Patents by Inventor Mathew Cucuzella
Mathew Cucuzella 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: 8909468Abstract: The described method and system provide for utilizing portals during GPS navigation to avoid unnecessary off-route notifications and route recalculation in problem areas. The method and system are described in the context of a GPS unit that is part of a telematics unit in a vehicle. If the route calculated by the GPS unit includes certain problem areas such as tunnels and stacked bridges, the GPS unit may utilize portals to process GPS navigation through those areas. When a user enters a portal, normal GPS navigation is suspended and certain features are disabled. For example, the user will not longer receive Turn-by-Turn (TBT) directions, off-route notifications, error notifications, and route recalculation notifications, until the GPS unit determines that the user has arrived at a second portal or until the user manually re-enables those features. The portals should be preferably located at the inlets and outlets to the problem areas.Type: GrantFiled: June 7, 2011Date of Patent: December 9, 2014Assignee: General Motors LLCInventors: Todd E. Damon, Mathew Cucuzella
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Patent number: 8805611Abstract: The described method and system provide for treatment of certain areas as neutral zones during GPS navigation to avoid unnecessary off-route notifications and route recalculation. A GPS unit determines whether the user has entered a geographic region designated as a neutral zone, and does not provide the user with off-route notifications while the user is within the neutral zone. Not providing off-route notifications may be implemented by the GPS device by considering the user to be within the calculated route while the user is within a neutral zone, or by disabling off-route notifications (and route recalculation) while the user is within the neutral zone. The neutral zone may be defined by a set of GPS coordinates. The neutral zone may further be polygonal, and the size of the neutral zone may be based on the accuracy of the GPS device.Type: GrantFiled: June 7, 2011Date of Patent: August 12, 2014Assignee: General Motors LLCInventors: Todd E. Damon, Mathew Cucuzella
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Publication number: 20120316770Abstract: The described method and system provide for treatment of certain areas as neutral zones during GPS navigation to avoid unnecessary off-route notifications and route recalculation. A GPS unit determines whether the user has entered a geographic region designated as a neutral zone, and does not provide the user with off-route notifications while the user is within the neutral zone. Not providing off-route notifications may be implemented by the GPS device by considering the user to be within the calculated route while the user is within a neutral zone, or by disabling off-route notifications (and route recalculation) while the user is within the neutral zone. The neutral zone may be defined by a set of GPS coordinates. The neutral zone may further be polygonal, and the size of the neutral zone may be based on the accuracy of the GPS device.Type: ApplicationFiled: June 7, 2011Publication date: December 13, 2012Applicant: General Motors LLCInventors: Todd E. Damon, Mathew Cucuzella
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Publication number: 20120316771Abstract: The described method and system provide for utilizing portals during GPS navigation to avoid unnecessary off-route notifications and route recalculation in problem areas. The method and system are described in the context of a GPS unit that is part of a telematics unit in a vehicle. If the route calculated by the GPS unit includes certain problem areas such as tunnels and stacked bridges, the GPS unit may utilize portals to process GPS navigation through those areas. When a user enters a portal, normal GPS navigation is suspended and certain features are disabled. For example, the user will not longer receive Turn-by-Turn (TBT) directions, off-route notifications, error notifications, and route recalculation notifications, until the GPS unit determines that the user has arrived at a second portal or until the user manually re-enables those features. The portals should be preferably located at the inlets and outlets to the problem areas.Type: ApplicationFiled: June 7, 2011Publication date: December 13, 2012Applicant: General Motors LLCInventors: Todd E. Damon, Mathew Cucuzella
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Patent number: 7647615Abstract: An audio input interface (122) receives a digital audio signal and identifies an audio bitstream which is optionally decrypted by a decryption unit (123), and decoded by an audio decoding unit (124). An audio digital to analog converter (126) converts the decoded audio bitstream to an analog audio signal which is optionally decrypted by an audio analog decryption unit (127) and output by an audio output interface (128) to an analog wireline device (100). A video input interface (142) receives a digital video signal and identifies a video bitstream which is optionally decrypted by a video digital decryption unit (143), and decoded by a video decoding unit (144). A video digital to analog converter (146) converts the decoded video bitstream to an analog video signal that is optionally decrypted by a video analog decryption unit (147) and output by a video output interface (148) to the analog wireline device (100).Type: GrantFiled: May 4, 1998Date of Patent: January 12, 2010Assignee: Motorola, Inc.Inventors: Jurgen Reinold, David Knappenberger, Mathew Cucuzella, Jack Scott Geranen, Jeff Lee, Michael E. Williams
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Patent number: 6799201Abstract: An internet radio for portable applications and uses such as in an automobile. The internet radio allows access to a host of audio, visual and other information. Normal radio channel function is provided along with programmable content and channel selection, as well as automatic content and channel updating by location and style. Internet access is also provided. Direct or targeted advertising, as well as electronic commerce is supported. Connection to the internet is through wireless communications. Programmability is achieved off-line via a web page and remote computer. Customized information is also communicated to the radio such as stock quotes, travel information, advertising, and e-mail. Onboard global positioning allows for channel updating by location, traffic information, geographic advertising and available similar content.Type: GrantFiled: September 19, 2000Date of Patent: September 28, 2004Assignee: Motorola, Inc.Inventors: Jeffrey S. Lee, Parvathy Bhaskaran, Mathew Cucuzella, David T. Knappenberger, Richard L. Blanco, Mark Clayton, Axel Fuchs, Steven S. Gubka, William S. Hede, Merlin Smith, Bernhard P. Weisshaar
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Publication number: 20030121043Abstract: An audio input interface (122) receives a digital audio signal and identifies an audio bitstream which is optionally decrypted by a decryption unit (123), and decoded by an audio decoding unit (124). An audio digital to analog converter (126) converts the decoded audio bitstream to an analog audio signal which is optionally decrypted by an audio analog decryption unit (127). A video input interface (142) receives a digital video signal and identifies a video bitstream which is optionally decrypted by a video digital decryption unit (143), and decoded by a video decoding unit (144). A video digital to analog converter (146) converts the decoded video bitstream to an analog video signal that is optionally decrypted by a video analog decryption unit (147). An analog transmitter (150) mixes the analog audio signal and analog video signal and transmits an analog wireless output signal to an analog wireless device (110).Type: ApplicationFiled: December 11, 2002Publication date: June 26, 2003Inventors: Juergen Reinold, David T. Knappenberger, Mathew Cucuzella, Jack Scott Geranen, Jeffrey S. Lee, Michael E. Williams
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Patent number: 6577354Abstract: An audio input interface (122) receives a digital audio signal and identifies an audio bitstream which is optionally decrypted by a decryption unit (123), and decoded by an audio decoding unit (124). An audio digital to analog converter (126) converts the decoded audio bitstream to an analog audio signal which is optionally decrypted by an audio analog decryption unit (127). A video input interface (142) receives a digital video signal and identifies a video bitstream which is optionally decrypted by a video digital decryption unit (143), and decoded by a video decoding unit (144). A video digital to analog converter (146) converts the decoded video bitstream to an analog video signal that is optionally decrypted by a video analog decryption unit (147). An analog transmitter (150) mixes the analog audio signal and analog video signal and transmits an analog wireless output signal to an analog wireless device (110).Type: GrantFiled: December 13, 2001Date of Patent: June 10, 2003Assignee: Motorola, Inc.Inventors: Jurgen Reinold, David Knappenberger, Mathew Cucuzella, Jack Scott Geranen, Jeff Lee, Michael E. Williams
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Publication number: 20030081793Abstract: An audio input interface (122) receives a digital audio signal and identifies an audio bitstream which is optionally decrypted by a decryption unit (123), and decoded by an audio decoding unit (124). An audio digital to analog converter (126) converts the decoded audio bitstream to an analog audio signal which is optionally decrypted by an audio analog decryption unit (127). A video input interface (142) receives a digital video signal and identifies a video bitstream which is optionally decrypted by a video digital decryption unit (143), and decoded by a video decoding unit (144). A video digital to analog converter (146) converts the decoded video bitstream to an analog video signal that is optionally decrypted by a video analog decryption unit (147). An analog transmitter (150) mixes the analog audio signal and analog video signal and transmits an analog wireless output signal to an analog wireless device (110).Type: ApplicationFiled: November 22, 2002Publication date: May 1, 2003Inventors: Jurgen Reinold, David Knappenberger, Mathew Cucuzella, Jack Scott Geranen, Jeff Lee, Michael E. Williams
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Publication number: 20020138278Abstract: An audio input interface (122) receives a digital audio signal and identifies an audio bitstream which is optionally decrypted by a decryption unit (123), and decoded by an audio decoding unit (124). An audio digital to analog converter (126) converts the decoded audio bitstream to an analog audio signal which is optionally decrypted by an audio analog decryption unit (127). A video input interface (142) receives a digital video signal and identifies a video bitstream which is optionally decrypted by a video digital decryption unit (143), and decoded by a video decoding unit (144). A video digital to analog converter (146) converts the decoded video bitstream to an analog video signal that is optionally decrypted by a video analog decryption unit (147). An analog transmitter (150) mixes the analog audio signal and analog video signal and transmits an analog wireless output signal to an analog wireless device (110).Type: ApplicationFiled: December 13, 2001Publication date: September 26, 2002Inventors: Jurgen Reinold, David Knappenberger, Mathew Cucuzella, Jack Scott Geranen, Jeff Lee, Michael E. Williams
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Publication number: 20020087330Abstract: A method of communicating a set of audio content (300) from a communications node (104) to a remote communications node (200) includes assigning a set of content identifiers (115) to a set of audio content (300) via a user configuration device (116), wherein the user configuration device (116) is separate from a remote communications node (200) but coupled to communications node (104). The set of audio content (300) is requested utilizing the set of content identifiers (115) via remote communications node (200). The set of audio content (300) is converted from an encoded audio format (160, 162, 164) to a canonical audio format (166) at communications node (104). The requested set of audio content (300) in canonical audio format (166) is communicated from communications node (104) to remote communications node (200).Type: ApplicationFiled: January 3, 2001Publication date: July 4, 2002Applicant: Motorola, Inc.Inventors: Jeffrey S. Lee, Richard L. Blanco, Mathew Cucuzella, Jack Scott Geranen, David Knappenberger
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Patent number: 6335768Abstract: An audio input interface (122) receives a digital audio signal and identifies an audio bitstream which is optionally decrypted by a decryption unit (123), and decoded by an audio decoding unit (124). An audio digital to analog converter (126) converts the decoded audio bitstream to an analog audio signal which is optionally decrypted by an audio analog decryption unit (127). A video input interface (142) receives a digital video signal and identifies a video bitstream which is optionally decrypted by a video digital decryption unit (143), and decoded by a video decoding unit (144). A video digital to analog converter (146) converts the decoded video bitstream to an analog video signal that is optionally decrypted by a video analog decryption unit (147). An analog transmitter (150) mixes the analog audio signal and analog video signal and transmits an analog wireless output signal to an analog wireless device (110).Type: GrantFiled: May 4, 1998Date of Patent: January 1, 2002Assignee: Motorola Inc.Inventors: Jurgen Reinold, David Knappenberger, Mathew Cucuzella, Jack Scott Geranen, Jeff Lee, Michael E. Williams
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Patent number: 6185305Abstract: An audio input interface (122) receives a digital audio signal and identifies an audio bitstream which is optionally decrypted by a decryption unit (123), and decoded by an audio decoding unit (124). An audio digital to analog converter (126) converts the decoded audio bitstream to an analog audio signal which is optionally decrypted by an audio analog decryption unit (127). An analog transmitter (150) transmits the analog audio signal to a radio (110).Type: GrantFiled: May 4, 1998Date of Patent: February 6, 2001Assignee: Motorola, Inc.Inventors: Jurgen Reinold, David Knappenberger, Mathew Cucuzella, Jack Scott Geranen, Jeff Lee, Michael E. Williams
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Patent number: 6175628Abstract: An audio input interface (122) receives a digital audio signal and identifies an audio bitstream which is optionally decrypted by a decryption unit (123), and decoded by an audio decoding unit (124). An audio digital to analog converter (126) converts the decoded audio bitstream to an analog audio signal which is optionally decrypted by an audio analog decryption unit (127). A video input interface (142) receives a digital video signal and identifies a video bitstream which is optionally decrypted by a video digital decryption unit (143), and decoded by a video decoding unit (144). A video digital to analog converter (146) converts the decoded video bitstream to an analog video signal that is optionally decrypted by a video analog decryption unit (147). An analog transmitter (150) mixes the analog audio signal and analog video signal and transmits an analog output signal to a television (110).Type: GrantFiled: May 4, 1998Date of Patent: January 16, 2001Assignee: Motorola, Inc.Inventors: Jurgen Reinold, David Knappenberger, Mathew Cucuzella, Jack Scott Geranen, Jeff Lee, Michael E. Williams