basic Technologies for Biocomputing Utilizing Biological Principles and Mechanisms, and Development of System Technologies for Biological Information Processing
Research AreaDevelopment of Core Source Technologies for Next-Generation Displays and Identification of New and Innovative Industry-Academia Research Projects
Research AreaCutting-Edge Research in Display Technologies, Specifically in OLED, Flexible Electronic Devices, and Other Emerging Semiconductor Devices
Research AreaBrain-Based Artificial Neural Network Models, Fusion Models of Symbolic AI and Learning-Based AI Technologies, Active Learning and Artificial Self Models, and Neuro-Inspired Hardware Technologies
Research AreaKey Technologies for Payloads such as Ka-Band Antennas for Nanosatellites, SAR Systems, Design of Ultra-High Precision Satellite Buses for Payload Verification, and Research on Formation Flying and Cluster Satellite Orbits
Research AreaDevelopment of artificial intelligence technology that derives decision-making based on learning and inference from real-world data, and presents the reasoning in a manner understandable to humans
Research AreaDevelopment of a Big Data Platform and Technologies for Building High-Trust, High-Usability Big Data Service Applications to Collect, Analyze, and Predict Various Real-Time Big Data with High Performance in Edge Cloud Environments
Research AreaResearch and Development of an Earable-IoT Platform for Continuous Monitoring of Users' Health Status and Providing Health Management Services
Research AreaExploring the emergence of new technologies and service changes applicable to the insurance and financial industries, such as artificial intelligence (AI), metaverse, and blockchain
Research AreaPromotion of New Large-Scale Projects Based on Multidisciplinary Convergence Technologies at KAIST and Research on Building Immersive Fire Safety Cities Utilizing Converged Data
Research AreaDevelopment of 6G Communication and Sensing Convergence Technologies for Real-Time Data Collection and Information Exchange, and Multimodal AI Technologies for Robust Data Analysis
Research AreaResearch and Development of Business Analytics Techniques and Application Strategies, as well as Research on Big Data Strategies and Policies
Research AreaResearch on Digital Assets and Investments, Operation of a Research Group on Collective Knowledge in the Digital Economy, and Proposals for Regulations and Policies Related to the Digital Economy
Research AreaResearch on Forecasting and Analyzing Technology Demand by Country Through Investigating the Technology Commercialization Environment in Developing Countries
Research AreaResearch on Failure Cases for Learning Lessons, Scaleup Content Research/Projects, and Studies on Sustainable Entrepreneurship and Innovation
DepartmentDigital Humanities and Computational Social Sciences
Research AreaBig History Modeling and Big Data Metastory Analysis, as well as the Development of Technologies for Scientific Understanding and Enhancement of Creativity and Beauty
Research AreaCollaboration support for developing key technologies for an open XR collaboration platform aimed at enhancing user collaboration quality by improving high-quality immersion and social co-presence
Research AreaThe goal is to establish a PIM (Processing-In-Memory) IP/platform, support PIM process/design technologies, and cultivate specialized research personnel in PIM
Research AreaDiscovering defense AI convergence tasks and establishing a mutual exchange and cooperation system for defense AI convergence task research personnel.
Research AreaDevelopment of future defense innovation technologies, such as artificial intelligence-based drone proximity control network research and automatic cyber warfare vulnerability analysis technology.
Research AreaEstablishment of eight strategic specialized research groups to carry out basic and applied research in the field of science and technology in the mid to long term.
Research AreaCluster-type CPS research, including ultra-precision networking technology, artificial intelligence-based collaborative control technology, and mobile ground station technology.
Research AreaOperation and Management of Stem Cell Culture Facilities and Research Support, Establishment Services for Patient-Derived Induced Pluripotent Stem Cell Lines, and Banking Services
Research AreaFormulating a Groundbreaking Hypothesis that RNA Quality Control is Crucial for Enhancing Health Span, Testing it in C. elegans First, and Validating Evolutionary Conservancy in Mammalian Cell Lines, Drosophila, and Mouse Models
Research AreaApplying a New Paradigm of 'Brain Somatic Mutations,' which are Acquired Somatic Mutations Occurring in the Brain, to Identify Novel Molecular Genetic Causes of Major Intractable Brain Diseases, such as Refractory Epilepsy, Brain Tumors, and Alzheimer's Disease
Research AreaComprehensive Research on Brain Cognition and Emotion Across All Fields (Cognition in Infants to Seniors, Learning Methods, Psychological Analysis, Socialization, etc.)
Research AreaFunctioning as a Headquarters Leading Future Arts through the Convergence of Art and Advanced Science and Technology, including New Media Art, Future Opera Performances, and Experimental Heritage, while Serving as a High-Level Interdisciplinary Creative Center that Expands the Intersection of Art, Engineering, Science and Technology, and Humanities
Research AreaResearching Future Technologies to Deliver New Experiences and Emotions in Music Performances Centered on Artificial Intelligence and Metaverse Technologies
Research AreaResearch on Post-Metaverse Applications Based on the Convergence of Various D.N.A. Technologies that Expand Computing Environments and Digital Twin-Based Virtual Augmented Reality Technologies that Extend Space and Time for Everyday Use.