Patents by Inventor Eric P. Rubenstein
Eric P. Rubenstein 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: 11969273Abstract: A medical imaging system for detecting ionizing radiation. The system includes one or more pixilated imagers positioned to acquire patient image data and one or more position sensors positioned to acquire patient position data. Once the patient image data and patient position data are acquired, one or more processors operably connected to each of the one or more pixilated imagers and one or more position sensors calculate a three-dimensional mass distribution based on patient image data and patient position data.Type: GrantFiled: December 29, 2022Date of Patent: April 30, 2024Assignee: IMAGE INSIGHT, INC.Inventors: Eric P. Rubenstein, Peter R. Solomon, Gordon A. Drukier, Marek A. Wojtowicz, Joseph E. Cosgrove, Michael A. Serio, James R. Markham, Kenneth W. Wang, William M. Pramenko
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Publication number: 20230218244Abstract: A medical imaging system for detecting ionizing radiation. The system includes one or more pixilated imagers positioned to acquire patient image data and one or more position sensors positioned to acquire patient position data. Once the patient image data and patient position data are acquired, one or more processors operably connected to each of the one or more pixilated imagers and one or more position sensors calculate a three-dimensional mass distribution based on patient image data and patient position data.Type: ApplicationFiled: December 29, 2022Publication date: July 13, 2023Inventors: Eric P. RUBENSTEIN, Peter R. SOLOMON, Gordon A. DRUKIER, Marek A. WOJTOWICZ, Joseph E. COSGROVE, Michael A. SERIO, James R. MARKHAM, Kenneth W. WANG, William M. PRAMENKO
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Publication number: 20230152478Abstract: Systems and methods for calibrating multiple electronic devices are described herein. Such methods may include obtaining, by a processor, data from a plurality of reference electronic devices, analyzing, by a processor, the data and calibrating, by the processor, the electronic device based on the analyzed data obtained from the plurality of reference electronic devices.Type: ApplicationFiled: July 20, 2022Publication date: May 18, 2023Inventors: Gordon A. DRUKIER, Eric P. RUBENSTEIN, Yonatan B. RUBENSTEIN, Joshua C. KESSLER, Peter R. SOLOMON, Marek A. WOJTOWICZ
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Patent number: 11540787Abstract: A medical imaging system for detecting ionizing radiation. The system includes one or more pixilated imagers positioned to acquire patient image data and one or more position sensors positioned to acquire patient position data. Once the patient image data and patient position data are acquired, one or more processors operably connected to each of the one or more pixilated imagers and one or more position sensors calculate a three-dimensional mass distribution based on patient image data and patient position data.Type: GrantFiled: July 13, 2020Date of Patent: January 3, 2023Assignee: IMAGE INSIGHT, INC.Inventors: Eric P. Rubenstein, Peter R. Solomon, Gordon A. Drukier, Marek A. Wojtowicz, Joseph E. Cosgrove, Michael A. Serio, James R. Markham, Kenneth W. Wang, William M. Pramenko
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Patent number: 11428832Abstract: Systems and methods for calibrating multiple electronic devices are described herein. Such methods may include obtaining, by a processor, data from a plurality of reference electronic devices, analyzing, by a processor, the data and calibrating, by the processor, the electronic device based on the analyzed data obtained from the plurality of reference electronic devices.Type: GrantFiled: November 12, 2013Date of Patent: August 30, 2022Assignee: IMAGE INSIGHT, INC.Inventors: Gordon A. Drukier, Eric P. Rubenstein, Yonatan B. Rubenstein, Joshua C. Kessler, Peter R. Solomon, Marek A. Wojtowicz
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Publication number: 20210128083Abstract: A medical imaging system for detecting ionizing radiation. The system includes one or more pixilated imagers positioned to acquire patient image data and one or more position sensors positioned to acquire patient position data. Once the patient image data and patient position data are acquired, one or more processors operably connected to each of the one or more pixilated imagers and one or more position sensors calculate a three-dimensional mass distribution based on patient image data and patient position data.Type: ApplicationFiled: July 13, 2020Publication date: May 6, 2021Inventors: Eric P. RUBENSTEIN, Peter R. SOLOMON, Gordon A. DRUKIER, Marek A. WOJTOWICZ, Joseph E. COSGROVE, Michael A. SERIO, James R. MARKHAM, Kenneth W. WANG, William M. PRAMENKO
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Patent number: 10751008Abstract: A medical imaging system for detecting ionizing radiation. The system includes one or more pixilated imagers positioned to acquire patient image data and one or more position sensors positioned to acquire patient position data. Once the patient image data and patient position data are acquired, one or more processors operably connected to each of the one or more pixilated imagers and one or more position sensors calculate a three-dimensional mass distribution based on patient image data and patient position data.Type: GrantFiled: May 6, 2019Date of Patent: August 25, 2020Assignee: IMAGE INSIGHT, INC.Inventors: Eric P. Rubenstein, Peter R. Solomon, Gordon A. Drukier, Marek A. Wojtowicz, Joseph E. Cosgrove, Michael A. Serio, James R. Markham, Kenneth W. Wang, William M. Pramenko
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Publication number: 20190328342Abstract: A medical imaging system for detecting ionizing radiation. The system includes one or more pixilated imagers positioned to acquire patient image data and one or more position sensors positioned to acquire patient position data. Once the patient image data and patient position data are acquired, one or more processors operably connected to each of the one or more pixilated imagers and one or more position sensors calculate a three-dimensional mass distribution based on patient image data and patient position data.Type: ApplicationFiled: May 6, 2019Publication date: October 31, 2019Inventors: Eric P. RUBENSTEIN, Peter R. SOLOMON, Gordon A. DRUKIER, Marek A. WOJTOWICZ, Joseph E. COSGROVE, Michael A. SERIO, James R. MARKHAM, Kenneth W. WANG, William M. PRAMENKO
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Patent number: 10278656Abstract: A medical imaging system for detecting ionizing radiation. The system includes one or more pixilated imagers positioned to acquire patient image data and one or more position sensors positioned to acquire patient position data. Once the patient image data and patient position data are acquired, one or more processors operably connected to each of the one or more pixilated imagers and one or more position sensors calculate a three-dimensional mass distribution based on patient image data and patient position data.Type: GrantFiled: May 9, 2017Date of Patent: May 7, 2019Assignee: IMAGE INSIGHT, INC.Inventors: Eric P. Rubenstein, Peter R. Solomon, Gordon A. Drukier, Marek A. Wojtowicz, Joseph E. Cosgrove, Michael A. Serio, James R. Markham, Kenneth W. Wang, William M. Pramenko
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Publication number: 20170319155Abstract: A medical imaging system for detecting ionizing radiation. The system includes one or more pixilated imagers positioned to acquire patient image data and one or more position sensors positioned to acquire patient position data. Once the patient image data and patient position data are acquired, one or more processors operably connected to each of the one or more pixilated imagers and one or more position sensors calculate a three-dimensional mass distribution based on patient image data and patient position data.Type: ApplicationFiled: May 9, 2017Publication date: November 9, 2017Inventors: Eric P. RUBENSTEIN, Peter R. SOLOMON, Gordon A. DRUKIER, Marek A. WOJTOWICZ, Joseph E. COSGROVE, Michael A. SERIO, James R. MARKHAM, Kenneth W. WANG, William M. PRAMENKO
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Patent number: 9014488Abstract: The invention described herein is generally directed to methods for analyzing an image. In particular, crowded field images may be analyzed for unidentified, unobserved objects based on an iterative analysis of modified images including artificial objects or removed real objects. The results can provide an estimate of the completeness of analysis of the image, an estimate of the number of objects that are unobserved in the image, and an assessment of the quality of other similar images.Type: GrantFiled: May 20, 2014Date of Patent: April 21, 2015Assignee: Image Insight Inc.Inventors: Eric P. Rubenstein, Gordon A. Drukier
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Patent number: 9000386Abstract: Digital images or the charge from pixels in light sensitive semiconductor based imagers may be used to detect gamma rays and energetic particles emitted by radioactive materials. Methods may be used to identify pixel-scale artifacts introduced into digital images and video images by high energy gamma rays. Statistical tests and other comparisons on the artifacts in the images or pixels may be used to prevent false-positive detection of gamma rays. The sensitivity of the system may be used to detect radiological material at distances in excess of 50 meters. Advanced processing techniques allow for gradient searches to more accurately determine the source's location, while other acts may be used to identify the specific isotope. Coordination of different imagers and network alerts permit the system to separate non-radioactive objects from radioactive objects.Type: GrantFiled: September 13, 2013Date of Patent: April 7, 2015Assignee: Image Insight Inc.Inventor: Eric P. Rubenstein
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Publication number: 20140323157Abstract: Embodiments of the invention are directed to systems, devices, and methods for using mobile devices to detect a simulated source, and games and training exercises using these systems, devices, and methods. In some embodiments, the source may be a simulated hazardous material that emits energy, particles, or vapors that can also be simulated by the mobile devices. In such embodiments, the systems, devices, and methods can be used to simulate an incident involving the release of hazardous materials such as, for example, a chemical or radioactive material spill or attack by chemical, biological, nuclear, or radioactive (dirty bomb) weapons. In other embodiments, the system can be used to simulate an object used in a game such as a ball, puck, or goal and monitor movement of the object and players using a mobile device.Type: ApplicationFiled: April 25, 2014Publication date: October 30, 2014Applicant: IMAGE INSIGHT INC.Inventors: Gordon A. DRUKIER, Peter R. SOLOMON, Gregory Nicholas BENES, Eric P. RUBENSTEIN
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Publication number: 20140254944Abstract: The invention described herein is generally directed to methods for analyzing an image. In particular, crowded field images may be analyzed for unidentified, unobserved objects based on an iterative analysis of modified images including artificial objects or removed real objects. The results can provide an estimate of the completeness of analysis of the image, an estimate of the number of objects that are unobserved in the image, and an assessment of the quality of other similar images.Type: ApplicationFiled: May 20, 2014Publication date: September 11, 2014Applicant: Image Insight Inc.Inventors: Eric P. RUBENSTEIN, Gordon A. DRUKIER
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Publication number: 20140224964Abstract: Systems and methods for identifying pixels in digital images and video images that have interacted with high energy particles are described herein and using this system to coordination imagers and network alerts to permit the system to separate non-radioactive objects from radioactive objects.Type: ApplicationFiled: February 10, 2014Publication date: August 14, 2014Inventors: Peter R. SOLOMON, Gordon A. DRUKIER, Eric P. RUBENSTEIN, Gregory Nicholas BENES
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Publication number: 20140203181Abstract: Digital images or the charge from pixels in light sensitive semiconductor based imagers may be used to detect gamma rays and energetic particles emitted by radioactive materials. Methods may be used to identify pixel-scale artifacts introduced into digital images and video images by high energy gamma rays. Statistical tests and other comparisons on the artifacts in the images or pixels may be used to prevent false-positive detection of gamma rays. The sensitivity of the system may be used to detect radiological material at distances in excess of 50 meters. Advanced processing techniques allow for gradient searches to more accurately determine the source's location, while other acts may be used to identify the specific isotope. Coordination of different imagers and network alerts permit the system to separate non-radioactive objects from radioactive objects.Type: ApplicationFiled: September 13, 2013Publication date: July 24, 2014Applicant: Image Insight Inc.Inventor: Eric P. Rubenstein
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Patent number: 8774529Abstract: The invention described herein is generally directed to methods for analyzing an image. In particular, crowded field images may be analyzed for unidentified, unobserved objects based on an iterative analysis of modified images including artificial objects or removed real objects. The results can provide an estimate of the completeness of analysis of the image, an estimate of the number of objects that are unobserved in the image, and an assessment of the quality of other similar images.Type: GrantFiled: May 24, 2013Date of Patent: July 8, 2014Assignee: Image Insight Inc.Inventors: Eric P. Rubenstein, Gordon A. Drukier
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Publication number: 20140136135Abstract: Systems and methods for calibrating multiple electronic devices are described herein. Such methods may include obtaining, by a processor, data from a plurality of reference electronic devices, analyzing, by a processor, the data and calibrating, by the processor, the electronic device based on the analyzed data obtained from the plurality of reference electronic devices.Type: ApplicationFiled: November 12, 2013Publication date: May 15, 2014Applicant: IMAGE INSIGHT INC.Inventors: Gordon A. DRUKIER, Eric P. RUBENSTEIN, Yonatan B. RUBENSTEIN, Joshua C. KESSLER, Peter R. SOLOMON, Marek A. WOJTOWICZ
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Patent number: 8615812Abstract: High-strength porous carbon and a method of its manufacture are described for multifunctional applications, such as ballistic protection, structural components, ultracapacitor electrodes, gas storage, and radiation shielding. The carbon is produced from a polymer precursor via carbonization, and optionally by surface activation and post-treatment.Type: GrantFiled: March 31, 2010Date of Patent: December 31, 2013Assignee: Advanced Fuel Research, Inc.Inventors: Marek A. Wójtowicz, Eric P. Rubenstein, Michael A. Serio, Joseph E. Cosgrove
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Patent number: 8563937Abstract: Digital images or the charge from pixels in light sensitive semiconductor based imagers may be used to detect gamma rays and energetic particles emitted by radioactive materials. Methods may be used to identify pixel-scale artifacts introduced into digital images and video images by high energy gamma rays. Statistical tests and other comparisons on the artifacts in the images or pixels may be used to prevent false-positive detection of gamma rays. The sensitivity of the system may be used to detect radiological material at distances in excess of 50 meters. Advanced processing techniques allow for gradient searches to more accurately determine the source's location, while other acts may be used to identify the specific isotope. Coordination of different imagers and network alerts permit the system to separate non-radioactive objects from radioactive objects.Type: GrantFiled: September 14, 2012Date of Patent: October 22, 2013Assignee: Advanced Fuel Research, Inc.Inventor: Eric P. Rubenstein