Method and system for generating sensory data onto the human neural cortex (Patent US-6536440-B1)

Method and system for generating sensory data onto the human neural cortex

Patent US-6536440-B1
Inventor
DAWSON THOMAS P (US)
Assignee
SONY CORP (JP)
SONY ELECTRONICS INC (US)
Country
United States
Dates
Priority:
2000/10/17
Grant:
2003/03/25
Description

This web page summarizes information in PubChem about patent US-6536440-B1. This includes chemicals mentioned, as reported by PubChem contributors, as well as other content, such as title, abstract, and International Patent Classification (IPC) codes. To read more about how this page was constructed, please visit the PubChem patents help page.
PubChem

1 Abstract

A non-invasive system and process for projecting sensory data onto the human neural cortex is provided. The system includes a primary transducer array and a secondary transducer array. The primary transducer array acts as a coherent signal source, and the secondary transducer array acts as a controllable diffraction pattern that focuses energy onto the neural cortex in a desired pattern. In addition, the pattern of energy is constructed such that each portion projected into the neural cortex may be individually pulsed at low frequency. This low frequency pulsing is formed by controlling the phase differences between the emitted energy of the elements of primary and secondary transducer arrays.
Google Patents
2 Full Text

USPTO
http://patft.uspto.gov/netacgi/nph-Parser?Sect1=PTO1&Sect2=HITOFF&p=1&u=/netahtml/PTO/srchnum.html&r=1&f=G&l=50&d=PALL&s1=6536440.PN.
PubChem
Google
https://patents.google.com/patent/US6536440B1
Google Patents
3 Important Dates

3.1 Priority Date

2000/10/17
Google Patents
3.2 Filing Date

2000/10/17
Google Patents
3.3 Publication Date

2003/03/25
Google Patents
3.4 Grant Date

2003/03/25
Google Patents
4 Inventor

DAWSON THOMAS P (US)
Google Patents
5 Assignee

SONY CORP (JP)
SONY ELECTRONICS INC (US)
Google Patents
6 Country

United States
Google Patents
7 Linked Chemicals

7.1 PubChem Compounds

1 item

Download
Structure image
diflucortolone valerate; 59198-70-8; Diflucortolone 21-valerate; Nerisone; Temetex; …
Compound CID: 91670
MF: C27H36F2O5
MW: 478.6 g/mol
PubChem
7.2 PubChem Substances

1 item

Download
Structure image
SCHEMBL3015
Substance SID: 226395300
Compound CID: 91670
Data Source: SureChEMBL
PubChem
8 Patent Family

US-2003145864-A1
US-6536440-B1
US-6729337-B2
Google Patents
9 Classification

9.1 IPC

A61N7/00 (inventive)
Google Patents
9.2 CPC

A61N7/00 (inventive, first)
G03H3/00 (inventive)
Google Patents
10 Citations

US-3848608-A (APP)
US-4343301-A (APP)
US-4611596-A (APP)
US-4628933-A (APP)
US-4664117-A (SEA)
US-4883067-A (APP)
US-4979508-A (APP)
US-5031154-A (APP)
US-5097326-A (APP)
US-5109844-A (APP)
US-5159927-A (APP)
US-5179455-A (APP)
US-5651365-A (APP)
US-5738625-A (SEA)
US-5853370-A (APP)
US-5935155-A (APP)
US-5956292-A (APP)
US-5971925-A (APP)
US-6017302-A (SEA)
“Human hearing in connection with the action of ultrasound in the megahertz range on the aural labyrinth” 1979. L. R. Gavrilov, G. V. Gershuni, V.I. Pudov, A.S. Rozenblyum, and E.M. Tsirul’nikov. American Institute of Phusics pp. 290-292. (APP)
BBC News Online Science, Dr. David Whithouse, Sci/Tech Computer uses cat’s brain to see. (APP)
CMPnet. The Technology Network. Feb. 10, 1997. “Treading fine line between man and machine, researchers pursue silicon prostheses-Chip implants: weird science with a noble purpose-Second of two parts” Larry Lange. (APP)
CMPnet. The Technology Network. Feb. 10, 1997. “Treading fine line between man and machine, researchers pursue silicon prostheses—Chip implants: weird science with a noble purpose—Second of two parts” Larry Lange. (UNKNOWN)
Computational Neuroscience 13; Eric L. Schwartz, Bjorn Merker, Estarose Wolfson, and Alan Shaw. 1988. “Applications of Computer Graphics and Image Processing to 2D and 3D Modeling of the Functional Architecture of Visual Cortex”. (APP)
Department of Electrical and Computer Engineering, University of Colorado, 1990, Richard T. Mihran, Frank S. Barnes, Howard Wachtel. “Transient Modification of Nerve Excitability in Vitro By Single Ultrasound Pulses”. (APP)
Department of Molecular and Cell Biology, Division of Neurobiology, University of California. Garrett B. Stanley, Fei F. Li, and Yang Dan. “Reconstruction of Natural Scenes from Ensemble Responses in the Lateral Geniculate Nucleus” The Journal of Neuroscience, pp 8036-8042; 1999. (APP)
Dpmi.tu-graz.ac.at/research/BCI; Brain Computer Interface. (APP)
EETIMESonline, www.cmpnet.com; The Technology Network/ 1999; ;Craig Matsumoto, EE Times; ISSCC: “Papers outline biochips to restore eyesight, movement”. (APP)
Gttp:www.bionictech.com, Center for Neural Interfaces. Richard A. Normann, Ph.D. (APP)
Ipaustralia.gov.au/fun/patents/02_ear.htm; Bionic Ear Patent; Melbourne University-Australian Patent 519851; filing date 1978. (APP)
Ipaustralia.gov.au/fun/patents/02_ear.htm; Bionic Ear Patent; Melbourne University—Australian Patent 519851; filing date 1978. (UNKNOWN)
JN Online. The Journal of Neurophysiology, vol. 77 No. 6 1997, pp. 2879-2909, The American Physiological Society. “Encoding of Binocular Disparity by Complex Cells in the Cat’s Visual Cortex”. (APP)
[email protected], PennState College of Engineering, The Whitaker Center for Medical Ultrasonic Transducer Engineering. (APP)
Measurement and Projection of Acoustic Fields; Earl G. Williams; Nava Research Laboratory, Code 5137, Washing D.C. 20375. (APP)
Resonance, Newsletter of the Bioelectromagnetics Special Interest Group. pp. 11-13, 15-16. Judy Wall. (APP)
The Institute of Electrical and Electronics Engineers, Inc. 1996; Richard A. Normann, Edwin M. Maynard, K. Shane Guillory, and David J. Warren. “Cortical Implants for the Blind”. (APP)
The Pennsylvaia State University, Department of Physics. 1984, J.D. Maynard, E.G. Williams, and Y. Lee. Nearfiled acoustic holography:n I. Theory of generalized holography and the development of NAH. (APP)
Ultrasonics Fundamentals, Technology, Applications. Dale Ensminger, Columbus, Ohio. (pp. 373-376). (APP)
Ultrasound Med Biol 1990, Department of Electrical and Computer Engineering, University of Colorado. “Temporally-specific modification of myelinated axon excitability in virto following a single ultrasound pulse” (pp. 297-309) Mihran RT; Barnes FS; and Wachtel H. (APP)
Google Patents
11 Cited By

US-2003145864-A1 (PRS)
US-6729337-B2 (SEA)
US-2005197679-A1 (PRS)
US-2007054319-A1 (PRS)
US-2008046053-A1 (PRS)
EP-1969998-A2 (EXA)
US-2008227139-A1 (PRS)
US-2009086183-A1 (PRS)
US-2009118800-A1 (PRS)
US-7542805-B2 (SEA)
US-2010070006-A1 (PRS)
US-2010130913-A1 (PRS)
US-2010145418-A1 (PRS)
US-2010190229-A1 (PRS)
US-2010234273-A1 (PRS)
US-2011105998-A1 (PRS)
US-2011112394-A1 (PRS)
US-2011112179-A1 (PRS)
US-2011130615-A1 (PRS)
US-2011159562-A1 (PRS)
US-2011166632-A1 (PRS)
US-2011172653-A1 (PRS)
US-2011178442-A1 (PRS)
US-2011178441-A1 (PRS)
US-2011190668-A1 (PRS)
US-8401609-B2 (APP)
US-8398692-B2 (APP)
US-8591419-B2 (APP)
US-8603790-B2 (APP)
US-8696722-B2 (APP)
US-8716447-B2 (APP)
US-8718758-B2 (APP)
US-8729040-B2 (APP)
US-8815582-B2 (APP)
US-8834546-B2 (APP)
US-8858440-B2 (APP)
US-8864805-B2 (APP)
US-8886304-B2 (APP)
US-8892200-B2 (APP)
US-8897871-B2 (APP)
US-8906360-B2 (APP)
US-8926959-B2 (APP)
US-8929979-B2 (APP)
US-8932562-B2 (APP)
US-8956363-B2 (APP)
US-8962589-B2 (APP)
US-9042201-B2 (APP)
US-9079940-B2 (APP)
US-9084885-B2 (APP)
US-9101759-B2 (APP)
US-9101690-B2 (APP)
US-2015251025-A1 (PRS)
US-2015251023-A1 (PRS)
US-9175095-B2 (APP)
US-9187745-B2 (APP)
US-9238150-B2 (APP)
US-9249234-B2 (APP)
US-9249200-B2 (APP)
US-9265974-B2 (SEA)
US-9274099-B2 (APP)
US-9271674-B2 (APP)
US-9278159-B2 (APP)
US-9284353-B2 (APP)
US-9309296-B2 (APP)
US-9308392-B2 (APP)
US-9340589-B2 (APP)
US-9360472-B2 (APP)
US-9359449-B2 (APP)
US-9365628-B2 (APP)
US-D759803-S (APP)
US-9394347-B2 (APP)
US-9403038-B2 (APP)
US-9421258-B2 (APP)
US-9453215-B2 (APP)
US-9458208-B2 (APP)
US-9505817-B2 (APP)
US-9522288-B2 (APP)
US-9597499-B2 (APP)
US-9604073-B2 (APP)
US-9615789-B2 (APP)
US-9623264-B2 (APP)
US-9636380-B2 (APP)
US-9681820-B2 (APP)
US-9693692-B2 (APP)
US-9729252-B2 (APP)
US-9757587-B2 (APP)
US-9829492-B2 (APP)
US-9840541-B2 (APP)
US-9850290-B2 (APP)
US-9855442-B2 (APP)
US-9878176-B2 (APP)
US-9913976-B2 (APP)
US-9969783-B2 (APP)
US-9968652-B2 (APP)
US-9992981-B2 (APP)
US-10018695-B2 (APP)
US-10036758-B2 (APP)
US-10035027-B2 (APP)
US-10046174-B2 (APP)
US-10052497-B2 (APP)
US-10064912-B2 (APP)
US-10071132-B2 (APP)
US-10086012-B2 (APP)
US-10087223-B2 (APP)
US-10094840-B2 (APP)
US-10105551-B2 (APP)
US-10196431-B2 (APP)
US-10220092-B2 (APP)
US-10252076-B2 (APP)
US-10307609-B2 (APP)
US-10350430-B2 (APP)
US-10371776-B2 (APP)
US-10369378-B2 (APP)
US-10413757-B2 (APP)
US-10422803-B2 (APP)
US-10426970-B2 (APP)
US-10434327-B2 (APP)
US-10451608-B2 (APP)
US-10538560-B2 (APP)
US-10556132-B2 (APP)
US-10569099-B2 (APP)
US-10568516-B2 (APP)
US-10568307-B2 (APP)
US-10583309-B2 (APP)
US-10589123-B2 (APP)
US-10627410-B2 (APP)
US-10711242-B2 (APP)
US-10914803-B2 (APP)
US-10974064-B2 (APP)
US-11007374-B2 (APP)
US-11103723-B2 (APP)
US-11294165-B2 (APP)
US-11707636-B2 (APP)
Google Patents
12 Similar Patents

US-6536440-B1
US-7350522-B2
US-6889085-B2
AU-2005304453-B2
US-4354064-A
US-6175767-B1
AU-745630-B2
BR-0017244-A
EP-0008455-A1
EP-1463444-B1
JP-6800212-B2
US-11583656-B2
DE-202011101820-U1
JP-2022524422-A
JP-6719129-B2
CN-113368361-A
CN-115335114-A
Google Patents
13 Information Sources

FILTER BY SOURCE