Patent application number | Description | Published |
20080233962 | TECHNIQUES FOR ALWAYS ON ALWAYS CONNECTED OPERATION OF MOBILE PLATFORMS USING NETWORK INTERFACE CARDS - An embodiment of the present invention provides an apparatus, comprising a network interface (NIC) card operable in communication with a mobile platform to monitor network traffic and perform filtering to enable decreased system resource use in said mobile platform when in an Always On Always Connected (AOAC) state. | 09-25-2008 |
20080320492 | APPARATUS AND METHODS USING INTELLIGENT WAKE MECHANISMS - An embodiment of the present invention provides a network interface card (NIC), comprising an intelligent wake mechanism and a device driver associated with the intelligent wake mechanism and configured to agree with embedded software on a set of wake codes and wake behaviors associated with the wake codes such that when the NIC encounters a wake event, the NIC first adds the wake code to a command queue, then it drives a PME pin to high to wake a device connected to the NIC. | 12-25-2008 |
20100309955 | MITIGATING NOISE CREATED BY SPREAD SPECTRUM CLOCKS - A platform to mitigate noise caused by spread spectrum clock signals. The platform may comprise a noise mitigation block, which may include a first set of analog-to-digital converters, a second analog-to-digital, and a noise canceller. The first set of analog-to-digital converters may generate clock samples by digitizing the plurality of spread spectrum clock signals, which are provided as inputs to the noise mitigation block. The second analog-to-digital converter may generate data samples by digitizing the data signal. The noise canceller coupled to the first set of analog-to-digital converters and the second analog-to-digital converter may identify an interference portion in the data signal using the clock samples and the data samples and remove the interference portion from the data signal. | 12-09-2010 |
20110075598 | METHOD AND APPARATUS TO SHORTEN THE TIME TO CONNECT TO A NETWORK - A computer platform and computer method may, when a computer platform is in a low-power or sleep mode, operate a wireless communication interface unit to scan for a set of available networks and record the set of networks. When the platform is changed to an operating mode, the platform may use the set of available networks to connect to a network. | 03-31-2011 |
20110150223 | WIRELESS DEVICE AND METHOD FOR REKEYING WITH REDUCED PACKET LOSS FOR HIGH-THROUGHPUT WIRELESS COMMUNICATIONS - Embodiments of a wireless device and methods for rekeying with reduced packet loss in a wireless network are generally described herein. In some embodiments, during rekeying operations a new key for reception may be installed early (i.e., prior to receipt of a rekeying confirmation message). The use of the new key for transmission may be delayed until after receipt of the rekeying confirmation message. The early installation of the new key for reception may allow both the new key and old key to be active at the same time for use decrypting received packets to reduce packet loss during rekeying operations. The rekeying confirmation message may be the fourth message of a four-way handshake for rekeying. In some embodiments, two key identifiers may be alternated between four-way handshakes to prevent deletion of the old key. | 06-23-2011 |
20120076072 | SYSTEM AND METHOD FOR MAINTAINING PRIVACY IN A WIRELESS NETWORK - A system and method for of maintaining privacy in a wireless network is provided. A wireless communication device may transmit, to a broadcast address, a plurality of messages using a respective plurality of source identifiers. A response to at least one of the plurality of messages may be received. A predefined source identifier is used to establish a link. Other embodiments are described and claimed. | 03-29-2012 |
20140126722 | WIRELESS DEVICE AND METHOD FOR REKEYING WITH REDUCED PACKET LOSS FOR HIGH-THROUGHPUT WIRELESS COMMUNICATIONS - Embodiments of a wireless device and methods for rekeying with reduced packet loss in a wireless network are generally described herein. In some embodiments, during rekeying operations a new key for reception may be installed early (i.e., prior to receipt of a rekeying confirmation message). The use of the new key for transmission may be delayed until after receipt of the rekeying confirmation message. The early installation of the new key for reception may allow both the new key and old key to be active at the same time for use decrypting received packets to reduce packet loss during rekeying operations. The rekeying confirmation message may be the fourth message of a four-way handshake for rekeying. In some embodiments, two key identifiers may be alternated between four-way handshakes to prevent deletion of the old key. | 05-08-2014 |