Forchione
Andrew James Forchione, Massillon, OH US
Patent application number | Description | Published |
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20160133118 | PROXIMITY NOTIFICATION SYSTEM - A system and method for determining movement from a defined region and that an event trigger has occurred. A proximity notification system includes a first device and a second device. In an example embodiment, the first device is a handheld electronic device that has a global positioning system (GPS). The second device has a proximity connection with the first device. The proximity connection can be a wireless Bluetooth type of connection, a physical switch type of connection or another type of connection. The first device generates a message for a user of the first device upon the GPS detecting that the first device has moved from a predetermined area and that the proximity connection between the first device and the second device has been lost. | 05-12-2016 |
Eugene Angelo Forchione, Massillon, OH US
Patent application number | Description | Published |
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20160133118 | PROXIMITY NOTIFICATION SYSTEM - A system and method for determining movement from a defined region and that an event trigger has occurred. A proximity notification system includes a first device and a second device. In an example embodiment, the first device is a handheld electronic device that has a global positioning system (GPS). The second device has a proximity connection with the first device. The proximity connection can be a wireless Bluetooth type of connection, a physical switch type of connection or another type of connection. The first device generates a message for a user of the first device upon the GPS detecting that the first device has moved from a predetermined area and that the proximity connection between the first device and the second device has been lost. | 05-12-2016 |
John Forchione, Ashland, MA US
Patent application number | Description | Published |
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20110005928 | ELECTROCHEMICAL CARBON DIOXIDE SENSOR - A method for the detection of carbon dioxide gas using an electrochemical sensor. The method includes exposing a gas to a sensor, which includes a non-conductive solid substrate and at least one each of a metal oxide sensing electrode, a reference electrode and a counter electrode positioned on the substrate. A solid polymer electrolyte anion-exchange membrane is in intimate contact with the sensing electrode, reference electrode and counter electrode. The method is highly sensitive and selective to carbon dioxide with a very rapid response time. | 01-13-2011 |