Ou Ku
About Ou Ku
Ou Ku is an Insar Engineer at Skygeo, specializing in measuring surface motions globally using Radar interferometry techniques. He contributes to the development of an interactive platform for detecting millimeter scale movements in infrastructures such as reservoirs, pipelines, and bridges.
Work at SkyGeo
Ou Ku has been employed at SkyGeo as an Insar Engineer since 2016. In this role, he contributes to the development of an interactive platform that enables clients to detect millimeter-scale movements in various infrastructures, including reservoirs, pipelines, and bridges. His work focuses on utilizing Radar interferometry techniques to measure surface motions on a global scale. Additionally, he is responsible for developing data processing and visualization tools tailored specifically for Radar interferometry applications.
Education and Expertise
Ou Ku holds a Master of Science degree in Geosciences, which he obtained from 2014 to 2017. He studied at Tu Delft, where he focused on topics relevant to his current field. Prior to this, he earned a Bachelor of Science degree from Central South University, completing his studies from 2010 to 2014. His educational background provides a strong foundation in both engineering and geosciences, equipping him with the necessary skills for his work in surface motion measurement.
Background
Ou Ku's academic journey began at Central South University, where he completed his Bachelor of Science degree. He then advanced his studies at Tu Delft, focusing on Industrial Design Engineering and Geosciences. Since starting his career at SkyGeo in 2016, he has gained significant experience in the field of Radar interferometry, contributing to the advancement of technologies used for monitoring infrastructure stability.
Specialization in Radar Interferometry
Ou Ku specializes in measuring surface motions globally through the application of Radar interferometry techniques. This specialization allows him to analyze and interpret data related to minute movements in various infrastructures. His expertise in this area is critical for developing effective monitoring solutions that aid in the detection of potential structural issues.