Patents by Inventor Arne Hennig
Arne Hennig 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: 9967713Abstract: A locator beacon, method and system for identifying a first-in-line device, including: a first antenna configured to send a first signal; a second antenna configured to send a second signal and spaced apart from the first antenna such that a delta value between a first Received Signal Strength Indicator (RSSI) value of the first signal and a second RSSI value of the second signal measured at a predefined location, is within a range of values; a receiver for receiving wireless signals configured to receive an authentication signal from a mobile device adapted to measure the first and second RSSI values, the authentication signal including authentication data related to the measured RSSI values; and a processing unit, configured to determine whether the mobile device is the first-in-line device based on whether a delta value between the first RSSI value and the second RSSI value is within a predefined value range.Type: GrantFiled: September 4, 2014Date of Patent: May 8, 2018Assignee: SSI AMERICA, INC.Inventors: James Buchheim, Arne Hennig
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Publication number: 20170238140Abstract: A locator beacon, method and system for identifying a first-in-line device, including: a first antenna configured to send a first signal; a second antenna configured to send a second signal and spaced apart from the first antenna such that a delta value between a first Received Signal Strength Indicator (RSSI) value of the first signal and a second RSSI value of the second signal measured at a predefined location, is within a range of values; a receiver for receiving wireless signals configured to receive an authentication signal from a mobile device adapted to measure the first and second RSSI values, the authentication signal including authentication data related to the measured RSSI values; and a processing unit, configured to determine whether the mobile device is the first-in-line device based on whether a delta value between the first RSSI value and the second RSSI value is within a predefined value range.Type: ApplicationFiled: September 4, 2014Publication date: August 17, 2017Inventors: James BUCHHEIM, Arne Hennig
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Publication number: 20170221043Abstract: Devices and systems using Bluetooth Low Energy (BLE) to facilitate sale transactions are disclosed. The devices can be in the form of a credit card, debit card, smart phone, wearable device such as a watch or glasses. A virtual payment card can store information relevant to a plurality of preexisting accounts and can provide outputs that include wirelessly communicating account information to a wireless device such as the emulation device, programming a dynamically alterable magnetic strip to include magnetized sectors that are magnetized in a fashion that reflects account information, and a visual output of the transaction card whose relevant card information has been communicated wirelessly or to the magnetic strip.Type: ApplicationFiled: April 17, 2017Publication date: August 3, 2017Inventors: James Buchheim, Arne Hennig
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Publication number: 20160268817Abstract: An electric power assist system for use with a pedal vehicle. The system has (a) an electric motorized wheel including a plurality of spokes extending from the motor housing to the rim, at least one the spoke configured so as to define within it a battery compartment in which at least one power supply battery is deployed, wherein the battery compartment lies in the planer region substantially defined by the outer sides of the rim; (b) a wireless throttle control in RF communication with the wheel; and (c) a wireless pedal assist sensor in RF communication with the wheel and configured to detect movement of pedals of the pedal vehicle and transmit command signals to the wheel so as to start power assist operation, and to stop the power assist operation as determined by the movement of the pedals.Type: ApplicationFiled: December 7, 2015Publication date: September 15, 2016Inventors: James BUCHHEIM, Arne HENNIG, Jeremy BRIGGS
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Publication number: 20160221634Abstract: An electric power assist system for use with a pedal vehicle. The system has (a) an electric motorized wheel including a plurality of spokes extending from the motor housing to the rim, at least one the spoke configured so as to define within it a battery compartment in which at least one power supply battery is deployed, wherein the battery compartment lies in the planer region substantially defined by the outer sides of the rim; (b) a wireless throttle control in RF communication with the wheel; and (c) a wireless pedal assist sensor in RF communication with the wheel and configured to detect movement of pedals of the pedal vehicle and transmit command signals to the wheel so as to start power assist operation, and to stop the power assist operation as determined by the movement of the pedals.Type: ApplicationFiled: December 7, 2015Publication date: August 4, 2016Inventors: James BUCHHEIM, Arne HENNIG, Jeremy BRIGGS
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Publication number: 20160019512Abstract: Devices and systems using Bluetooth Low Energy (BLE) to facilitate sale transactions are disclosed. The devices can be in the form of a credit card, debit card, smart phone, wearable device such as a watch or glasses. A virtual payment card can store information relevant to a plurality of preexisting accounts and can provide outputs that include wirelessly communicating account information to a wireless device such as the emulation device, programming a dynamically alterable magnetic strip to include magnetized sectors that are magnetized in a fashion that reflects account information, and a visual output of the transaction card whose relevant card information has been communicated wirelessly or to the magnetic strip.Type: ApplicationFiled: April 21, 2014Publication date: January 21, 2016Applicant: SSI America INC.Inventors: James BUCHHEIM, Arne HENNIG
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Patent number: 9232357Abstract: A method and system for indoor location of a mobile device, including: a server, the server adapted to calculate a position of a mobile device within a predefined area; a Master Beacon including: a first radio communications capability, a second radio communications capability, and a master processor, adapted to send data relating to the scan request packets via the second radio communications capability to the server, the data being sent together with a time stamp reflecting a time of receiving the scan request packets; and a plurality of Slave Beacons, each including: the first radio communications capability, a slave processor, adapted to send data relating to the scan request packets to the server, together with a time stamp; the server is adapted to calculate a respective distance of each the beacons from the mobile device.Type: GrantFiled: December 29, 2014Date of Patent: January 5, 2016Assignee: GPB HOLDINGS II, LPInventors: James Buchheim, Arne Hennig
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Publication number: 20150133170Abstract: A method of transmission and locator beacon including: (a) a wireless communication component disposed on a substrate, the wireless communication component configured to transmit and receive radio frequency signals; and (b) a plurality of directional antennae disposed on the substrate and electrically coupled to the wireless communication component, the wireless communication component configured to transmit a unique MAC address for each of the plurality of directional antenna, each unique MAC address respectively identifying each directional antenna as a separate physical network entity.Type: ApplicationFiled: September 29, 2014Publication date: May 14, 2015Inventors: James BUCHHEIM, Arne HENNIG
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Publication number: 20150119077Abstract: A method and system for indoor location of a mobile device, including: a server, the server adapted to calculate a position of a mobile device within a predefined area; a Master Beacon including: a first radio communications capability, a second radio communications capability, and a master processor, adapted to send data relating to the scan request packets via the second radio communications capability to the server, the data being sent together with a time stamp reflecting a time of receiving the scan request packets; and a plurality of Slave Beacons, each including: the first radio communications capability, a slave processor, adapted to send data relating to the scan request packets to the server, together with a time stamp; the server is adapted to calculate a respective distance of each the beacons from the mobile device.Type: ApplicationFiled: December 29, 2014Publication date: April 30, 2015Inventors: James BUCHHEIM, Arne Hennig
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Publication number: 20140370917Abstract: A locator beacon, method and system for identifying a first-in-line device, including: a first antenna configured to send a first signal; a second antenna configured to send a second signal and spaced apart from the first antenna such that a delta value between a first Received Signal Strength Indicator (RSSI) value of the first signal and a second RSSI value of the second signal measured at a predefined location, is within a range of values; a receiver for receiving wireless signals configured to receive an authentication signal from a mobile device adapted to measure the first and second RSSI values, the authentication signal including authentication data related to the measured RSSI values; and a processing unit, configured to determine whether the mobile device is the first-in-line device based on whether a delta value between the first RSSI value and the second RSSI value is within a predefined value range.Type: ApplicationFiled: September 4, 2014Publication date: December 18, 2014Inventors: James BUCHHEIM, Arne Hennig
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Patent number: 8878671Abstract: A locator device and system including (a) a beacon, configured to be located via a wireless means; and (b) an adhesive means, adapted to adhere the beacon to a substantially flat surface, wherein the beacon is configured to be tracked by a mobile device running a mobile application adapted to locate the beacon via the wireless means.Type: GrantFiled: April 7, 2013Date of Patent: November 4, 2014Assignee: SSI America, Inc.Inventors: James Buchheim, Arne Hennig
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Patent number: 8872390Abstract: A device and method including: an energy consumption sensor; a wireless communications component adapted for wireless communication; a processing unit, adapted to receive energy consumption data from the energy consumption sensor and transmit the energy consumption data via the wireless communications component; and a switch having: a closed state coupling the input end of the device to the output end of the device, and an open state, disconnecting the input end of the device from the output end of the device.Type: GrantFiled: October 31, 2013Date of Patent: October 28, 2014Assignee: SSI America, Inc.Inventors: James Buchheim, Arne Hennig
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Patent number: 8847754Abstract: A device, system and method for providing (a) a wireless communications component, configured to send and receive wireless signals such that the device is locatable via a wireless means; the wireless communications component including: (i) a Received Signal Strength Indicator (RSSI) module for measuring signal strength of a wireless signal received at the wireless communications component, wherein the device is configured to be tracked by a mobile computing device (MCD) running a mobile application wherein the distance of the device from the MCD is calculated by the mobile application upon receiving between one and three RSSI values, measured by the RSSI module, and sent in a signal by the device to the MCD, wherein the distance is calculated based an average of the received RSSI values.Type: GrantFiled: November 14, 2013Date of Patent: September 30, 2014Inventors: James Buchheim, Arne Hennig
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Publication number: 20140135042Abstract: A device, system and method for providing (a) a wireless communications component, configured to send and receive wireless signals such that the device is locatable via a wireless means; the wireless communications component including: (i) a Received Signal Strength Indicator (RSSI) module for measuring signal strength of a wireless signal received at the wireless communications component, wherein the device is configured to be tracked by a mobile computing device (MCD) running a mobile application wherein the distance of the device from the MCD is calculated by the mobile application upon receiving between one and three RSSI values, measured by the RSSI module, and sent in a signal by the device to the MCD, wherein the distance is calculated based an average of the received RSSI values.Type: ApplicationFiled: November 14, 2013Publication date: May 15, 2014Inventors: James BUCHHEIM, Arne Hennig
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Publication number: 20140132411Abstract: A locator device and system including (a) a beacon, configured to be located via a wireless means; and (b) an adhesive means, adapted to adhere the beacon to a substantially flat surface, wherein the beacon is configured to be tracked by a mobile device running a mobile application adapted to locate the beacon via the wireless means.Type: ApplicationFiled: March 21, 2013Publication date: May 15, 2014Inventors: James Buchheim, Arne Hennig
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Publication number: 20140135041Abstract: A locator device and system including (a) a beacon, configured to be located via a wireless means; and (b) an adhesive means, adapted to adhere the beacon to a substantially flat surface, wherein the beacon is configured to be tracked by a mobile device running a mobile application adapted to locate the beacon via the wireless means.Type: ApplicationFiled: April 7, 2013Publication date: May 15, 2014Inventors: James BUCHHEIM, Arne Hennig
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Publication number: 20140117780Abstract: A device and method including: an energy consumption sensor; a wireless communications component adapted for wireless communication; a processing unit, adapted to receive energy consumption data from the energy consumption sensor and transmit the energy consumption data via the wireless communications component; and a switch having: a closed state coupling the input end of the device to the output end of the device, and an open state, disconnecting the input end of the device from the output end of the device.Type: ApplicationFiled: October 31, 2013Publication date: May 1, 2014Inventors: James Buchheim, Arne Hennig
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Publication number: 20140018635Abstract: A signal processing apparatus for determining a heart rate includes a plurality of sensors configured to detect changes in blood properties in a user's skin and a heart rate Kalman filter configured to compute a heart rate on the basis of signals obtained from the plurality of sensors. A method of computing a heart rate using the apparatus includes detecting changes in blood properties with a plurality of sensors, and computing with a heart rate Kalman filter the heart rate on the basis of signals obtained from the plurality of sensors.Type: ApplicationFiled: January 7, 2013Publication date: January 16, 2014Applicant: SCOSCHE INDUSTRIES, INC.Inventors: James BUCHHEIM, Arne HENNIG
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Publication number: 20130173221Abstract: A radiation detector system includes a photosensor configured to detect a radiation level, a processor configured to process the radiation level, and a wireless interface configured to transmit the processed radiation level to a network. A method of determining a radiation value using the radiation detector includes receiving a new radiation event data, maintaining a record of the new radiation event data among a record of previously received radiation events data, calculating a user-configured average value radiation level based on the record of the radiation events data, calculating a radiation level on the basis of the record of the received new radiation event data and the record of previously received radiation events data, and outputting the radiation value and the user-configured average value radiation level.Type: ApplicationFiled: September 14, 2012Publication date: July 4, 2013Applicant: SCOSCHE INDUSTRIES, INC.Inventors: Jimmy Buchheim, Arne Hennig
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Publication number: 20120172684Abstract: A heart rate monitor includes a user system adjacent to a user's skin in communication with a remote processing system. The user system includes a user processor, a user memory coupled to the user processor, a clock signal generator coupled to the processor, a sensing system coupled to the processor for measuring at least a user heart rate, a user transceiver coupled to the processor, a user interface coupled to the processor, and a user antenna coupled to the transceiver. A user battery is coupled to the user processor, the user memory, the clock signal generator, the sensing system, and the user transceiver. The remote processing system includes a remote processor, a remote memory coupled to the remote processor, a remote transceiver coupled to the remote processor, and a remote antenna coupled to the remote transceiver.Type: ApplicationFiled: March 9, 2012Publication date: July 5, 2012Applicant: Scosche Industries, Inc.Inventors: JAMES BUCHHEIM, Arne Hennig