Sturdza; Peter

Patent Applications and Registrations

Patent applications and USPTO patent grants for Sturdza; Peter.The latest application filed is for "predicting transition from laminar to turbulent flow over a surface using mode-shape parameters".

Company Profile

0.23.14

Sturdza; Peter - Redwood City CA
Sturdza; Peter - Atherton CA

*profile and listings may contain filings by different individuals or companies with the same name. Review application materials to confirm ownership/assignment.

Patent Activity

Patent	Date
Airplane Grant D950,469 - Sturdza , et al. May 3, 2	2022-05-03
Airplane Grant D950,467 - Sturdza , et al. May 3, 2	2022-05-03
Airplane Grant D950,465 - Sturdza , et al. May 3, 2	2022-05-03
Airplane Grant D950,470 - Sturdza , et al. May 3, 2	2022-05-03
Airplane Grant D950,466 - Sturdza , et al. May 3, 2	2022-05-03
Airplane Grant D950,468 - Sturdza , et al. May 3, 2	2022-05-03
Predicting transition from laminar to turbulent flow over a surface using mode-shape parameters Grant 10,634,581 - Rajnarayan , et al.	2020-04-28
Generating inviscid and viscous fluid-flow simulations over an aircraft surface using a fluid-flow mesh Grant 10,296,672 - Rodriguez , et al.	2019-05-21
Predicting Transition From Laminar To Turbulent Flow Over A Surface Using Mode-shape Parameters App 20170045417 - Rajnarayan; Dev ; et al.	2017-02-16
Predicting transition from laminar to turbulent flow over a surface using mode-shape parameters Grant 9,494,482 - Rajnarayan , et al. November 15, 2	2016-11-15
Predicting transition from laminar to turbulent flow over a surface Grant 9,418,202 - Rajnarayan , et al. August 16, 2	2016-08-16
Generating a simulated fluid flow over a surface using anisotropic diffusion Grant 9,348,956 - Rodriguez , et al. May 24, 2	2016-05-24
Generating Inviscid And Viscous Fluid-flow Simulations Over An Aircraft Surface Using A Fluid-flow Mesh App 20150370933 - RODRIGUEZ; David L. ; et al.	2015-12-24
Generating inviscid and viscous fluid-flow simulations over a surface using a fluid-flow mesh Grant 8,935,140 - Rodriguez , et al. January 13, 2	2015-01-13
Generating inviscid and viscous fluid flow simulations over a surface using a quasi-simultaneous technique Grant 8,892,408 - Sturdza , et al. November 18, 2	2014-11-18
Predicting Transition From Laminar To Turbulent Flow Over A Surface App 20140019105 - RAJNARAYAN; Dev ; et al.	2014-01-16
Predicting Transition From Laminar To Turbulent Flow Over A Surface Using Mode-shape Parameters App 20130282629 - Rajnarayan; Dev ; et al.	2013-10-24
Generating A Simulated Fluid Flow Over A Surface Using Anisotropic Diffusion App 20130246024 - RODRIGUEZ; David L. ; et al.	2013-09-19
Generating Inviscid And Viscous Fluid-flow Simulations Over A Surface Using A Fluid-flow Mesh App 20130246027 - RODRIGUEZ; David L. ; et al.	2013-09-19
Predicting transition from laminar to turbulent flow over a surface Grant 8,538,738 - Rajnarayan , et al. September 17, 2	2013-09-17
Generating inviscid and viscous fluid-flow simulations over an aircraft surface using a fluid-flow mesh Grant 8,457,939 - Rodriguez , et al. June 4, 2	2013-06-04
Generating a simulated fluid flow over an aircraft surface using anisotropic diffusion Grant 8,437,990 - Rodriguez , et al. May 7, 2	2013-05-07
Predicting Transition From Laminar To Turbulent Flow Over A Surface App 20120245910 - RAJNARAYAN; Dev ; et al.	2012-09-27
Generating Inviscid And Viscous Fluid Flow Simulations Over A Surface Using A Quasi-simultaneous Technique App 20120245903 - STURDZA; Peter ; et al.	2012-09-27
Laminar flow wing optimized for supersonic cruise aircraft Grant 8,272,594 - Tracy , et al. September 25, 2	2012-09-25
Generating A Simulated Fluid Flow Over An Aircraft Surface Using Anisotropic Diffusion App 20120232860 - RODRIGUEZ; David L. ; et al.	2012-09-13
Generating Inviscid And Viscous Fluid-flow Simulations Over An Aircraft Surface Using A Fluid-flow Mesh App 20120173219 - RODRIGUEZ; David L. ; et al.	2012-07-05
Highly efficient supersonic laminar flow wing Grant 7,946,535 - Chase , et al. May 24, 2	2011-05-24
Laminar flow wing optimized for supersonic cruise aircraft App 20110095137 - Tracy; Richard R. ; et al.	2011-04-28
Highly efficient supersonic laminar flow wing App 20090206206 - Chase; James D. ; et al.	2009-08-20

uspto.report is an independent third-party trademark research tool that is not affiliated, endorsed, or sponsored by the United States Patent and Trademark Office (USPTO) or any other governmental organization. The information provided by uspto.report is based on publicly available data at the time of writing and is intended for informational purposes only.

While we strive to provide accurate and up-to-date information, we do not guarantee the accuracy, completeness, reliability, or suitability of the information displayed on this site. The use of this site is at your own risk. Any reliance you place on such information is therefore strictly at your own risk.

All official trademark data, including owner information, should be verified by visiting the official USPTO website at www.uspto.gov. This site is not intended to replace professional legal advice and should not be used as a substitute for consulting with a legal professional who is knowledgeable about trademark law.