Patents by Inventor Samuel Pol
Samuel Pol 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: 11917119Abstract: A system to capture a plurality of two dimensional digital source images of a scene by a user, including a smart device having a memory device for storing an instruction, a processor in communication with the memory and configured to execute the instruction, a plurality of digital image capture devices in communication with the processor and each image capture device configured to capture a digital image of the scene, the plurality of digital image capture devices positioned linearly in series within approximately an interpupillary distance, wherein a first digital image capture devices is centered proximate a first end of the interpupillary distance, a second digital image capture devices is centered on a second end of the interpupillary distance, and any remaining the plurality of digital image capture devices are evenly spaced therebetween, and a display in communication with the processor, the display configured to display a multidimensional digital image.Type: GrantFiled: May 28, 2021Date of Patent: February 27, 2024Inventors: Jerry Nims, William M. Karszes, Samuel Pol
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Publication number: 20220385880Abstract: A system to capture a plurality of two dimensional digital source images of scene by user, a smart device having a memory device for storing an instruction, a processor in communication with the memory and configured to execute the instruction, a plurality of digital image capture devices in communication with the processor and each image capture device configured to capture a digital image of the scene, the plurality of digital image capture devices positioned linearly in series within approximately an interpupillary distance, wherein a first digital image capture devices is centered proximate a first end of the interpupillary distance, a second digital image capture devices is centered on a second end of the interpupillary distance, and any remaining the plurality of digital image capture devices are evenly spaced therebetween, a display in communication with the processor, display configured to display multidimensional digital image and add audio file thereto.Type: ApplicationFiled: June 7, 2022Publication date: December 1, 2022Inventors: Jerry NIMS, William M. KARSZES, Samuel POL
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Publication number: 20220385807Abstract: A system to capture a plurality of two dimensional digital source images of scene by user, a smart device having a memory device for storing an instruction, a processor in communication with the memory and configured to execute the instruction, a plurality of digital image capture devices in communication with the processor and each image capture device configured to capture a digital image of the scene, the plurality of digital image capture devices positioned linearly in series within approximately an interpupillary distance, wherein a first digital image capture devices is centered proximate a first end of the interpupillary distance, a second digital image capture devices is centered on a second end of the interpupillary distance, and any remaining the plurality of digital image capture devices are evenly spaced therebetween, a display in communication with the processor, display configured to display multidimensional digital image sequence and add audio file thereto.Type: ApplicationFiled: June 7, 2022Publication date: December 1, 2022Inventors: Jerry NIMS, William M. KARSZES, Samuel POL
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Publication number: 20220124296Abstract: A method for simulating a 3-D image sequence from a sequence of 2-D image frames (110), the method comprising: capturing a plurality of 2-D image frames (110) of a scene from a plurality of different observation points, wherein a first, proximal plane and a second, distal plane is identified within each image frame (110) in the sequence, and wherein each observation point maintains substantially the same first, proximal image plane for each image frame; determining a depth estimate for the first, proximal and second, distal plane within each image frame in the sequence; aligning the first, proximal plane of each image frame (110) in the sequence and shifting the second, distal plane of each subsequent image frame (110) in the sequence based on the depth estimate of the second, distal plane for each image frame (110), to produce a modified image frame corresponding to each 2-D image frame; and displaying the modified image frames sequentially.Type: ApplicationFiled: January 27, 2020Publication date: April 21, 2022Inventors: Jerry NIMS, William M. KARSZES, Samuel POL
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Publication number: 20220078392Abstract: A system to capture a plurality of two dimensional digital source images of a scene by a user, including a smart device having a memory device for storing an instruction, a processor in communication with the memory and configured to execute the instruction, a plurality of digital image capture devices in communication with the processor and each image capture device configured to capture a digital image of the scene, the plurality of digital image capture devices positioned linearly in series, wherein a first digital image capture devices, a second digital image capture devices, and any remaining the plurality of digital image capture devices are evenly spaced therebetween, and a display in communication with the processor, the display configured to display a multidimensional digital image sequence.Type: ApplicationFiled: November 12, 2021Publication date: March 10, 2022Applicant: JUC Holdings LimitedInventors: Jerry NIMS, William M. KARSZES, Samuel POL
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Publication number: 20220051427Abstract: To simulate a 3D image of a subsurface below a surface, the system having a memory device for storing an instruction, a processor in communication with the memory device configured to execute the instruction, and a subsurface image capture module in communication with the processor, the subsurface image capture module having one or more wave generating device and one or more sensor affixed to a vehicle to capture a series of digital image datasets of the subsurface with a coordinate reference data, wherein the processor executes an instruction to generate a digital model of the series of digital image datasets of the subsurface while maintaining the coordinate reference data, wherein the processor executes an instruction to determine a depth map of the digital model, and wherein the processor executes an instruction to identify a key subject point in the digital model, where subsurface includes an internal biology, below ground, underwater.Type: ApplicationFiled: October 26, 2021Publication date: February 17, 2022Applicant: JUC Holdings LimitedInventors: Jerry NIMS, William M. KARSZES, Samuel POL
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Publication number: 20210392314Abstract: To simulate a 3D image of a terrain, including a vehicle having a geocoding detector to identify coordinate reference data, the vehicle to traverse the terrain, a memory device for storing an instruction, and a capture module in communication with the processor and connected to the vehicle, the capture module having a 2D RGB digital camera to capture a series of 2D digital images of the terrain and a digital elevation capture device to capture a series of digital elevation scans to generate a digital elevation model of the terrain, with the coordinate reference data, overlay the series of 2D digital images of the terrain thereon the digital elevation model of the terrain while maintaining the coordinate reference data, a key subject point is identified in the series of 2D digital images, and a display configured to display a multidimensional digital image/sequence.Type: ApplicationFiled: August 27, 2021Publication date: December 16, 2021Applicant: JUC Holdings LimitedInventors: Jerry NIMS, William M. KARSZES, Samuel POL
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Publication number: 20210321077Abstract: A system to capture a plurality of two dimensional digital source images of a scene by a user, including a smart device having a memory device for storing an instruction, a processor in communication with the memory and configured to execute the instruction, a plurality of digital image capture devices in communication with the processor and each image capture device configured to capture a digital image of the scene, the plurality of digital image capture devices positioned linearly in series within approximately an interpupillary distance, wherein a first digital image capture devices is centered proximate a first end of the interpupillary distance, a second digital image capture devices is centered on a second end of the interpupillary distance, and any remaining the plurality of digital image capture devices are evenly spaced therebetween, and a display in communication with the processor, the display configured to display a multidimensional digital image sequence.Type: ApplicationFiled: June 23, 2021Publication date: October 14, 2021Applicant: JUC Holdings LimitedInventors: Jerry NIMS, William M. KARSZES, Samuel POL
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Publication number: 20210297647Abstract: A system to capture a plurality of two dimensional digital images of a scene, including a plurality of separated smart device having memory devices for storing an instruction, first, second, and third processors in communication with the first, second, and third memory devices and configured to execute an instruction, a first processor in communication with a display, the display configured to display a multidimensional digital image, a second processor in communication with a plurality of digital image capture devices in communication with the second processor and each image capture device configured to capture a digital image of the scene, the plurality of digital image capture devices positioned linearly in series within approximately an interpupillary distance, and a third processor in communication with the first and second processors, the third processor configured to manipulate the digital image of the scene and transmit the multidimensional digital image to the first processor.Type: ApplicationFiled: May 28, 2021Publication date: September 23, 2021Inventors: Jerry NIMS, William M. KARSZES, Samuel POL
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Publication number: 20210289190Abstract: A system to capture a plurality of two dimensional digital source images of a scene by a user, including a smart device having a memory device for storing an instruction, a processor in communication with the memory and configured to execute the instruction, a plurality of digital image capture devices in communication with the processor and each image capture device configured to capture a digital image of the scene, the plurality of digital image capture devices positioned linearly in series within approximately an interpupillary distance, wherein a first digital image capture devices is centered proximate a first end of the interpupillary distance, a second digital image capture devices is centered on a second end of the interpupillary distance, and any remaining the plurality of digital image capture devices are evenly spaced therebetween, and a display in communication with the processor, the display configured to display a multidimensional digital image.Type: ApplicationFiled: May 28, 2021Publication date: September 16, 2021Inventors: Jerry NIMS, William M. KARSZES, Samuel POL
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Patent number: 10178247Abstract: A systematic approach to producing multi-dimensional photon images on a computer platform having applications to a plurality of input image(s) from various sources, and applications to coordinate and adjust numerous variables which determine the quality of the image, such as the size of the imported images, the output image size, the resolving power of the viewing screen and the width of the resolving elements, the dots per inch of the output device (or pixels per inch), the desired nearest object, the desired furthest object and the determination of the central or the “key subject”, rules of interphasing, the number of frames or layers, the minimum parallax, and the maximum parallax, and, thus, provide a digital multi-dimensional image without jumping images or fuzzy features or other visual distortions by creating high quality output images both in the form of a printed hardcopy or as a viewed image on an appropriate viewing device.Type: GrantFiled: June 4, 2018Date of Patent: January 8, 2019Inventors: Jerry Nims, William M. Karszes, Samuel Pol
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Publication number: 20180288241Abstract: A systematic approach to producing multi-dimensional photon images on a computer platform having applications to a plurality of input image(s) from various sources, and applications to coordinate and adjust numerous variables which determine the quality of the image, such as the size of the imported images, the output image size, the resolving power of the viewing screen and the width of the resolving elements, the dots per inch of the output device (or pixels per inch), the desired nearest object, the desired furthest object and the determination of the central or the “key subject”, rules of interphasing, the number of frames or layers, the minimum parallax, and the maximum parallax, and, thus, provide a digital multi-dimensional image without jumping images or fuzzy features or other visual distortions by creating high quality output images both in the form of a printed hardcopy or as a viewed image on an appropriate viewing device.Type: ApplicationFiled: June 4, 2018Publication date: October 4, 2018Inventors: Jerry NIMS, William M. KARSZES, Samuel POL
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Patent number: 10033990Abstract: A systematic approach to producing multi-dimensional photon images on a computer platform having applications to a plurality of input image(s) from various sources, and applications to coordinate and adjust numerous variables which determine the quality of the image, such as the size of the imported images, the output image size, the resolving power of the viewing screen and the width of the resolving elements, the dots per inch of the output device (or pixels per inch), the desired nearest object, the desired furthest object and the determination of the central or the “key subject”, rules of interphasing, the number of frames or layers, the minimum parallax, and the maximum parallax, and, thus, provide a digital multi-dimensional image without jumping images or fuzzy features or other visual distortions by creating high quality output images both in the form of a printed hardcopy or as a viewed image on an appropriate viewing device.Type: GrantFiled: September 1, 2015Date of Patent: July 24, 2018Inventors: Jerry Nims, William M. Karszes, Samuel Pol
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Patent number: 9992473Abstract: A systematic approach to producing multi-dimensional photon images on a computer platform having applications to input image(s) from various sources, and applications to coordinate and adjust numerous variables which determine the quality of the image, such as the size of the imported images, the output image size, the resolving power of the viewing screen and the width of the resolving elements, the dots per inch of the output device (or pixels per inch), the desired nearest object, the desired furthest object and the determination of the central or the “key subject”, rules of interphasing, the number of frames or layers, the minimum parallax, and the maximum parallax, and, thus, provide a digital multi-dimensional image without jumping images or fuzzy features or other visual distortions by creating high quality output images both in the form of a printed hardcopy or as a viewed image on an appropriate viewing device.Type: GrantFiled: January 30, 2015Date of Patent: June 5, 2018Inventors: Jerry Nims, William M. Karszes, Samuel Pol
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Publication number: 20160227184Abstract: A systematic approach to producing multi-dimensional photon images on a computer platform having applications to input image(s) from various sources, and applications to coordinate and adjust numerous variables which determine the quality of the image, such as the size of the imported images, the output image size, the resolving power of the viewing screen and the width of the resolving elements, the dots per inch of the output device (or pixels per inch), the desired nearest object, the desired furthest object and the determination of the central or the “key subject”, rules of interphasing, the number of frames or layers, the minimum parallax, and the maximum parallax, and, thus, provide a digital multi-dimensional image without jumping images or fuzzy features or other visual distortions by creating high quality output images both in the form of a printed hardcopy or as a viewed image on an appropriate viewing device.Type: ApplicationFiled: January 30, 2015Publication date: August 4, 2016Inventors: Jerry Nims, William M. Karszes, Samuel Pol
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Publication number: 20160227185Abstract: A systematic approach to producing multi-dimensional photon images on a computer platform having applications to a plurality of input image(s) from various sources, and applications to coordinate and adjust numerous variables which determine the quality of the image, such as the size of the imported images, the output image size, the resolving power of the viewing screen and the width of the resolving elements, the dots per inch of the output device (or pixels per inch), the desired nearest object, the desired furthest object and the determination of the central or the “key subject”, rules of interphasing, the number of frames or layers, the minimum parallax, and the maximum parallax, and, thus, provide a digital multi-dimensional image without jumping images or fuzzy features or other visual distortions by creating high quality output images both in the form of a printed hardcopy or as a viewed image on an appropriate viewing device.Type: ApplicationFiled: September 1, 2015Publication date: August 4, 2016Inventors: Jerry Nims, William M. Karszes, Samuel Pol
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Patent number: 7019865Abstract: A plurality of input digital pixel images, having differing pixel array sizes, are scaled to a plurality of common pixel dimension input images based on a printer resolution value, a data characterizing dimensions of the printed image, and a final size value for at least one of the plurality of digital pixel images. A lenticule resolution data is received. A composite image file is formed of the plurality of scaled input digital pixel images, and at least one left-right image file pair is generated from the composite image file. The left-right image file pair are interlaced and printed on a printer associated with the printer resolution value.Type: GrantFiled: February 6, 2002Date of Patent: March 28, 2006Assignee: Orasee Corp.Inventors: Jerry C. Nims, Paul Peters, William Karszes, Wahn Raymer, Samuel Pol, Suk Lee
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Publication number: 20020167679Abstract: A plurality of input digital pixel images, having differing pixel array sizes, are scaled to a plurality of common pixel dimension input images based on a printer resolution value, a data characterizing dimensions of the printed image, and a final size value for at least one of the plurality of digital pixel images. A lenticule resolution data is received. A composite image file is formed of the plurality of scaled input digital pixel images, and at least one left-right image file pair is generated from the composite image file. The left-right image file pair are interlaced and printed on a printer associated with the printer resolution value.Type: ApplicationFiled: February 6, 2002Publication date: November 14, 2002Inventors: Jerry C. Nims, Paul Peters, William Karszes, Wahn Raymer, Samuel Pol, Suk Lee