Patents by Inventor David L. Hartman
David L. Hartman 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: 7706246Abstract: In one embodiment of the communications network, the predetermined encoding scheme and symbol constellation configurations are chosen so that the range in channel qualities that the encoding scheme and symbol constellation configurations are designed to be utilized within overlap with each other. This overlapping provides hysteresis, which reduces the frequency with which a subscriber must alter encoding scheme and symbol constellations. Reducing the frequency of changing encoding scheme and/or symbol constellation eliminates the communication overhead associated with these changes and increases throughput by enabling the subscriber to spend more time transmitting data.Type: GrantFiled: October 27, 2005Date of Patent: April 27, 2010Assignee: Broadcom CorporationInventor: David L. Hartman, Jr.
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Patent number: 7694210Abstract: Methods and systems for modifying DOCSIS-based transmission paths for communication in higher frequency and/or wireless environments, such as wireless terrestrial communication systems and satellite communication systems. An inner turbo-code is combined with a DOCSIS based Reed-Solomon (“RS”) forward error correction (“FEC”) coding scheme, to produce a concatenated turbo-RS code (other FEC codes can be utilized). In phase and quadrature phase (“I-Q”) processing is utilized to enable relatively low cost up-converter implementations. The I-Q processing is preferably performed at baseband, essentially pre-compensating for analog variations in the transmit path. Power amplifier on/off control capable of controlling on/off RF power control of remote transmitters is modulated on a transmit cable to reduce the need for a separate cable.Type: GrantFiled: July 31, 2002Date of Patent: April 6, 2010Assignee: Broadcom CorporationInventors: Mark Dale, Dorothy Lin, Jen-chieh Chien, Alan Gin, Rocco J Brescia, Jr., Alan Kwentus, David L Hartman, Joyce Wang
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Publication number: 20090028187Abstract: A system and method for providing upstream adaptive modulation. Burst parameters associated with a range of data interval usage codes (IUCs) are defined. Each of the data IUCs has a different modulation order and forward error correction (FEC). The SNR and codeword error rate for each satellite modem in the network are monitored. The data IUCs are dynamically assigned to different satellite modems within an upstream channel based on SNR and/or codeword error rate to enable each of the satellite modems in the upstream channel to achieve maximum bandwidth efficiency during upstream data transmissions. Bandwidth requests are received from the satellite modems and granted. The grant includes the assigned data IUC. The data bursts received in the upstream channel are each processed using the parameters from the assigned IUC for each of the satellite modems sending data in the upstream channel.Type: ApplicationFiled: July 23, 2008Publication date: January 29, 2009Applicant: Broadcom CorporationInventors: Mark Dale, David L. Hartman, Dorothy D. Lin, Rocco J. Brescia, JR., Alan Gin, Ravi Bhaskaran, Jen-chieh Chien, Adel Fanous
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Patent number: 7463707Abstract: A system and method for minimizing the frequency error of satellite modem signals at a satellite gateway. The gateway downstream baud (symbol) clock and the elements that control the upstream frequency (i.e., local oscillators in the conversion chain, A/D sample clocks) are locked to a common frequency reference. The gateway sends upstream satellite frequency offset information, such as satellite ephemeris data from which to calculate Doppler offset, to the satellite modem. The satellite modem locks the frequency of the satellite modems master oscillator to the recovered baud rate using a frequency locked loop. The satellite modem uses its master oscillator as the carrier reference for the upstream frequency up conversion. The satellite modem uses or calculates the upstream satellite frequency offset and compensates for this offset by shifting its center frequency.Type: GrantFiled: January 28, 2003Date of Patent: December 9, 2008Assignee: Broadcom CorporationInventors: Mark Dale, Dorothy D. Lin, Alan Gin, David L. Hartman, Rocco J. Brescia, Jr., Ravi Bhaskaran, Jen-chieh Chien, Adel Fanous
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Patent number: 7408892Abstract: A system and method for providing upstream adaptive modulation. Burst parameters associated with a range of data interval usage codes (IUCs) are defined. Each of the data IUCs has a different modulation order and forward error correction (FEC). The SNR and codeword error rate for each satellite modem in the network are monitored. The data IUCs are dynamically assigned to different satellite modems within an upstream channel based on SNR and/or codeword error rate to enable each of the satellite modems in the upstream channel to achieve maximum bandwidth efficiency during upstream data transmissions. Bandwidth requests are received from the satellite modems and granted. The grant includes the assigned data IUC. The data bursts received in the upstream channel are each processed using the parameters from the assigned IUC for each of the satellite modems sending data in the upstream channel.Type: GrantFiled: January 28, 2003Date of Patent: August 5, 2008Assignee: Broadcom CorporationInventors: Mark Dale, David L. Hartman, Dorothy D. Lin, Rocco J. Brescia, Jr., Alan Gin, Ravi Bhaskaran, Jen-chieh Chien, Adel Fanous
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Patent number: 7016296Abstract: Methods and systems for communicating on a wireless channel are provided which enable subscribers that share the channel to transmit using different modulation schemes. The modulation scheme used by each subscriber is assigned to the subscriber by a wireless access termination system. The modulation scheme assigned to a subscriber by the wireless access termination system is determined based on measurements of the quality of signals received from that subscriber. In one embodiment, the invention includes a transmitter and a receiver. The receiver is capable of transmitting data using one of a number of encoding and symbol constellation configurations. The receiver is also capable of receiving a first signal. Receiving the first signal causes the transmitter to transmit a second signal using a specified encoding and symbol constellation configuration.Type: GrantFiled: May 15, 2001Date of Patent: March 21, 2006Assignee: Broadcom CorporationInventor: David L. Hartman, Jr.
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Patent number: 6885657Abstract: The present invention includes a network telephone having a microphone coupled to provide voice data to a network, a speaker coupled to facilitate listening to voice data from the network, a dialing device coupled to facilitate routing of voice data upon the network, a first port configured to facilitate communication with a first network device, a second port configured to facilitate communication with a second network device and a prioritization circuit coupled to apply prioritization to voice data provided by the microphone.Type: GrantFiled: November 30, 1999Date of Patent: April 26, 2005Assignee: Broadcom CorporationInventors: Ted F. Rabenko, Ian Crayford, David L. Hartman, Jr.
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Publication number: 20040146038Abstract: A system and method for providing upstream adaptive modulation. Burst parameters associated with a range of data interval usage codes (IUCs) are defined. Each of the data IUCs has a different modulation order and forward error correction (FEC). The SNR and codeword error rate for each satellite modem in the network are monitored. The data IUCs are dynamically assigned to different satellite modems within an upstream channel based on SNR and/or codeword error rate to enable each of the satellite modems in the upstream channel to achieve maximum bandwidth efficiency during upstream data transmissions. Bandwidth requests are received from the satellite modems and granted. The grant includes the assigned data IUC. The data bursts received in the upstream channel are each processed using the parameters from the assigned IUC for each of the satellite modems sending data in the upstream channel.Type: ApplicationFiled: January 28, 2003Publication date: July 29, 2004Inventors: Mark Dale, David L. Hartman, Dorothy D. Lin, Rocco J. Brescia, Alan Gin, Ravi Bhaskaran, Jen-chieh Chien, Adel Fanous
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Publication number: 20040042574Abstract: A system and method for minimizing the frequency error of satellite modem signals at a satellite gateway. The gateway downstream baud (symbol) clock and the elements that control the upstream frequency (i.e., local oscillators in the conversion chain, A/D sample clocks) are locked to a common frequency reference. The gateway sends upstream satellite frequency offset information, such as satellite ephemeris data from which to calculate Doppler offset, to the satellite modem. The satellite modem locks the frequency of the satellite modems master oscillator to the recovered baud rate using a frequency locked loop. The satellite modem uses its master oscillator as the carrier reference for the upstream frequency up conversion. The satellite modem uses or calculates the upstream satellite frequency offset and compensates for this offset by shifting its center frequency.Type: ApplicationFiled: January 28, 2003Publication date: March 4, 2004Inventors: Dorothy D. Lin, Alan Gin, David L. Hartman, Rocco J. Brescia,, Ravi Bhaskaran, Jen-Chieh Chien, Adel Fanous
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Publication number: 20040022307Abstract: Methods and systems for modifying DOCSIS-based transmission paths for communication in higher frequency and/or wireless environments, such as wireless terrestrial communication systems and satellite communication systems. An inner turbo-code is combined with a DOCSIS based Reed-Solomon (“RS”) forward error correction (“FEC”) coding scheme, to produce a concatenated turbo-RS code (other FEC codes can be utilized). In phase and quadrature phase (“I-Q”) processing is utilized to enable relatively low cost up-converter implementations. The I-Q processing is preferably performed at baseband, essentially pre-compensating for analog variations in the transmit path. Power amplifier on/off control capable of controlling on/off RF power control of remote transmitters is modulated on a transmit cable to reduce the need for a separate cable.Type: ApplicationFiled: July 31, 2002Publication date: February 5, 2004Applicant: Broadcom CorporationInventors: Mark Dale, Dorothy Lin, Jen-chieh Chien, Alan Gin, Rocco J. Brescia, Alan Kwentus, David L. Hartman, Joyce Wang
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Publication number: 20040006771Abstract: A modified ranging request in a broadband communications system. The modified ranging request includes a header, a management message header attached to the header, a management message payload attached to the management message header, and a CRC attached to the management message payload. The management message header enables bandwidth requests to be made by subscriber equipment without contention. The management message header also includes state of health information on the status of a downstream transmission for enabling a central location to determine how to assign subscribers to queues in an adaptive modulation scheme.Type: ApplicationFiled: July 2, 2002Publication date: January 8, 2004Applicant: Broadcom CorporationInventors: Mark R. Dale, David L. Hartman, Alan Gin, Jen-Chieh Chien, Anders Hebsgaard, Rocco J. Brescia, Cho-Hsin J. Wang, Alan Y. Kwentus, Dorothy D. Lin
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Publication number: 20020075830Abstract: Methods and systems for communicating on a wireless channel are provided which enable subscribers that share the channel to transmit using different modulation schemes. The modulation scheme used by each subscriber is assigned to the subscriber by a wireless access termination system. The modulation scheme assigned to a subscriber by the wireless access termination system is determined based on measurements of the quality of signals received from that subscriber. In one embodiment, the invention includes a transmitter and a receiver. The receiver is capable of transmitting data using one of a number of encoding and symbol constellation configurations. The receiver is also capable of receiving a first signal. Receiving the first signal causes the transmitter to transmit a second signal using a specified encoding and symbol constellation configuration.Type: ApplicationFiled: May 15, 2001Publication date: June 20, 2002Inventor: David L. Hartman