Abstract: Distributed systems and methods for the automatic monitoring and reporting of data relating to the chemistry and flow of stormwater (i.e. stormwater data) are presented. Multiple fluid sensor devices are exposed to stormwater via positioning the sensor devices in locations of interest. The sensor devices are arranged in self-healing mesh networks. The sensor devices are enabled to acquire stormwater data indicating various fluid properties that are desired to be monitored. A sensor device is further enabled to transmit its acquired stormwater data, either directly or indirectly, to one or more remote computing devices that is hosting a stormwater monitoring application (SMA). The SMA is enabled to process and analyze the stormwater data. The SMA generates measurements and reports based on the processed and analyzed stormwater data.

Abstract: The present invention is directed towards devices, systems, and methods for remotely acquiring stormwater data. A sensor device includes sensors and a transceiver. The sensors generate stormwater data in response to a fluid communication with (or exposure to) stormwater flowing through a stormwater drainage (such as a pipe). The transceiver provides the stormwater data to another sensor device included within a self-healing mesh network including similar sensor devices. The transceiver receives other stormwater data from still other sensor devices included in the mesh network. The sensor device additionally include a processor device, a memory device, a rechargeable battery, and a global positioning device. The components may be integrated on an inner surface of a compression ring that is positionable within the stormwater pipe. The mesh network includes a controller node for receiving the stormwater data from the sensor devices and relaying the stormwater to a remote computing device.

Abstract: Distributed systems and methods for the automatic monitoring and reporting of data relating to the chemistry and flow of stormwater (i.e. stormwater data) are presented. Multiple fluid sensor devices are exposed to stormwater via positioning the sensor devices in locations of interest. The sensor devices are arranged in self-healing mesh networks. The sensor devices are enabled to acquire stormwater data indicating various fluid properties that are desired to be monitored. A sensor device is further enabled to transmit its acquired stormwater data, either directly or indirectly, to one or more remote computing devices that is hosting a stormwater monitoring application (SMA). The SMA is enabled to process and analyze the stormwater data. The SMA generates measurements and reports based on the processed and analyzed stormwater data.

Abstract: Distributed systems and methods for the automatic monitoring and reporting of data relating to the chemistry and flow of stormwater (i.e. stormwater data) are presented. Multiple fluid sensor devices are exposed to stormwater via positioning the sensor devices in locations of interest. The sensor devices are arranged in self-healing mesh networks. The sensor devices are enabled to acquire stormwater data indicating various fluid properties that are desired to be monitored. A sensor device is further enabled to transmit its acquired stormwater data, either directly or indirectly, to one or more remote computing devices that is hosting a stormwater monitoring application (SMA). The SMA is enabled to process and analyze the stormwater data. The SMA generates measurements and reports based on the processed and analyzed stormwater data.

Abstract: The present invention is directed towards devices, systems, and methods for remotely acquiring stormwater data. A sensor device includes sensors and a transceiver. The sensors generate stormwater data in response to a fluid communication with (or exposure to) stormwater flowing through a stormwater drainage (such as a pipe). The transceiver provides the stormwater data to another sensor device included within a self-healing mesh network including similar sensor devices. The transceiver receives other stormwater data from still other sensor devices included in the mesh network. The sensor device additionally include a processor device, a memory device, a rechargeable battery, and a global positioning device. The components may be integrated on an inner surface of a compression ring that is positionable within the stormwater pipe. The mesh network includes a controller node for receiving the stormwater data from the sensor devices and relaying the stormwater to a remote computing device.

Abstract: The present invention is directed towards devices, systems, and methods for remotely acquiring stormwater data. A sensor device includes sensors and a transceiver. The sensors generate stormwater data in response to a fluid communication with (or exposure to) stormwater flowing through a stormwater drainage (such as a pipe). The transceiver provides the stormwater data to another sensor device included within a self-healing mesh network including similar sensor devices. The transceiver receives other stormwater data from still other sensor devices included in the mesh network. The sensor device additionally include a processor device, a memory device, a rechargeable battery, and a global positioning device. The components may be integrated on an inner surface of a compression ring that is positionable within the stormwater pipe. The mesh network includes a controller node for receiving the stormwater data from the sensor devices and relaying the stormwater to a remote computing device.

Abstract: Distributed systems and methods for the automatic monitoring and reporting of data relating to the chemistry and flow of stormwater (i.e. stormwater data) are presented. Multiple fluid sensor devices are exposed to stormwater via positioning the sensor devices in locations of interest. The sensor devices are arranged in self-healing mesh networks. The sensor devices are enabled to acquire stormwater data indicating various fluid properties that are desired to be monitored. A sensor device is further enabled to transmit its acquired stormwater data, either directly or indirectly, to one or more remote computing devices that is hosting a stormwater monitoring application (SMA). The SMA is enabled to process and analyze the stormwater data. The SMA generates measurements and reports based on the processed and analyzed stormwater data.