Patent application number | Description | Published |
20080198781 | System and method for a software-based TCP/IP offload engine for implementing efficient digital media streaming over Internet protocol networks - A method of sending data through a network from a first computing device to a second computing device is described, where the computing devices adhere to a packet-based network protocol. A connection between the first computing device and the second computing device is established for a session according to the network protocol. A packet header template is defined having a plurality of static fields filled with static values valid for all packets sent during the session and variable fields that can acquire packet-dependent values for different packets sent during a session. A packet header is created based on the header template by defining, in a central processing unit, at least one value of a variable field and by reusing the static values for the static fields. The packet header is pre-pended to payload data to form a packet, and the packet is sent to the second computing device. | 08-21-2008 |
20080285945 | System and method for simultaneous network recording and playback of digital television programs - A method of playing back a television program on a playback device connected to a local area network while simultaneously storing a television program on a storage device connected to the network is disclosed. The method includes receiving a television broadcast that includes at least one program at a first settop box. A first program is stored on a permanent storage device of a network storage server connected through a network to the first settop box. While receiving the television broadcast and while storing the first program, a program is rendered on a digital media rendering device connected through the network to the first settop box. | 11-20-2008 |
20130166910 | Revocable Security System and Method for Wireless Access Points - Disclosed are various embodiments of a wireless access point. Embodiments can include establishing a master pre-shared key associated with a wireless network, obtaining a request to establish a connection to the wireless network with a client device and generating a revocable key for the client device that is different from the pre-shared key. | 06-27-2013 |
20140004912 | Coordinated Wireless Communication and Power Delivery | 01-02-2014 |
20140091626 | Power Receiving Device Having Device Discovery and Power Transfer Capabilities - A wireless power transfer system is disclosed that includes a power station and a chargeable device. The power station transmits discovery beacons in order to detect a chargeable device within its vicinity using any available communication protocols and/or standards. Once a device is discovered, the power station can perform coil selection with the device in order to select preferred coils for power transfer. In addition, the chargeable device is capable of detecting the beacon signal and providing a response to notify the power station of its presence. The chargeable device is capable of performing its own coil selection for further optimization and includes various assistance functionality to aid a user in optimizing a connection with the power station. | 04-03-2014 |
20140094116 | Power Transmitting Device Having Device Discovery and Power Transfer Capabilities - A wireless power transfer system is disclosed that includes a power station and a chargeable device. The power station transmits discovery beacons in order to detect a chargeable device within its vicinity using any available communication protocols and/or standards. Once a device is discovered, the power station can perform coil selection with the device in order to select preferred coils for power transfer. In addition, the chargeable device is capable of detecting the beacon signal and providing a response to notify the power station of its presence. The chargeable device is capable of performing its own coil selection for further optimization and includes various assistance functionality to aid a user in optimizing a connection with the power station. | 04-03-2014 |
20140123209 | INPUT/OUTPUT GATEKEEPING - Disclosed are various embodiments providing a portable wireless communication device that includes a secure element configured to route a set of input/output (I/O) channels to host processing circuitry of a mobile communication device. The secure element includes an application executable by the secure element, the application being configured to obtain a policy via an I/O channel of the set of I/O channels. The application is further configured to prevent the host processing circuitry from accessing data corresponding to at least a portion of the set of I/O channels according to the policy. | 05-01-2014 |
20140346885 | Power Transmitting System Capable of Power Flashing and Selective Power Distribution - A wireless power transfer system is disclosed that allows for directed power distribution. A power station that transmits the power can also transmit a distribution instruction that authorizes and/or prohibits various systems/components within a receiver device to receive power. A manager and power router within the receiver device route the power as directed by the distribution instruction. When multiple components/systems are authorized to receive the power, the receiver device can monitor power need and route as needed between authorized components/systems. in addition, the receiver device can act as a transmitter to wireless flash power to another device. The flash consists of bursting a large amount of power over a relatively short time. Several constraints, configurations, and considerations are required to perform this function. | 11-27-2014 |
20140355465 | Device Locationing Using Wireless Communication - A communication network of the present disclosure can determine one or more locations of communication devices within its geographic coverage area based upon one or more communication signals that are communicated within the communication network and/or between the communication network and another communication network. The communication devices within the communication network can be implemented to utilize, for example, an implicit beamforming technique to receive the one or more communication signals over multiple signal pathways. The communication devices can determine one or more characteristics of these various communication signals that are received over the multiple signal pathways to assist in determining the one or more locations. Thereafter, the communication devices can determine one or more properties of the various communication signals based upon the one or more characteristics to determine the one or more locations. | 12-04-2014 |
20140355466 | Locationing Determination Using Pilots Signals in a Wireless Local Area Network (WLAN) - A communication network of the present disclosure can determine one or more locations of communication devices within its geographic coverage area based upon one or more communication signals that are communicated within the communication network and/or between the communication network and another communication network. The one or more communication devices within the communication network can be implemented to utilize, for example, pilot signals encoded using orthogonal frequency-division multiplexing (OFDM) on multiple carrier frequencies to concurrently transmit the one or more communication signals over multiple signal pathways. The communication devices can determine one or more characteristics of these various communication signals that are received over the multiple signal pathways to assist in determining the one or more locations. Thereafter, the communication devices can determine one or more properties from the one or more characteristics to determine the one or more locations. | 12-04-2014 |
20140357294 | Locationing Via Staged Antenna Utilization - A communication network of the present disclosure can determine a location of a communication device, such as a mobile communication device, a wireless access point, and/or a base station to provide some examples, within its geographic coverage area based upon one or more communication signals that are communicated within the communication network and/or between the communication network and another communication network. The communication network can implement a multilateration technique to determine the location of the communication device based upon the one or more communication signals as received over various signal pathways. In, an embodiment, the communication device can include multiple receiving antennas for receiving the one or more communication signals over multiple first signal pathways. The multilateration technique can use the one or more communication signals as received over the multiple first signal pathways to estimate a coarse location of the mobile communication device. Thereafter, the multilateration technique can, optionally, be used to effectively refine the coarse location based upon the one or more communication signals as received over multiple second signal pathways within the communication network to estimate a fine location of the mobile communication device. | 12-04-2014 |
20150078180 | Communication Adaptations To Industrial Noise - A device in an industrial environment may adapt communications to account for industrial noise in the industrial environment. The device may send a first communication to a destination device in the industrial environment using a first communication technology. The device may access noise prediction data for the industrial environment, and the noise prediction data may indicate predicted noise for one or more portions of the industrial environment, including a communication pathway to the destination device using the first communication technology. The device may adapt a subsequent communication to the destination device to account for the predicted noise along the communication pathway. | 03-19-2015 |
20150078200 | Adaptive Industrial Network - An environment, such as an industrial environment, may include a control network with multiple network devices. A network device in the control network may have groups of communication ports servicing upstream and/or downstream network traffic. The group of communication ports may have, for example, two communication ports. Transmission parameters of the communication ports may be dynamically configured based on a first network port configuration and a second network port configuration for the first and second communication ports, respectively. The first network port configuration may have different transmission parameters than the second network port configuration. The first network port may forward data packets over the control network according to the first network port configuration, while the second network port may forward data packets to the next hop device utilizing the second network port configuration. | 03-19-2015 |