A computer program product include non-transitory computer readable storage media having program instructions embodied therewith. The program instructions are executable by a processor to receive a continuous query for a user application and receive unfiltered sensor data transmitted over a network from a local compute node that is operatively coupled to a plurality of sensors, wherein the sensor data includes data obtained from the plurality of sensors. The program instructions are further executable by the processor to identify one or more principal components of the sensor data that are responsive to the continuous query, instruct the local compute node to continue transmitting only the sensor data that has been identified as the one or more principal components, and provide the user application with the sensor data that has been identified as the one or more principal components.

An information processing system for monitoring a system. An embodiment of the present invention is a system (and concomitant methods and computer software embodied in non-transitory computer readable media) providing prioritized information and several extensions. These extensions include improved information flow between actors that participate in monitoring the system. These actors each have a model of its environment and may include either human operators, computational or software systems, or hardware systems that can act on information; for example, a pilot flying, a pilot monitoring, an aircraft itself, and responses taken and electronics readings therein. Components of the system comprise a metadata workbench, an information source, a condition monitor, and a notification terminal.

A universal metering cabinet (UMC) apparatus comprises an input/output (I/O) interface configured to receive at least two data streams, each of the at least two data streams received from one of at least two sensors, and each of the at least two data streams having a different connectivity protocol. The UMC further comprises a customizable programmable interface coupled with the I/O interface and configured to convert the connectivity protocol of each of the at least two data streams into a same uniform connectivity protocol. A method comprises receiving, from the UMC, at least one data stream that includes data from at least two sensors, and receiving, from at least one server, data related to an environment around the at least two sensors. The method further comprises performing data cleansing on the data stream and the data to generate validated data and performing prognostic modeling on the validated data.

An apparatus includes telemetry registers, a memory, and a virtualized telemetry controller. The memory may store a set of telemetry profiles, including a first telemetry profile specifying a collection trigger, a set of telemetry registers, and a telemetry data destination. The virtualized telemetry controller may be to: detect a condition satisfying the collection trigger specified in the first telemetry profile; in response to a detection of the condition, read telemetry values from the set of telemetry registers specified in the first telemetry profile; generate a telemetry container including the telemetry values; and send the telemetry container to the telemetry data destination specified in the first telemetry profile.

A Computer-Aided Dispatch (CAD) system is specially configured to account for the physical condition of emergency personnel, which can affect their ability to effectively handle a particular incident. The CAD system tracks health, stress, and biometric status of each available emergency responder automatically and in real-time based on a wide range of collected information and to assess the suitability of available emergency responders to respond to a given emergency incident based upon such status information. Based on such status information, the CAD system can make intelligent recommendations to the emergency dispatcher by taking into account such things as the emergency responder's past experiences with a particular type of emergency incident, the current and cumulative status of the emergency responder, and projections as to the future condition of the emergency responder if dispatched to handle the emergency incident.

A server for managing a home network is provided. The server according to an embodiment includes a storage configured to store an operation state of at least one electronic apparatus in the home network and reference sensing data for each of a plurality of sensors, a communicator configured to receive sensing data from the plurality of sensors, and a processor configured to determine the operation state of the at least one electronic apparatus, and compare the stored reference sensing data corresponding to the determined operation state with the received sensing data to determine whether an error occurs in the plurality of sensors and the at least one electronic apparatus.

A method improves the transmission quality between a data collector and a plurality of metering units. A first communication module is assigned to the data collector and a second communication module is assigned in each case to a metering unit. The second communication module transmits data via radio signals to the first communication module. The first communication module has a first frequency reference device and the second communication module has a second frequency reference device. The radio signals transmitted are dependent on the second frequency reference device. The measurement of a parameter of the radio signal is performed by the first communication module. An estimation of an error of the second frequency reference device on the basis of the parameter measured values is determined. An adjustment of the frequency of the first frequency reference device is performed such that the error is reduced.

A monitoring and response system is provided for monitoring and responding to environmental conditions at one or more sites. The monitoring system includes a plurality of base units, each base unit including at least a processor and a plurality of sensors configured to monitor environmental conditions at the site(s). A central controller is in communication with the base processors at the plurality of base units and is configured to receive and process sensor information from the base units. Base units are configured to be modular and contain customizable, swappable combinations of sensors, sensor arrays, and/or other connected peripherals, and are further configured to be mountable and/or attachable to a wide variety of surfaces and objects disposed around a site such as a construction site. The system further comprises a backend, analytic system for making predictions, taking action, and generating reports responsive to the information received from the base units.

A feed system includes a vehicle and a feed mode controller. The feed system feeds electric power to an electric load outside the vehicle in a first feed mode or a second feed mode. A wireless communication device of the vehicle communicates in a first communication system in which communication with a portable terminal is established without passing through a relay point. The feed mode controller enables the first feed mode to be selected when the communication in the first communication system is established, and disables the first feed mode from being selected when the communication in the first communication system is not established.

A generating module generates a signal including a set pattern that includes a specific pattern by varying a physical quantity. A sensing module including a sensor transmits to a server, pattern detection information generated in response to the sensor detecting the specific pattern and sensor identification information identifying the sensor that has detected the specific pattern. The server stores association information associating the sensor identification information received from the sensing module that has transmitted the pattern detection information with installation target information communicated from the generating module that has generated the specific pattern.