Patent application number | Description | Published |
20090049185 | System and methods of streamlining media files from a dispersed peer network to maintain quality of service - Media content, including content suitable for streaming, is distributed to and accessible over a communications network by computer nodes within a peer storage network of computer nodes hosting respective content stores. Discrete portions of a content file are multiply distributed to and persisted in a distributed set of the content stores existing within the storage network such that various content stores persist subsets of the content file portions. A computer node retrieves the discrete portions of the content file from the various distributed content stores, depending on node availability, the particular discrete portions there available, and node and network performance factors sufficient to maintain a minimum quality of service, thereby enabling streaming presentation of the content file on the requesting computer node. | 02-19-2009 |
20090055506 | Centralized selection of peers as media data sources in a dispersed peer network - A hierarchical content distribution system includes a seeding server, a plurality of geographically distributed content platforms, and a distribution controller, all interconnected by a communications network. The seeding server initially receives content files for distribution to various content platforms that provide for the persistent storage of the content files. Each content platform includes a content file server responsive on-demand to requests for the transfer of content files. The distribution controller autonomously monitors the transfers of content files and selectively issues transfer directives to the content platforms to modify the distribution of content files among the content platforms. The content file servers respond to received transfer directives by issuing requests for the transfer of the directive identified content files, thereby conforming the specific distribution of content files to an optimal distribution pattern as determined by the distribution controller based on usage patterns. | 02-26-2009 |
20090055547 | Mediated multi-source peer content delivery network architecture - A hierarchical content distribution system includes a seeding server, a plurality of geographically distributed content platforms, and a distribution controller, all interconnected by a communications network. The seeding server initially receives content files for distribution to various content platforms that provide for the persistent storage of the content files. Each content platform includes a content file server responsive on-demand to requests for the transfer of content files. The distribution controller autonomously monitors the transfers of content files and selectively issues transfer directives to the content platforms to modify the distribution of content files among the content platforms. The content file servers respond to received transfer directives by issuing requests for the transfer of the directive identified content files, thereby conforming the specific distribution of content files to an optimal distribution pattern as determined by the distribution controller based on usage patterns. | 02-26-2009 |
20090210549 | System and methods of streamlining media files from a dispersed peer network to maintain quality of service - Media content, including content suitable for streaming, is distributed to and accessible over a communications network by computer nodes within a peer storage network of computer nodes hosting respective content stores. Discrete portions of a content file are multiply distributed to and persisted in a distributed set of the content stores existing within the storage network such that various content stores persist subsets of the content file portions. A computer node retrieves the discrete portions of the content file from the various distributed content stores, depending on node availability, the particular discrete portions there available, and node and network performance factors sufficient to maintain a minimum quality of service, thereby enabling streaming presentation of the content file on the requesting computer node. | 08-20-2009 |
20100011061 | CENTRALIZED SELECTION OF PEERS AS MEDIA DATA SOURCES IN A DISPERSED PEER NETWORK - A multi-source peer content distribution system transfers content files from multiple, distributed peer computers to any requesting computer. The content distribution network coordinates file transfers through a mediation system including s content catalog and a host broker system. The content catalog contains an identification of each content file, the segmented subunits of each file, and the peer caches to which the subunits have been distributed. The host broker system receives content file requests issued over a network from requesting computers. In response, manifest files identifying the request corresponding content subunits and distributed cache locations are returned. The requesting computers can then retrieve and assemble the corresponding content subunits from the peer computers to obtain the requested content file. | 01-14-2010 |
Patent application number | Description | Published |
20080264464 | Temperature Control Including Integrated Thermoelectric Sensing and Heat Pumping Devices and Related Methods and Systems - A temperature control system may include a thermoelectric device, and a controller electrically coupled to the thermoelectric device. The controller may be configured to apply an AC signal to the thermoelectric device, and to sense an electrical characteristic of the thermoelectric device using the AC signal. The controller may also be configured to generate an electrical control signal to pump heat through the thermoelectric device responsive to sensing the electrical characteristic of the thermoelectric device using the AC signal. Related methods are also discussed. | 10-30-2008 |
20090000652 | Thermoelectric Structures Including Bridging Thermoelectric Elements - A thermoelectric structure may include first and second thermally conductive layers. The first and second thermally conductive layers may be laterally spaced apart in a direction parallel with respect to surfaces of the first and second thermally conductive layers so that a gap is defined between edges of the first and second thermally conductive layers. A thermoelectric element may bridge the gap between the first and second thermally conductive layers, and the thermoelectric element may include a thermoelectric material on respective surface portions of the first and second thermally conductive layers. | 01-01-2009 |
20090072385 | Electronic Assemblies Providing Active Side Heat Pumping and Related Methods and Structures - An electronic assembly may include a packaging substrate, an integrated circuit (IC) semiconductor chip, a plurality of metal interconnection structures, and a thermoelectric heat pump. The integrated circuit (IC) semiconductor chip may have an active side including input/output pads thereon and a back side opposite the active side, and the IC semiconductor chip may be arranged with the active side facing the first surface of the packaging substrate. The plurality of metal interconnection structures may be between the active side of the IC semiconductor chip and the first surface of the packaging substrate, and the plurality of metal interconnection structures may provide mechanical connection between the active side of the IC semiconductor chip and the first surface of the packaging substrate. The thermoelectric heat pump may be coupled to the packaging substrate with the thermoelectric heat pump being configured to actively pump heat between the IC semiconductor chip and the packaging substrate. Related methods and structures are also discussed. | 03-19-2009 |
20120310313 | Medical Devices Incorporating Thermoelectric Transducer and Controller - A temperature control system may include a thermoelectric device, a controller electrically coupled to the thermoelectric device, a heat transfer structure thermally coupled to the thermoelectric device, a temperature controlled medium thermally coupled to the thermoelectric device and a temperature feedback sensor. The controller may be configured to sense a first value of an electrical characteristic of the thermoelectric device and to generate a first electrical control to activate the thermoelectric device in response to sensing the first value of the electrical characteristic of the thermoelectric device. The controller may be further configured to sense a second value of the electrical characteristic of the thermoelectric device and to generate a second electrical control signal to activate the thermoelectric device in response to sensing the second value of the electrical characteristic of the thermoelectric device. | 12-06-2012 |