Abstract: Methods and systems are provided for monitoring a herd of animals. Each of multiple sensors are attached to one of the animals and is in peer-to-peer communication with another of the sensors to define a dynamically network arrangement of sensors. A base station is in communication with at least one of the sensors to access the networked arrangement of sensors. A central system is in communication with the base station and has instructions to monitor a position of the herd with data collected by the sensors.

Abstract: Methods and systems are provided for monitoring a herd of animals. Each of multiple sensors are attached to one of the animals and is in peer-to-peer communication with another of the sensors to define a dynamically network arrangement of sensors. A base station is in communication with at least one of the sensors to access the networked arrangement of sensors. A central system is in communication with the base station and has instructions to monitor a position of the herd with data collected by the sensors.

Abstract: Methods and systems monitor a state of a fluid-distribution system. Sensors are distributed spatially within the fluid-distribution system. Each sensor is in peer-to-peer communication with another sensor to define a dynamically networked arrangement of sensors within the fluid-distribution system. The sensors have an illumination source, a light detector, and a controller to measure a photometric parameter. A base station is provided in communication with the sensors to access the networked arrangement of sensors. A central system is provided in communication with the base station and has programming instructions to identify an abnormality in the fluid-distribution system from data collected by the sensors.

Abstract: Methods and systems monitor a state of a fluid-distribution system. Sensors are distributed spatially within the fluid-distribution system. Each sensor is in peer-to-peer communication with another sensor to define a dynamically networked arrangement of sensors within the fluid-distribution system. The sensors have an illumination source, a light detector, and a controller to measure a photometric parameter. A base station is provided in communication with the sensors to access the networked arrangement of sensors. A central system is provided in communication with the base station and has programming instructions to identify an abnormality in the fluid-distribution system from data collected by the sensors.

Abstract: Methods and systems are provided for monitoring a state of an environment. Sensors are distributed spatially within the environment, with each sensor measuring one of the measured parameters at its spatial location. A controller receives data collected from each of the sensors. The controller identifies the occurrence of an event at at least one of the sensors. The controller extracts derived parameters from the collected data. The controller determines a cross-correlation of the extracted parameters over the sensors. The controller identifies an abnormality in the environment from the determined cross-correlation.