Patents by Inventor Navid Fatemi-Ghomi
Navid Fatemi-Ghomi 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: 8340204Abstract: A Viterbi trellis processing technique in which soft decisions and hard decisions are derived from a received signal and the soft decisions are enhanced by being modified using the hard decisions. A log likelihood ratio for a bit of the received signal can be derived by grouping candidate metrics associated with the decision that the bit has a first state, grouping candidate metrics associated with the decision that the bit has a second state, applying respective functions to the groups and calculating the difference of the function values.Type: GrantFiled: August 5, 2005Date of Patent: December 25, 2012Assignees: MStar Semiconductor, Inc., MStar Software R&D (Shenzhen) Ltd., MStar France SAS, MStar Semiconductor, Inc.Inventors: Navid Fatemi-Ghomi, Cyril Valadon
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Patent number: 8265205Abstract: A wireless receiver uses a joint detection Viterbi (JDV) algorithm to demodulate a signal that has a desired signal component and an interference signal component. The desired signal component includes a training sequence and at least one data field. The training sequence and a corresponding portion of the interference signal component is demodulated using the JDV algorithm to evaluate possible transmitted training sequences and interference signal sequences, and channel estimations for the desired signal component and the interference signal component are generated. The at least one data field is demodulated according to the JDV algorithm using the channel estimations as initial channel estimates for the JDV algorithm.Type: GrantFiled: August 26, 2008Date of Patent: September 11, 2012Assignee: MediaTek Inc.Inventors: Carsten Aagaard Pedersen, Navid Fatemi-Ghomi, Aiguo Yan, Jason Taylor
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Patent number: 8139681Abstract: A communications signal is received through a propagation channel, down-converted in frequency and then converted into a digital signal. The samples of the digital signal are processed to estimate the information conveyed by the communications signal. The estimated information is then used with knowledge about the propagation channel to model the samples of the digital signal. The modeled samples are compared with actual samples of the digital signal to deduce phase errors in the digital signal. The phase errors are then used to deduce a frequency error in the digital signal that can be used to correct the samples of the digital signal and to correct the down-conversion process.Type: GrantFiled: September 9, 2005Date of Patent: March 20, 2012Assignees: MStar Semiconductor, Inc., MStar Software R&D, Ltd., MStar France SAS, MStar Semiconductor, Inc.Inventors: James Chapman, Simon Richardson, Cyril Valadon, Navid Fatemi-Ghomi
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Patent number: 8139627Abstract: A scheme for deducing a DC offset in a received signal burst acquired through a particular channel, wherein the received signal burst corresponds to a transmitted signal burst. An impulse response estimate of the channel is used to model how a known or recovered part of the transmitted burst would have been affected by passage through said channel in place of the corresponding part of the transmitted signal burst. The modelled part of the transmitted burst is then compared with the corresponding part of the received signal burst to deduce a DC offset present in the received signal burst.Type: GrantFiled: August 15, 2005Date of Patent: March 20, 2012Assignees: MStar Semiconductor, Inc., MStar Software R&D, Ltd., MStar France SAS, MStar Semiconductor, Inc.Inventors: Manuel Segovia-Martinez, Navid Fatemi-Ghomi, Cyril Valadon
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Patent number: 7974262Abstract: A telecommunications network participant, comprising means for digitising, as a series of samples, a received signal containing a succession of symbols, means for measuring time misalignment between the symbols and the samples and means for applying a fractional delay to the positions of the samples to reduce the misalignment.Type: GrantFiled: August 5, 2005Date of Patent: July 5, 2011Assignees: MStar Semiconductor, Inc., MStar Software R&D, Ltd., MStar France SAS, MStar Semiconductor, Inc.Inventors: Navid Fatemi-Ghomi, Cyril Valadon
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Publication number: 20090304121Abstract: A wireless receiver uses a joint detection Viterbi (JDV) algorithm to demodulate a signal that has a desired signal component and an interference signal component. The desired signal component includes a training sequence and at least one data field. The training sequence and a corresponding portion of the interference signal component is demodulated using the JDV algorithm to evaluate possible transmitted training sequences and interference signal sequences, and channel estimations for the desired signal component and the interference signal component are generated. The at least one data field is demodulated according to the JDV algorithm using the channel estimations as initial channel estimates for the JDV algorithm.Type: ApplicationFiled: August 26, 2008Publication date: December 10, 2009Inventors: Carsten Aagaard Pedersen, Navid Fatemi-Ghomi, Aiguo Yan, Jason Taylor
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Publication number: 20090304122Abstract: A receiver adaptively selects between a joint detection Viterbi demodulator and a second Viterbi demodulator to demodulate a received signal based on at least one characteristic of the received signal. The joint detection Viterbi demodulator jointly demodulates a desired signal component and an interference signal component of the received signal, and the second Viterbi demodulator demodulates the desired signal component without demodulating the interference signal component.Type: ApplicationFiled: August 26, 2008Publication date: December 10, 2009Inventors: Navid Fatemi-Ghomi, Carsten Aagaard Pedersen, Jason Taylor, Aiguo Yan
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Publication number: 20090110124Abstract: A Viterbi trellis processing technique in which soft decisions and hard decisions are derived from a received signal and the soft decisions are enhanced by being modified using the hard decisions. A log likelihood ratio for a bit of the received signal can be derived by grouping candidate metrics associated with the decision that the bit has a first state, grouping candidate metrics associated with the decision that the bit has a second state, applying respective functions to the groups and calculating the difference of the function values.Type: ApplicationFiled: August 5, 2005Publication date: April 30, 2009Inventors: Navid Fatemi-Ghomi, Cyril Valadon
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Publication number: 20080192862Abstract: A scheme for deducing a DC offset in a received signal burst acquired through a particular channel, wherein the received signal burst corresponds to a transmitted signal burst. An impulse response estimate of the channel is used to model how a known or recovered part of the transmitted burst would have been affected by passage through said channel in place of the corresponding part of the transmitted signal burst. The modeled part of the transmitted burst is then compared with the corresponding part of the received signal burst to deduce a DC offset present in the received signal burst.Type: ApplicationFiled: August 15, 2005Publication date: August 14, 2008Applicant: TTPCOM LIMITEDInventors: Manuel Segovia-Martinez, Navid Fatemi-Ghomi, Cyril Valadon
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Publication number: 20080130729Abstract: A communications signal is received through a propagation channel, down-converted in frequency and then converted into a digital signal. The samples of the digital signal are processed to estimate the information conveyed by the communications signal. The estimated information is then used with knowledge about the propagation channel to model the samples of the digital signal. The modeled samples are compared with actual samples of the digital signal to deduce phase errors in the digital signal. The phase errors are then used to deduce a frequency error in the digital signal that can be used to correct the samples of the digital signal and to correct the down-conversion process.Type: ApplicationFiled: September 9, 2005Publication date: June 5, 2008Inventors: James Chapman, Simon Richardson, Cyril Valadon, Navid Fatemi-Ghomi
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Publication number: 20070297372Abstract: A telecommunications network participant, comprising means for digitising, as a series of samples, a received signal containing a succession of symbols, means for measuring time misalignment between the symbols and the samples and means for applying a fractional delay to the positions of the samples to reduce the misalignment.Type: ApplicationFiled: August 5, 2005Publication date: December 27, 2007Inventors: Navid Fatemi-Ghomi, Cyril Valadon