L3 COMMUNICATIONS CORPORATION Patent applications |
Patent application number | Title | Published |
20140160048 | TOUCH SENSOR CONTROLLER RESPONSIVE TO ENVIRONMENTAL OPERATING CONDITIONS - A touch sensor controller system for use in a vehicle of the type utilizing a software application to be interfaced with by an operator of the vehicle includes a touch sensor and a touch detector associated with the touch sensor. A touch gesture processor is provided which prevents unwanted or unintended touch gestures from being communicated to the application software during certain operating conditions of the vehicle. The touch gesture processor receives inputs of the operating conditions of the vehicle and receives touch gesture information from the touch detector, and the touch gesture processor is operative to determine the types of touch gestures to be permitted to be passed to the software application. | 06-12-2014 |
20140159994 | COMBINED HUD/HDD DISPLAY - An integrated dual-mode visual display system which includes both a large-area heads down display and a heads up display combined in a single unit includes a housing or chassis, a flat panel display attached to the housing or chassis, a HUD projector for projecting HUD images and/or data, and a processor housed within the housing or attached to the chassis for driving both the HUD projector and the flat panel display. The processor comprises a video generator for generating video images to be displayed on the flat panel display and on the HUD. The HUD and the HDD (the flat panel display) can display the same information, completely distinct information, or information that has some commonality (some information is uniquely displayed on one or the other of the HUD and HDD displays, while some information is displayed on both the HUD and the HDD). | 06-12-2014 |
20120117378 | Multi-Network Cryptographic Device - A Personal Computer Memory Card International Association (PCMCIA) card is disclosed. The PCMCIA card may include a cryptographic module, a communications interface, and a processor. The cryptographic module may perform Type 1 encryption of data received from a computer into which the card is inserted. The cryptographic module may support High Assurance Internet Protocol Encryption (HAIPE). The communications interface may provide connectivity to a network adapter. The communications interface may include a Universal Serial Bus (USB) interface. The processor may detect whether a network adapter is coupled to the communications interface, identify a device driver that corresponds to the network adapter, and employ the device driver to provide operative communication between the cryptographic module and the network adapter. The PCMCIA card may contain a datastore that maintains a plurality device drivers. For example, the plurality of device drivers support any one of IEEE 802.x, Ethernet, V.90, or RS-232 network protocols. | 05-10-2012 |
20100153704 | Trusted Bypass For Secure Communication - A device having an encryption module in communication with first and second communication ports may facilitate connecting to an access network, without requiring a non-secure hard drive to initiate the network access. The encryption module may define a normal mode and a bypass mode. In normal mode, data from the first port may be sent encrypted to the second port, for communicating securely in an encrypted environment. In bypass mode, data from the first port may be sent unencrypted to the second port. The data being sent may be intercepted and presented to the user for approval in a human readable format. The user may confirm that the data is appropriate for being sent unencrypted. This data may be sent unencrypted in response to a request for information (e.g., an assent to terms and conditions) from the access network, such as at a hotel or public wireless hotspot, for example. | 06-17-2010 |
20090119503 | SECURE PROGRAMMABLE HARDWARE COMPONENT - A cryptographic device may include a programmable hardware component, such as a Field Programmable Gate Array for example, and a processor. The programmable hardware component may encrypt and decrypt data. The programmable hardware component may be securely configured via cryptographically signed and encrypted configuration package. The configuration package may contain a hardware image and executable code. The processor may load the new hardware image onto the programmable hardware device and may execute the executable code to test an operation of the programmable hardware component and the new hardware image. The processor and the programmable hardware component may be physically and/or operationally independent of one another; thus, a security compromise associated with one may not affect the other. Once the programmable hardware component and the hardware image have been tested according to the executable code, the cryptographic device may be ready to encrypt and decrypt user data. | 05-07-2009 |
20090019527 | Assent To Conditions For Network Access - A device that includes a first processor, a second processor, and an encryption module in communication with the first processor and the second processor may be used to accept conditions for access to the network. The first processor may receive condition data, and in response, may send an acceptance signal via the encryption module to the second processor. The second processor may receive the acceptance signal and, in response, may send acceptance data to a gatekeeper. The encryption module may block unencrypted data other than the acceptance signal from being communicated from the first processor to the second processor. The encryption module may support type 1 encryption. | 01-15-2009 |
20090019281 | SECURE HOST NETWORK ADDRESS CONFIGURATION - A Personal Computer Memory Card International Association (PCMCIA) card may establish, via a non-secure network, a secure communications channel between a computer and a secure network. The non-secure network may define a first address space. The secure network may define a second address space. The PCMCIA card may include a cryptography module, a network adapter, and/or a processor. The cryptography module may provide Type 1 cryptography of data communicated between the computer and the secure network. The network adapter may be in communication with the non-secure network and may be associated with a first network address from the first address space. The processor may be in communication with the secure network via the cryptography module and the network adapter. The processor may identify a second network address for the computer from the second address space and may communicate the second network address to the computer, for example via dynamic host control protocol (DHCP). | 01-15-2009 |