Pasqualino
Chris Pasqualino, Glendora, CA US
Patent application number | Description | Published |
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20090122169 | HIGHLY MINIATURIZED, BATTERY OPERATED, DIGITAL WIRELESS CAMERA USING PROGRAMMABLE SINGLE CHIP ACTIVE PIXEL SENSOR (APS) DIGITAL CAMERA CHIP - A miniaturized camera which is programmable and provides low power consumption. An active pixel image sensor used in the highly miniaturized camera provides improved imaging functionality as well as reduced power consumption, extending the possible life time of the camera system. The spread spectrum nature of transmission and reception improves data integrity as well as data security. The ability of the highly miniaturized wireless camera to receive commands as well as transmit image data provides improved functionality and a variable rate of power consumption to be set according to the application and needs of the situation. | 05-14-2009 |
Christopher Pasqualino, Glendora, CA US
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20090052471 | DIGITAL VISUAL INTERFACE WITH AUDIO AND AUXILIARY DATA - One embodiment of the present invention uses an abbreviated blanking period, in comparison to the standard VESA and CEA-EIA blanking periods, in order to send data, including low bandwidth, non-timing information, over one or more channels of the digital video link. By shortening the blanking period, the amount of time available for sending data in each scan line is increased, enabling the system to send more data over each channel. The inactive video portion of a scan line sent during vertical sync may also be used to send additional digital data. Shortening the blanking periods and/or using the inactive video sections of the horizontal scan lines adds to the overall data capacity of the link and may be used to send other digital data, such as multichannel audio, video, control, timing, closed captioning or other digital data. | 02-26-2009 |
20110199304 | Systems and Methods for Providing Enhanced Motion Detection - Provided are systems and methods for providing enhanced motion detection. One system providing enhanced motion detection includes a smart display, an interface subsystem including a human interface device (HID), and a console having a processor configured to form communication links with the smart display and the interface subsystem and to provide motion detection feedback, using the smart display, to a user of the HID, where the HID is configured to sense motion of the HID and utilize a predictive model to characterize the motion of the HID. One interface subsystem includes a camera to sense motion of a user of the HID. One processor is configured to negotiate a reduced response latency with the smart display. | 08-18-2011 |
20150301617 | SYSTEMS AND METHODS FOR PROVIDING ENHANCED MOTION DETECTION - Provided are systems and methods for providing enhanced motion detection. One system providing enhanced motion detection includes a smart display, an interface subsystem including a human interface device (HID), and a console having a processor configured to form communication links with the smart display and the interface subsystem and to provide motion detection feedback, using the smart display, to a user of the HID, where the HID is configured to sense motion of the HID and utilize a predictive model to characterize the motion of the HID. One interface subsystem includes a camera to sense motion of a user of the HID. One processor is configured to negotiate a reduced response latency with the smart display. | 10-22-2015 |
Christopher Pasqualino, Laguna Niguel, CA US
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20160127771 | SYSTEM AND METHOD FOR TRANSPORTING HD VIDEO OVER HDMI WITH A REDUCED LINK RATE - In some aspects, the disclosure is directed to methods and systems for transporting multimedia data, such as ultra-high definition (UHD) video data or other video data, via a standard high-definition multimedia interface (HDMI), without requiring an increase in the link bit rate or increasing the number of signaling pairs. Display stream compression is utilized to compress a stream, and a transition minimized differential signal (TMDS) clock channel may be replaced by an ANSI 8b/10b encoded stream carrying additional data with a clock signal embedded within the stream. As this additional channel increases bandwidth by one-third, the systems and methods discussed herein provide four times more effective bandwidth than prior HDMI schemes, allowing UHD video to be transmitted via a signal HDMI link. | 05-05-2016 |
Christopher R. Pasqualino, Glendora, CA US
Patent application number | Description | Published |
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20080266146 | METHOD AND SYSTEM FOR GENERATING HIGH DEFINITION MULTIMEDIA INTERFACE (HDMI) CODEWORDS USING A TMDS ENCODER/DECODER - Systems and methods for processing information are disclosed. The method may include creating a first symbol from a codeword. One or more of a TERC4 symbol, a TMDS symbol and/or a guard band symbol may be generated from at least a portion of the first symbol, if the one or more of the TERC4 symbol, the TMDS symbol and/or the guard band symbol is at least a portion of a signal to be transmitted. At least a portion of the codeword may be TMDS encoded to generate a TMDS symbol for the at least a portion of the signal to be transmitted. At least a portion of the first symbol may be TMDS encoded to generate a TERC4 symbol for the at least a portion of the signal to be transmitted and/or to generate a guard band symbol for the at least a portion of the signal to be transmitted. | 10-30-2008 |
20100135380 | Method and System for Generating High Definition Multimedia Interface (HDMI) Codewords Using a TMDS Encoder/Decoder - Encoding and decoding of video and non-video information may include creating a second symbol from a first codeword. TERC4, TMDS and/or a guard band symbols may be generated from a portion or all of the second symbol during transmission. The TMDS symbol and/or the guard band symbol may be encoded so that they may be combined within a single symbol. At least a portion of the first codeword may be TMDS encoded to generate a TMDS symbol for transmission. TMDS encoding of at least a portion of the second symbol may also generate a TERC4 symbol and/or a guard band symbol for the transmitted signal. The second symbol and the first codeword may be generated from a portion or all of a received signal. The first codeword may be a 4-bit pre-TERC4 codeword, while the second symbol may be an 8-bit pre-TMDS symbol. | 06-03-2010 |