Patent application number | Description | Published |
20120233266 | PEER-TO-PEER GROUP WITH RENEGOTIATION OF GROUP OWNER - A computing device that selectively renegotiates roles of devices in an existing peer-to-peer group. As the group is formed, the device may negotiate with other devices to select a device to control the group. During operation of the group, a device in the group may initiate a renegotiation that may lead to the selection of an alternative device to control the group. Renegotiation may be triggered by a message containing an information element signifying a request for renegotiation. Such a message may be sent either by the controlling device or other device in the group, and may be sent based on a state of the device. The state may relate to a source of power to the device such that a client that is connected to a source of power or a controlling device that is running low on battery power may request a renegotiation. | 09-13-2012 |
20120239755 | ROAMING GROUPS IN A PEER-TO-PEER NETWORK - A computing device that forms a group in accordance with a peer-to-peer protocol in which a device may be identified based on a credential of a user. The credential may be used to determine a unique identifier for the user such that the same identifier is used on any device operated by the same user. Such an identifier may be used in connection with a peer-to-peer protocol that supports persistent peer-to-peer groups. As a result, the unique identifier for the user may be retained by remote devices that have paired with any device operated by a particular user such that those remote devices may automatically establish a connection with any other device operated by the same user that similarly uses the same unique identifier for the user. | 09-20-2012 |
20120297306 | AUTO-CONNECT IN A PEER-TO-PEER NETWORK - A wireless device that automatically forms a connection to a remote device in accordance with a peer-to-peer protocol. The remote device may be designated as an auto-connect device for the wireless device such that, when the wireless device determines that it is in the vicinity of the auto-connect device, it can re-form a connection to the remote device based on stored information for re-establishing connections among a persistent group of devices, but without any express user input. When a user requests that the wireless device perform a function that involves interaction with an auto-connect device, that function may be performed with the delay associated with forming a connection. Any of multiple techniques may be employed for identifying devices designated as auto-connect devices and for determining when the wireless device and a remote, auto-connect devices are in close proximity. | 11-22-2012 |
20130232253 | PEER-TO-PEER DISCOVERY - A wireless device that discovers other wireless devices for the formation of a peer-to-peer connection may perform a scan that is limited in duration and power consumption. The scan nonetheless is highly likely to discover a device, if a discoverable device exists. In addition, the scan may be performed in compliance with parameters of a peer-to-protocol such that the scan may be readily implemented in a wireless device, in some embodiments even as a firmware upgrade on a wireless network interface card. Parameters of the scan may be adjusted to increase the likelihood that, if the scan completes without discovering a device, no discoverable device exists. The scan may be used in an overall process in which discovery ends or the scan is selectively repeated following an unsuccessful scan, without entering a find phase. | 09-05-2013 |
20140133407 | CONNECTION INFORMATION FOR INTER-DEVICE WIRELESS DATA COMMUNICATION - Techniques for connection information for inter-device wireless data communication are described. In at least some embodiments, a broker device maintains wireless connection information for various wireless devices. The wireless connection information includes wireless channels at which particular wireless devices can be accessed. The broker device can provide the wireless connection information to various other devices to enable wireless communication with the wireless devices. | 05-15-2014 |
Patent application number | Description | Published |
20110142393 | LOW-COST FAST VARIABLE OPTICAL ATTENUATOR FOR OPTICAL WAVELENGTH TRACKING - Variable optical attenuator (VOA) formed by disposing upon a substrate a waveguide, a p-type region and an n-type region about the waveguide, and an epi-silicon region disposed upon the waveguide, the VOA responsive to a bias current to controllably inject carriers into the waveguide to attenuate thereby optical signal propagating through the waveguide. | 06-16-2011 |
20110255869 | OPTICAL WAVEGUIDE MULTIPLEXER - Triplexer formed by disposing upon a substrate a highly confined silicon waveguide including one or more polarization-diverse lattice filters that are monolithically integrated with photodetectors, such as PIN or APD. | 10-20-2011 |
20120087613 | THERMALLY CONTROLLED SEMICONDUCTOR OPTICAL WAVEGUIDE - An apparatus includes a conductive or semiconductive substrate and a dielectric layer located directly thereon. A semiconductor layer is located directly on the dielectric layer. The semiconductor layer includes a ridge waveguide and a heater strip extending parallel to the ridge waveguide. The heater strip is electrically isolated from the ridge waveguide and is doped to carry a current therein about parallel to the ridge waveguide. | 04-12-2012 |
20130016944 | LOW-COST FAST VARIABLE OPTICAL ATTENUATOR FOR OPTICAL WAVELENGTH TRACKING - Variable optical attenuator (VOA) formed by disposing upon a substrate a waveguide, a p-type region and an n-type region about the waveguide, and an epi-silicon region disposed upon the waveguide, the VOA responsive to a bias current to controllably inject carriers into the waveguide to attenuate thereby optical signal propagating through the waveguide. | 01-17-2013 |
20130101252 | ARRAYED-WAVEGUIDE GRATING HAVING TAILORED THERMAL-SHIFT CHARACTERISTICS AND AN OPTICAL ASSEMBLY EMPLOYING THE SAME - An arrayed-waveguide grating (AWG) whose thermal-shift characteristics can be tailored to match the corresponding characteristics of another optical device (e.g., a solid-state laser or modulator) to which the AWG is intended to be coupled. In one embodiment, the physical means that enable the match of the thermal-shift characteristics include one or more wedge-shaped structures placed into one or both of the waveguide-coupling regions of the AWG. By appropriately selecting the structure's material, shape, and orientation and also the number of structures, the AWG can be manufactured to have substantially the same thermal-shift coefficient as the other optical device. As a result, the AWG can advantageously remain in optimal spectral alignment with the optical device despite temperature fluctuations and, as such, does not require a thermostat or temperature controller for proper operation. | 04-25-2013 |