Company Filing History:
Years Active: 2015-2017
Title: Innovator Spotlight: Randall Kinnick
Introduction
Randall Kinnick is an accomplished inventor based in Rochester, MN, known for his significant contributions to the fields of material science and medical research. With a focus on innovative measurement techniques, he holds two patents that enhance our understanding of wave propagation in various mediums.
Latest Patents
Kinnick's most recent contributions include two notable patents:
1. **System and Method for Measurement of Shear Wave Speed from Multi-Directional Wave Fields** - This patent encompasses a system and method for assessing material properties by creating a multi-directional wave field within a medium. It utilizes a detection system that captures wave fields across multiple spatial dimensions, allowing for the determination of wave speed and other material characteristics. A comprehensive report is generated to convey the findings.
2. **System and Method for Non-Invasively Measuring Tissue Viscoelasticity Using Surface Waves** - His second patent focuses on evaluating tissue health by analyzing the viscoelastic properties of biological materials. By inducing surface waves within the tissue and measuring their propagation characteristics, Kinnick's method allows for precise determination of tissue properties, thus aiding in non-invasive medical assessments.
Career Highlights
Randall Kinnick is currently affiliated with the Mayo Foundation for Medical Education and Research, where he continues to explore innovative solutions in medical technology. His dedication to advancing research in this area is evident through his patents and ongoing projects.
Collaborations
Kinnick collaborates with renowned colleagues such as James Fowler Greenleaf and Heng Zhao, with whom he shares a commitment to pushing the boundaries of research in their respective fields.
Conclusion
In summary, Randall Kinnick stands out as a pivotal figure in the realm of innovations, particularly in the measurement of wave phenomena and tissue properties. His patents not only exemplify his ingenuity as an inventor but also contribute significantly to both material science and medical research, showcasing the power of innovation in enhancing our understanding of complex systems.