Technology Transfer Items

AI-based image technology

AI-based super-resolution ultrasound imaging technique

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  • 초음파 영상 생성 방법 및 이를 수행하는 장치들 (출원 번호: 10-2019-0068220)

Key features

  • A neural network algorithm that enables universal localization of target particles without the use of ultrasound contrast agents
  • Vascular information provided based on neural network algorithms

Application field

  • Rapid and accurate acquisition of high-resolution ultrasound images and blood flow information under complex clinical conditions using advanced neural network algorithms
  • Acquiring and analyzing high-resolution ultrasound images of the vasculature and intravascular flow in living organisms

White-light-based digital holographic microscopy (DHM) technology enhanced with artificial intelligence (AI)

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  • 초머신 러닝 기반 디지털 홀로그래피 장치 및 이의 동작 방법 (10-2410025)

Key features

  • Utilizing deep learning techniques (GAN) to transform white-light-based optical images into holographic images for capturing three-dimensional information of samples
  • Acquiring holographic images of samples through a straightforward DHM setup without requiring lasers or optical devices

Application field

  • Effortlessly identifying the three-dimensional structural features and flaws in samples
  • Application in disease diagnosis and environmental monitoring
  • Foundational scientific research, including the three-dimensional dynamic analysis of particles and cells

Advanced techniques for measuring velocity fields using PIV (Particle Image Velocimetry) / PTV (Particle Tracking Velocimetry)

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  • 일치 확률방식의 2-프레임 입자추적속도계 속도장 측정방법 (0289077)
  • 적응형 하이브리드 방식의 입자추적 속도계 측정 방법 (0360973)
  • 혈액 및 다상유동의 속도장 측정장치 및 방법 (00518454)
  • X-ray 빔을 이용한 유동영상 취득 및 속도장 측정장치 (0542659)
  • 임상용 X선을 이용한 혈류의 속도장 측정시스템 (10-0601037)

Key features

  • Low measurement error, wide range of measurable velocities, and short computation time

Application field

  • Techniques for measuring the entire velocity field of fluid flow

Enhancement of the color Doppler imaging technique through the integration of the SIV technique using an adaptive hybrid approach

Related patents

  • 적응적 하이브리드 유동 측정 방법 및 이를 수행하는 장치 (10-2482475)

Key features

  • Utilizing an adaptive hybrid approach that combines the benefits of ultrasound Color Doppler Imaging (CDI) and ultrasound SIV technique
  • In instances where there is a significant discrepancy between CDI measurement outcomes and surrounding measurements, they are deemed measurement errors and substituted with ultrasound SIV measurement outcomes
  • Improvement in the accuracy of velocity field measurement under in vivo conditions

Application field

  • Improving the accuracy of the widely employed clinical Color Doppler Imaging (CDI) technique without requiring additional devices

Particle technology for X-ray imaging contrast agents

Related patents

  • 표면 개질된 금속 나노입자와 그 용도 (10-1296327)
  • X선용 조영제 캡슐 및 이의 제조방법 (10-1525132)

Key features

  • Modifying the surface of metal nanoparticles with uniform diameters to enhance X-ray contrast effects
  • Harnessing surface plasmon characteristics for favorable optical detection
  • Using them as tracer particles to measure intrabody fluid dynamics with submicrometer accuracy
  • Facilitating long-term blood flow measurements for early diagnosis of cardiovascular diseases

Application field

  • Utilized for X-ray imaging diagnostics and analysis of intrabody fluid dynamics and blood flow