Company Filing History:
Years Active: 2018-2020
Title: Innovations of Loc Tien Phan
Introduction
Loc Tien Phan is an accomplished inventor based in San Jose, California. He has made significant contributions to the field of haptic technology, holding a total of four patents. His work focuses on creating systems that enhance user interaction through tactile feedback.
Latest Patents
Among his latest innovations is the "Offline Haptic Conversion System." This system is designed to control offline haptic conversion by receiving input from a source and converting it into haptic signals. The system encodes these signals and stores them within the source, allowing for a seamless integration of haptic feedback with the input. Alternatively, the system can handle the haptic signals separately, independent of the source.
Another notable patent is the "Dynamic Haptic Conversion System." This method dynamically converts an input signal into a haptic signal, enabling a haptic output device to produce various haptic effects. The process involves generating multiple effect objects that can be ordered at runtime, applying these effects based on a defined order, and sending the resulting haptic signal to the output device. This innovation includes an effect object that determines a threshold magnitude value and applies a dynamic range compression algorithm to the data signal.
Career Highlights
Loc Tien Phan is currently employed at Immersion Corporation, a leader in haptic technology. His work at the company has been instrumental in advancing the capabilities of haptic systems, making them more responsive and versatile.
Collaborations
Throughout his career, Loc has collaborated with talented individuals such as Satvir Singh Bhatia and Jean-Francois Blanchard-Dionne. These collaborations have contributed to the development of innovative haptic solutions.
Conclusion
Loc Tien Phan's contributions to haptic technology through his patents and work at Immersion Corporation highlight his role as a key innovator in the field. His advancements continue to shape the future of user interaction through tactile feedback.