Company Filing History:
Years Active: 2020
Title: **Innovative Breakthroughs by Tejaswini Dudyala**
Introduction
Tejaswini Dudyala is a remarkable inventor located in Hyderabad, Telangana, India. She has made significant contributions to the field of acoustics through her innovative inventions. With a keen understanding of technology and a passion for research, she has secured a patent that reflects her expertise and dedication.
Latest Patents
Tejaswini holds a notable patent titled **"Direction of arrival estimation of acoustic-signals from acoustic source using sub-array selection."** This invention presents a sophisticated system designed for the estimation of the direction of arrival (DOA) of acoustic signals. It effectively uses sub-array selection to identify multiple microphone sub-arrays from a larger microphone array. The innovation allows for the selection of specific microphone sub-arrays and computes the relative time-delay of acoustic signals between microphone pairs within the chosen set. The system operates on the principle of maximizing the distance between microphone pairs to enhance accuracy in DOA estimation. The process concludes with estimating the acoustic signals' direction based on the determined microphone sub-array and the computed time delays.
Career Highlights
Tejaswini Dudyala's career is highlighted by her achievements in innovation and her role at Kaam LLC, where she has played a pivotal part in advancing acoustic technologies. Her work exemplifies the intersection of science and practical application, making her a valuable asset to her organization.
Collaborations
In her journey, Tejaswini has collaborated with talented professionals such as Srivally Munnangi and Senthil Kumar Mani. These partnerships have fostered a dynamic environment of creativity and knowledge sharing, contributing to her successful inventions and projects.
Conclusion
Tejaswini Dudyala stands as a beacon of innovation in her field. With her groundbreaking patent and collaborative spirit, she continues to make strides in the world of acoustics. Her work not only exemplifies her personal talent but also contributes to the broader scientific community, paving the way for future advancements in technology.