Davidovici
Daniel Davidovici, Alpharetta, GA US
Patent application number | Description | Published |
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20090213091 | PANEL DISPLAY WITH SELECTIVE TOUCH-ACTIVE SCREEN AREAS - A touchscreen computer display panel apparatus having selected areas able to detect and register touch by a user and at least one selected area of higher screen resolution not being touch-activatable. | 08-27-2009 |
Sorin Davidovici, Oceanport, NJ US
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20100295965 | System and Method for a High Dynamic Range Sensitive Sensor Element or Array - A high dynamic range sensitive sensor element or array is provided which uses phase domain integration techniques to accurately capture high and low intensity images. The sensor element of the present invention is not limited by dynamic range characteristics exhibited by prior art solid-state pixel structures and is thus capable of capturing a full spectrum of electromagnetic radiation to provide a high quality output image. | 11-25-2010 |
20100328512 | System and Method for a High Dynamic Range Sensitive Sensor Element or Array - A method is disclosed of a heterogeneous image sensor array comprising more than one image sensor structures that are interconnected. The final image sensor array image output for each image sensor structure or pixel is computed using single image sensor structure output data or output data from more than one image sensor structures. The heterogeneous array exhibits complexity, cost, power consumption, device yields and reliability benefits when compared to other image sensor array structures. | 12-30-2010 |
20110109777 | SYSTEM AND METHOD FOR A HIGH PERFORMANCE COLOR FILTER MOSAIC ARRAY - A method of implementing high-performance color filter mosaic arrays (CFA) using luminance pixels. The introduction of luminance pixels greatly improves the accuracy of the image acquisition process for a given pixel and image sensor size. | 05-12-2011 |
20130175436 | SYSTEM AND METHOD FOR A HIGH DYNAMIC RANGE SENSITIVE SENSOR ELEMENT OR ARRAY - A high dynamic range sensitive sensor element or array is provided which uses periodic sampling phase domain integration techniques to accurately capture high and low intensity images. The sensor element of the present invention is not limited by dynamic range characteristics exhibited by prior art solid-state pixel structures and is thus capable of capturing a full spectrum of electromagnetic radiation to provide a high quality output image. | 07-11-2013 |
Sorin Davidovici, Ocean Port, NJ US
Patent application number | Description | Published |
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20150334317 | HIGH DYNAMIC RANGE ARRAY OF SENSITIVE IMAGE SENSOR BLOCKS USING BLOCK PROCESSING - A method is disclosed of an image sensor array comprising more than one image sensor structures and one or more processing blocks that are interconnected. The final image sensor array image output for each image sensor structure or pixel is computed using single image sensor structure output data or output data from more than one image sensor structure and processing blocks. The image sensor array exhibits complexity, cost, power consumption, device yields and reliability benefits when compared to other image sensor array structures. | 11-19-2015 |
Steve Davidovici, Las Vegas, NV US
Patent application number | Description | Published |
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20100112148 | Lollipop Apparatus and Method - A lollipop ball is formed to a lollipop ball engagement mechanism and the lollipop ball engagement mechanism extends outward from the lollipop ball to releasably engage a proximal end of a lollipop stick. Alternatively, a lollipop ball is formed to a lollipop ball engagement mechanism that defines a cavity inside the sphere of the lollipop ball and the proximal end of the lollipop stick releasably engages the cavity located in the interior of the lollipop. Alternatively, the lollipop itself can be formed to define the cavity such that no lollipop ball engagement mechanism is required to releasably engage the proximal end of the lollipop stick. The lollipop stick can also include one or more design elements. | 05-06-2010 |
20110027430 | Lollipop Apparatus and Method - A lollipop ball is formed to a lollipop ball engagement mechanism and the lollipop ball engagement mechanism extends outward from the lollipop ball to releasably engage a proximal end of a lollipop stick. Alternatively, a lollipop ball is formed to a lollipop ball engagement mechanism that defines a cavity inside the sphere of the lollipop ball and the proximal end of the lollipop stick releasably engages the cavity located in the interior of the lollipop. Alternatively, the lollipop itself can be formed to define the cavity such that no lollipop ball engagement mechanism is required to releasably engage the proximal end of the lollipop stick. The lollipop stick can also include one or more design elements. | 02-03-2011 |
20150327570 | LOLLIPOP APPARATUS AND METHOD - A lollipop ball is formed to a lollipop ball engagement mechanism and the lollipop ball engagement mechanism extends outward from the lollipop ball to releasably engage a proximal end of a lollipop stick. Alternatively, a lollipop ball is formed to a lollipop ball engagement mechanism that defines a cavity inside the sphere of the lollipop ball and the proximal end of the lollipop stick releasably engages the cavity located in the interior of the lollipop. Alternatively, the lollipop itself can be formed to define the cavity such that no lollipop ball engagement mechanism is required to releasably engage the proximal end of the lollipop stick. The lollipop stick can also include one or more design elements. | 11-19-2015 |