Patents by Inventor Kenneth Margon
Kenneth Margon 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: 10108969Abstract: A method and system for providing personalized and integrated online services for communications and commercial transactions both in private and public venues. The invention provides personalized information that is conveniently accessible through a network of public access stations (or terminals) which are enabled by a personal system access card (e.g., smart card). The invention also provides advertisers the opportunity to directly engage actual and potential user-consumers with selected advertising or marketing content based on each user's profile and usage history.Type: GrantFiled: August 11, 2008Date of Patent: October 23, 2018Assignee: Streetspace, Inc.Inventors: Tom J. Mathai, Kenneth Margon
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Patent number: 10057083Abstract: The present invention provides a system and method for fusing data collected from detected electromagnetic radiation and mechanical signals. The system is comprised of sensors that may be configured into an array of sensors. A “Full Spectrum” sensor fuses the output data of the sensors with the fused output data synchronized according to time. The fused output data is accessible by a plurality of application platforms that may use the data to provide meaningful feedback from detected events to improve daily life. The system and method is configurable according to a particular application platform to use only relevant data points from the sensors that is subsequently fused by the “Full Spectrum” sensor.Type: GrantFiled: January 29, 2016Date of Patent: August 21, 2018Assignee: Innowave IP LLCInventors: Kenneth Margon, Pragash Sangaran
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Publication number: 20170300650Abstract: The present invention provides a new non-invasive technique for organ, e.g., heart and lung, monitoring. In at least one embodiment of the invention, a subject is radiated with a non-harmful and relatively low power electromagnetic source diagnostic signal normally associated with a communications protocol such as, but not limited to a version of the IEEE 802.11(x) family of protocols in the 2.4, 3.6, or 5 GHz spectrum bands. After passing through the patient, a return signal is acquired from the patient and compared to the original source signal. The differences between the source and modified signals are then analyzed to monitor the heart, e.g., measure heart rate and detect defects within the heart, and the lung. For example, using Doppler Effect principles, heart rate and motion can be measured from the differences in frequency, phase, and/or wavelength between the source signal and the modified signal reflected back from the heart moving within the patient.Type: ApplicationFiled: March 14, 2016Publication date: October 19, 2017Inventor: Kenneth Margon
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Patent number: 9232379Abstract: The present invention provides a technique for notifying a call center of an alert and providing access to a notification server which contains precompiled database information of a desired action to take in response to the alert. The alert is provided through a radius start record from a pendant with the user. The pendant remains turned off, until activated by the user. After activated, a modem of the pendant registers the pendant with a cellular network and in parallel, the cellular network provides a duplicate radius start record to a group of servers, which means there must be an alert from the user, such as an emergency.Type: GrantFiled: October 31, 2013Date of Patent: January 5, 2016Inventor: Kenneth Margon
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Patent number: 9035775Abstract: The present invention provides a new non-invasive technique for organ, e.g., heart and lung, monitoring. In at least one embodiment of the invention, a subject is radiated with a non-harmful and relatively low power electromagnetic source diagnostic signal normally associated with a communications protocol such as, but not limited to a version of the IEEE 802.11(x) family of protocols in the 2.4, 3.6, or 5 GHz spectrum bands. After passing through the patient, a return signal is acquired from the patient and compared to the original source signal. The differences between the source and modified signals are then analyzed to monitor the heart, e.g., measure heart rate and detect defects within the heart, and the lung. For example, using Doppler Effect principles, heart rate and motion can be measured from the differences in frequency, phase, and/or wavelength between the source signal and the modified signal reflected back from the heart moving within the patient.Type: GrantFiled: February 25, 2010Date of Patent: May 19, 2015Assignee: Xanthia Global LimitedInventor: Kenneth Margon
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Publication number: 20150118989Abstract: The present invention provides a technique for notifying a call center of an alert and providing access to a notification server which contains precompiled database information of a desired action to take in response to the alert. The alert is provided through a radius start record from a pendant with the user. The pendant remains turned off, until activated by the user. After activated, a modem of the pendant registers the pendant with a cellular network and in parallel, the cellular network provides a duplicate radius start record to a group of servers, which means there must be an alert from the user, such as an emergency.Type: ApplicationFiled: October 31, 2013Publication date: April 30, 2015Inventor: Kenneth Margon
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Patent number: 8994536Abstract: The present invention provides a new non-invasive technique for organ, e.g., heart and lung, monitoring. In at least one embodiment of the invention, a subject is radiated with a non-harmful and relatively low power electromagnetic source diagnostic signal normally associated with a communications protocol such as, but not limited to a version of the IEEE 802.11(x) family of protocols in the 2.4, 3.6, or 5 GHz spectrum bands. After passing through the patient, a return signal is acquired from the patient and compared to the original source signal. The differences between the source and modified signals are then analyzed to monitor the heart, e.g., measure heart rate and detect defects within the heart, and the lung. For example, using Doppler Effect principles, heart rate and motion can be measured from the differences in frequency, phase, and/or wavelength between the source signal and the modified signal reflected back from the heart moving within the patient.Type: GrantFiled: September 28, 2011Date of Patent: March 31, 2015Assignee: Xanthia Global LimitedInventor: Kenneth Margon
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Patent number: 8947237Abstract: The present invention utilizes an accelerometer (included within a wireless physiology monitoring device or as part of a separate device such as, but not limited to a smartphone, e.g., iPhone, or other mobile device) to link a patient with a separate medical data acquisition device such as a weight scale or a blood pressure monitor in order to collect and transmit a range of medical data associated with the user. The medical data acquisition device includes a vibration source for emitting a vibration at a predetermined or random frequency. When the acquisition device is activated, a vibration is transmitted from the through the patient and is detected by the accelerometer. The accelerometer then measures the particular frequency of vibration and transmits this information to a centralized monitoring unit (CMU). Based on the measured frequency, the CMU is able to know that the same patient wearing/holding the device is also the same patient using the data acquisition device.Type: GrantFiled: August 19, 2011Date of Patent: February 3, 2015Assignee: Xanthia Global LimitedInventors: Kenneth Margon, Gubbi Umesh Renukanand
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Publication number: 20130346091Abstract: The present invention provides, in at least one embodiment, a device, system, and method for remote healthcare. A personal health server device is connected to one or more wired or wireless medical devices. The medical devices monitor medical data such as heart rate, body weight, oxygen saturation, medical adherence, blood coagulation, blood pressure, glucose, temperature, or activity level. The personal health server device stores the medical data from the medical devices and wirelessly transmits the medical data to web enabled browsers through a cellular carrier using a cellular carrier signal such as 3G, 4G, or LTE, with no need for an internet connection.Type: ApplicationFiled: March 15, 2013Publication date: December 26, 2013Inventor: Kenneth Margon
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Publication number: 20130346089Abstract: The present invention provides, in at least one embodiment, a device, system, and method for remote healthcare. A personal health server device is connected to one or more wired or wireless medical devices. The medical devices monitor medical data such as heart rate, body weight, oxygen saturation, medical adherence, blood coagulation, blood pressure, glucose, temperature, or activity level. The personal health server device stores the medical data from the medical devices and wirelessly transmits the medical data to web enabled browsers through a cellular carrier using a cellular carrier signal such as 3G, 4G, or LTE, with no need for an internet connection.Type: ApplicationFiled: March 15, 2013Publication date: December 26, 2013Inventor: Kenneth Margon
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Publication number: 20120146795Abstract: The present invention utilizes an accelerometer (included within a wireless physiology monitoring device or as part of a separate device such as, but not limited to a smartphone, e.g., iPhone, or other mobile device) to link a patient with a separate medical data acquisition device such as a weight scale or a blood pressure monitor in order to collect and transmit a range of medical data associated with the user. The medical data acquisition device includes a vibration source for emitting a vibration at a predetermined or random frequency. When the acquisition device is activated, a vibration is transmitted from the through the patient and is detected by the accelerometer. The accelerometer then measures the particular frequency of vibration and transmits this information to a centralized monitoring unit (CMU). Based on the measured frequency, the CMU is able to know that the same patient wearing/holding the device is also the same patient using the data acquisition device.Type: ApplicationFiled: August 19, 2011Publication date: June 14, 2012Inventors: Kenneth Margon, Gubbi Umesh Renukanand
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Publication number: 20120146796Abstract: The present invention provides a new non-invasive technique for organ, e.g., heart and lung, monitoring. In at least one embodiment of the invention, a subject is radiated with a non-harmful and relatively low power electromagnetic source diagnostic signal normally associated with a communications protocol such as, but not limited to a version of the IEEE 802.11(x) family of protocols in the 2.4, 3.6, or 5 GHz spectrum bands. After passing through the patient, a return signal is acquired from the patient and compared to the original source signal. The differences between the source and modified signals are then analyzed to monitor the heart, e.g., measure heart rate and detect defects within the heart, and the lung. For example, using Doppler Effect principles, heart rate and motion can be measured from the differences in frequency, phase, and/or wavelength between the source signal and the modified signal reflected back from the heart moving within the patient.Type: ApplicationFiled: September 28, 2011Publication date: June 14, 2012Inventors: KENNETH MARGON, GUBBI UMESH RENUKANAND
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Publication number: 20110137722Abstract: A method comprises receiving a logon request from a user of an online social network; processing the logon request to log the user in to the online social network; and recording usage of the online social network by the user.Type: ApplicationFiled: February 23, 2011Publication date: June 9, 2011Applicant: StreetSpace, Inc.Inventors: Tom J. Mathai, Kenneth Margon
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Publication number: 20100245091Abstract: The present invention provides a new non-invasive technique for organ, e.g., heart and lung, monitoring. In at least one embodiment of the invention, a subject is radiated with a non-harmful and relatively low power electromagnetic source diagnostic signal normally associated with a communications protocol such as, but not limited to a version of the IEEE 802.11(x) family of protocols in the 2.4, 3.6, or 5 GHz spectrum bands. After passing through the patient, a return signal is acquired from the patient and compared to the original source signal. The differences between the source and modified signals are then analyzed to monitor the heart, e.g., measure heart rate and detect defects within the heart, and the lung. For example, using Doppler Effect principles, heart rate and motion can be measured from the differences in frequency, phase, and/or wavelength between the source signal and the modified signal reflected back from the heart moving within the patient.Type: ApplicationFiled: February 25, 2010Publication date: September 30, 2010Inventors: Rabindra Singh, Gubbi Umesh Renukanand, Kenneth Margon, Md Mijanur Rahman
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Publication number: 20090106119Abstract: The invention provides a secure online payment method and system. In an embodiment of the invention, a transaction system facilitates online purchase of merchant items by customers and to have those purchased items billed, i.e., debited, to a telephone account. Particularly, the system comprises a number of customer web access devices, a TCP/IP communications network, a number of merchant computers, a centralized payment server, and a number of telecommunication company (TELCO) networks. Communications are bridged between the TCP/IP network and the number of TELCO networks implementing, for example a common channel signaling (CCS) based protocol, such as signaling system 7 (SS7).Type: ApplicationFiled: August 11, 2008Publication date: April 23, 2009Inventors: Thomas J. Mathai, Kenneth Margon
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Publication number: 20080319992Abstract: A method and system for providing personalized and integrated online services for communications and commercial transactions both in private and public venues. The invention provides personalized information that is conveniently accessible through a network of public access stations (or terminals) which are enabled by a personal system access card (e.g., smart card). The invention also provides advertisers the opportunity to directly engage actual and potential user-consumers with selected advertising or marketing content based on each user's profile and usage history.Type: ApplicationFiled: August 11, 2008Publication date: December 25, 2008Applicant: STREETSPACE, INC.Inventors: Tom J. Mathai, Kenneth Margon
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Publication number: 20080301264Abstract: A method and system for providing personalized and integrated online services for communications and commercial transactions both in private and public venues. The invention provides personalized information that is conveniently accessible through a network of public access stations (or terminals) which are enabled by a personal system access card (e.g., smart card). The invention also provides advertisers the opportunity to directly engage actual and potential user-consumers with selected advertising or marketing content based on each user's profile and usage history.Type: ApplicationFiled: August 11, 2008Publication date: December 4, 2008Applicant: STREETSPACE, INC.Inventors: Tom J. Mathai, Kenneth Margon
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Patent number: 7123624Abstract: Systems and methods for single-point to fixed-multipoint communication. The invention dynamically allocates bandwidth based on traffic demands, thus providing efficient bandwidth utilization, particularly with bursty or time sensitive data traffic. A system includes a Base Station and a plurality of Remote Stations. The Base Station transmits information to the Remote Stations via a Forward Channel and the Remote Stations transmit information via a Reverse Channel. Before transmitting on the Reverse Channel, each of the Remote Stations listens (monitors) the Reverse Channel to ascertain whether any other Remote Station is transmitting. Remote Stations transmit data only when a Remote Station determines that the channel is clear. The Remote Stations listen in sequential order, eliminating the probability of collisions caused by simultaneous transmissions from Remote Stations. The data traffic is accordingly aggregated, thus providing efficient bandwidth utilization.Type: GrantFiled: January 13, 2000Date of Patent: October 17, 2006Assignee: Cape Range Wireless, Ltd.Inventor: Kenneth Margon
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Publication number: 20050114366Abstract: A method and system for providing personalized and integrated online services for communications and commercial transactions both in private and public venues. The invention provides personalized information that is conveniently accessible through a network of public access stations (or terminals) which are enabled by a personal system access card (e.g., smart card). The invention also provides advertisers the opportunity to directly engage actual and potential user-consumers with selected advertising or marketing content based on each user's profile and usage history.Type: ApplicationFiled: August 20, 2004Publication date: May 26, 2005Applicant: STREETSPACE, INC.Inventors: Tom Mathai, Kenneth Margon
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Patent number: 6847969Abstract: A method and system for providing, personalized and integrated online services for communications and commercial transactions both in private and public venues. The invention provides personalized information that is conveniently accessible through a network of public access stations (or terminals) which are enabled by a personal system access card (e.g., smart card). The invention also provides advertisers the opportunity to directly engage action; and potential user-consumers with selected advertising or marketing content based on each user's profile and usage history.Type: GrantFiled: May 3, 2000Date of Patent: January 25, 2005Assignee: StreetSpace, Inc.Inventors: Tom J. Mathai, Kenneth Margon