Abstract: This disclosure describes techniques for analyzing information generated as a result of monitoring resources within computing environments. In one example, this disclosure describes a method that includes observing a plurality of alerts generated in response to monitoring resources associated with a plurality of connected elements within a network; determining a plurality of occurrence counts; determining a plurality of concurrent occurrence counts, wherein each of the plurality of concurrent occurrence counts represents a count of concurrent occurrences of two or more of the alerts in the set of historical alerts; and identifying one or more root cause alerts, wherein the one or more root cause alerts are determined based on the plurality of occurrence counts and the plurality of the concurrent occurrence counts, and wherein the one or more root cause alerts are a subset of the plurality of alerts.

Abstract: A software upgrade to be deployed by a cloud extension agent is received by a remote network management platform, the cloud extension agent running locally on a network and initiating an outbound connection to the remote network management platform through a firewall of the network. A command is generated for the software upgrade, the command comprising an identification of a source of the software upgrade. The command is provided to the cloud extension agent, wherein providing the command causes the cloud extension agent to acquire the software upgrade from the identified source and deploy the software upgrade.

Abstract: The present invention addresses the need for improved virtualized cloud infrastructure policy implementation and management in order allow real-time monitoring and optimization of virtualized resources. It provides systems and methods for real-time cloud infrastructure policy implementation and management that include a plurality of host devices, a plurality of real-time probe agents associated with the plurality of host devices operating on each of the plurality of host devices, and a policy engine communicatively coupled to the plurality of host devices and containing a policy associated with an application program deployed in at least one of the plurality of host devices. The policy engine is programmed to monitor in real time changes in deployment of the application program across the plurality of host devices and to push the policy to the real-time probe agent operating on each host device on which the application program is deployed.

Abstract: A system for crop lifecycle modeling, comprising a computer processor and at least one computer-readable storage medium operably coupled to the computer processor and having program instructions stored therein, the computer processor being operable to execute the program instructions to generate a profile of a crop using a plurality of data processing modules including, a data acquisition module (106) configured to receive, periodical input data from at least one source, wherein the data is related to at least one of factors contributing to production of the crop, a data storage module (108) adapted to process and store the received input data, an analytics core module (208) configured to generate an output data using the input data from the data storage module (108) for processing and computing the input data to create a predictive crop lifecycle model, wherein the analytics core module (208) is adapted to work with a crop lifecycle rules engine (332) and provide input to improve and enhance the rules engine

Abstract: A system and method of automated downtime scheduling and control is disclosed. A failure of at least one component of at least one bare-metal server associated with a client is detected and a first notification is transmitted to a client system associated with the client. The notification includes a request to schedule downtime. A response including a selected downtime is received from the client system and the at least one bare-metal server is transitioned to an offline state at the selected downtime. A ticket is generated in a ticketing system for repair of the bare-metal server. The ticket identifies the at least one component.

Abstract: Techniques for presenting information about a network, virtualization infrastructure, cluster, or other computing environment, which may involve presentation of user interfaces that may enable nuanced, unique, and/or comprehensive insights into how infrastructure elements, instances, and/or computing resources are being used and information about patterns of usage and/or utilization. Techniques for communicating, within a computing system, information used to create, update, and/or modify the user interfaces that present information about a network, virtualization infrastructure, cluster, or other computing environment. Techniques in accordance with one or more aspects of the present disclosure may involve use of separate interfaces for collecting or accessing data used to draw a user interface that presents information about a network, and for collecting or receiving data used to update the user interface as changes occur to the utilization of infrastructure elements represented within the user interface.

Abstract: Aspects of this disclosure relate to monitoring use of shared resources to identify processes using such shared resources in a manner that may be affecting the performance of other processes. In one example, a method comprises: monitoring, by a computing device, usage metrics for a shared cache that is shared by one or more processors of the computing device; mapping the usage metrics to each of a plurality of virtual computing environments executing on the one or more processors, wherein the plurality of virtual computing environments includes a first virtual computing environment and a second virtual computing environment; determining, based on the mapped usage metrics, that the first virtual computing environment is using the shared cache in a manner that adversely affects the performance of the second virtual computing environment; and restricting, by the computing device, access to the shared cache by the first virtual computing environment.

Abstract: This disclosure describes techniques for monitoring, scheduling, and performance management for virtualization infrastructures within networks. In one example, a computing system includes a plurality of different cloud-based compute clusters (e.g., different cloud projects), each comprising a set of compute nodes. Policy agents execute on the compute nodes to monitor performance and usage metrics relating to resources of the compute nodes. Policy controllers within each cluster deploy policies to the policy agents and evaluate performance and usage metrics from the policy agents by application of one or more rulesets for infrastructure elements of the compute cluster. Each of the policy controllers outputs data to a multi-cluster dashboard software system indicative of a current health status for the infrastructure elements based on the evaluation of the performance and usage metrics for the cluster.

Abstract: A method and apparatus of processing multimedia data that includes a first section received in error are disclosed. Error distribution information corresponding to the first section may be obtained. One of a plurality of error recovery schemes may be selected based on the error distribution information for the first section. The selection may be based at least on whether a channel switch is detected. The first section may be processed based on the selected error recovery scheme.

Abstract: Systems and methods for displaying summary and detailed information regarding structure testing results that include a plurality of RF signal data points are provided. Such systems and methods can include mapping respective 3D location points of each of the plurality of radio frequency signal data points into a plurality of layers of a line of sight dependent 3D image, using respective test result signal components of each of the plurality of RF signal data points to assign a respective color and a respective transparency value to each of the plurality of layers, and rendering one or more of the plurality of layers on a display device relative to a line of sight and in the respective color and at the respective transparency value associated therewith.

Abstract: Systems and methods for securely sharing data sets with adjacent entities are provided. Such systems and methods can include storing a data set associated with a first entity in a database device, each piece of the data set being related to a respective piece of geographic information, storing an identification of a sharing polygon with a second entity in the database device, the second entity being adjacent to the first entity, allowing the second entity access to each piece of the data set related to the respective piece of the geographic information that intersects with the sharing polygon, and restricting the second entity from accessing each piece of the data set related to the respective piece of the geographic information that fails to intersect with the sharing polygon.

Abstract: Systems and methods for retrieving RF coverage data for a geographic location and using the RF coverage data for the geographic area to alert a user device are provided. In some embodiments, such systems and methods can include receiving a notification of an emergency event at an emergency dispatch location associated with the geographic location, and pushing the RF coverage data for the geographic location to a first user device or directing the first user device to retrieve the RF coverage data for the geographic location. In some embodiments, such systems and method can include detecting when an ambient location of a second user device indicates proximity to and/or possible or likely entry of the second user device to a portion of the geographic area associated with the RF coverage data that is below a predetermined threshold and, responsive thereto, transmitting an alert to the second user device.

Abstract: Systems and methods for time coordinating a plurality of RF data collection devices at disparate locations are provided. Such systems and methods can include synchronizing a local time of a first RF data collection device to an initial value of a common time source, generating a timestamp log file documenting a propensity of the local time to deviate from the common time source, collecting and recording a first plurality of RF data from an RF network, and using the timestamp log file to normalize the first plurality of RF data for comparison with a second plurality RF data recorded by a second RF data collection device.

Abstract: Systems and methods for selecting a worst service first optimized test path are provided. Such systems and methods can include using previously collected RF results that are relevant to a target building to calculate predictive RF results for a plurality of test points in the target building, using the predictive RF results to calculate the optimized test path through the target building, measuring a respective actual RF signal value of each of the plurality of test points in succession along the optimized test path, counting failing ones of the plurality of test points, and stopping measurements of the respective actual RF signal value of each of the plurality test points when a counted number of the failing ones of the plurality of test points exceeds a failure threshold value.

Abstract: A variety of different graphical user interfaces are generated that when displayed provide a visual and interactive representation of one or more performance metrics associated with the operation of a computer network. The graphical user interfaces may be used to monitor the underlay computer network for a virtualization infrastructure, as one example. Aspects include grouping the servers of a computer network into a plurality of aggregates, each aggregate comprising one or more servers. A set of probes are configured that are issued by an agent of a server in one aggregate and sent through the computer network to one or more agents in the server(s) of a different aggregate. Responses and other measurements taken based on the issuance of the probes is gathered and analyzed to generate metrics that are then used to generate, at least in part, the information provided in the graphical user interfaces.