Patent application number | Description | Published |
20090045990 | SYSTEM, METHOD, AND/OR APPARATUS FOR DIGITAL SIGNAL SORTING - Embodiments of methods, apparatuses, devices and systems associated with ordering and/or reordering a set of digital signal sample values are disclosed. | 02-19-2009 |
20090048852 | ENCODING AND/OR DECODING DIGITAL CONTENT - Embodiments of methods, apparatuses, devices and systems associated with encoding and/or decoding audio data are disclosed. | 02-19-2009 |
20110137960 | APPARATUS AND METHOD OF CREATING AND UTILIZING A CONTEXT - The described aspects include an apparatus or method of context-aware communication comprises obtaining, by an access terminal, a plurality of terminal data from a plurality of access terminal subsystems, one or more terminal applications, or a combination of both. Further, the aspects include determining at least one context corresponding to at least a portion of the plurality of terminal data. Also, the aspects include creating a context profile having a context identifier identifying each context, wherein each context profile comprises profile parameters corresponding to the respective portion of the plurality of terminal data determined to correspond to the respective context. Additionally, the aspects include storing each context profile. Optionally, the aspects may further include monitoring for the occurrence of a context corresponding to a content profile, and performing a context action triggered by detecting the occurrence of a context. | 06-09-2011 |
20110145397 | APPARATUS AND METHOD OF PEER-TO-PEER COMMUNICATION - An apparatus and method of communication include establishing, by a first peer device, a proximity-based connection with a second peer device, transmitting a first public network address of the first peer device over the proximity-based connection for receipt by the second peer device, receiving a second public network address of the second peer device over the proximity-based connection, and establishing a communication session over a wide area connection using the first public network address and the second public network address. | 06-16-2011 |
20120203916 | APPARATUS AND METHOD OF PEER-TO-PEER COMMUNICATION - An apparatus and method of communication include establishing, by a first communication device, a proximity-based connection with a another communication device, transmitting a first public network address of the first communication device over the proximity-based connection, receiving a second public network address of another communication device over the proximity-based connection, and establishing a communication session over a wide area connection using the first public network address and the second public network address. | 08-09-2012 |
20120257630 | INTERACTIVE HEADER COMPRESSION IN PEER-TO-PEER COMMUNICATIONS - Apparatus and methods for communicating messages between communication devices are disclosed. The method includes receiving, from a second communication device, a message with a compressed header and a compression token, the compression token replacing routing information compressed out of an original header of the message. The method also includes determining, using the compression token, whether the routing information is stored on a first communication device, and requesting, if the routing information is not stored on the first communication device, that the second communication device send the routing information to the first communication device. And the first communication device routes the message to a destination device based upon the routing information. | 10-11-2012 |
20120258664 | RESOLVING AN APPLICATION SERVICE CHANGE IN A SYSTEM USING BLUETOOTH - Peer-to-peer communication is established between applications in different Bluetooth enabled devices in a Bluetooth network by using Bluetooth protocol messages to discover peer-to-peer bus daemons. In the Bluetooth enabled computing devices, an initiating peer-to-peer bus daemon initiating a connection from a first device to a second device discovers an accepting peer-to-peer bus daemon at the second device. After the discovery of the accepting peer-to-peer bus daemon by the initiating peer-to-peer bus daemon, the initiating peer-to-peer bus daemon sends SDP protocol messages to find a named application available through the accepting peer-to-peer bus daemon. An extended inquiry response with a unique identifier is created and sent by the accepting peer-to-peer bus daemon to the initiating peer-to-peer bus daemon. This unique identifier contains a revision count and the revision count indicates the current version of an application name list for application services available at the accepting peer-to-peer bus daemon. | 10-11-2012 |
20150019432 | MOBILE PAYMENTS USING PROXIMITY-BASED PEER-TO-PEER COMMUNICATION AND AN INTENT-TO-PAY GESTURE - The disclosure generally relates to mobile payments using proximity-based peer-to-peer (P2P) communication and an intent-to-pay gesture. In particular, a mobile device may detect a distinctive intent-to-pay gesture from one or more signals generated with one or more sensors on the mobile device. For example, the signals may indicate that the mobile device was gestured against a passive target that may resonate to indicate that the intent-to-pay gesture was made. The mobile device may then receive transaction details over a proximal P2P connection in response to detecting the intent-to-pay gesture and send a message over the proximal P2P connection to complete the mobile payment in response to receiving an input confirming the transaction details. Furthermore, the passive target may be constructed to produce a distinct resonant response that can be used to identify the passive target (e.g., using a microphone on the mobile device). | 01-15-2015 |
20150029880 | PROXIMITY DETECTION OF INTERNET OF THINGS (IoT) DEVICES USING SOUND CHIRPS - In an embodiment, a connection is established between first and second Internet of Things (IoT) devices. After a determination is made to execute a proximity detection procedure, the second IoT device outputs an audio emission and a data packet at substantially the same time. The first IoT device detects the audio emission via a microphone and receives the data packet. The first IoT device uses correlation information to correlate the detected audio emission with the data packet, whereby the correlation information is contained in the detected audio emission, the data packet or both. The first IoT device uses the correlation between the detected audio emission and the data packet to calculate a distance estimate between the first and second IoT devices. | 01-29-2015 |
20150071216 | ALLOWING MASS RE-ONBOARDING OF HEADLESS DEVICES - The disclosure relates to allowing mass re-onboarding of onboardee devices. An onboarder device receives updated network configuration parameters for a local wireless network, and sends the updated network configuration parameters and a delay parameter to one or more onboardee devices, wherein the one or more user devices reconnect to the local wireless network using the updated network configuration parameters at a time indicated by the delay parameter. An onboardee device receives updated network configuration parameters for a local wireless network, receives a delay parameter indicating a time at which the updated network configuration parameters will be valid, and connects to the local wireless network at the time indicated by the delay parameter using the updated network configuration parameters. | 03-12-2015 |