Company Filing History:
Years Active: 2022-2025
Title: Innovations of Sakura Sikander in Tactile Display Technology
Introduction
Sakura Sikander is an innovative inventor based in Orlando, FL (US). He has made significant contributions to the field of tactile display technology, particularly in the realm of telemedicine. With a total of 3 patents, his work focuses on enhancing the capabilities of medical professionals through advanced simulation devices.
Latest Patents
Sikander's latest patent is a tactile display apparatus designed for palpation simulation and telemedicine. This device features a nodule with variable stiffness that provides a near-realistic feeling of palpation for physicians. Utilizing granular jamming technology and pneumatic actuation, the nodule maintains its shape while allowing for modulation in stiffness. The design includes two hemispheres: a contact portion and an actuation portion, which together form a sphere. The differing thicknesses and materials of these portions enable physicians to distinguish between normal and affected lumps, even when their shapes appear similar. This innovation allows for the detection of lump severity through varying levels of stiffness.
Career Highlights
Sakura Sikander is affiliated with the University of Central Florida Research Foundation, Inc., where he continues to develop his groundbreaking technologies. His work is pivotal in advancing medical training and diagnostics, making significant strides in how physicians interact with simulated medical scenarios.
Collaborations
Sikander collaborates with Sang-Eun Song, who is also involved in research and development within the same field. Their partnership enhances the innovative potential of their projects, contributing to the advancement of tactile display technologies.
Conclusion
Sakura Sikander's contributions to tactile display technology represent a significant advancement in telemedicine. His innovative approach to creating realistic palpation simulations is set to improve medical training and patient diagnostics. The impact of his work will likely resonate within the medical community for years to come.