Patent application number | Description | Published |
20080212498 | Systems for distributing data over a computer network and methods for arranging nodes for distribution of data over a computer network - Various embodiments of the present invention relate to a system for distributing data (e.g., content data) over a computer network and a method of arranging receiver nodes in a computer network such that the capacity of a server is effectively increased (e.g., the capacity of a server may be effectively multiplied many times over; the capacity of the server may be effectively increased exponentially). In one embodiment the present invention may take advantage of the excess capacity many receiver nodes possess, and may use such receiver nodes as repeaters. The distribution system may include node(s) having database(s) which indicate ancestor(s) and/or descendant(s) of the node so that reconfiguration of the distribution network may be accomplished without burdening the system's primary server. An embodiment of the present invention may include a process for configuring a computer information distribution network having a primary server node and user nodes docked in a cascaded relationship, and reconfiguring the network in the event that a user node departs from the network. In one example (which example is intended to be illustrative and not restrictive), the process may include the steps of providing a new user node (or connection requesting user node) with a connection address list of nodes within the network, having the new user node (or connection requesting user node) go to (or attempt to go to) the node at the top of the connection address list, determine whether that node is still part of the distribution network, and connect thereto if it is, and if it is not, to go to (or attempt to go to) the next node on the connection address list. In another example (which example is intended to be illustrative and not restrictive), when a user node departs from the distribution network, a propagation signal may be transmitted to the nodes below it in the network, causing them to move up in the network in a predetermined order. In another example (which example is intended to be illustrative and not restrictive), the present invention may provide a decentralized approach which provides, to each new user node (or connection requesting user node) a path back to the root server. | 09-04-2008 |
20090016241 | Systems for distributing data over a computer network and methods for arranging nodes for distribution of data over a computer network - A system and method for preventing reconfiguring a binary tree topology network. The network includes a plurality of nodes, a root node and a first set of nodes, operatively networked together to provide a downtree communication path for data. A first node is docked downtree of, and with a parent node, and uptree of, and with a first and second child node. The first node, and the first and second child node, are each one of the first set of nodes, and the plurality of nodes includes each of the first set of nodes and the parent node. A please stand by message is sent from the first node to the first and second child nodes. The first and second child nodes are inhibited from reporting an issue with the performance of the first node for at least a predetermined period after the please stand by message is received. | 01-15-2009 |
20100153534 | SYSTEMS FOR DISTRIBUTING DATA OVER A COMPUTER NETWORK AND METHODS FOR ARRANGING NODES FOR DISTRIBUTION OF DATA OVER A COMPUTER NETWORK - Various embodiments of the present invention relate to a system for distributing data (e.g., content data) over a computer network and a method of arranging receiver nodes in a computer network such that the capacity of a server is effectively increased (e.g., the capacity of a server may be effectively multiplied many times over; the capacity of the server may be effectively increased exponentially). In one embodiment the present invention may take advantage of the excess capacity many receiver nodes possess, and may use such receiver nodes as repeaters. The distribution system may include node(s) having database(s) which indicate ancestor(s) and/or descendant(s) of the node so that reconfiguration of the distribution network may be accomplished without burdening the system's primary server. An embodiment of the present invention may include a process for configuring a computer information distribution network having a primary server node and user nodes docked in a cascaded relationship, and reconfiguring the network in the event that a user node departs from the network. In one example (which example is intended to be illustrative and not restrictive), the process may include the steps of providing a new user node (or connection requesting user node) with a connection address list of nodes within the network, having the new user node (or connection requesting user node) go to (or attempt to go to) the node at the top of the connection address list, determine whether that node is still part of the distribution network, and connect thereto if it is, and if it is not, to go to (or attempt to go to) the next node on the connection address list. In another example (which example is intended to be illustrative and not restrictive), when a user node departs from the distribution network, a propagation signal may be transmitted to the nodes below it in the network, causing them to move up in the network in a predetermined order. In another example (which example is intended to be illustrative and not restrictive), the present invention may provide a decentralized approach which provides, to each new user node (or connection requesting user node) a path back to the root server. | 06-17-2010 |
Patent application number | Description | Published |
20120036594 | RNA-Mediated Induction of Gene Expression in Plants - The present invention is in the field of plant genetics and provides methods for increasing gene expression of a target gene in a plant or part thereof. In addition the invention relates to methods for modifying the specificity of plant specific promoters and for engineering small non-coding activating RNA (sncaRNA) in order to increase expression of a target gene in a plant or part thereof. The present invention also provides methods for the identification of sncaRNA, and its primary transcripts in a plant capable of increasing gene expression in a plant or part thereof. | 02-09-2012 |
20120047602 | RNA-Mediated Induction of Gene Expression in Plants - The present invention is in the field of plant genetics and provides methods for increasing gene expression of a target gene in a plant or part thereof. In addition the invention relates to methods for modifying the specificity of plant specific promoters and for engineering small non-coding activating RNA (sncaRNA) in order to increase expression of a target gene in a plant or part thereof. The present invention also provides methods for the identification of sncaRNA, and its primary transcripts in a plant capable of increasing gene expression in a plant or part thereof. | 02-23-2012 |
20130031665 | ENHANCED METHODS FOR GENE REGULATION IN PLANTS - The present invention is in the field of plant molecular biology and provides methods for regulating target gene expression in plants by suppression of the activity of endogenous small regulating RNAs targeting said target gene. | 01-31-2013 |
20130117885 | Novel Microrna Precursor and Methods of Use for Regulation of Target Gene Expression - Methods for modulating target gene expression in plants by expression of recombinant microRNA precursors are provided. Uses of the said recombinant microRNA precursors for the control of nematodes, in particular the control of soybean cyst nematodes are also provided. Methods for introduction of genetic material into plants that are susceptible to nematodes in order to increase resistance to nematodes are further provided. | 05-09-2013 |