Patent application number | Description | Published |
20080320305 | METHOD AND APPARATUS FOR SECURE COMMUNICATIONS AND RESOURCE SHARING BETWEEN ANONYMOUS NON-TRUSTING PARTIES WITH NO CENTRAL ADMINISTRATION - A unifying network model with a structure and architecture configured to address security, interoperability, mobility, and resource management, including priority and quality of services is provided. The network of the network model is structured as a hierarchical mesh network, with dynamically generated routing tables. The configuration of the network model optimizes routing and distributes communication load. Every device on the network is capable of being both an endpoint and a forwarder of communications. The network model may include underlying networks that are represented with one of two models, the link model or the star model. The nodes are organized in a hierarchical relationship structure to optimizes throughput. The model may include a cryptographic method of dynamically assigning local network addresses. | 12-25-2008 |
20090215411 | SECURE, DISTRIBUTED HIERARCHICAL CONVERGENCE NETWORK - A facility for performing employing multiple frequencies in a secure distributed hierarchical convergence network is described. The facility receives a signal in a first frequency, converts the received signal to an internal representation, applies a business rule to the converted signal, and, when the business rule indicates that the signal should be transmitted in a second frequency, causes the internal representation of the signal to be translated to a second frequency and transmitted in the second frequency. | 08-27-2009 |
20090307372 | CONGESTION MANAGEMENT AND LATENCY PREDICTION IN CSMA MEDIA - A facility for congestion management and latency prediction is described. In various embodiments, the facility sums a series of fractional transmission delays wherein each fractional transmission delay is measured as a probability of a failed transmission attempt multiplied by the cost of the failed transmission attempt, and provides the sum. | 12-10-2009 |
20090316699 | NETWORK CLUSTERING - A network clustering facility is described. The network clustering facility receives a message having a location identification that identifies a destination for the message and comprises at least two components, selects a network node identified by the components of the location identification, determines whether a link exists to the selected network node, and identifies a best link to the selected network node. The network clustering facility comprises a clustering subsystem, an advertising subsystem, and a routing layer. | 12-24-2009 |
20090319646 | NAMING SYSTEM LAYER - A facility for publishing information in a distributed network without a central management infrastructure is described. In various embodiments, the facility receives an indication of a new node and a destination node, the new node omitted from a contact list associated with the destination node, the contact list having an approximately logarithmic distribution of neighboring nodes; introduces the new node to the destination node via a permanent circuit; and causes the destination node to add the new node to the contact list when adding the new node improves the logarithmic distribution of neighboring nodes. | 12-24-2009 |
20100002721 | PROTOCOL LINK LAYER - A link is a software abstraction that represents a direct connection between two CoCo nodes. The link layer detects the presence of neighboring devices and establishes links to them. A protocol abstraction layer converts data frames that arrive on network interfaces into packet objects used by the CoCo Protocol Suite. | 01-07-2010 |
20100008362 | PROTOCOL CIRCUIT LAYER - A protocol circuit layer is described. The protocol circuit layer may employ a routing layer to determine optimal routes when establishing a circuit. The circuit layer may employ a link layer to send data packets over links to other network nodes. A naming layer may employ circuits to establish a distributed database of associations between network node addresses and their network locations. | 01-14-2010 |
20100128602 | METHOD AND APPARATUS FOR PERSISTENT CONNECTIONS TO A DEVICE THROUGH THE USE OF MULTIPLE PHYSICAL NETWORK CONNECTIONS AND CONNECTION HAND-OFFS BETWEEN MULTIPLE BANDS, MODES AND NETWORKS - Embodiments communicate messages between mobile devices and destination devices. An exemplary embodiment includes a first border server operable to establish a first communication connection to the mobile device over a first network operating under a first protocol, a second border server operable to establish a second communication connection to the mobile device over a second network operating under a second protocol, and a transport management server communicatively coupled to the first border server and the second border server, and operable to establish a third communication connection to the destination device over a third network operating under a third protocol. The first protocol is configured to communicate a first encapsulated portion of the message. The second protocol is configured to communicate a second encapsulated portion of the message. The third protocol is configured to communicate the first encapsulated portion of the message and the second encapsulated portion of the message. | 05-27-2010 |
20120151069 | PROTOCOL LINK LAYER - A link is a software abstraction that represents a direct connection between two CoCo nodes. The link layer detects the presence of neighboring devices and establishes links to them. A protocol abstraction layer converts data frames that arrive on network interfaces into packet objects used by the COCO Protocol Suite. | 06-14-2012 |
20120224468 | METHOD AND APPARATUS FOR PERSISTENT CONNECTIONS TO A DEVICE THROUGH THE USE OF MULTIPLE PHYSICAL NETWORK CONNECTIONS AND CONNECTION HAND-OFFS BETWEEN MULTIPLE BANDS, MODES AND NETWORKS - Embodiments communicate messages between mobile devices and destination devices. An exemplary embodiment includes a first border server operable to establish a first communication connection to the mobile device over a first network operating under a first protocol, a second border server operable to establish a second communication connection to the mobile device over a second network operating under a second protocol, and a transport management server communicatively coupled to the first border server and the second border server, and operable to establish a third communication connection to the destination device over a third network operating under a third protocol. The first protocol is configured to communicate a first encapsulated portion of the message. The second protocol is configured to communicate a second encapsulated portion of the message. The third protocol is configured to communicate the first encapsulated portion of the message and the second encapsulated portion of the message. | 09-06-2012 |
20120265877 | CONGESTION MANAGEMENT AND LATENCY PREDICTION IN CSMA MEDIA - A facility for congestion management and latency prediction is described. In various embodiments, the facility sums a series of fractional transmission delays wherein each fractional transmission delay is measured as a probability of a failed transmission attempt multiplied by the cost of the failed transmission attempt, and provides the sum. | 10-18-2012 |
20120300671 | NETWORK CLUSTERING - A network clustering facility is described. The network clustering facility receives a message having a location identification that identifies a destination for the message and comprises at least two components, selects a network node identified by the components of the location identification, determines whether a link exists to the selected network node, and identifies a best link to the selected network node. The network clustering facility comprises a clustering subsystem, an advertising subsystem, and a routing layer. | 11-29-2012 |
20120311334 | METHOD AND APPARATUS FOR SECURE COMMUNICATIONS AND RESOURCE SHARING BETWEEN ANONYMOUS NON-TRUSTING PARTIES WITH NO CENTRAL ADMINISTRATION - A unifying network model with a structure and architecture configured to address security, interoperability, mobility, and resource management, including priority and quality of services is provided. The network of the network model is structured as a hierarchical mesh network, with dynamically generated routing tables. The configuration of the network model optimizes routing and distributes communication load. Every device on the network is capable of being both an endpoint and a forwarder of communications. The network model may include underlying networks that are represented with one of two models, the link model or the star model. The nodes are organized in a hierarchical relationship structure to optimizes throughput. The model may include a cryptographic method of dynamically assigning local network addresses. | 12-06-2012 |
20120320740 | PROTOCOL CIRCUIT LAYER - A protocol circuit layer is described. The protocol circuit layer may employ a routing layer to determine optimal routes when establishing a circuit. The circuit layer may employ a link layer to send data packets over links to other network nodes. A naming layer may employ circuits to establish a distributed database of associations between network node addresses and their network locations. | 12-20-2012 |
20130051401 | PROTOCOL LINK LAYER - A link is a software abstraction that represents a direct connection between two CoCo nodes. The link layer detects the presence of neighboring devices and establishes links to them. A protocol abstraction layer converts data frames that arrive on network interfaces into packet objects used by the COCO Protocol Suite. | 02-28-2013 |
20130268659 | CONGESTION MANAGEMENT AND LATENCY PREDICTION IN CSMA MEDIA - A facility for congestion management and latency prediction is described. In various embodiments, the facility sums a series of fractional transmission delays wherein each fractional transmission delay is measured as a probability of a failed transmission attempt multiplied by the cost of the failed transmission attempt, and provides the sum. | 10-10-2013 |
20130308495 | SECURE, DISTRIBUTED HIERARCHICAL CONVERGENCE NETWORK - A facility for performing employing multiple frequencies in a secure distributed hierarchical convergence network is described. The facility receives a signal in a first frequency, converts the received signal to an internal representation, applies a business rule to the converted signal, and, when the business rule indicates that the signal should be transmitted in a second frequency, causes the internal representation of the signal to be translated to a second frequency and transmitted in the second frequency. | 11-21-2013 |
20140179362 | METHOD AND APPARATUS FOR PERSISTENT CONNECTIONS TO A DEVICE THROUGH THE USE OF MULTIPLE PHYSICAL NETWORK CONNECTIONS AND CONNECTION HAND-OFFS BETWEEN MULTIPLE BANDS, MODES AND NETWORKS - Embodiments communicate messages between mobile devices and destination devices. An exemplary embodiment includes a first border server operable to establish a first communication connection to the mobile device over a first network operating under a first protocol, a second border server operable to establish a second communication connection to the mobile device over a second network operating under a second protocol, and a transport management server communicatively coupled to the first border server and the second border server, and operable to establish a third communication connection to the destination device over a third network operating under a third protocol. The first protocol is configured to communicate a first encapsulated portion of the message. The second protocol is configured to communicate a second encapsulated portion of the message. The third protocol is configured to communicate the first encapsulated portion of the message and the second encapsulated portion of the message. | 06-26-2014 |
20140207933 | NAMING SYSTEM LAYER - A facility for publishing information in a distributed network without a central management infrastructure is described. In various embodiments, the facility receives an indication of a new node and a destination node, the new node omitted from a contact list associated with the destination node, the contact list having an approximately logarithmic distribution of neighboring nodes; introduces the new node to the destination node via a permanent circuit; and causes the destination node to add the new node to the contact list when adding the new node improves the logarithmic distribution of neighboring nodes. | 07-24-2014 |
20140314085 | PROTOCOL CIRCUIT LAYER - A protocol circuit layer is described. The protocol circuit layer may employ a routing layer to determine optimal routes when establishing a circuit. The circuit layer may employ a link layer to send data packets over links to other network nodes. A naming layer may employ circuits to establish a distributed database of associations between network node addresses and their network locations. | 10-23-2014 |