Company Filing History:
Years Active: 2022-2025
Title: Innovations by Sreenath Sandru in Virtual and Augmented Reality
Introduction
Sreenath Sandru is an accomplished inventor based in San Francisco, CA. He has made significant contributions to the field of virtual and augmented reality, holding three patents that showcase his innovative approach to technology. His work focuses on enhancing user interaction through advanced visualization techniques.
Latest Patents
One of Sreenath's latest patents involves the creation of interactive visualizations for multi-nodal transfers. This invention utilizes various protocols to acquire data from computing systems or devices associated with each node. The process begins with generating a first visualization layer that includes geographic or physical indicators along a multi-nodal transfer route. By identifying API protocols corresponding to each node, Sreenath's approach allows for the execution of these protocols to obtain data packets. This data is then used to create a second visualization layer that visually depicts the details of a transfer along the route. The final product is an overlay of visualization layers that displays graphics associated with multiple nodes, enhancing the user experience in virtual or augmented reality environments.
Career Highlights
Sreenath Sandru currently works at Wells Fargo Bank, N.A., where he applies his expertise in technology and innovation. His role involves collaborating with various teams to develop cutting-edge solutions that improve user interaction and data visualization.
Collaborations
Sreenath has worked alongside talented colleagues such as Andriy Fedorchuk and Rajiv Ranjan. Their collaborative efforts contribute to the advancement of technology within their organization.
Conclusion
Sreenath Sandru's innovative work in virtual and augmented reality demonstrates his commitment to enhancing user experiences through advanced visualization techniques. His patents reflect a deep understanding of technology and its potential to transform interactions in digital environments.