Patents by Inventor Uria Kaplan
Uria Kaplan 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: 20250334379Abstract: Camouflage coating systems, apparatuses, and methods described herein may include a coating deposited and bonded to a region of an external surface of an object to be camouflaged. The coating may include a plurality of stacked material arrangements deposited and bonded sequentially onto the region of the external surface and arranged to define a laterally distributed plurality of independent camouflage profiles. The coating may be configured to adjust coating emissivity at visual and IR wavelengths and to block or adjust infrared (IR) emitted by the object, thereby concealing the region of the external surface of the object from detection by a detection method in the visual, infrared, and electromagnetic regimes.Type: ApplicationFiled: July 8, 2025Publication date: October 30, 2025Inventors: Elad Morag, Uria Kaplan
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Patent number: 12379189Abstract: Camouflage coating systems, apparatuses, and methods described herein may include a coating deposited and bonded to a region of an external surface of an object to be camouflaged. The coating may include a plurality of stacked material arrangements deposited and bonded sequentially onto the region of the external surface and arranged to define a laterally distributed plurality of independent camouflage profiles. The coating may be configured to adjust coating emissivity at visual and IR wavelengths and to block or adjust infrared (IR) emitted by the object, thereby concealing the region of the external surface of the object from detection by a detection method in the visual, infrared, and electromagnetic regimes.Type: GrantFiled: February 1, 2023Date of Patent: August 5, 2025Assignee: Ametrine Technologies Ltd.Inventors: Elad Morag, Uria Kaplan
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Publication number: 20250052541Abstract: A fabric includes a first flexible fabric layer, having fabric emissivity properties in a visible radiation range that are selected so as to mimic ambient emissivity properties of a deployment environment of the fabric, and at least one second flexible fabric layer, which is joined to the first flexible fabric layer, and which is configured to scatter long-wave radiation that is incident on the fabric. The first and second flexible fabric layers are perforated by a non-uniform pattern of perforations extending over at least a part of the fabric.Type: ApplicationFiled: August 22, 2024Publication date: February 13, 2025Inventors: Elad Morag, Uria Kaplan
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Publication number: 20240336053Abstract: A fabric (30) includes a first flexible fabric layer (32), having fabric emissivity properties in a visible radiation range that are selected so as to mimic ambient emissivity properties of a deployment environment of the fabric, and at least one second flexible fabric layer (34), which is joined to the first flexible fabric layer, and which is configured to scatter long-wave radiation that is incident on the fabric. The first and second flexible fabric layers are perforated by a non-uniform pattern of perforations (44) extending over at least a part of the fabric.Type: ApplicationFiled: June 18, 2024Publication date: October 10, 2024Inventors: Elad Morag, Uria Kaplan
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Patent number: 12036780Abstract: A fabric (30) includes a first flexible fabric layer (32), having fabric emissivity properties in a visible radiation range that are selected so as to mimic ambient emissivity properties of a deployment environment of the fabric, and at least one second flexible fabric layer (34), which is joined to the first flexible fabric layer, and which is configured to scatter long-wave radiation that is incident on the fabric. The first and second flexible fabric layers are perforated by a non-uniform pattern of perforations (44) extending over at least a part of the fabric.Type: GrantFiled: March 15, 2021Date of Patent: July 16, 2024Assignee: Ametrine Technologies Ltd.Inventors: Elad Morag, Uria Kaplan
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Publication number: 20230296355Abstract: Camouflage coating systems, apparatuses, and methods described herein may include a coating deposited and bonded to a region of an external surface of an object to be camouflaged. The coating may include a plurality of stacked material arrangements deposited and bonded sequentially onto the region of the external surface and arranged to define a laterally distributed plurality of independent camouflage profiles. The coating may be configured to adjust coating emissivity at visual and IR wavelengths and to block or adjust infrared (IR) emitted by the object, thereby concealing the region of the external surface of the object from detection by a detection method in the visual, infrared, and electromagnetic regimes.Type: ApplicationFiled: February 1, 2023Publication date: September 21, 2023Inventors: Elad Morag, Uria Kaplan
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Publication number: 20230296356Abstract: Multispectral camouflage systems, apparatuses, and methods describes herein may include an assembled array of one or more discrete camouflage units, wherein each of the one or more discrete camouflage units includes a composite material having at least one predetermined structurally related property and at least one predetermined camouflage-related property, and wherein each of the one or more discrete camouflage units is joined to one or more neighboring unit to provide a laterally positioned camouflage cover configured to conceal an object from visible detection, infrared detection, thermal imaging, and radar detection.Type: ApplicationFiled: February 1, 2023Publication date: September 21, 2023Inventors: Elad Morag, Uria Kaplan
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Publication number: 20210197542Abstract: A fabric (30) includes a first flexible fabric layer (32), having fabric emissivity properties in a visible radiation range that are selected so as to mimic ambient emissivity properties of a deployment environment of the fabric, and at least one second flexible fabric layer (34), which is joined to the first flexible fabric layer, and which is configured to scatter long-wave radiation that is incident on the fabric. The first and second flexible fabric layers are perforated by a non-uniform pattern of perforations (44) extending over at least a part of the fabric.Type: ApplicationFiled: March 15, 2021Publication date: July 1, 2021Inventors: Elad Morag, Uria Kaplan
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Patent number: 10960654Abstract: A fabric (30) includes a first flexible fabric layer (32), having fabric emissivity properties in a visible radiation range that are selected so as to mimic ambient emissivity properties of a deployment environment of the fabric, and at least one second flexible fabric layer (34), which is joined to the first flexible fabric layer, and which is configured to scatter long-wave radiation that is incident on the fabric. The first and second flexible fabric layers are perforated by a non-uniform pattern of perforations (44) extending over at least a part of the fabric.Type: GrantFiled: December 21, 2018Date of Patent: March 30, 2021Assignee: Ametrine Technologies Ltd.Inventors: Elad Morag, Uria Kaplan
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Publication number: 20190120597Abstract: A fabric (30) includes a first flexible fabric layer (32), having fabric emissivity properties in a visible radiation range that are selected so as to mimic ambient emissivity properties of a deployment environment of the fabric, and at least one second flexible fabric layer (34), which is joined to the first flexible fabric layer, and which is configured to scatter long-wave radiation that is incident on the fabric. The first and second flexible fabric layers are perforated by a non-uniform pattern of perforations (44) extending over at least a part of the fabric.Type: ApplicationFiled: December 21, 2018Publication date: April 25, 2019Inventors: Elad Morag, Uria Kaplan
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Patent number: 10203183Abstract: A fabric (30) includes a first flexible fabric layer (32), having fabric emissivity properties in a visible radiation range that are selected so as to mimic ambient emissivity properties of a deployment environment of the fabric, and at least one second flexible fabric layer (34), which is joined to the first flexible fabric layer, and which is configured to scatter long-wave radiation that is incident on the fabric. The first and second flexible fabric layers are perforated by a non-uniform pattern of perforations (44) extending over at least a part of the fabric.Type: GrantFiled: April 29, 2012Date of Patent: February 12, 2019Assignee: Ametrine Technologies Ltd.Inventors: Elad Morag, Uria Kaplan
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Publication number: 20190017785Abstract: A fabric includes a first flexible fabric layer, having fabric emissivity properties in a visible radiation range that are selected so as to mimic ambient emissivity properties of a deployment environment of the fabric, and at least one second flexible fabric layer, which is joined to the first flexible fabric layer, and which is configured to scatter long-wave radiation that is incident on the fabric. The first and second flexible fabric layers are perforated by a non-uniform pattern of perforations extending over at least a part of the fabric.Type: ApplicationFiled: July 2, 2018Publication date: January 17, 2019Inventors: Elad Morag, Uria Kaplan
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Publication number: 20140304883Abstract: A fabric (30) includes a first flexible fabric layer (32), having fabric emissivity properties in a visible radiation range that are selected so as to mimic ambient emissivity properties of a deployment environment of the fabric, and at least one second flexible fabric layer (34), which is joined to the first flexible fabric layer, and which is configured to scatter long-wave radiation that is incident on the fabric. The first and second flexible fabric layers are perforated by a non-uniform pattern of perforations (44) extending over at least a part of the fabric.Type: ApplicationFiled: April 29, 2012Publication date: October 16, 2014Applicant: AMETRINE TECHNOLOGIES LTD.Inventors: Elad Morag, Uria Kaplan