Patents by Inventor Kenneth W. Tobin
Kenneth W. Tobin 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: 10585253Abstract: Systems for determining the presence and distribution of gas emissions in an area are provided. For example, a system may include one or more light detectors and one or more reflectors and/or one more retroreflectors disposed around the perimeter, a light source configured to emit light at a plurality of wavelengths towards the one or more light detectors and/or the one or more reflectors and/or one or more retroreflectors, and one or more processors configured to receive information representing light intensity detected by the one or more light detectors, respectively at each of the plurality of wavelengths and determine gases present in each path based on the light intensity detected by the respective detector at each of the plurality of wavelengths and distribution thereof. The path being either light source-respective detector, light source-respective reflector-respective detector or light source-respective retroreflector-respective detector. Other system may not use reflectors and/or retroreflectors.Type: GrantFiled: May 3, 2017Date of Patent: March 10, 2020Assignee: UT-BATTELLE, LLCInventors: Philip R. Bingham, Panagiotis G. Datskos, Tommy J. Phelps, Kenneth W. Tobin, Jr.
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Publication number: 20170322383Abstract: Systems for determining the presence and distribution of gas emissions in an area are provided. For example, a system may include one or more light detectors and one or more reflectors and/or one more retroreflectors disposed around the perimeter, a light source configured to emit light at a plurality of wavelengths towards the one or more light detectors and/or the one or more reflectors and/or one or more retroreflectors, and one or more processors configured to receive information representing light intensity detected by the one or more light detectors, respectively at each of the plurality of wavelengths and determine gases present in each path based on the light intensity detected by the respective detector at each of the plurality of wavelengths and distribution thereof. The path being either light source-respective detector, light source-respective reflector-respective detector or light source-respective retroreflector-respective detector. Other system may not use reflectors and/or retroreflectors.Type: ApplicationFiled: May 3, 2017Publication date: November 9, 2017Inventors: Philip R. Bingham, Panagiotis G. Datskos, Tommy J. Phelps, Kenneth W. Tobin, JR.
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Patent number: 8503749Abstract: A method for diagnosing diseases having retinal manifestations including retinal pathologies includes the steps of providing a CBIR system including an archive of stored digital retinal photography images and diagnosed patient data corresponding to the retinal photography images, the stored images each indexed in a CBIR database using a plurality of feature vectors, the feature vectors corresponding to distinct descriptive characteristics of the stored images. A query image of the retina of a patient is obtained. Using image processing, regions or structures in the query image are identified. The regions or structures are then described using the plurality of feature vectors. At least one relevant stored image from the archive based on similarity to the regions or structures is retrieved, and an eye disease or a disease having retinal manifestations in the patient is diagnosed based on the diagnosed patient data associated with the relevant stored image(s).Type: GrantFiled: May 15, 2012Date of Patent: August 6, 2013Assignees: UT-Battelle, LLC, University of Tennessee Research FoundationInventors: Kenneth W. Tobin, Thomas P. Karnowski, Edward Chaum
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Patent number: 8304737Abstract: An imaging system employing a coded aperture mask having multiple pinholes is provided. The coded aperture mask is placed at a radiation source to pass the radiation through. The radiation impinges on, and passes through an object, which alters the radiation by absorption and/or scattering. Upon passing through the object, the radiation is detected at a detector plane to form an encoded image, which includes information on the absorption and/or scattering caused by the material and structural attributes of the object. The encoded image is decoded to provide a reconstructed image of the object. Because the coded aperture mask includes multiple pinholes, the radiation intensity is greater than a comparable system employing a single pinhole, thereby enabling a higher resolution. Further, the decoding of the encoded image can be performed to generate multiple images of the object at different distances from the detector plane. Methods and programs for operating the imaging system are also disclosed.Type: GrantFiled: October 2, 2009Date of Patent: November 6, 2012Assignee: UT-Battelle, LLCInventors: Kenneth W. Tobin, Jr., Philip R. Bingham, Ayman I. Hawari
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Patent number: 8218838Abstract: A method for assigning a confidence metric for automated determination of optic disc location that includes analyzing a retinal image and determining at least two sets of coordinates locating an optic disc in the retinal image. The sets of coordinates can be determined using first and second image analysis techniques that are different from one another. An accuracy parameter can be calculated and compared to a primary risk cut-off value. A high confidence level can be assigned to the retinal image if the accuracy parameter is less than the primary risk cut-off value and a low confidence level can be assigned to the retinal image if the accuracy parameter is greater than the primary risk cut-off value. The primary risk cut-off value being selected to represent an acceptable risk of misdiagnosis of a disease having retinal manifestations by the automated technique.Type: GrantFiled: November 3, 2008Date of Patent: July 10, 2012Assignee: UT-Battelle, LLCInventors: Thomas P. Karnowski, Kenneth W. Tobin, Jr., Vijaya Priya Muthusamy Govindasamy, Edward Chaum
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Publication number: 20110079725Abstract: An imaging system employing a coded aperture mask having multiple pinholes is provided. The coded aperture mask is placed at a radiation source to pass the radiation through. The radiation impinges on, and passes through an object, which alters the radiation by absorption and/or scattering. Upon passing through the object, the radiation is detected at a detector plane to form an encoded image, which includes information on the absorption and/or scattering caused by the material and structural attributes of the object. The encoded image is decoded to provide a reconstructed image of the object. Because the coded aperture mask includes multiple pinholes, the radiation intensity is greater than a comparable system employing a single pinhole, thereby enabling a higher resolution. Further, the decoding of the encoded image can be performed to generate multiple images of the object at different distances from the detector plane. Methods and programs for operating the imaging system are also disclosed.Type: ApplicationFiled: October 2, 2009Publication date: April 7, 2011Applicants: UT-BATTELLE, LLC, NORTH CAROLINA STATE UNIVERSITYInventors: Kenneth W. Tobin, JR., Philip R. Bingham, Ayman I. Hawari
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Publication number: 20100278398Abstract: A method for assigning a confidence metric for automated determination of optic disc location that includes analyzing a retinal image and determining at least two sets of coordinates locating an optic disc in the retinal image. The sets of coordinates can be determined using first and second image analysis techniques that are different from one another. An accuracy parameter can be calculated and compared to a primary risk cut-off value. A high confidence level can be assigned to the retinal image if the accuracy parameter is less than the primary risk cut-off value and a low confidence level can be assigned to the retinal image if the accuracy parameter is greater than the primary risk cut-off value. The primary risk cut-off value being selected to represent an acceptable risk of misdiagnosis of a disease having retinal manifestations by the automated technique.Type: ApplicationFiled: November 3, 2008Publication date: November 4, 2010Inventors: Thomas P. Karnowski, Kenneth W. Tobin, JR., Vijaya Priya Muthusamy Govindasamy
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Patent number: 6751343Abstract: A method for indexing and retrieving manufacturing-specific digital images based on image content comprises three steps. First, at least one feature vector can be extracted from a manufacturing-specific digital image stored in an image database. In particular, each extracted feature vector corresponds to a particular characteristic of the manufacturing-specific digital image, for instance, a digital image modality and overall characteristic, a substrate/background characteristic, and an anomaly/defect characteristic. Notably, the extracting step includes generating a defect mask using a detection process. Second, using an unsupervised clustering method, each extracted feature vector can be indexed in a hierarchical search tree. Third, a manufacturing-specific digital image associated with a feature vector stored in the hierarchicial search tree can be retrieved, wherein the manufacturing-specific digital image has image content comparably related to the image content of the query image.Type: GrantFiled: September 20, 1999Date of Patent: June 15, 2004Assignee: UT-Battelle, LLCInventors: Regina K. Ferrell, Thomas P. Karnowski, Kenneth W. Tobin, Jr.
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Patent number: 6535776Abstract: A method for localizing and isolating an errant process includes the steps of retrieving from a defect image database a selection of images each image having image content similar to image content extracted from a query image depicting a defect, each image in the selection having corresponding defect characterization data. A conditional probability distribution of the defect having occurred in a particular process step is derived from the defect characterization data. A process step as a highest probable source of the defect according to the derived conditional probability distribution is then identified. A method for process step defect identification includes the steps of characterizing anomalies in a product, the anomalies detected by an imaging system. A query image of a product defect is then acquired. A particular characterized anomaly is then correlated with the query image. An errant process step is then associated with the correlated image.Type: GrantFiled: September 20, 1999Date of Patent: March 18, 2003Assignee: Ut-Battelle, LLCInventors: Kenneth W. Tobin, Jr., Thomas P. Karnowski, Regina K. Ferrell
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Patent number: 5982920Abstract: An apparatus and method for performing automated defect spatial signature alysis on a data set representing defect coordinates and wafer processing information includes categorizing data from the data set into a plurality of high level categories, classifying the categorized data contained in each high level category into user-labeled signature events, and correlating the categorized, classified signature events to a present or incipient anomalous process condition.Type: GrantFiled: January 8, 1997Date of Patent: November 9, 1999Assignee: Lockheed Martin Energy Research Corp. Oak Ridge National LaboratoryInventors: Kenneth W. Tobin, Jr., Shaun S. Gleason, Thomas P. Karnowski, Hamed Sari-Sarraf
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Patent number: 5381492Abstract: A fiber optic vibration sensor utilizes two single mode optical fibers supported by a housing with one optical fiber fixedly secured to the housing and providing a reference signal and the other optical fiber having a free span length subject to vibrational displacement thereof with respect to the housing and the first optical fiber for providing a signal indicative of a measurement of any perturbation of the sensor. Damping or tailoring of the sensor to be responsive to selected levels of perturbation is provided by altering the diameter of optical fibers or by immersing at least a portion of the free span length of the vibration sensing optical fiber into a liquid of a selected viscosity.Type: GrantFiled: February 15, 1994Date of Patent: January 10, 1995Assignee: Martin Marietta Energy Systems, Inc.Inventors: Joseph B. Dooley, Jeffrey D. Muhs, Kenneth W. Tobin
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Patent number: 5260520Abstract: Apparatus for weighing a vehicle in motion is provided by employing a plurality of elongated fiber-optic sensors defined by an optical fiber embedded in an encasement of elastomeric material and disposed parallel to each other on the roadway in the path of moving vehicles. Each fiber-optic sensor is provided with contact grid means which can be selectively altered to provide the fiber-optic sensors with sensitivities to vehicular weight different from each other for weighing vehicles in an extended weight range. Switch means are used in conjunction with the fiber-optic sensors to provide signals indicative of the speed of the moving vehicle, the number of axles on the vehicle, weight distribution, tire position, and the wheelbase of the vehicle. The use of a generally N-shaped configuration of switch means also provides a determination of the number of tires on each axle and the tire footprint.Type: GrantFiled: April 2, 1992Date of Patent: November 9, 1993Assignee: Martin Marietta Energy Systems, Inc.Inventors: Jeffrey D. Muhs, John K. Jordan, Kenneth W. Tobin, Jr., John V. LaForge