Patent application number | Description | Published |
20150046329 | NEAR SOUND COMMUNICATION (NSC) PAYMENT SYSTEM - Systems, methods, apparatuses, and computer-readable media for using near sound communication (NSC) functionalities to complete transactions are presented. According to one or more aspects, a payment server may receive a data message from a payor's telephone, and the data message may include a user-specified password. In response to validating the payor based on the user-specified password, a call may be initiated to the payor's telephone. Subsequently, a unique audio stream may be played over the call. The unique audio stream may be adapted to be captured by a merchant point-of-sale terminal for use in completing a transaction. In some arrangements, the unique audio stream may include encoded information identifying the payor and/or identifying an amount of funds to be paid. | 02-12-2015 |
20150046335 | PIN ENTRY FOR INTERNET BANKING ON MEDIA DEVICE - Embodiments of the invention disclose a remote control device for operating a media device that can be used to conduct financial transactions. The remote control device includes a user interface to accept user input, and a communication interface to communicate with the media device. The remote control device also includes a hardware security module that is coupled to the user interface and the communication interface. The hardware security module includes a secure processing unit, and a public processing unit that is configured to selectively request the secure processing unit to encrypt user input based on a function that is being performed on the media device. | 02-12-2015 |
20150227932 | ISSUING AND STORING OF PAYMENT CREDENTIALS - A system and method of issuing payment credentials to a consumer is disclosed. A payment processing network sends payment credentials and an identifier of a consumer to whom the payment credentials belong to a secure gateway. The secure gateway encrypts or zone translates the payment credentials and sends them to a mobile device of the consumer through a secure communication channel. The mobile device includes a hardware security module (HSM) which stores the payment credentials to be used for subsequent financial transactions by the consumer. Multiple sets of payment credentials may be stored on the HSM, corresponding to multiple payment accounts belonging to the consumer. | 08-13-2015 |
20150254677 | DYNAMIC OBJECT TAG AND SYSTEMS AND METHODS RELATING THERETO - A dynamic object tag for a product and systems and methods relating thereto is disclosed. The dynamic object tag comprises a hardware security module, including an electronic storage module, and a communication module for communicating with an interrogation device. The hardware security module is adapted to establish a secure communication channel with the interrogation device, to exchange dynamic authentication parameters with the interrogation device, and to communicate product information stored on the electronic storage module to the interrogation device over the secure communication channel. | 09-10-2015 |
20150302390 | A TOKEN GENERATING COMPONENT - The invention provides a method and system for providing financial details from a mobile device of a user for use in a transaction. The method is performed on a mobile device of the user and includes the steps of generating, on a token generating component, a session-specific token by applying an algorithm requiring a dynamic key; providing financial details for use in a transaction; incorporating the session-specific token and the financial details into a modified form the financial details; and transferring the modified form of the financial details from the mobile device to initiate the transaction. A corresponding method and system for validating financial details received, at a server of an issuing authority, is also provided. | 10-22-2015 |
20160005031 | CRYPTOGRAPHIC LABEL FOR ATTACHMENT TO A COMMUNICATION CARD - A cryptographic label is provided for enabling a mobile communications device to perform secure communications. The label comprises a flexible printed circuit having a first set of electrical contacts disposed on a top side of the circuit for interfacing to a mobile communications device, a second set of electrical contacts disposed on a bottom side of the circuit for interfacing to a communication card, and a hardware security module disposed in the circuit and coupled to the first and second sets of electrical contacts. The label is characterised in that it further includes a skirt attached to the flexible printed circuit, the skirt having an adhesive portion on at least a bottom side thereof which, in use, bonds to a communication card to attach the label to the communication card. The skirt is capable of having printed indicia provided on a top side thereof. | 01-07-2016 |
Patent application number | Description | Published |
20130063300 | METHOD, SYSTEM, AND MACHINE TO TRACK AND ANTICIPATE THE MOVEMENT OF FLUID SPILLS WHEN MOVING WITH WATER FLOW - The present invention relates to systems, methods, and machines for tracking a fluid spill. The method includes obtaining real-time location data for a number of tracking devices from a positioning satellite data repository, integrating the location data of each of the tracking devices into a comprehensive spatial data repository, determining a deployment location for each of the tracking devices, identifying, responsive to the deployment locations, a fluid-spill subset of the tracking devices that were deployed in the fluid spill, determining a fluid spill location based on the geographic locations of the fluid-spill subset, and generating a geographic map depicting the fluid spill location. A new sensor-driven paradigm is used that combines practical data gathering methods with advanced enterprise information technologies. The sensor-driven paradigm provides real-time situational awareness to emergency responders and executive stakeholders working from remote locations during an oil spill or chemical fluid release. | 03-14-2013 |
20130063304 | METHOD AND TRACKING DEVICE FOR TRACKING MOVEMENT IN A MARINE ENVIRONMENT WITH TACTICAL ADJUSTMENTS TO AN EMERGENCY RESPONSE - The present invention relates to devices and methods for tracking movement in a marine environment. At least one tracking device that is adapted to be deployed on a surface of the water, wherein the tracking device is capable of moving along the same trajectory of a desired object. Data from the tracking devices are received by at least one satellite, transmitted to a database, and used to determine the forecasted trajectory of the desired object. All data collected from deployed tracking devices may be integrated into a spatial data repository for analysis and reporting using GIS and associated information technologies, thereby allowing for more accurate decision-making and asset deployment during a fluid spill or similar marine contamination event. The present invention also allows for the collection and modeling of accurate localized sea current data, which may assist with marine and coastal engineering works such as shoreline protection and port dredging. | 03-14-2013 |
20140340256 | METHOD AND TRACKING DEVICE FOR TRACKING MOVEMENT IN A MARINE ENVIRONMENT WITH TACTICAL ADJUSTMENTS TO AN EMERGENCY RESPONSE - The present invention relates to devices and methods for tracking movement in a marine environment. At least one tracking device that is adapted to be deployed on a surface of the water, wherein the tracking device is capable of moving along the same trajectory of a desired object. Data from the tracking devices are received by at least one satellite, transmitted to a database, and used to determine the forecasted trajectory of the desired object. All data collected from deployed tracking devices may be integrated into a spatial data repository for analysis and reporting using GIS and associated information technologies, thereby allowing for more accurate decision-making and asset deployment during a fluid spill or similar marine contamination event. The present invention also allows for the collection and modeling of accurate localized sea current data, which may assist with marine and coastal engineering works such as shoreline protection and port dredging. | 11-20-2014 |
20150042512 | METHOD AND TRACKING DEVICE FOR TRACKING MOVEMENT IN A MARINE ENVIRONMENT WITH TACTICAL ADJUSTMENTS TO AN EMERGENCY RESPONSE - The present invention relates to devices and methods for tracking movement in a marine environment. At least one tracking device that is adapted to be deployed on a surface of the water, wherein the tracking device is capable of moving along the same trajectory of a desired object. Data, from the tracking devices are received by at least one satellite, transmitted to a database, and used to determine the forecasted trajectory of the desired object. All data collected from deployed tracking devices may be integrated into a spatial data repository for analysis and reporting using GIS and associated information technologies, thereby allowing for more accurate decision-making and asset deployment during a fluid spill or similar marine contamination event. The present invention also allows for the collection and modeling of accurate localized sea current data, which may assist with marine and coastal engineering works such as shoreline protection and port dredging. | 02-12-2015 |
Patent application number | Description | Published |
20140362486 | LOW FAULT CURRENT ISOLATOR SYSTEM - A low fault current isolation arrangement senses a loss of voltage and automatically isolates and de-energizes a down live primary wire if overcurrent protection devices have not cleared the high impedance fault in an electric power distribution network. Incorporating an operator selectable time delay response, the low fault current isolation arrangement permits overcurrent protection devices to attempt to detect and shut down the affected conductor, and then isolates and shuts down the low current fault if the overcurrent devices are not successful. The isolation arrangement continuously monitors AC voltage as remotely provided by smart meters even after a fault location is de-energized, and serves as a back up, and not as a replacement, for existing overcurrent protection schemes. A host computer operates in conjunction with plural smart meters each coupled to an associated customer distribution transformer in conjunction with the fault isolator to detect and shut down high impedance faults. | 12-11-2014 |
20150114683 | ELECTRICAL CABLE SUPPORT ARRANGEMENT - An electric cable saddle, or support, arrangement includes a housing having an upper recessed portion adapted to receive and support one or more electrical cables in a fixed, stable manner. Plural apertures disposed on upper portions of the housing on opposed sides of the cable(s) and aligned generally transverse to the length of the cable(s) are adapted to receive a flexible, high strength tie member, or strap, for securely attaching the cable(s) to an upper portion of the housing. A slot disposed in a lower portion of the housing and also aligned generally transverse to the length of the cables(s) is adapted to receive a structural support member for supporting the housing and cable(s). A retaining member also disposed in a lower portion of the housing is moveable adjacent to or into engagement with the support member for fixed positioning of the housing on the support member. | 04-30-2015 |
20150270653 | LOW FAULT CURRENT ISOLATOR SYSTEM - A low fault current isolation arrangement senses a loss of voltage and automatically isolates and de-energizes a down live primary wire if overcurrent protection devices have not cleared the high impedance fault in an electric power distribution network. Incorporating an operator selectable time delay response, the low fault current isolation arrangement permits overcurrent protection devices to attempt to detect and shut down the affected conductor, and then isolates and shuts down the low current fault if the overcurrent devices are not successful. The isolation arrangement continuously monitors AC voltage as remotely provided by smart meters even after a fault location is de-energized, and serves as a back up, and not as a replacement, for existing overcurrent protection schemes. A host computer operates in conjunction with plural smart meters each coupled to an associated customer distribution transformer in conjunction with the fault isolator to detect and shut down high impedance faults. | 09-24-2015 |
20150280418 | LOW FAULT CURRENT ISOLATOR SYSTEM - A low fault current isolation arrangement senses a loss of voltage and automatically isolates and de-energizes a down live primary wire if overcurrent protection devices have not cleared the high impedance fault in an electric power distribution network. Incorporating an operator selectable time delay response, the low fault current isolation arrangement permits overcurrent protection devices to attempt to detect and shut down the affected conductor, and then isolates and shuts down the low current fault if the overcurrent devices are not successful. The isolation arrangement continuously monitors AC voltage as remotely provided by smart meters even after a fault location is de-energized, and serves as a back up, and not as a replacement, for existing overcurrent protection schemes. A host computer operates in conjunction with plural smart meters each coupled to an associated customer distribution transformer in conjunction with the fault isolator to detect and shut down high impedance faults. | 10-01-2015 |
Patent application number | Description | Published |
20140362486 | LOW FAULT CURRENT ISOLATOR SYSTEM - A low fault current isolation arrangement senses a loss of voltage and automatically isolates and de-energizes a down live primary wire if overcurrent protection devices have not cleared the high impedance fault in an electric power distribution network. Incorporating an operator selectable time delay response, the low fault current isolation arrangement permits overcurrent protection devices to attempt to detect and shut down the affected conductor, and then isolates and shuts down the low current fault if the overcurrent devices are not successful. The isolation arrangement continuously monitors AC voltage as remotely provided by smart meters even after a fault location is de-energized, and serves as a back up, and not as a replacement, for existing overcurrent protection schemes. A host computer operates in conjunction with plural smart meters each coupled to an associated customer distribution transformer in conjunction with the fault isolator to detect and shut down high impedance faults. | 12-11-2014 |
20150114683 | ELECTRICAL CABLE SUPPORT ARRANGEMENT - An electric cable saddle, or support, arrangement includes a housing having an upper recessed portion adapted to receive and support one or more electrical cables in a fixed, stable manner. Plural apertures disposed on upper portions of the housing on opposed sides of the cable(s) and aligned generally transverse to the length of the cable(s) are adapted to receive a flexible, high strength tie member, or strap, for securely attaching the cable(s) to an upper portion of the housing. A slot disposed in a lower portion of the housing and also aligned generally transverse to the length of the cables(s) is adapted to receive a structural support member for supporting the housing and cable(s). A retaining member also disposed in a lower portion of the housing is moveable adjacent to or into engagement with the support member for fixed positioning of the housing on the support member. | 04-30-2015 |
20150270653 | LOW FAULT CURRENT ISOLATOR SYSTEM - A low fault current isolation arrangement senses a loss of voltage and automatically isolates and de-energizes a down live primary wire if overcurrent protection devices have not cleared the high impedance fault in an electric power distribution network. Incorporating an operator selectable time delay response, the low fault current isolation arrangement permits overcurrent protection devices to attempt to detect and shut down the affected conductor, and then isolates and shuts down the low current fault if the overcurrent devices are not successful. The isolation arrangement continuously monitors AC voltage as remotely provided by smart meters even after a fault location is de-energized, and serves as a back up, and not as a replacement, for existing overcurrent protection schemes. A host computer operates in conjunction with plural smart meters each coupled to an associated customer distribution transformer in conjunction with the fault isolator to detect and shut down high impedance faults. | 09-24-2015 |
20150280418 | LOW FAULT CURRENT ISOLATOR SYSTEM - A low fault current isolation arrangement senses a loss of voltage and automatically isolates and de-energizes a down live primary wire if overcurrent protection devices have not cleared the high impedance fault in an electric power distribution network. Incorporating an operator selectable time delay response, the low fault current isolation arrangement permits overcurrent protection devices to attempt to detect and shut down the affected conductor, and then isolates and shuts down the low current fault if the overcurrent devices are not successful. The isolation arrangement continuously monitors AC voltage as remotely provided by smart meters even after a fault location is de-energized, and serves as a back up, and not as a replacement, for existing overcurrent protection schemes. A host computer operates in conjunction with plural smart meters each coupled to an associated customer distribution transformer in conjunction with the fault isolator to detect and shut down high impedance faults. | 10-01-2015 |