Research Topics
Outline
Our laboratory focuses on the research for microwave, millimeter wave, and terahertz wave sensing,
which creates various promising applications as follows:
- Collision avoidance system in automotive driving or sensing for detecting human body even in optically challenging situation or non-line-of-sight area
- Large-scale and speedy non-destructive evaluation for transportation infrastructure, such as tunnel, bridge, or road, especially aging states
- Medical diagnosis or treatment with safe, low-cost, and compact equipment
- Security screening of human body for detecting weapon or explosive material in airport or station.
- Non-destructive electric and chemical analysis using spectroscopy with terahertz band
- Terrain surface and environmental monitoring with airborne or satellite borne remote sensing
- Survivor detection or security monitoring with through-the-wall sensing, such as in disastrous scene
Super-resolution and accurate 3-D imaging method as Range Point Migration (RPM)
Shadow region imaging method exploiting multiple scattering signal
Microwave internal imaging with 1/100 wavelength accuracy
Incorporation of radar and tomography for complex permittivity quantitative imaging
Super-resolution Doppler velocity and range estimation method based on kernel density estimation and compressed sensing
Radar image recognition based on machine learning
Microwave cancer diagnosis and treatment
Human detection for millimeter-wave onboard radar for self-driving system
Nondestructive microwave imaging of roads, bridges, tunnels, etc.
Super resolition radar imaging for lifesaving and security applications at disaster sites
Application to 3-D image reconstruction in aircraft and satellite-mounted radar
