Abstract: A system and method for collision detection and avoidance that converts a probabilistic, packet based communications system into a deterministic packet based communications system. The system and method operates in packet, frame, or datagram based network environments that support different levels of forwarding priority, for example, IP networks and Ethernet networks.

Abstract: A system and method for collision detection and avoidance that converts a probabilistic, packet based communications system into a deterministic packet based communications system. The system and method operates in packet, frame, or datagram based network environments that support different levels of forwarding priority, for example, IP networks and Ethernet networks.

Abstract: A software and hardware system that provides for per flow guaranteed throughput and goodput for packet data flows using network transport protocols that have window-based flow control mechanisms or TCP-friendly flow control mechanisms. The system and method for guaranteed throughput of individual flows in turn enables a method for provisioning link bandwidth among multiple flows and provisioning network throughput and goodput at the granularity of individual flows. The invention also eliminates Layer 3 packet drops for a data flow using window-based flow control or TCP-friendly flow control, which in turn obviates congestion collapse and quality collapse scenarios.

Abstract: A method and apparatus for creating and using multiple redundant paths between endpoints in a scheduled communication network, and for sending copies of data down each path. A path calculation is made for one or more redundant paths between designated branch and merge points in a network using scheduled switch/routers, and duplicate packets are transmitted along each path to the merge point. The first packet received among the configured paths at the merge point is forwarded to a resulting data stream and the later (duplicate) copies from other paths are discarded. Path itineraries are configured to maintain temporal packet sequence in the resulting stream. Path status is monitored and additional paths can be substituted if a path has an outage. Alternatively, multiple divergent paths can be configured, and duplicate packets transmitted along each path, where at least one path delivers data between end points, and a monitoring path also transmits copies of the data to an alternate location.

Abstract: A system and method to emulate any TDM circuit on a Real-Time Scheduled Packet Network. The TDM circuit can be any serial or parallel bit stream, of any bit rate, and can either be synchronized to the Real-Time Scheduled Packet Network, or can be asynchronous to the network. The present system and method determines the requisite descriptors of a scheduled IP itinerary for any emulated TDM circuit.

Abstract: A software and hardware system that provides for per flow guaranteed throughput and goodput for packet data flows using network transport protocols that have window-based flow control mechanisms or TCP-friendly flow control mechanisms. The system and method for guaranteed throughput of individual flows in turn enables a method for provisioning link bandwidth among multiple flows and provisioning network throughput and goodput at the granularity of individual flows. The invention also eliminates Layer 3 packet drops for a data flow using window-based flow control or TCP-friendly flow control, which in turn obviates congestion collapse and quality collapse scenarios.

Abstract: A system and method to emulate any TDM circuit on a Real-Time Scheduled Packet Network. The TDM circuit can be any serial or parallel bit stream, of any bit rate, and can either be synchronized to the Real-Time Scheduled Packet Network, or can be asynchronous to the network. The present system and method determines the requisite descriptors of a scheduled IP itinerary for any emulated TDM circuit.

Abstract: A method and apparatus for creating and using multiple redundant paths between endpoints in a scheduled communication network, and for sending copies of data down each path. A path calculation is made for one or more redundant paths between designated branch and merge points in a network using scheduled switch/routers, and duplicate packets are transmitted along each path to the merge point. The first packet received among the configured paths at the merge point is forwarded to a resulting data stream and the later (duplicate) copies from other paths are discarded. Path itineraries are configured to maintain temporal packet sequence in the resulting stream. Path status is monitored and additional paths can be substituted if a path has an outage. Alternatively, multiple divergent paths can be configured, and duplicate packets transmitted along each path, where at least one path delivers data between end points, and a monitoring path also transmits copies of the data to an alternate location.