Abstract:
The subject matter described herein includes methods, systems, and computer readable media for virtual card transfer between near field communications (NFC)-enabled mobile devices. According to one aspect, a method for over-the-air (OTA) virtual card transfer between NFC-enabled mobile devices is disclosed. The method includes receiving, at an OTA provisioning server, a virtual card, from a sending mobile device, that is intended for a receiving mobile device. The virtual card is provisioned, over the air, to the receiving mobile device, where the virtual card is immediately presentable by the receiving mobile device at a point of sale terminal.
Abstract:
Methods, systems, and computer program products for over the air provisioning of soft cards on devices with wireless communications capabilities are disclosed. According to one method, a soft card provisioning application is instantiated on a device with wireless communications capabilities. A card number for a soft card desired to be provisioned on the device is obtained from a user of the device. The card number is communicated to a provisioning configuration server over an air interface. Card-issuer-specific challenges corresponding to the card number and a provisioning issuer server network address are obtained from the provisioning configuration server. The challenges are presented to the user, and the user's responses to the challenges are received. A connection is made to the provisioning issuer server corresponding to the network address. The challenge responses are communicated to the provisioning issuer server. Soft card personalization data for activating the soft card is received from the provisioning issuer server. The soft card is provisioned for use on the device based on the personalization data.
Abstract:
The subject matter described herein includes methods, systems, and computer readable media for virtual card transfer between near field communications (NFC)-enabled mobile devices. According to one aspect, a method for over-the-air (OTA) virtual card transfer between NFC-enabled mobile devices is disclosed. The method includes receiving, at an OTA provisioning server, a virtual card, from a sending mobile device, that is intended for a receiving mobile device. The virtual card is provisioned, over the air, to the receiving mobile device, where the virtual card is immediately presentable by the receiving mobile device at a point of sale terminal.
Abstract:
Methods, systems, and computer readable media for facilitating the use of wireless smart devices to purchase goods or services that are not available at a purchaser's location are provided. According to one aspect of the subject matter described herein, a method for facilitating the use of a wireless smart device to purchase goods or services is provided. The method includes providing a smart poster that advertises a good or service and is locatable in an area that is accessible by a potential purchaser of a good or service. The method includes directing, using a mechanism in or on the smart poster, the wireless smart device to access a section of an merchant's website specific to the good or service in response to the wireless smart device interfacing with the smart poster. The method further includes providing, via the wireless smart device, an option for the potential purchaser to purchase the good or service in a manner that bypasses a payment register in a retail location of the merchant.
Abstract:
According to one aspect, the subject matter described herein includes a method for secure near field communication (NFC) of a non-secure memory element payload. The method includes receiving, at an NFC enabled mobile device and from a content provider, a payload. The method also includes storing the received payload in a non-secure memory element of the NFC enabled mobile device. The method further includes transferring the stored payload from the non-secure memory element of the NFC enabled mobile device to a secure memory element of the NFC enabled mobile device, wherein transferring the stored payload includes loading the stored payload into a secure reloadable payload instance. The method further includes establishing a NFC link between the NFC enabled mobile device and an NFC reader. The method further includes communicating, via the NFC link, the transferred payload from the secure reloadable payload instance to the NFC reader.
Abstract:
A medical dictation application configured to operate on a computing device includes a dictation component and a customized operating system (OS) feature in communication with the dictation component, where the customized OS feature and the dictation component utilize a shared authentication process of the medical dictation application, where the customized OS feature is inaccessible to a user device prior to authentication of the user device with the medical dictation application utilizing the shared authentication process.
Abstract:
Systems and methods for suppressing magnetically active surface defects in superconducting quantum circuits are provided. A method includes providing one or more superconducting quantum circuits, and arranging the one or more superconducting quantum circuits in a hermetic enclosure capable of isolating the one or more superconducting circuits from ambient surroundings. The method also includes controlling an environment in the hermetic enclosure to suppress magnetically active surface defects associated with the one or more superconducting quantum circuits. In some aspects, the method further includes introducing an inert gas into the hermetic enclosure to passivate a surface of the one or more superconducting quantum circuits. In other aspects, the method further includes coating a surface of the one or more superconducting circuits with a non-magnetic encapsulation layer. In yet other aspects, the method further includes irradiating the one or more superconducting circuits using ultraviolet light.
Abstract:
Methods, systems, and computer program products for interacting with ISO 14443-4 and MIFARE® applications on the same wireless smart device during a common transaction are disclosed. According to one aspect, the method includes detecting and communicating with an ISO 14443-4 application located on a wireless smart device that includes an ISO 14443-4 and a MIFARE® application to perform at least part of the common transaction. Termination of the ISO 14443-4 application is detected, and the MIFARE® application located on the wireless smart device is detected and communicated with for performing at least part of the common transaction.
Abstract:
According to one aspect of the subject matter described herein, a method for registering wireless smart devices for secure offline data transfer is provided. The method includes, for an application configured to execute on a wireless smart device and that requires access to information regarding an account that does not reside on the wireless smart device, register, at a server having access to the information regarding the account, a first wireless smart device has an account owner device (AOD) for operating in an online mode for obtaining the information regarding the account from the server and for operating in an offline mode for transferring the information regarding the account to at least one additional device via a secure offline data transfer using near field communications (NFC). The method further includes registering, at the server, at least one second wireless smart device as an account sharer device (ASD) for operating in an offline mode for receiving the information regarding the account from the first wireless smart device via the secure offline data transfer using NFC.
Abstract:
Methods, systems, and computer readable media for electronically delivering a prepaid card to a mobile device are disclosed. According to one aspect, the method includes receiving, at a merchant server, purchase information related to the purchase of an electronic prepaid card. The method further includes receiving, from the merchant server, electronic prepaid card information derived from the purchase information. The method further includes establishing a communications link with a mobile device associated with address data included in the electronic prepaid card information. The method also includes provisioning the electronic prepaid card information on the mobile device via over the air (OTA) communications.