| Patent application number | Description | Published |
|---|
| 20080259919 | Method for Dynamic Sensor Network Processing - Described are a method and a sensor aware network for dynamic processing of sensor data. Network context data are inserted into data packets from sensors or local sensor networks coupled to the sensor aware network. Sensor aware nodes in the sensor aware network can read the context data and can respond by performing specific network actions. The sensor data and network context data are provided to one or more application nodes. The sensor data and network context data can be stored in a database and later searched according to the network context data. Advantageously, sensor data flows can be treated differently by the sensor aware network, the application and the user, depending on the type of sensor data and the actual data values. Thus critical responses to certain sensor data flows can be implemented more efficiently than otherwise possible using conventional network configurations. | 10-23-2008 |
| 20080267181 | Selective Multicasting of Sensor Data for Reliable Delivery - Described is a method for reliable transmission of sensor data and sensor commands. The method is particularly useful for shared packet networks and lossy wireless networks where the rate of packet drops can be significant. A network access node receives a data packet that includes the sensor data and multicasts the data packet towards an aggregation node. Each data packet preferably is transmitted over a unique network path. The number of multicast data packets is determined according to one or more network parameters such as network congestion, packet drop probability, the priority and class of service of the data packet, and the number of unique network paths between the network access node and an aggregation node. The first data packet to arrive at the aggregation node is forwarded to the application node and subsequently received data packets with identical sensor data are discarded. | 10-30-2008 |
| 20090148159 | Method and Apparatus for Securing Fiber in an Optical Network - A method and apparatus for securing an optical communication link includes the step of identifying a profile of the link by measuring, at the transmitter, optical back-reflections from optical pulses forwarded to a receiver. The profile is stored at the transmitter. Periodically during operation, such as during key exchange, more optical pulses are forwarded to the receiver, and the back reflections are collected as periodic profiles. The periodic profiles are compared against the stored profiles. Eavesdroppers, such as those who cut the fiber, tap the fiber, or implement a man in the middle attack, may be easily identified because the losses caused by their interference with the fiber will be evident in the periodic profiles. | 06-11-2009 |
| 20090222541 | DYNAMIC SENSOR NETWORK REGISTRY - A scalable network architecture adapted to interface with various sensor types and sensor access mechanisms while providing real-time access to sensor data for distributed applications and organizations is described. A centralized sensor network service manages the registration, capabilities, near real-time status of the sensors and their current network connections. New sensors are discovered automatically through messaging between network access nodes and the sensor registry. The registry service can be made available to distributed sensor applications and sensor middleware, and facilitates the sharing of sensors across organizations. The sensor registry is automatically updated by network software and does not require manual configuration or reconfiguration each time a sensor is added to or relocated within the network. Authentication and authorization policies can be implemented to ensure that only authorized applications can query and view the registry. The registry can be implemented for multi-vendor sensor networks and can accommodate multiple addressing schemes. | 09-03-2009 |
| 20100061719 | Utilizing Optical Bypass Links in a Communication Network - Optical By-Pass (OBP) links may be created by adding wavelengths between nodes on the network. The OBP may extend between any pair of nodes on the network. Intermediate nodes on the OBP are transient nodes and simply forward traffic optically. An OBP extends between a pair of nodes and, unlike express links, is created in such a manner that it does not affect the previous allocation of resources on the network. This enables capacity to be added between pairs of nodes on the network to alleviate congestion at a portion of the network, without changing other traffic patterns on the network. This enables inclusion of an OBP to be deterministic and of linear impact on the network. The OBP links may be statically provisioned or created on demand. Optionally, the OBP links may be crated to coincide with PBB-TE tunnels on the network. | 03-11-2010 |
| 20100100625 | SYSTEM AND METHOD FOR TRANSLATING APPLICATION PROGRAM NETWORK SERVICE REQUESTS INTO ACTIONS AND PERFORMING THOSE ACTIONS THROUGH THE MANAGEMENT AND/OR CONTROL PLANE RESPONSIVE TO PREVIOUSLY DEFINED POLICIES AND PREVIOUS REQUESTS BY THE SAME OR ANOTHER APPLICATION PROGRAM - Application program network service requests are translated into specific actions that are then performed through the management plane and/or control plane. The translations and resulting actions are responsive to previously defined policies for the communication network, and may further reflect processing of previous service requests by the same or another application program. The amount of resources available for use by a given application program may be predefined based on a globally defined network policy. Each service request obtained from an application program may be translated into multiple actions performed using various specific protocols and/or interfaces provided by either the management plane, the control plane, or both the management and control planes. Reports of network activity, status and/or faults for a requesting application program may be tailored to the requesting program's view of the network, and passed directly and exclusively to the requesting program. | 04-22-2010 |
| 20110238850 | SYSTEM AND METHOD FOR TRANSLATING APPLICATION PROGRAM NETWORK SERVICE REQUESTS INTO ACTIONS AND PERFORMING THOSE ACTIONS THROUGH THE MANAGEMENT AND/OR CONTROL PLANE RESPONSIVE TO PREVIOUSLY DEFINED POLICIES AND PREVIOUS REQUESTS BY THE SAME OR ANOTHER APPLICATION PROGRAM - Application program network service requests are translated into specific actions that are then performed through the management plane and/or control plane. The translations and resulting actions are responsive to previously defined policies for the communication network, and may further reflect processing of previous service requests by the same or another application program. The amount of resources available for use by a given application program may be predefined based on a globally defined network policy. Each service request obtained from an application program may be translated into multiple actions performed using various specific protocols and/or interfaces provided by either the management plane, the control plane, or both the management and control planes. Reports of network activity, status and/or faults for a requesting application program may be tailored to the requesting program's view of the network, and passed directly and exclusively to the requesting program. | 09-29-2011 |
