Company Filing History:
Years Active: 2023
Title: Kaicheng Liang: Innovator in Optical Imaging Technology
Introduction
Kaicheng Liang is a prominent inventor based in Cambridge, MA, known for his contributions to the field of optical imaging technology. With a focus on developing advanced imaging devices, Liang has made significant strides in enhancing medical imaging techniques.
Latest Patents
Liang holds a patent for a "Scanning Optical Imaging Device." This innovative apparatus is designed to obtain images from the walls of luminal organs or surgical cavities. The device is capable of passage through luminal organs or introduction into surgical cavities, and it obtains images by rapidly scanning a focused light beam on the tissue to be imaged and receiving light from the tissue. The device comprises at least one mechanism for projecting a 2-dimensional (2-D) optical pattern, such as a 2-D scanner or a 2-D optical array forming a closed loop scan pattern. Additionally, it includes a beam scanning mechanism, such as a rotary or angular scanner, to form a cycloid scan pattern on the surface to be scanned. The device also features embodiments of focusing optics at different regimes of numerical aperture. The disclosure describes methods for accurate image reconstruction with embodiments of hardware control and post-acquisition processing.
Career Highlights
Kaicheng Liang is affiliated with the Massachusetts Institute of Technology, where he continues to push the boundaries of optical imaging research. His work has garnered attention for its potential applications in medical diagnostics and surgical procedures.
Collaborations
Liang has collaborated with notable colleagues, including James G Fujimoto and Osman Oguz Ahsen, contributing to advancements in imaging technologies.
Conclusion
Kaicheng Liang's innovative work in optical imaging technology exemplifies the impact of research and development in the medical field. His patent for a scanning optical imaging device represents a significant advancement in imaging techniques, promising to enhance the accuracy and effectiveness of medical diagnostics.