Yihong Ding

Title: Yihong Ding: Innovator in Radiological Information Systems

Introduction

Yihong Ding is a notable inventor based in Westport, CT (US). He has made significant contributions to the field of radiology through his innovative patents. With a total of 2 patents, Ding has focused on enhancing the localization and reporting of radiological information.

Latest Patents

Ding's latest patents include a "System and method for providing localization of radiological information utilizing radiological domain ontology." This invention employs a radiological localization ontology to localize specified and modeled radiological domain knowledge. The system allows for consulting the ontology in the context of the model it fulfills, resulting in localized radiological information that is validated, identified, and classified based on the consultation. Additionally, the system can translate designated radiological information from one localized representation to another.

Another significant patent is the "System and method for generating radiological prose text utilizing radiological prose text definition ontology." This method is programmed in a computing environment to provide prose text reporting. It utilizes a prose text definition ontology comprising linguistic knowledge and a base report domain ontology. The system defines various aspects of radiological report information processing, allowing users to consult and report radiological observations in unambiguous prose text quickly and accurately.

Career Highlights

Yihong Ding is currently employed at Fujifilm Medical Systems U.S.A., Inc., where he continues to develop innovative solutions in the medical imaging field. His work focuses on improving the efficiency and accuracy of radiological reporting.

Collaborations

Ding collaborates with Charles R. Hale, contributing to advancements in radiological technology and information systems.

Conclusion

Yihong Ding's contributions to radiological information systems through his patents demonstrate his commitment to innovation in the medical field. His work continues to impact the way radiological information is localized and reported, enhancing the overall quality of medical imaging.