Location History:
- Pasadena, CA (US) (1988 - 2014)
- Los Angeles, CA (US) (2017)
Company Filing History:
6 out of 255 
1 out of 1 Years Active: 1988-2017
Title: Howard H Stover: A Pioneer in Neurotechnology
Introduction
Howard H Stover, a distinguished inventor based in Pasadena, CA, has made significant contributions to the field of neurotechnology. With a remarkable portfolio of seven patents, Stover has been at the forefront of developing innovative devices aimed at enhancing brain function and interaction.
Latest Patents
Among his most notable inventions is a brain implant device designed to revolutionize the way we interact with the brain's motor and sensory cortices. This advanced device features a housing that contains communication and control electronics, coupled with a flexible conduit engineered to monitor signals from the brain's motor cortex. It also provides stimulation signals to the sensory cortex. Notably, this brain implant device boasts the capability for wireless communication with external control sources through an integrated antenna. The flexible conduit may host up to 128 electrical conductors that facilitate connections with various sites on the cortex through electrically conductive protuberances, allowing for precise contact and stimulation.
Career Highlights
Stover's career has been marked by his work with prominent organizations, including the Alfred E. Mann Foundation for Scientific Research and Electronic Teacher's Aids, Inc. His innovative spirit and dedication to advancing neurotechnology have positioned him as a key figure within the field.
Collaborations
Throughout his career, Howard H Stover has collaborated with esteemed professionals such as Joseph H Schulman and John Charles Gord. These partnerships have not only enhanced his projects but also fostered a culture of innovation and knowledge-sharing within the industry.
Conclusion
Howard H Stover's pioneering work in neurotechnology reflects his commitment to improving human-computer interaction through innovative brain implant devices. As research in this area continues to evolve, Stover’s contributions will undoubtedly pave the way for future advancements that may transform our understanding of brain functionality and its potential applications.