Kimberly Denise Auyang Hallman

Title: Innovations by Kimberly Denise Auyang Hallman

Introduction

Kimberly Denise Auyang Hallman is an accomplished inventor based in Bellevue, WA (US). She has made significant contributions to the field of technology, particularly in the development of advanced battery systems and sensor frameworks. With a total of 2 patents, her work showcases her innovative spirit and technical expertise.

Latest Patents

One of her latest patents is titled "Battery with computing, sensing and communication capabilities." This invention presents electrical battery apparatus embodiments that incorporate sensing, computing, and communication capabilities into batteries. By integrating these functionalities into disposable and/or rechargeable batteries, Hallman's invention provides new intelligence and capabilities to otherwise stand-alone devices.

Another notable patent is the "Aggregation framework using low-power alert sensor." This system and method automatically configures, aggregates, disaggregates, manages, and optimizes components of a consolidated system of devices, modules, and sensors. The low-power alert sensor continuously monitors its environment and acts as a watchdog, triggering other sensors to awaken from a power-conservation state when changes occur. The data aggregator module manages the sensors and aggregates the data, while the interpreter module translates the physical data into logical information, presenting a unified view of the sensor capabilities.

Career Highlights

Kimberly Hallman is currently employed at Microsoft Technology Licensing, LLC, where she continues to innovate and develop cutting-edge technologies. Her work at Microsoft has allowed her to collaborate with other talented professionals in the field.

Collaborations

Some of her notable coworkers include Desney S Tan and Ira Snyder, who have contributed to her projects and innovations.

Conclusion

Kimberly Denise Auyang Hallman is a remarkable inventor whose work in battery technology and sensor systems has the potential to revolutionize the way electronic devices operate. Her contributions to the field exemplify the spirit of innovation and the importance of integrating advanced technologies into everyday applications.