Systems, methods, and apparatuses for providing dynamic, prioritized spectrum utilization management. The system includes at least one monitoring sensor, at least one data analysis engine, at least one application, a semantic engine, a programmable rules and policy editor, a tip and cue server, and/or a control panel. The tip and cue server is operable utilize the environmental awareness from the data processed by the at least one data analysis engine in combination with additional information to create actionable data.

This disclosure pertains to systems and methods for identifying and configuring a host in a software defined network (SDN) configured to communicate using a parallel redundancy protocol (PRP). In one embodiment, a system may include a first communication host and a second communication host configured to transmit information through a network. An SDN controller in communication with the network may include a PRP identification subsystem to monitor traffic transmitted by the first communication host to the second communication host, determine that the traffic comprises at least one data packet that conforms to PRP. Upon detection of a host configured to use PRP, a traffic routing subsystem creates a plurality of communication flows between the first communication host and the second communication host to route PRP traffic between the first communication host and the second communication host.

This disclosure pertains to systems and methods to improve fault tolerance and hardware utilization in a software defined network (SDN) that includes hosts communicating with parallel redundancy protocol (PRP). In one embodiment, a network comprising a plurality of switches and interconnected using a plurality of physical links may connect a first communication host, a second communication host, and an SDN controller. The SDN controller may include a PRP optimization subsystem to identify parallel communication paths between the first communication host and the second communication host that utilize distinct physical communication links. The SDN controller may also include a traffic routing subsystem to create a plurality of communication flows between the first communication host and the second communication host utilizing the distinct physical communication links.

A method of wireless communication by a wireless device calculates a first latency for a first wireless interface using a DNS (domain name service) protocol. The method also calculates a second latency for a second wireless interface using the DNS protocol. The method stores the first latency and the second latency in a database; and selects the first interface or the second interface based on the calculated first latency and second latency.

This disclosure pertains to identifying and configuring an in-band controller operating on a host in a software defined network (SDN), the host configured to use a parallel redundancy protocol (PRP). In one embodiment, a system may include a network in communication with the host, the network comprising a plurality of switches interconnected with a plurality of physical links. The in-band controller is in communication with the network and includes a PRP identification subsystem to generate a packet configured such that the network forwards the packet back to the in-band controller, to analyze the packet and determine that the packet conforms to PRP, and to identify a first communication host in communication with the network and configured to operate using PRP. A traffic routing subsystem of the in-band controller may create a plurality of PRP communication flows between the in-band controller and the first communication host.

System and methods for creating a geospatial network model in a client environment are disclosed. The system residing on a client device receives Geographic Information System (GIS) data for a distribution network, which includes spatial information and non-spatial information (e.g., attributes) relating to features in the distribution network, from a remote GIS database. The system uses the spatial information in the GIS data to construct an undirected graph that is represented by a set of adjacency relationships between the features and utilizes the non-spatial information to traverse the undirected graph in order to construct a directed graph that is represented as a set of directed adjacency relationships between the features. The system stores the data structure corresponding to the directed graph in the form of an array or hashtable in the client device's cache memory for use in performing network analyses such as tracing analysis without accessing the GIS database.

A data center infrastructure monitoring system and method that includes a plurality of geographically distributed data centers, each data center comprising a plurality of mechanical assets. A data center gateway system communicatively coupled to one or more data centers of the plurality of data centers is configured to determine a subset of the plurality of mechanical assets of the data center that provide cooling to equipment of a customer of the data center, and output, for display, a graphical depiction of the subset of the plurality of mechanical assets of the data center that provide cooling to equipment of the customer in the data center.

The disclosure relates to a method and a state controller running in a Kubernetes system. The state controller being operative to assign labels to pods, the labels indicating services to which the pods are assigned and high-availability states of the pods; detect a failed pod having a label indicating a high-availability state of not ready; and reassign the label indicating the high-availability state of the failed pod to a healthy pod, thereby changing endpoints of services provided and service flows from the failed pod to the healthy pod.

A system and method are described for managing attributes in an IoT system. For example, one embodiment of a machine-readable medium comprises program code stored thereon which, when executed by a machine, causes the machine to perform the operations of: specifying a plurality of attributes for a corresponding plurality of items of data managed in an Internet of Things (IoT) device and/or an IoT service; associating one or more ancillary attributes with one or more of the plurality of attributes, the ancillary attributes to specify attribute configurations and/or interdependencies between one or more of the plurality of attributes; evaluating the one or more ancillary attributes to ensure compliance with predefined constraints associated with the plurality of items of data; generating an indication of compliance if the one or more ancillary attributes are in compliance with the predefined constraints; and generating an indication of non-compliance if the one or more ancillary attributes are not in compliance with the predefined constraints.

Described is a method and system for latency measurement in communication systems. The method comprises: determining, by a first communication device, a power-management state of a second communication device; transmitting, by the first communication device, one or more packets to the second communication device over a communication link, the one or more packets to be received by the second communication device while in the power-management state; receiving, from the second communication device over the communication link, one or more response packets in response to the one or more packets; and determining a latency of the communication link when the second communication device is in the power-management state based on the one or more packets and the one or more response packets.