Norihito Nakano

Title: Norihito Nakano: Innovator in Eye Movement Detection Technology

Introduction

Norihito Nakano is a prominent inventor based in Hokkaido, Japan. He has made significant contributions to the field of eye movement detection technology, holding a total of 5 patents. His work focuses on understanding gaze shifts and involuntary movements, which can have important implications for diagnosing brain function disorders.

Latest Patents

One of Nakano's latest patents is an "Apparatus for Examining Gaze Shift in Depth Direction." This innovative device utilizes light-emitting diodes to illuminate various positions at different depths, allowing for the detection of eye movement. The data collected is processed to determine any disorders in gaze shift, using parameters such as latency in eye movement and asymmetry of left and right eye movements.

Another notable patent is the "Apparatus for Detecting Small Involuntary Movement." This apparatus presents a target for the subject to gaze at while their eye movements are monitored. The output is converted into a digital signal, which is then analyzed to calculate small involuntary movement data. This analysis helps in determining diseases related to brain function by evaluating the fractal dimension and its time dependence.

Career Highlights

Norihito Nakano is affiliated with Atr Auditory and Visual Perception Research Laboratories, where he continues to advance research in eye movement detection. His work has garnered attention for its potential applications in medical diagnostics and cognitive research.

Collaborations

Nakano collaborates with notable colleagues, including Mitsuho Yamada and Hitoshi Hongo. Their combined expertise contributes to the innovative research being conducted at their laboratory.

Conclusion

Norihito Nakano's contributions to eye movement detection technology highlight his role as a leading inventor in this specialized field. His patents not only advance scientific understanding but also pave the way for future innovations in diagnosing brain function disorders.