Patents by Inventor Filipe FERREIRA
Filipe FERREIRA 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).
-
Publication number: 20220404682Abstract: Embodiments of an optical signal copier and an optical parametric amplifier are disclosed herein, which are applied to the communications field. In the embodiments, the optical signal copier is included in the optical parametric amplifier, which generates an invalid signal in a process of transmitting signal light and pump light. The optical signal copier may separate the signal light from the invalid signal and then transmit the signal light to a signal processing module. In this way, the signal processing module may directly process the signal light that does not include the invalid signal, the invalid signal does not occupy transmission bandwidth of the optical parametric amplifier, and the effective transmission bandwidth of the optical parametric amplifier is relatively large.Type: ApplicationFiled: August 26, 2022Publication date: December 22, 2022Inventors: Filipe FERREIRA, Vladimir GORDIENKO, Sisi TAN, Nick DORAN
-
Patent number: 11501286Abstract: A computing device for risk-based analysis of a payment card transaction is provided herein. The computing device includes a processor communicatively coupled to a memory. The computing device is programmed to receive a request for authentication of the payment card transaction. The payment card transaction includes a suspect consumer presenting a payment card from a digital wallet of a privileged cardholder. The computing device is also programmed to identify fraud feature data from the digital wallet. The computing device is further programmed to compute a fraud score for the payment card transaction based at least in part on the fraud feature data. The computing device is still further programmed to provide the fraud score for use during authentication of the suspect consumer.Type: GrantFiled: May 5, 2020Date of Patent: November 15, 2022Assignee: MASTERCARD INTERNATIONAL INCORPORATEDInventors: Christian P. Tomasofsky, Steve E. Hubbard, Luis Filipe Ferreira da Silva
-
Publication number: 20200294055Abstract: A computing device for providing risk-based decisioning to a merchant during payment card transactions is provided herein. The computing device is programmed to receive, from the merchant, transaction data associated with a payment card transaction. The computing device is further programmed to compute a risk score for the payment card transaction based at least in part on the transaction data and infrastructure data associated with the payment card transaction. The computing device is also programmed transmit an indication of acceptable risk to the merchant if the risk score satisfies a first pre-defined threshold. The computing device is still further programmed to initiate an authentication challenge of the suspect consumer if the risk score satisfies a second pre-defined threshold.Type: ApplicationFiled: February 28, 2020Publication date: September 17, 2020Inventors: Christian P. Tomasofsky, Steve E. Hubbard, Luis Filipe Ferreira da Silva, Johan Gerber, Clara Salazar, Michelle Hafner
-
Patent number: 10659161Abstract: A system for transmission of an optical signal, the system including an optical coupler for splitting said signal into a first copy and a second copy. The optical coupler has an input for receiving the optical signal, a first output for the first copy and a second output for the second copy. The system also includes a first optical guide connected to the first output, a second optical guide connected to the second output and a superposition module for coherently superimposing the first copy and the second copy of the signal.Type: GrantFiled: September 24, 2018Date of Patent: May 19, 2020Assignee: ASTON UNIVERSITYInventors: Filipe Ferreira, Naoise Mac-Suibhne, Andrew Ellis, Stylianos Sygletos, Mariia Sorokina, Christian Sanchez Costa
-
Patent number: 10193619Abstract: A method of compensating for crosstalk in a mode division multiplexing passive optical network using a technique of transmitter-side crosstalk pre-compensation, performed at the Central Office, in which a downlink reference signal such as a training sequence or pilot signal is retrieved at the transmitter without being influenced by crosstalk effects on its uplink transmission. An uplink reference signal is transmitted in a quasi-single mode transmission along the optical fiber, and a plurality of optical signals input to transmission multiplexer are adapted based on the uplink reference signal to pre-compensate for crosstalk.Type: GrantFiled: September 22, 2016Date of Patent: January 29, 2019Inventors: Filipe Ferreira, Andrew Ellis, Naoise Mac-Suibhne, Christian Sanchez-Costa
-
Publication number: 20190028200Abstract: A system for transmission of an optical signal, the system including an optical coupler for splitting said signal into a first copy and a second copy. The optical coupler has an input for receiving the optical signal, a first output for the first copy and a second output for the second copy. The system also includes a first optical guide connected to the first output, a second optical guide connected to the second output and a superposition module for coherently superimposing the first copy and the second copy of the signal.Type: ApplicationFiled: September 24, 2018Publication date: January 24, 2019Applicant: ASTON UNIVERSITYInventors: Filipe Ferreira, Naoise Mac-Suibhne, Andrew Ellis, Stylianos Sygletos, Mariia Sorokina, Christian Sanchez Costa
-
Publication number: 20180302154Abstract: A method of compensating for crosstalk in a mode division multiplexing passive optical network using a technique of transmitter-side crosstalk pre-compensation, performed at the Central Office, in which a downlink reference signal such as a training sequence or pilot signal is retrieved at the transmitter without being influenced by crosstalk effects on its uplink transmission. An uplink reference signal is transmitted in a quasi-single mode transmission along the optical fiber, and a plurality of optical signals input to transmission multiplexer are adapted based on the uplink reference signal to pre-compensate for crosstalk.Type: ApplicationFiled: September 22, 2016Publication date: October 18, 2018Applicant: ASTON UNIVERSITYInventors: Filipe FERREIRA, Andrew ELLIS, Naoise MAC-SUIBHNE, Christian SANCHEZ-COSTA
-
Publication number: 20180234185Abstract: A mode division multiplexing passive optical network (PON) in which channel estimation/inversion is performed in the optical domain. The PON comprises a plurality of input channels; a multiplexer having a plurality of input ports connected to a respective one of the input channels; an optical fibre having an uplink end connected to an output port of the multiplexer, whereby the multiplexer outputs a mode multiplexed signal corresponding to the optical signals from the plurality of input channels. The PON includes an optical equalizer arranged to transfer power between optical signals having different modes to compensate for crosstalk between the different modes. In this system, compensation for crosstalk occurs in the optical domain, e.g. by using the optical equalizer to adapt the optical signals where necessary.Type: ApplicationFiled: June 24, 2016Publication date: August 16, 2018Applicant: ASTON UNIVERSITYInventors: Filipe FERREIRA, Andrew ELLIS, Naoise MAC-SUIBHNE
-
Patent number: 10027425Abstract: A method for optical and electrical signal processing of a multi-heterodyne signal generated by a multi-mode semi-conductor laser, for a system comprising two laser sources and an sample interaction unit. At least the beam of one of the laser passes through said sample interaction unit before being combined on a detector. The first laser is tuned (40=>42) by an amount keeping the tuning result within the available detector bandwidth (55). Then the second laser is roughly tuned by the same amount as the tuning of the first laser to bring back the signal to the vicinity (48) of the original place in the RF-domain and within the bandwidth (55) of the detector. The tuning steps are repeated with different value of mode spacing for reconstructing the sample spectrum and provide a high resolution image of the dip (41) absorption line (40).Type: GrantFiled: June 16, 2015Date of Patent: July 17, 2018Assignee: ETH ZurichInventors: Andreas Hugi, Gustavo Filipe Ferreira Villares, Jérôme Faist
-
Publication number: 20170201328Abstract: A method for optical and electrical signal processing of a multi-heterodyne signal generated by a multi-mode semi-conductor laser, for a system comprising two laser sources and an sample interaction unit. At least the beam of one of the laser passes through said sample interaction unit before being combined on a detector. The first laser is tuned (40=>42) by an amount keeping the tuning result within the available detector bandwidth (55). Then the second laser is roughly tuned by the same amount as the tuning of the first laser to bring back the signal to the vicinity (48) of the original place in the RF-domain and within the bandwidth (55) of the detector. The tuning steps are repeated with different value of mode spacing for reconstructing the sample spectrum and provide a high resolution image of the dip (41) absorption line (40).Type: ApplicationFiled: June 16, 2015Publication date: July 13, 2017Inventors: Andreas Hugi, Gustavo Filipe Ferreira Villares, Jérôme Faist
-
Patent number: 9504745Abstract: Compositions for detecting and/or destroying cancer tumors and/or cancer cells via photodynamic therapy are disclosed, as well as methods of use thereof. The compositions comprise a linking protein or peptide attached to or otherwise physically associated with a carbon nanotube to form a targeted protein-carbon nanotube complex.Type: GrantFiled: December 9, 2013Date of Patent: November 29, 2016Assignee: The Board of Regents of the University of OklahomaInventors: Roger G. Harrison, Jr., Daniel E. Resasco, Luis Filipe Ferreira Neves
-
Patent number: 9317483Abstract: A method for resampling time series data includes determining a first time series of data points; determining a variation of the data points within a selected sequence, wherein the variation is determined by determining linearly interpolated data points for the data points of the selected sequence and by determining a maximum absolute difference. If a determined variation is greater than a predetermined error value, subsequences are selected by repeatedly dividing the first time series into adjacent subsequences until the first time series comprises a set of subsequences, wherein a determined variation for each of the subsequences is smaller than the predetermined error value. A resampled time series is created by adding the data points of the first time series that correspond to a first or last data point of the selected subsequences to the resampled time series, wherein every data point is added only once to the resampled time series.Type: GrantFiled: July 20, 2011Date of Patent: April 19, 2016Assignee: European Space AgencyInventors: José Antonio Martinez Heras, Tiago Filipe Ferreira Francisco, Alessandro Donati
-
Publication number: 20140155333Abstract: Compositions for detecting and/or destroying cancer tumors and/or cancer cells via photodynamic therapy are disclosed, as well as methods of use thereof. The compositions comprise a linking protein or peptide attached to or otherwise physically associated with a carbon nanotube to form a targeted protein-carbon nanotube complex.Type: ApplicationFiled: December 9, 2013Publication date: June 5, 2014Applicant: The Board of Regents of the University of OklahomaInventors: Roger G. Harrison, JR., Daniel E. Resasco, Luis Filipe Ferreira Neves
-
Patent number: 8518870Abstract: The present invention is a method for detecting and destroying cancer tumors. The method is based on the concept of associating a linking protein or linking peptide such as, but not limited to, annexin V or other annexins to carbon nanotubes such as single-walled carbon nanotubes (SWNTs) to form a protein-CNT complex. Said linking protein or peptide can selectively bind to cancerous cells, especially tumor vasculature endothelial cells, rather than to healthy ones by binding to cancer-specific external receptors such as anionic phospholipids including phosphatidylserine expressed on the outer surfaces of cancer cells only. Irradiation of bound CNTs with one or more specific electromagnetic wavelengths is then used to detect and destroy those cells to which the CNTs are bound via the linking protein or peptide thereby destroying the tumor or cancer cells and preferably an immunostimulant is provided to the patient to enhance the immune response against antigens released from the tumor or cancer cells.Type: GrantFiled: November 13, 2009Date of Patent: August 27, 2013Assignee: The Board of Regents of the University of OklahomaInventors: Roger G. Harrison, Jr., Daniel E. Resasco, Luis Filipe Ferreira Neves
-
Publication number: 20130212142Abstract: The present invention relates to a method for resampling time series data and to a telemetric device configured to resample measured time series data. A method for resampling time series data comprises the following steps: determining a first time series 10 comprising a sequence of data points Pi; determining a variation V of the data points Pi within a selected sequence of data points, wherein the variation V is determined by determining linearly interpolated data points Qi for the data points Pi of the selected sequence and by determining a maximum absolute difference V between the data point value Pi and the corresponding interpolated data point value Qi for the data points of the selected sequence.Type: ApplicationFiled: July 20, 2011Publication date: August 15, 2013Applicant: EUROPEAN SPACE AGENCYInventors: José Antonio Martinez Heras, Tiago Filipe Ferreira Francisco, Alessandro Donati
-
Publication number: 20130183354Abstract: A method for detecting and/or destroying cancer tumors is based on the concept of associating a linking protein or linking peptide to carbon nanotubes to form a protein-carbon nanotube complex.Type: ApplicationFiled: March 13, 2013Publication date: July 18, 2013Inventors: Roger G. Harrison, JR., Daniel E. Resasco, Luis Filipe Ferreira Neves