Patents by Inventor Gregory Peter Kochanski
Gregory Peter Kochanski 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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Publication number: 20230342609Abstract: The present disclosure provides computing systems and associated methods for optimizing one or more adjustable parameters (e.g. operating parameters) of a system. In particular, the present disclosure provides a parameter optimization system that can perform one or more black-box optimization techniques to iteratively suggest new sets of parameter values for evaluation. The iterative suggestion and evaluation process can serve to optimize or otherwise improve the overall performance of the system, as evaluated by an objective function that evaluates one or more metrics. The present disclosure also provides a novel black-box optimization technique known as “Gradientless Descent” that is more clever and faster than random search yet retains most of random search's favorable qualities.Type: ApplicationFiled: July 5, 2023Publication date: October 26, 2023Inventors: Daniel Reuben Golovin, Benjamin Solnik, Subhodeep Moitra, David W. Sculley, II, Gregory Peter Kochanski
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Publication number: 20200167691Abstract: A computer-implemented method can include receiving, by one or more computing devices, one or more prior evaluations of performance of a machine learning model, the one or more prior evaluations being respectively associated with one or more prior variants of the machine-learning model, the one or more prior variants of the machine-learning model each having been configured using a different set of adjustable parameter values. The method can include utilizing, by the one or more computing devices, an optimization algorithm to generate a suggested variant of the machine-learning model based at least in part on the one or more prior evaluations of performance and the associated set of adjustable parameter values, the suggested variant of the machine-learning model being defined by a suggested set of adjustable parameter values.Type: ApplicationFiled: June 2, 2017Publication date: May 28, 2020Inventors: Daniel Reuben Golovin, Benjamin Solnik, Subhodeep Moitra, David W. Sculley, II, Gregory Peter Kochanski
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Publication number: 20200097853Abstract: A computer-implemented method for black box optimization of parameters of a system, product, or process, can include performing, by one or more computing devices, one or more iterations of a sequence of operations which includes: determining whether to sample an argument value from a feasible set of argument values using a first approach or using a second approach, wherein each argument value of the feasible set defines values for each of plural parameters of a system, product, or process; and based on the determination, sampling the argument value using the first approach or the second approach wherein the first approach includes sampling the argument value at random from the feasible set and the second approach includes sampling, by the one or more computing devices, the argument value from a subset of the feasible set that is defined based on a ball around a current best argument value.Type: ApplicationFiled: June 2, 2017Publication date: March 26, 2020Inventors: Daniel Reuben Golovin, Gregory Peter Kochanski, John Karro
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Patent number: 9551561Abstract: Systems and methods for determining location using magnetic fields from AC power lines are provided. As an example, each magnetic field reading collected by the device over time can be analyzed to determine a plurality of characteristics of the magnetic field. One or more of the plurality of characteristics can describe a component of the magnetic field that oscillates at a frequency associated with the AC power lines. The plurality of characteristics can be compared to expected values respectively associated with a plurality of locations and provided by a map of the magnetic field to determine a location at which each magnetic field reading was collected. In further embodiments, magnetic field readings collected by the device over time can be analyzed in conjunction with other data or constraints to determine a trajectory of the device. In addition, the map can be updated using the collected readings and the determined trajectory.Type: GrantFiled: February 20, 2014Date of Patent: January 24, 2017Assignee: Google Inc.Inventor: Gregory Peter Kochanski
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Publication number: 20150153151Abstract: Systems and methods for determining location using magnetic fields from AC power lines are provided. As an example, each magnetic field reading collected by the device over time can be analyzed to determine a plurality of characteristics of the magnetic field. One or more of the plurality of characteristics can describe a component of the magnetic field that oscillates at a frequency associated with the AC power lines. The plurality of characteristics can be compared to expected values respectively associated with a plurality of locations and provided by a map of the magnetic field to determine a location at which each magnetic field reading was collected. In further embodiments, magnetic field readings collected by the device over time can be analyzed in conjunction with other data or constraints to determine a trajectory of the device. In addition, the map can be updated using the collected readings and the determined trajectory.Type: ApplicationFiled: February 20, 2014Publication date: June 4, 2015Applicant: Google Inc.Inventor: Gregory Peter Kochanski
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Publication number: 20130326613Abstract: Secure access of an electronic device may be dynamically controlled based on an adaptive algorithm. Secure access may comprise locking or unlocking of the electronic device. The adaptive algorithm may enable adjusting parameters used in determining when access to the electronic device is granted or denied. The parameters may comprise one or more thresholds used when comparing current user related information, such as biometric information, with corresponding prior information. The adaptive algorithm may enable adjusting the parameters based on valuation of information that may be exposed when the electronic device is accessed, probability of unwanted access, and/or acceptable cost of improper denial of access.Type: ApplicationFiled: May 31, 2012Publication date: December 5, 2013Inventor: Gregory Peter Kochanski
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Patent number: 7268475Abstract: In accordance with the invention, a field emission device is made by providing the device electrodes, forming a plurality of corrugated insulating rods with discontinuous coatings of conductive or semiconductive material with low secondary electron emission coefficient, adhering the rods to an electrode, cutting the rods to define corrugated pillars, and finishing the device. The result is low cost production of a field emission device having superior resistance to breakdown in high field operation.Type: GrantFiled: December 16, 1996Date of Patent: September 11, 2007Assignee: Lucent Technologies Inc.Inventors: Sungho Jin, Gregory Peter Kochanski, Wei Zhu
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Patent number: 6741019Abstract: An improved process for fabricating emitter structures from nanowires, wherein the nanowires are coated with a magnetic material to allow useful alignment of the wires in the emitter array, and techniques are utilized to provide desirable protrusion of the aligned nanowires in the final structure. In one embodiment, nanowires at least partially coated by a magnetic material are provided, the nanowires having an average length of about 0.1 &mgr;m to about 10,000 &mgr;m. The nanowires are mixed in a liquid medium, and a magnetic field is applied to align the nanowires. The liquid medium is provided with a precursor material capable of consolidation into a solid matrix, e.g., conductive particles or a metal salt, the matrix securing the nanowires in an aligned orientation. A portion of the aligned nanowires are exposed, e.g., by etching a surface portion of the matrix material, to provide desirable nanowire tip protrusion.Type: GrantFiled: October 18, 1999Date of Patent: May 25, 2004Assignee: Agere Systems, Inc.Inventors: Robert William Filas, Sungho Jin, Gregory Peter Kochanski, Wei Zhu
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Patent number: 6538367Abstract: This invention is predicated on applicants' discovery that a highly oriented nanoconductor structure alone does not guarantee efficient field emission. To the contrary, the conventional densely populated, highly oriented structures actually yield relatively poor field emission characteristics. Applicants have determined that the individual nanoconductors in conventional assemblies are so closely spaced that they shield each other from effective field concentration at the ends, thus diminishing the driving force for efficient electron emission. In accordance with the invention, an improved field emitting nanoconductors assembly (a “low density nanoconductor assembly”) comprises an array of nanoconductors which are highly aligned but spaced from each other no closer than 10% of the height of the nanoconductors. In this way, the field strength at the ends will be at least 50% of the maximal field concentration possible.Type: GrantFiled: August 6, 1999Date of Patent: March 25, 2003Assignee: Agere Systems Inc.Inventors: Kyung Moon Choi, Sungho Jin, Gregory Peter Kochanski, Wei Zhu
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Patent number: 6504292Abstract: In accordance with the invention, an improved conductive nanostructure assembly comprises an array of metallized nanostructures disposed on a conductive substrate. The substrate can also be metallized. Such assemblies provide continuous electron transport from the substrate to the tips of the nanostructures. Several ways of making such assemblies are described along with several devices employing the assemblies.Type: GrantFiled: July 30, 1999Date of Patent: January 7, 2003Assignee: Agere Systems Inc.Inventors: Kyung Moon Choi, Sungho Jin, Gregory Peter Kochanski, Wei Zhu
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Patent number: 6310952Abstract: A method and apparatus for providing easy access to a service provider that provides service over a communications system. In accordance with the present invention, a caller that wishes to gains access to the service provider simply needs to make a single call to a so-called queuing system, and hang up. The queuing system obtains information regarding the caller such as the caller's name, address and phone number, makes a connection with the service provider, calls-back the caller when the connection is made, and connects the caller to the service provider through the connection. The caller is thereby connected to the service provider without having to spend a substantial amount of his/her free time making calls. This is particularly advantageous when the service provider is popular or oversubscribed (e.g. a service that provides Super Bowl tickets).Type: GrantFiled: July 1, 1998Date of Patent: October 30, 2001Assignee: Lucent Technologies Inc.Inventors: Michael Scott Baldwin, Sungho Jin, Gregory Peter Kochanski
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Patent number: 6283812Abstract: The emission properties of aligned nanotube arrays are improved by truncating the ends of the nanotubes. Truncation provides nanotubes having a height within, for example, 30% of the average truncated nanotube height, as well as ends substantially free of end caps. The cap-free ends provide desirable field concentration, and the height uniformity increases the number of participating nanotubes.Type: GrantFiled: January 25, 1999Date of Patent: September 4, 2001Assignee: Agere Systems Guardian Corp.Inventors: Sungho Jin, Gregory Peter Kochanski, Wei Zhu
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Patent number: 6250984Abstract: An improved process for fabricating nanotube field emitter structures is provided, in which the nanotubes protrude from a supporting base material to improve emission properties. The resulting emitter structure are useful in a variety of devices, including microwave vacuum tube devices and flat-panel, field-emission displays. To attain the protruding nanotube emitter structure, according to one embodiment of the invention, nanotubes and metal particles are mixed and consolidated into a compact, and the compact is then sectioned to expose a substantial number of nanotube ends. A layer of the metal is selectively etched from the sectioned surface, leaving the exposed nanotubes protruding from the surface. The extent of protrusion is at least twice the average diameter of the nanotubes, advantageously at least ten times the average diameter of the nanotubes.Type: GrantFiled: January 25, 1999Date of Patent: June 26, 2001Assignee: Agere Systems Guardian Corp.Inventors: Sungho Jin, Gregory Peter Kochanski, Wei Zhu
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Patent number: 6014124Abstract: A passive liquid crystal display is enhanced by selectively applying low frequency signals to the columns of electrodes on the substrates sandwiching a liquid crystal, selectively applying high frequency signals to the rows of the electrodes so the first and second signals activate the liquid crystal at selected ones of said rows and columns, and passive storing the energy in capacitances exhibited by said rows at the high frequency with an inductor. The low frequency is below the crossover frequency of the liquid crystal, and the high frequency above the crossover frequency.Type: GrantFiled: October 15, 1996Date of Patent: January 11, 2000Assignee: Lucent Technologies Inc.Inventors: Alexander George Dickinson, Gregory Peter Kochanski, Apollo Wong
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Patent number: 5982095Abstract: Improved plasma displays utilize electrodes including low electron affinity (LEA) materials such as diamond. In dc displays the LEA materials are disposed on the cathode. In ac displays the LEA materials are disposed on the dielectric layers of both electrodes. The improved displays exhibit reduced operating voltage, higher resolution, and enhanced robustness.Type: GrantFiled: September 19, 1995Date of Patent: November 9, 1999Assignee: Lucent Technologies Inc.Inventors: Sungho Jin, Gregory Peter Kochanski, Wei Zhu
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Patent number: 5977697Abstract: Improved diamond particle emitters, useful for flat panel displays, are fabricated by suspending nanometer-sized ultra-fine particles in a solution, applying the suspension as a coating onto a conducting substrate such as n-type Si or metal, subjecting the coated substrate to a plasma of hydrogen, and applying a thin, conformal diamond overcoating layer onto the particles. The resulting emitters show excellent emission properties, such as extremely low turn-on voltage, good uniformity and high current densities. In particular, the electron emitters are capable of producing electron emission current densities of at least 0.1 mA/,mm.sup.2 at extremely low vacuum electric fields of 0.2-3.0 V/.mu.m V/.mu.m. These field values are about an order of magnitude lower than exhibited by the best defective CVD diamond and almost two orders of magnitude lower than p-type semiconducting diamond.Type: GrantFiled: January 13, 1998Date of Patent: November 2, 1999Assignee: Lucent Technologies Inc.Inventors: Sungho Jin, Gregory Peter Kochanski, Wei Zhu
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Patent number: 5854661Abstract: A system and method for subtracting reflection images, caused by proximately located light sources, from an image displayed on a video display screen. The present invention includes a camera mounted in close proximity to a video display device having a display screen, and oriented to point towards a user. The camera is connected to a control unit capable of image processing and of adjusting the images displayed on the display screen. Light from the proximately located light source falls upon the display screen causing glare from the light source and forming reflection images of the user and other objects on the display screen. In order to eliminate these undesirable reflection images from the display screen, the control unit first locates the reflection images on the display screen, and then eliminates these images by adjusting the brightness values of the reflection images' pixels.Type: GrantFiled: September 30, 1997Date of Patent: December 29, 1998Assignee: Lucent Technologies Inc.Inventor: Gregory Peter Kochanski
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Patent number: 5838118Abstract: Coating phosphor (typically particles) with a thin layer of Si, Ti, Al, Zr, In or Sn-containing material can result in significantly improved lifetime of the phosphor. A preferred coating technique involves exposing the phosphor to an alkoxide (e.g., TEOS) solution having ph>7, preferably >9 or 10.Type: GrantFiled: March 28, 1996Date of Patent: November 17, 1998Assignee: Lucent Technologies Inc.Inventors: Gregory Peter Kochanski, Cherry Ann Murray, Michael Louis Steigerwald, Pierre Wiltzius, Alfons van Blaaderen
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Patent number: 5811916Abstract: Applicants have discovered methods for making, treating and using diamonds which substantially enhance their capability for low voltage emission. Specifically, applicants have discovered that defect-rich diamonds--diamonds grown or treated to increase the concentration of defects--have enhanced properties of low voltage emission. Defect-rich diamonds are characterized in Raman spectroscopy by a diamond peak at 1332 cm.sup.-1 broadened by a full width at half maximum .DELTA.K in the range 5-15 cm.sup.-1 (and preferably 7-11 cm.sup.-1). Such defect-rich diamonds can emit electron current densities of 0.1 mA/mm.sup.2 or more at a low applied field of 25 V/.mu.m or less. Particularly advantageous structures use such diamonds in an array of islands or particles each less than 10 .mu.m in diameter at fields of 15 V/.mu.m or less.Type: GrantFiled: November 19, 1996Date of Patent: September 22, 1998Assignee: Lucent Technologies Inc.Inventors: Sungho Jin, Gregory Peter Kochanski, Lawrence Seibles, Wei Zhu
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Patent number: 5808401Abstract: In accordance with the invention, a field emission device is made by disposing emitter material on an insulating substrate, applying masking particles to the emitter material, applying an insulating film and a gate conductor film over the masking particles and emitter material and removing the particles to reveal a random distribution of apertures to the emitter material. The result is a novel and economical field emission device having numerous randomly distributed emission apertures which can be used to make low cost flat panel displays.Type: GrantFiled: October 26, 1995Date of Patent: September 15, 1998Assignee: Lucent Technologies Inc.Inventors: Sungho Jin, Gregory Peter Kochanski, Wei Zhu