Abstract: A method for specifying a consolidator for consolidating data from a plurality of database systems is disclosed. The method comprises receiving a user action wherein the user action specifies an action that modifies a knowledge base wherein the knowledge base includes schema information and matching information relating to the plurality of database systems. The method further comprises deriving an event from the user action wherein the event triggers a consistency rule that causes a modification of the knowledge base and generating from the knowledge base a registry that comprises the consolidator wherein the registry includes a master database and a consolidator application.

Abstract: The present disclosure is directed to a system and method for using magnetically coupled antennas to enhance receptivity and/or reading range of radio frequency (RF) transaction devices. In some implementations, a method for boosting RF signals includes wirelessly receiving an RF signal from a transaction terminal at a passive antenna. The passive antenna is magnetically coupled to the antenna of a transaction card. The transaction card is inserted in a mobile host device and configured to execute a payment application using user credentials in response to at least a transaction request and transmits at least one transaction response to the transaction terminal based, at least in part, on the executed transaction application and using the antenna either standalone or through the coupled antenna configuration. The RF signal is transmitted to the transaction card using the inductive coupling with the terminal.

Abstract: The present invention relates to the regeneration, reconstruction, repair, augmentation or replacement of organs or tissue structures using scaffolds and autologous cells that are not derived from such organs or tissues.

Abstract: The present disclosure is directed to a system and method for amplifying Radio Frequency (RF) signals. In some implementations, a system includes a first interface, a second interface, secure memory, a user-interface module, a processing module, and am amplification module. The first interface connects to a microSD slot of a mobile host device. The second interface includes an internal antenna for wirelessly communicating with retail terminals. The secure memory stores user credentials and a payment application used to execute financial transactions with the retail terminals. The processing module executes the payment application using the user credentials in response to at least a transaction request received by the RF module and transmits at least one transaction response to the retail terminal based, at least in part, on the executed payment application. The amplification module connected to a lead of the antenna and is configured to amplify at least received RF signals.

Abstract: The present disclosure is directed to a system and method for switching between internal and external antennas. In some implementations, a system includes an antenna, a connector, and a housing. The antenna is configured to communicate wirelessly transactions with transaction terminals. The connector is connected to the antenna and configured to connect a transaction card to the antenna in response to at least insertion in the housing. The housing enclosing at least a portion of the antenna and at least a portion of the connector and including one or more elements that form an opening for receiving the transaction card. In addition, the housing is substantially rectangular and includes a first portion with a first thickness and a second portion with a second thickness different from the first thickness and at least the thickness of the transaction card.

Abstract: The present disclosure is directed to a system and method for wirelessly receiving broadcast signals using intelligent cards. In some implementations, a service card includes a physical interface, a communication module, memory, and a service module. The physical interface connects to a port of a mobile host device. The mobile host device includes a Graphical User Interface (GUI). The communication module wirelessly receives broadcast signals encoding content. The memory stores user information used to decrypt the encoded content independent of the mobile host device. The stored information is associated with a content provider. The service module decrypts the encoded content in response to at least an event and presents the content through the GUI of the mobile host device.

Abstract: The present disclosure is directed to a system and method for wirelessly communicating Radio Frequency (RF) signals. In some implementations, a microSD payment system includes an antenna element and a card element. The antenna element affixes to a surface of a mobile device and includes antenna for wireless communicating RF signals with retail terminals and a connection to a microSD card element. The card element includes a shape and dimensions approximately equal to a standard microSD card and wirelessly executes transactions with the retail terminals using the antenna of the antenna element.

Abstract: A subscriber station with a secure element and an access control system combine to permit secure connections to a Wide Area Network, and to the terminal equipment within a customer premises network. A removable secure element provides a simplified upgradeability and portability of credentials to new hardware. Also, a terminal equipment device that does not have the ability to connect to the Wide Area Network gains the ability to connect to the Wide Area Network through any subscriber station with a secure element.

Abstract: The present disclosure is directed to a system and method for wirelessly accessing broadband services using intelligent cards. In some implementations, a broadband service card includes a physical interface, a communication module, secure memory, and service module. The physical interface connects to a port of a consumer host device. The communication module wirelessly receives RF signals from and transmits RF signals to a wireless broadband network. The secure memory stores user credentials used to securely authenticate the card and access a service foreign to the consumer host device through the wireless broadband network independent of the consumer host device. The user credentials are associated with a broadband service provider. The service module accesses the foreign service using the user credentials in response to at least an event and transmits a service request to the broadband service provider using the wireless broadband core network.

Abstract: The present disclosure is directed to a system and method for interfacing transaction cards with mobile devices. In some implementations, a method includes identifying the mobile host device in response to at least insertion of at least a portion of the card into a port of the mobile host device. The mobile host device includes a Graphical User Interface (GUI). The card wirelessly executes financial transactions with a retail terminal independent of the mobile host device and presents and receives information through the GUI of the mobile host device. One or more commands are transmitted to the mobile host device in response to at least an event. The card substantially controls one or more hardware elements of the mobile host device using the one or more commands.

Abstract: The present disclosure is directed to a system and method for wirelessly executing transactions with different institutions. In some implementations, a physical interface, a communication module, secure memory, a user-interface module, and a transaction module. The physical interface connects to a port of a mobile host device that includes a Graphical User Interface (GUI). The communication module wirelessly receives Radio Frequency (RF) signals from and transmits RF signals to an access terminal. The secure memory stores a plurality of selectable user credentials. At least one set of user credentials is used to execute transactions with the access terminal, and each set is associated with different institutions.

Abstract: The present disclosure is directed to a system and method for selectively switching antennas of transaction cards. In some implementations, a method includes physically interfacing a card with a mobile host device including a Graphical User Interface (GUI). The card executes wireless financial transactions independent of the mobile host device. User credentials used to execute financial transactions with retail terminals are stored. Information is presented through the GUI of the mobile host device. An antenna of the card is selectively switched between an activate state and an inactive state in response to at least an event.

Abstract: The present disclosure is directed to a system and method for updating mobile devices with additional elements. In some implementations, a cover for a mobile device includes side surfaces, a rear surface, a physical interface, and a circuit. The side surfaces and the rear surface are configured to be adjacent at least a portion one or more side surfaces of the mobile phone. The side surfaces and the rear surface form an opening that receives at least a portion of the mobile device. A first portion of at least one of the surfaces includes a connector for connecting to a port of the mobile phone. The physical interface includes in at least one of the surfaces that receives a memory device external to the mobile device. The circuit connects the physical interface to the connector.

Abstract: The present disclosure is directed to a system and method for wirelessly executing financial transactions. A payment card includes an interface, a communication module, secure memory, a user-interface module, and a processing module. The interface connects to a slot of a mobile host device. The communication module wirelessly receives RF signals from and transmits RF signals to a retail terminal. The secure memory stores user credentials and a payment application used to execute financial transactions with the retail terminal. The user credentials and the payment application are associated with a financial institution. The user-interface module presents and receives information through the GUI of the mobile host device. The processing module executes the payment application using the user credentials in response to at least a transaction request received by the communication module and transmits a transaction response to the retail terminal based, at least in part, on the executed application.

Abstract: The present disclosure is directed to a system and method for wirelessly accessing broadband services using intelligent covers. In some implementations, a cover for a consumer device includes side surfaces, a rear surface, a physical interface, a circuit, and a broadband service card. The side surfaces and a rear surface form an opening that receives at least a portion of a consumer device. A first portion of at least one of the surfaces includes a connector for connecting to a port of the consumer device. The circuit connects the physical interface to the connector. The broadband service card connected to the physical interface and accesses a service foreign through the wireless broadband network independent of the consumer device.

Abstract: The present disclosure is directed to a system and method for receiving broadcast signals using intelligent covers. In some implementations, a cover for a consumer device includes side surfaces, a rear surface, a physical interface, a circuit, and a broadcast service card. The side surfaces and a rear surface form an opening that receives at least a portion of a consumer device. A first portion of at least one of the surfaces includes a connector for connecting to a port of the consumer device. The circuit connects the physical interface to the connector. The broadcast service card connects to the physical interface and receives broadcasted content independent of the consumer device.

Abstract: The present disclosure is directed to a system and method for presenting Web pages through mobile host devices. In some implementations, a payment card includes a physical interface, memory and a Web server module. The physical interface interfaces the card with a mobile host device including a Graphical User Interface (GUI). The card executes wireless transactions independent of the mobile host device and presents and receives information through the GUI of the mobile host device. The memory stores offline Web pages. The Web server module dynamically generates at least one offline Web page in response to at least an event and presents the generated offline Web page to a user using the GUI.

Abstract: Bioreactors are used in neo-organ production to allow for an appropriate environment for the maintenance of healthy culturing conditions from pre-wetting to shipment of the neo-organ. The closed system “all-in-one bioreactor” is designed to allow for minimal exposure of the scaffold to the open air in order to maintain sterility. The design allows for the same container to be utilized for sterilization, pre-wetting, cell seeding, medium exchange, and shipment. The “all-in-one” bioreactor also remains completely closed after the urothelial cell seeding step to the implantation at the clinical site. This allows for sufficient time for release testing to occur so the neo-organ can be implanted into the patient.

Abstract: Biocompatible synthetic or natural scaffolds are provided for the reconstruction, repair, augmentation or replacement of organs or tissue structures in a patient in need of such treatment. The scaffolds are shaped to conform to at least a part of the organ or tissue structure and may be seeded with one or more cell populations. Inserts, receptacles and ports are also provided for the attachment of tubular vessels to the neo-organ scaffolds. The seeded scaffolds are implanted into the patient at the site in need of treatment to form an organized organ or tissue structure. The scaffolds may be used to form organs or tissues, such as bladders, urethras, valves, and blood vessels.

Abstract: A disposable guarded surgical scalpel includes a handle with a blade fixed to it and a slidably mounted guard. The guard can be moved using a single hand. When the scalpel is in use the guard is moved to a retracted position where the blade is exposed; the guard locks in this position to prevent any unintentional movement. When the scalpel is not in use, the guard is moved to an extended position where the blade is covered. When the scalpel has been used on a patient the guard is moved to a disposal position beyond the extended position thus exposing a visual indicia on the handle that indicates that the scalpel should not be reused. The guard also has grooves on the outer surface so as to provide better grip to a surgeon during operation.