Sarah Ann Laszlo

USPTO Granted Patents = 20 (Patent Applications = 37)

Average Co-Inventor Count = 3.0

ph-index = 3

Forward Citations = 52(Granted Patents)

Location History:

Binghamton, NY (US) (2018 - 2019)
Mountain View, CA (US) (2019 - 2023)

Company Filing History:

The State University of New York

patents

Years Active: 2018-2023

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20 patents (USPTO):Sort by Forward CitationsExplore Patents

1. 11647953 - Hair ratcheting electroencephalogram sensors (2023-05-16),

2. 11636349 - Neural functional localization using synaptic connectivity graphs (2023-04-25),

3. 11631000 - Training artificial neural networks based on synaptic connectivity graphs (2023-04-18),

4. 11625611 - Training artificial neural networks based on synaptic connectivity graphs (2023-04-11),

5. 11620487 - Neural architecture search based on synaptic connectivity graphs (2023-04-04),

6. 11593627 - Artificial neural network architectures based on synaptic connectivity graphs (2023-02-28),

7. 11593617 - Reservoir computing neural networks based on synaptic connectivity graphs (2023-02-28),

8. 11576601 - Artifact identification in EEG measurements (2023-02-14),

9. 11568201 - Predicting neuron types based on synaptic connectivity graphs (2023-01-31),

10. 11495333 - Data analytic approach to personalized questionnaire developments (2022-11-08),

11. 11009952 - Interface for electroencephalogram for computer control (2021-05-18),

12. 10952680 - Electroencephalogram bioamplifier (2021-03-23),

13. 10901508 - Fused electroencephalogram and machine learning for precognitive brain-computer interface for computer control (2021-01-26),

14. 10716487 - Sub-dermally implanted electroencephalogram sensor (2020-07-21),

15. 10671164 - Interface for electroencephalogram for computer control (2020-06-02),

Title: Innovations of Sarah Ann Laszlo: Pioneering Neurotechnology in Mountain View, CA

Introduction

Sarah Ann Laszlo is an accomplished inventor located in Mountain View, California, with an impressive portfolio of 20 patents. Her work focuses on advancing neurotechnology and contributing to the understanding of brain function through innovative sensor designs and analytical methods.

Latest Patents

Among her latest patents are groundbreaking inventions such as hair ratcheting electroencephalogram sensors and methods for neural functional localization using synaptic connectivity graphs. The hair ratcheting electroencephalogram sensor features a unique design that allows for a one-way axial motion of a thread through a channel in the sensor housing. This innovation enhances the efficiency and reliability of brain signal monitoring.

Her patent regarding neural functional localization outlines methods and systems that utilize synaptic connectivity graphs to identify functionally-specialized regions of the brain. This technology aids in understanding how specific areas of the brain are linked to various tasks, paving the way for advancements in neuroscience and medical applications.

Career Highlights

Sarah has worked with notable organizations, including X Development LLC and The Research Foundation for the State University of New York. Her experiences in these environments have contributed significantly to her expertise and the development of her patented technologies.

Collaborations

Throughout her career, Sarah has collaborated with fellow innovators such as Philip Edwin Watson and Gabriella Levine. These partnerships reflect her commitment to interdisciplinary research and the continual pursuit of pioneering solutions in neurotechnology.

Conclusion

With a robust portfolio of patents and a strong background in neurotechnology, Sarah Ann Laszlo exemplifies the spirit of innovation. Her contributions are making significant strides in understanding and advancing brain functionalities, connecting engineering and neuroscience in impactful ways.

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