Parties having different responsibilities and interests at a monitored location can be given a partial view of the totality of the sensor channels of data generated by the various sensors installed at the monitored location. The partial views deliver customized sets of data streams to customers. The selective distribution of sensor information accommodates the divergent interests and needs of parties responsible for tracking the various characteristics of a monitored location.

A configured mode of operation of a wireless sensor network can be established through a dynamic remote configuration process. The plug-and-play universal sensor interface enables the monitoring capabilities of the wireless sensor network to scale seamlessly with the dynamic nature of changing sensor application objectives. A system status module enables a user to view the sensor service to confirm the current configuration of the wireless sensor network.

Various embodiments of the present invention are directed towards a system and method relating to Next Generation First Responder (NGFR) modular and scalable systems capable of easily integrating various components via open standards and interfaces. For example, a wearable on-body first responder system includes at least one sensor configured to identify sensor information, a controller configured to provide a first responder mobile support architecture and that is configured to interface with the at least one sensor. The controller is configured to collect and distribute the sensor information, and an input/output (I/O) device is configured to interface with the controller and present the sensor information to a user of the on-body first responder system.

A system, method and apparatus for augmenting a building control system domain. A sensor network platform can be configured to collect data based on measurements from sensors outside of a legacy building control system domain, and to present information based on the collected data to a known interface supported by the legacy building control system. In one embodiment, the collected data can undergo customized processing by an operation center outside of the legacy building control system domain.

A configured mode of operation of a wireless sensor node unit can selectively activate a first subset of sensor channels of data and selectively deactivate a second subset of sensor channels of data. The configured mode of operation customizes the sensor functionality in the wireless sensor node unit in support of the delivery of data streams to customers.

A filter monitoring system and method are described. The filter monitoring system includes a module or circuit installed on an internal combustion engine or within a vehicle powered by the internal combustion engine. The filter monitoring system monitors the operation of the various filtration systems present on the engine to determine an amount of service life remaining and a loading percentage for various filter cartridges installed in the filtration systems of the internal combustion engine. The filter monitoring system determines the loading percentage and predicts remaining service life of a given filter cartridge via a time-based manner (e.g., based on the installation date of the filter cartridge and filter cartridge life specifications) and a pressure differential based manner (e.g., based on a determination of pressure drop across the filter cartridge).

A method for the serial transmission of data from a sensor to a safety control device. The sensor has two data processing units which examine and process both the data of the sensor and the request data of the safety control device. The same request data of the safety control device are simultaneously supplied to each data processing unit and the data processing units simultaneously perform a check of the request data after receiving the data. The data processing units operate independently of each other. A sensor unit has a sensor, a safety control device and data processing units. The safety control device is connected to the data processing units via a common serial bus and the data processing units are independent of one another and simultaneously perform the data processing. A system for securing hazardous areas of production facilities with a sensor unit.

A system, method and apparatus for configuring a node in a sensor network. A sensor service can enable sensor applications to customize the collection and processing of sensor data from a monitoring location. In one embodiment, sensor applications can customize the operation of nodes in the sensor network via a sensor data control system.

A wireless sensor network at a monitored location can be configured to generate sensor channel(s) of data to assess operational conditions at the monitored location. Inputs based on the sensor channel(s) of data are provided to a host system for analysis of a demand to one or more resources at the monitored location. Response messages can be generated based on the demand analysis and transmitted to actuator(s) at the monitored location to effect an adjustment to the operational conditions.

Techniques are provided for self-configuration of a sensor array. A methodology implementing the techniques according to an embodiment includes deploying a number of mobile sensor elements from a base unit to a region of interest. The method also includes transmitting an initial sensor configuration plan from the base unit to the sensor elements. The mobile sensor elements navigate to a calculated location based on the initial sensor configuration plan. Sensor data is collected by each of the elements and transmitted back to the base unit for data integration. The method further includes performing, by the base unit, a response analysis using the integrated sensor data and updating the initial sensor configuration plan based on a metric associated with the response analysis. The method further includes iterating these operations to employ the updated sensor configuration plan. Additional iterations are performed until the metric reaches a selected threshold value.