Patent application number | Description | Published |
20110058327 | FLASH MEMORY CARD EXPANDER - Method and system for expanding the memory capacity of devices that use flash memory cards. In one aspect, a memory card expander assembly includes an adaptor shaped to be connected to a memory card slot of a host device, and a receptacle assembly in communication with the adaptor and operative to be attached to the host device. The receptacle assembly includes an expanded memory card slot operative to connect to a memory card such that the host device can communicate with the connected memory card when the adaptor is connected to the memory card slot. | 03-10-2011 |
20120102106 | DUAL-MODE WIRELESS NETWORKED DEVICE INTERFACE AND AUTOMATIC CONFIGURATION THEREOF - A wireless networked device interface is disclosed. The wireless networked device interface comprises a central processing unit (CPU), a bus coupled to the CPU, a memory/buffer coupled to the bus, a peripheral bus interface coupled to the bus, an upstream network module coupled to the bus, a downstream network module coupled to the bus and a peripheral device. The device interface includes a nonvolatile memory (NVM) coupled to the bus. The NVM includes a configuration function which through a portable device can associate with one or more portable devices on the downstream wireless network and associate with one or more access points on the upstream wireless network. The wireless networked device as well as the access point can be discovered, selected and auto-configured through the graphic user interface of one of the portable devices on the downstream wireless network. | 04-26-2012 |
20130067550 | PRIVATE CLOUD SERVER AND CLIENT ARCHITECTURE WITHOUT UTILIZING A ROUTING SERVER - A method and system for use with a public cloud network is disclosed, wherein the public cloud network includes at least one private cloud server and at least one smart client device in communication therewith. The method and system comprise setting up the at least one private cloud server and the at least one smart client device in a client server relationship. The at least one private cloud server includes a message box associated therewith. The first message box is located in the public network. The at least one smart client includes a second message box associated therewith. The second message box is located on the public network. The method includes passing session based message information between the at least one private cloud server and the at least one smart client device via the first message box and the second message box in a secure manner. The session base information is authenticated by the private cloud server and the at least one smart client device. The smart client device and the private cloud server can then communicate with each other after the session based information is authenticated. | 03-14-2013 |
Patent application number | Description | Published |
20120198548 | BLANK SMART CARD DEVICE ISSUANCE SYSTEM - A smart card issuance system and method are disclosed. In a first aspect a method and system for issuing a smart card device (SC) is disclosed. The method and system comprise providing an initialization phase of the SC by a manufacturer and providing an authentication phase of the SC by the manufacturer. The method and system also include deploying the SC, providing a first time authentication phase for a specific customer by the issuer (IS) after the SC is deployed and starting a first phase of the registration process of the SC for the specific customer by the issuer. The method and system further include providing another authentication phase of the SC by IS after the first time authentication; and providing of an authentication of the IS by the SC. When both the SC and IS are mutually authenticated, the IS and the specific customer are allowed to complete the registration process. In a second aspect, a data transmission process and system for a smart card device (SC) of an issuer (IS) is disclosed. The process and system comprises performing a login of the SC by a user and performing a mutual authentication of the SC and the IS. The process and system further includes establishing a session key after mutual authentication is established. The session key is used to encrypt and decrypt data for transmission between the IS and the SC. | 08-02-2012 |
20130337701 | USB DEVICE WITH SOLDERLESS CONNECTOR INTERFACE - The present invention includes a USB3 device with solderless USB3 connector interfaces, which comprises: a USB3 device main body that houses a carrier body made of rigid material; four interface pins in the outer row that conform to the USB2.0 standard; five interface pins in the inner row that conform to the USB3.0 standard; and a substrate and electronic circuitry; and a USB3 device sub-body that houses: a carrier body made of rigid material; and five interface pins that conform to the USB3.0 standard wherein each interface pin has an upper convex part and a lower concave part; the upper convex part and the lower concave part forms a spring coil pin; and the spring coil pin can withstand multiple times of compression; a top casing; a bottom casing; and a case assembly. | 12-19-2013 |
20140359477 | UNIVERSAL ENVIRONMENT EXTENDER - A universal environment extender is disclosed. The universal environment extender comprises a smart device; and a main control utility running on the smart device. Then the main control utility allows the extender as a receiver to operate in a mode that allows the extender to explore and reverse-explore the source content/applications and to extend the display environment from another smart device as a transmitter. | 12-04-2014 |
20140359704 | PRIVATE CLOUD ROUTING SERVER, PRIVATE NETWORK SERVICE AND SMART DEVICE CLIENT ARCHITECTURE WITHOUT UTILIZING A PUBLIC CLOUD BASED ROUTING SERVER - A method and system for use with a public cloud network is disclosed, wherein the public cloud network includes at least one private cloud routing server, at least one private network service and at least one smart device client in communication therewith. The method and system comprise setting up the at least one private cloud routing server, the at least one private network service and the at least one smart device client in a client server relationship. The at least one private cloud routing server includes a message box associated therewith. The first message box is located in the public network. The at least one smart client includes a second message box associated therewith. The second message box is located on the public network. The method includes passing session based message information between the at least one private cloud routing server and the at least one smart device client via the first message box and the second message box in a secure manner. The session based information is authenticated by the private cloud routing server and the at least one smart device client. The smart device client and the private cloud routing server can then communicate with each other after the session based information is authenticated. The at least one private network service is then manageable and accessible by the at least one smart device client from anywhere at anytime without utilizing a public cloud based routing server. | 12-04-2014 |
20150163213 | PRIVATE AND SECURE COMMUNICATION ARCHITECTURE WITHOUT UTILIZING A PUBLIC CLOUD BASED ROUTING SERVER - A method for use with a public cloud network is disclosed. The method includes setting up a private cloud routing server and a smart device client in a client server relationship. The private cloud routing server includes a first message box. The smart client includes a second message box. The first and second message boxes are located on the public cloud network. The method also includes passing an authenticated session based message between the first and the second message boxes in a secure manner. The smart device client and the private cloud routing server can communicate with each other after authentication to provide security. The method also includes setting up another smart device client in a client server relationship with the private cloud routing server. The two smart device clients can privately and securely communicate with each other through the public cloud network. | 06-11-2015 |