Highlights

  • home_icon HOME
  • Research
  • Highlights

Total 189

Explainable AI can predict prognosis-specific genotype o...

Professor Bumseok Jeong has developed an explainable artificial intelligence model with high diagnostic performance that ...

2019-10-14

Microfluidic Smart Blood Typing by Finger Actuation

A microfluidic smart blood-typing device operated by finger actuation is reported. The blood-typing results are displayed...

2019-10-14

3-D Scene Graph: A Sparse and Semantic Representation of...

Professor Jong-Hwan Kim’s research team defined a 3-D scene graph, which represents physical environments in a sparse and...

2019-10-14

3-Dimensional Catalysts Facilitate Conversion of CO2 int...

KAIST team developed multi-stacked 3-dimensional Au catalyst architecture to enhance the electrochemical CO2 reduction re...

2019-10-14

A Novel Mechanism of Nucleosome Recognition and Destabil...

Ji-Joon Song’s research team revealed the working mechanism of DOT1L-Leukemia Related Protein, which recognize the histon...

2019-10-14

Development of an innovative image reconstruction method...

Medical Imaging and Radiotherapy (MIR) Lab, led by Prof. Seungryong Cho, a faculty member of KI for IT Convergence, has d...

2019-10-14

Mole-bot: Development of bio-inspired embedded direction...

A research team led by Prof. Hyun Myung developed a bio-inspired digging robot called Mole-bot that simulates the mole's ...

2019-10-14

Design of Metal Nanocatalysts for High-Performance Hydro...

New analytical platform enables evaluation of true electrocatalytic value of metal nanoparticles. A KAIST team prese...

2019-10-14

A Peptide-Antibody Hybrid Platform for Targeted Cancer T...

Synergy in hybrid-A new hybrid platform is developed based on a hapten-labeled bispecific peptide and an anti-hapten anti...

2019-04-10

Solution Phase Phosphorus Substitution for Enhancement o...

P substitution in Cu2WS4 was found to induce numerous basal plane defects, which increase the active sites for -OH adsorp...

2019-04-10

Uncovering the Dead Space of Pulmonary Microcirculation ...

An innovative bio-imaging technique enables real-time in vivo visualization of pulmonary microcirculation, leading to the...

2019-04-10

Design for Building User-Agent Partnership in AI Assista...

ID KAIST Researchers investigated how to design an intelligent assistant that can co-evolve with its user to be able to p...

2019-04-10

Decision-Level Fusion Method for Emotion Recognition usi...

We confirmed which combination of features of multi-modal emotion recognition achieves the highest accuracy. As a rese...

2019-04-10

Morphology Analysis of Solution-Sheared Halide Perovskit...

A technique known as solution-shearing has been utilized to generate a thin film of perovskite CH3NH3PbI3 over a large ar...

2019-04-10

Noninvasive Optical Activation of Flp Recombinase in Dee...

Spatiotemporal control of gene expression or labeling is a valuable strategy for identifying functions of genes within co...

2019-04-10

Next Generation Wireless Communication Technology

Along with 5G mobile communication commercialization, B5G (Beyond 5G) and 6G mobile communication technologies are under ...

2019-04-10

Automatic Multi-Target Detection and Tracking for Unmann...

An algorithm for detecting and tracking multiple targets in marine environments was developed by a team of student resear...

2019-04-10

Development of peptide-based remedy to treat psoriasis a...

Psoriasis, a chronic inflammatory skin disease, is an autoimmune disease that about 3% of adults in the world suffer from...

2019-02-28

Investigation of a prefrontal-amygdala neural circuit th...

Becoming frozen stiff with fear when someone pops up out of nowhere while walking on the street is something everyone has...

2019-02-28

Multi-device content synchronized play technology

Media synchronization technique is essential for large-scale digital signage that consists of multiple devices, as human'...

2019-02-28

KAIST 291 Daehak-ro, Yuseong-gu, Daejeon (34141)
T : +82-42-350-2381~2384
F : +82-42-350-2080
Copyright (C) 2015. KAIST Institute