Patent application number | Description | Published |
20130223623 | PORTABLE SECURE ELEMENT - Transferring control of a secure element between TSMs comprises a zone master key established between the TSMs that facilitates encryption of a temporary key. The TSMs create the zone master key prior to initiation of transfer of control. Once transfer of control is initiated, the first TSM establishes a communication channel and deletes its key from the secure element. The first TSM creates a temporary key that is encrypted with the zone master key established between the first TSM and the second TSM. The encrypted temporary key is communicated to the second TSM with a device identifier. The second TSM decrypts the temporary key using the zone master key and identifies the user device using the device identifier. The new TSM establishes a communication channel and deletes the temporary key from the secure element. The new TSM then inputs and saves its key into the secure element. | 08-29-2013 |
20130282502 | PROCESSING PAYMENT TRANSACTIONS WITHOUT A SECURE ELEMENT - A user conducts a wireless payment transaction with a merchant system by transmitting payment information from a user device to a terminal reader without accessing a secure element resident on the user device. A user taps a user device in a merchant system's terminal reader's radio frequency field. The terminal reader and the user device establish a communication channel and the terminal reader transmits a signal comprising a request for a payment processing response. The signal is received by the user device and converted by a controller to a request understandable by an application host processor. The controller transmits the request to the application host processor, where the request is processed, and a response is transmitted to the controller and then to the terminal reader. The response generated by the application host processor is identifiable by the merchant system as a payment response. | 10-24-2013 |
20140026057 | PROVIDING ACCESS TO A REMOTE APPLICATION VIA A WEB CLIENT - Techniques for remote application access are described. Some embodiments provide access to an application executing on a host system via a Web browser of a client device. A user operating the Web browser may request access to the application via a uniform resource identifier. A service executing on the host system receives the request and facilitates access to the application. Facilitating access may include transmitting to the Web browser image data corresponding to a window or graphical user interface generated by the application and stored on the host system. Client logic executing within the Web browser receives the image data and displays a local copy of the application window on the client device. The client logic also forwards user input events made with respect to the to the local window to the remote presentation service, which in turn forwards the events to the window/application on the host system. | 01-23-2014 |
20140052620 | WIRELESS READER AND PAYMENT TRANSACTION TERMINAL FUNCTIONALITY WITHIN A PORTABLE DEVICE - A user accesses an application on a reader mode device, activating a reader communication mode and disabling conflicting communication modes. The reader mode device activates a radio frequency field and creates a secure communication channel with a payment device. A secure element application on the reader mode device requests and receives payment information from a payment device. The secure element application on the reader mode device decrypts the payment information and requests account verification from the user. The secure element application on the reader mode device receives input from the user and verifies the payment information. In response to verifying the account information, the secure element application on the reader mode device encrypts the payment information and transmits it to a payment processing system. The payment processing system processes the payment transaction and transmits a notice of approved or declined transaction to the reader mode device. | 02-20-2014 |
20140052637 | PORTABLE DEVICE WIRELESS READER AND PAYMENT TRANSACTION TERMINAL SECURE MEMORY FUNCTIONALITY - A user accesses an application on a reader mode device, activating a reader communication mode and disabling conflicting communication modes. The reader mode device activates a radio frequency field and creates a secure communication channel with a payment device. A secure element application on the reader mode device requests and receives payment information from a payment device. The secure element application on the reader mode device decrypts the payment information and requests account verification from the user. The secure element application on the reader mode device receives input from the user and verifies the payment information. In response to verifying the account information, the secure element application on the reader mode device encrypts the payment information and transmits it to a payment processing system. The payment processing system processes the payment transaction and transmits a notice of approved or declined transaction to the reader mode device. | 02-20-2014 |
20150113271 | RE-PROGRAMMABLE SECURE CRYPTOGRAPHIC DEVICE - A re-programmable wireless cryptographic device can store data securely and use near field communication (NFC) to exchange functionality data and/or program code from a central server system through a mobile device. A user requests a new cryptographic device or a new device function via an application on the mobile device. The central server system transmits program code and a public key used to identify the cryptographic device to the mobile device, which functions as a pass-through conduit for the information, storing it until the devices are synced. A NFC communication channel is created, and the mobile device authenticates the cryptographic device by cross-referencing the public key received from the central server system with the public key transmitted by the cryptographic device once the communication channel is established. Upon authentication, the cryptographic device is synced with the mobile device, and the mobile device passes the program code to the cryptographic device. | 04-23-2015 |
20150237146 | PERMANENT CONNECTION ORIENTED COMMUNICATION USING PARALLEL SINGLE CONNECTION CIRCUITS - Methods, systems, and techniques for providing a pseudo permanent communications connection using temporary connection protocols are described. Example embodiments provide a Enhanced Communications Layer that provides such connections by means of a layer incorporated in the client side and server side communications stacks. The ECL maintains a pool of connections that are opened and used in a staggered fashion to reduce the amount of connection setup and teardown. | 08-20-2015 |
20160034696 | Data Permission Management for Wearable Devices - Methods and apparatus for providing rule-based access to data stored on wearable devices are provided. A wearable computing device can store data that includes data about a wearer of the wearable computing device. The wearable computing device can receive a request for a portion of the stored data. The wearable computing device can determine a designated role associated with the request for the portion of the stored data. The wearable computing device can determine one or more rules regarding access to the portion of the stored data based on the designated role. The wearable computing device can determine a response to the request for the portion of the stored data by at least: determining whether the request is validated by at least applying the one or more rules to the request, and after determining that the request is validated, providing the requested portion of the stored data. | 02-04-2016 |