Company Filing History:
Years Active: 2020
Title: **Inventor Spotlight: Srivally Munnangi from Hyderabad, Telangana**
Introduction
Srivally Munnangi is an innovative inventor based in Hyderabad, Telangana, India. He has made significant contributions to the field of acoustic signal processing with his unique patent. Munnangi's work exemplifies the spirit of invention, focusing on practical solutions to complex problems in technology.
Latest Patents
Munnangi holds a patent for his invention titled "Direction of arrival estimation of acoustic-signals from acoustic source using sub-array selection." This patent encompasses a sophisticated system designed to handle the estimation of direction of arrival (DOA) for acoustic signals. Utilizing a microphone-array, the invention identifies multiple microphone sub-arrays and facilitates the selection of a set of these sub-arrays for analysis. The innovative methodology computes the relative time-delay for the arrival of acoustic signals between various microphone pairs, enhancing the precision of direction estimation based on strategic microphone placement.
Career Highlights
Currently, Munnangi works at Kaam LLC, where he engages in advanced research and development projects. His contributions push the boundaries of acoustic technology and its applications in various sectors. The patent he created is a testament to his expertise and dedication in the field.
Collaborations
Munnangi collaborates with talented coworkers such as Tejaswini Dudyala and Senthil Kumar Mani. This collaborative environment fosters innovation and creativity, allowing them to tackle challenging problems together and enhance the scope of their inventions.
Conclusion
As an inventor, Srivally Munnangi showcases the power of innovation in addressing real-world challenges. His patent on direction of arrival estimation is just one example of how inventors are shaping the future of technology. Munnangi's work at Kaam LLC, along with his collaborations, continues to inspire and drive advancements in acoustic signal processing.