Company Filing History:
Years Active: 2019
Title: Innovations of Inventor Timothy G. McGee
Introduction
Timothy G. McGee is an accomplished inventor based in Columbia, MD, U.S. He is recognized for his significant contributions to the field of augmented reality and neural integration technologies. With one patented invention, Timothy is a key figure in advancing user-device interaction in innovative environments.
Latest Patents
Timothy G. McGee holds a patent for a "Hybrid augmented reality multimodal operation neural integration environment." This innovative method focuses on controlling a device relative to various objects within the user’s environment. The process involves receiving a volitional input from the user regarding a task to be executed with the device, coupled with object targeting information presented in an augmented reality format. By integrating these elements, the invention determines a control command enabling the device to interact seamlessly with the targeted object. This advancement not only enhances user experience but also opens up new possibilities in augmented reality technology.
Career Highlights
Currently, Timothy contributes to research and innovation at The Johns Hopkins University. His work involves exploring cutting-edge technologies that enhance the functionality of devices through neural integration and augmented reality. His dedication to research has positioned him as an essential member of the academic and scientific community.
Collaborations
Timothy collaborates with notable colleagues, including Kapil D. Katyal and Brock A. Wester. These partnerships emphasize the importance of teamwork in driving innovations forward. Their combined expertise fosters an environment conducive to pioneering research and development efforts.
Conclusion
With his innovative spirit and commitment to advancing technology, Timothy G. McGee continues to influence the field of augmented reality. His patent reflects a crucial step towards improved interaction between users and their devices, showcasing the potential for future innovations that may arise from his ongoing work at The Johns Hopkins University.