Patents by Inventor James M. Sanchez
James M. Sanchez has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 11976547Abstract: A system for detecting acoustic or vibration signals transmitted along a tubular string, the system can include a tool assembly with a sensor assembly configured to be removably attached to a sub, the sub being connected to the tubular string such that acoustic/vibration signals travel through the sub and the sensor assembly detects the signals, with the sensor assembly including sensors that are configured to contact the sub and detect the signals traveling through the sub.Type: GrantFiled: July 14, 2021Date of Patent: May 7, 2024Assignee: Nabors Drilling Technologies USA, Inc.Inventors: James M. Hall, Jose Abelardo Sanchez
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Patent number: 9019561Abstract: Methods and devices calibrate a printing device to develop a single calibration tone reproduction curve associated with a first halftone state for the printing device, and calculate a primary color profile for the first halftone state and secondary color profiles for the secondary halftone states available with the printing device based on a previously calculated relationship between the first halftone state and the secondary halftone states. Subsequently, these methods and devices receive a print job and such methods identify the secondary halftone state of the print job. With this, the methods and devices can identify a secondary color profile from the secondary color profiles that corresponds to the secondary halftone state and raster image process the print job using the secondary color profile to produce rasterized output. Then, these methods and devices print the rasterized output on print media using a print engine of the printing device.Type: GrantFiled: June 9, 2014Date of Patent: April 28, 2015Assignee: Xerox CorporationInventors: James M. Sanchez, Guo-Yau Lin
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Patent number: 8917420Abstract: A method for processing black point compensation parameters for a color image to be printed so as to enhance image quality of the color image is provided. The method includes converting a received color image to a gray scale image; determining, using the received color image and the gray scale image, a performance attribute to estimate the effect of the black point compensation parameters on the image quality of the received color image, respectively; deriving a model to estimate relationships between the black point compensation parameters and the determined performance attribute; maximizing the performance attribute of the derived model so as to process the black point compensation parameters for the color image; and using the processed black point compensation parameters to construct output device profiles.Type: GrantFiled: November 2, 2012Date of Patent: December 23, 2014Assignee: Xerox CorporationInventors: Alvaro E. Gil, Himanshu J. Madhu, Lina Fu, James M. Sanchez, Connie F. Purdum
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Patent number: 8736930Abstract: Methods and systems receive a print job and determine whether the print job specifies one or more extended gamut color marking materials. The extended gamut color marking materials comprise marking materials having colorants other than standard colorants. The standard colorants consist of cyan, magenta, yellow, black (CMYK). When the print job does not specify one or more of the extended gamut color marking materials, the methods and systems determine whether the print job will perform better with one or more of the extended gamut colorants in addition to the standard colorants. The methods and systems print the print job use the extended gamut colorant(s) and the standard colorants when the print job specifies the extended gamut color marking material, and when the print job will perform better with one or more of the print system's extended gamut colorants in addition to the standard colorants.Type: GrantFiled: July 3, 2012Date of Patent: May 27, 2014Assignee: Xerox CorporationInventors: David C. Robinson, Mustapha Guesmia, Guo-Yau Lin, Connie F. Purdum, James M. Sanchez, Adam E. Stein
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Publication number: 20140126002Abstract: A method for processing black point compensation parameters for a color image to be printed so as to enhance image quality of the color image is provided. The method includes converting a received color image to a gray scale image; determining, using the received color image and the gray scale image, a performance attribute to estimate the effect of the black point compensation parameters on the image quality of the received color image, respectively; deriving a model to estimate relationships between the black point compensation parameters and the determined performance attribute; maximizing the performance attribute of the derived model so as to process the black point compensation parameters for the color image; and using the processed black point compensation parameters to construct output device profiles.Type: ApplicationFiled: November 2, 2012Publication date: May 8, 2014Applicant: XEROX CORPORATIONInventors: Alvaro E. Gil, Himanshu J. Madhu, Lina Fu, James M. Sanchez, Connie F. Purdum
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Publication number: 20140009769Abstract: Methods and systems receive a print job and determine whether the print job specifies one or more extended gamut color marking materials. The extended gamut color marking materials comprise marking materials having colorants other than standard colorants. The standard colorants consist of cyan, magenta, yellow, black (CMYK). When the print job does not specify one or more of the extended gamut color marking materials, the methods and systems determine whether the print job will perform better with one or more of the extended gamut colorants in addition to the standard colorants. The methods and systems print the print job use the extended gamut colorant(s) and the standard colorants when the print job specifies the extended gamut color marking material, and when the print job will perform better with one or more of the print system's extended gamut colorants in addition to the standard colorants.Type: ApplicationFiled: July 3, 2012Publication date: January 9, 2014Applicant: Xerox CorporationInventors: David C. Robinson, Mustapha Guesmia, Guo-Yau Lin, Connie F. Purdum, James M. Sanchez, Adam E. Stein
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Patent number: 8564834Abstract: Methods of performing print engine calibration create a color space conversion equation for a scanner of a class of printing devices, print test patches on a sheet, and scan the test patches using a scanner of the printing device to produce a scanned RGB value for each test patch. Such methods convert each scanned RGB value to an XYZ pseudo space using the color space conversion equation to produce XYZ values. These methods compare the XYZ values to second XYZ values of white paper to generate DeltaE curves for each of the test patches relative to white paper. The DeltaE curves are interpolated to form an equivalent aim curve. After the equivalent aim curve is determined, the methods periodically calibrate the same or an additional printing device that is within the class of printing devices using the color space conversion equation to produce second XYZ values.Type: GrantFiled: October 31, 2011Date of Patent: October 22, 2013Assignee: Xerox CorporationInventors: Guo-Yau Lin, James M. Sanchez, Connie F. Purdum, Adam E. Stein, Mustapha Guesmia
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Publication number: 20130107290Abstract: Methods of performing print engine calibration create a color space conversion equation for a scanner of a class of printing devices, print test patches on a sheet, and scan the test patches using a scanner of the printing device to produce a scanned RGB value for each test patch. Such methods convert each scanned RGB value to an XYZ pseudo space using the color space conversion equation to produce XYZ values. These methods compare the XYZ values to second XYZ values of white paper to generate DeltaE curves for each of the test patches relative to white paper. The DeltaE curves are interpolated to form an equivalent aim curve. After the equivalent aim curve is determined, the methods periodically calibrate the same or an additional printing device that is within the class of printing devices using the color space conversion equation to produce second XYZ values.Type: ApplicationFiled: October 31, 2011Publication date: May 2, 2013Applicant: XEROX CORPORATIONInventors: Guo-Yau Lin, James M. Sanchez, Connie F. Purdum, Adam E. Stein, Mustapha Guesmia
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Patent number: 5215146Abstract: A method for reducing the time during which steam moves in a lateral direction between two parallel superimposed horizontal wells when utilizing a Steam Assisted Gravity Drainage (SAGD) process. Foam is added while injecting steam into an upper horizontal well once steam breakthrough occurs in an interwell region. Foam enters the interwell region thereby causing an increased pressure gradient. This increased pressure gradient adds to the gravity force thereby providing a greater interstitial oil velocity which increases oil drainage between wells during startup.Type: GrantFiled: August 29, 1991Date of Patent: June 1, 1993Assignee: Mobil Oil CorporationInventor: James M. Sanchez
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Patent number: 5167280Abstract: A solvent stimulation process whereby a viscosity reducing agent is circulated through a horizontal well via a production string. Said agent exits the production string and enters an annulus formed by said string and a liner. Said agent diffuses into the reservoir at a pressure below the reservoir pressure. As said agent diffuses through the reservoir under the influence of a concentration gradient, it reduces the oil's viscosity and makes it mobile. Simultaneously, oil of reduced viscosity migrates into the well under a pressure drawdown influence. A pseudo steady state production rate is achieved when convective movement of the oil of reduced viscosity is exactly counterbalanced by the diffusional rate of the viscosity reducing agent in a stimulated radial zone along said well. This stimulates a large volume of oil through the extensive surface area of the wellbore thus producing increased volumes of hydrocarbonaceous fluids from the reservoir.Type: GrantFiled: June 24, 1991Date of Patent: December 1, 1992Assignee: Mobil Oil CorporationInventors: James M. Sanchez, Randy D. Hazlett