Kristina Lauren Ming

Title: Innovator Spotlight: Kristina Lauren Ming

Introduction

Kristina Lauren Ming is a notable inventor based in Boise, ID (US). She has made significant contributions to the field of technology, particularly in the development of dynamic machine-readable codes. With a total of 3 patents to her name, Kristina continues to push the boundaries of innovation.

Latest Patents

One of Kristina's latest patents involves a dynamic machine-readable code. In this implementation, a server device generates a machine-readable code that conveys first information associated with a first entity. The server device provides an indication of the machine-readable code that indicates the first information. It can also obtain a request to update the information conveyed by the machine-readable code, which includes an indication of at least one of the machine-readable code or the first information. The server device modifies the first information conveyed by the machine-readable code to second information based on the request and authenticating the request. The second information includes a first secure information layer indicating the first information and a second secure information layer indicating information indicated by the request. Finally, the server device provides an indication of at least one of the machine-readable code or the second information to the communication device.

Career Highlights

Kristina is currently employed at Micron Technology Incorporated, where she applies her expertise in technology and innovation. Her work at Micron has allowed her to collaborate with other talented professionals in the field.

Collaborations

Some of Kristina's coworkers include Yashvi Singh and Diana C Majerus. Their collaborative efforts contribute to the innovative environment at Micron Technology.

Conclusion

Kristina Lauren Ming is a pioneering inventor whose work in dynamic machine-readable codes showcases her commitment to advancing technology. Her contributions at Micron Technology Incorporated and her collaborations with talented colleagues further highlight her impact in the field.