Abstract: Tracking of health and resilience of physical equipment and related systems are disclosed. A system includes physical equipment and one or more processors. The physical equipment includes one or more assets. The one or more processors are configured to determine a resilience metric for the physical equipment. The resilience metric includes a real power component and a reactive power component based, at least in part, on an aggregation of real components and reactive components of adaptive capacities of the one or more assets. A cyber-physical system includes physical equipment, network equipment configured to enable the physical equipment to communicate over one or more networks, a physical anomaly detection system (ADS) configured to detect anomalies in operation of the physical equipment and provide a physical component of a cyber-physical metric, and a cyber ADS configured to detect anomalies in network communications over the one or more networks.

Abstract: A resilient security agent determines a cyber and/or physical health of a control system by, inter alia, communicating cyber-physical key data through cyber-physical control paths of the system, and determining error introduced by the communication. The resilient security agent may be further configured to verify the integrity of acquired cyber-physical state information. The cyber health of the control system may be evaluated by comparing the acquired cyber state information to one or more cyber state profiles. The physical health of the control system may be evaluated by comparing the acquired physical state information to one or more physical state profiles.

Abstract: A resilient security agent determines a cyber and/or physical health of a control system by, inter alia, communicating cyber-physical key data through cyber-physical control paths of the system, and determining error introduced by the communication. The resilient security agent may be further configured to verify the integrity of acquired cyber-physical state information. The cyber health of the control system may be evaluated by comparing the acquired cyber state information to one or more cyber state profiles. The physical health of the control system may be evaluated by comparing the acquired physical state information to one or more physical state profiles.

Abstract: A resilient security agent determines a cyber and/or physical health of a control system by, inter alia, communicating cyber-physical key data through cyber-physical control paths of the system, and determining error introduced by the communication. The resilient security agent may be further configured to verify the integrity of acquired cyber-physical state information. The cyber health of the control system may be evaluated by comparing the acquired cyber state information to one or more cyber state profiles. The physical health of the control system may be evaluated by comparing the acquired physical state information to one or more physical state profiles.

Abstract: Adaptive control systems and methods of using the same to control aspects of material processing systems are described. The adaptive control systems may incorporate techniques that use heuristic modeling, and apply those techniques to control processing of biomass feedstock.

Abstract: A technique includes determining a workload on mass storage system that is associated will user requests during a time in which mass storage system is replicating data from a source data unit of the mass storage system to a replica storage unit of the mass storage system. The technique includes determining a progress rate associated with the replication and managing processing of the user requests and the data replication for the mass storage system, including initiating corrective action in response to determining that the workload is near a predetermined maximum workload threshold and the progress rate is near a predetermined minimum threshold.

Abstract: A technique includes receiving first work requests that are associated with a user workload. The technique includes using a machine to transform the first work requests into second work requests that are provided to components of a mass storage system to cause the components to perform work associated with a workload of the mass storage system; and regulating a power consumption of the mass storage system, including regulating a rate at which the second work requests are provided to the components of the mass storage system.

Abstract: A technique includes determining a workload on mass storage system that is associated will user requests during a time in which mass storage system is replicating data from a source data unit of the mass storage system to a replica storage unit of the mass storage system. The technique includes determining a progress rate associated with the replication and managing processing of the user requests and the data replication for the mass storage system, including initiating corrective action in response to determining that the workload is near a predetermined maximum workload threshold and the progress rate is near a predetermined minimum threshold.

Abstract: Embodiments include methods, apparatus, and systems for controlling of sparing in a storage system. In one embodiment, a method compares a first amount of time to complete sparing of data from a failed disk in a storage system with a second amount of time to complete a user request to the storage system in order to determine when to create a copy of the data from the failed disk.

Abstract: Network traffic monitoring devices and monitoring systems include a communication module for capturing wireless communications of a wireless device. Processing circuitry is coupled with the communications module and configured to form a new cluster or refine an existing cluster from the captured wireless communications, in which the cluster includes wireless communications having one or more relevant parameters. The processing circuitry is also configured to generate/refine at least one rule set relating to the clusters, create an updated rule set by combining the one or more rule sets to current rule sets, and to compare the captured wireless communications to the updated rule set to determine whether the wireless communications pose a potential threat. Methods of monitoring network traffic are also provided.

Abstract: Embodiments include methods, apparatus, and systems for controlling of sparing in a storage system. In one embodiment, a method compares a first amount of time to complete sparing of data from a failed disk in a storage system with a second amount of time to complete a user request to the storage system in order to determine when to create a copy of the data from the failed disk.