The present invention is a water meter and leak detection system that has a private or public property(ies) facility water supply interruption system. The system is comprised of a water meter collection node system with shut-off/on mechanism that has wireless Bluetooth, Bluetooth low energy, Zigbee, Z-wave LoRa, Wi-Fi, radio frequency and cellular technology with a private or corporate network, or internet connection that transfer water parameter data to a remote computer or server. Or the system can consist of a water meter collection node that communicates by Bluetooth, Bluetooth low energy, Zigbee, Z-wave LoRa, Wi-Fi, radio frequency and cellular technology with a data communication hub whereby the communication hub is in wired or wireless communication with an internet router that communicates with an internet connection, or with a private or commercial network system, to a remote computer/server or a cloud-computing commercial service.

Apparatus and methods for automatically detecting falling fluid include receiving one or more live video feeds from one or more cameras. The live video feeds are received concurrently. The live video feeds are analyzed to detect a fluid leak using a motion algorithm. False positives are reduced and sensitivity for the fluid leak detection is improved using information from one or more integrated systems, in response to detecting the fluid leak. A notification is generated to inform a user of the detected fluid leak, in response to detecting the fluid leak after reducing the false positives.

Apparatus and methods for automatically detecting falling fluid include receiving one or more live video feeds from one or more cameras. The live video feeds are received concurrently. The live video feeds are analyzed to detect a fluid leak using a motion algorithm. False positives are reduced and sensitivity for the fluid leak detection is improved using information from one or more integrated systems, in response to detecting the fluid leak. A notification is generated to inform a user of the detected fluid leak, in response to detecting the fluid leak after reducing the false positives.

A wireless sensing device for environmental monitoring of a location is provided. The sensing device includes an electronic system and a housing for securing and protecting the electronic system in a cavity therein. The housing includes a vented top portion defining the cavity, and a wicking base portion including wicking material attached to and covering an exposed underside of the top portion. The electronic system includes: a temperature and humidity sensor for sensing a current temperature and humidity of the location and converting the sensed temperature and humidity to temperature and humidity signals; a wireless transmitter for periodically wirelessly transmitting the temperature and humidity signals from the location to an external computing device; an alerting device for providing an audible, visual, or tactile signal from the location in order to alert a user of a condition of interest; and a microcontroller for controlling the electronic system devices.

A wireless sensing device for environmental monitoring of a location is provided. The sensing device includes an electronic system and a housing for securing and protecting the electronic system in a cavity therein. The housing includes a vented top portion defining the cavity, and a wicking base portion including wicking material attached to and covering an exposed underside of the top portion. The electronic system includes: a temperature and humidity sensor for sensing a current temperature and humidity of the location and converting the sensed temperature and humidity to temperature and humidity signals; a wireless transmitter for periodically wirelessly transmitting the temperature and humidity signals from the location to an external computing device; an alerting device for providing an audible, visual, or tactile signal from the location in order to alert a user of a condition of interest; and a microcontroller for controlling the electronic system devices.

In some implementations, a system may identify a plurality of sensor devices that are associated with a physical environment. The system may receive an indication that a set of sensor devices (e.g., that includes two or more sensor devices) are to be associated with a virtual sensor that is associated with the physical environment. The system may generate, based on receiving the indication, the virtual sensor. The system may obtain sensor data that was captured by the set of sensor devices. The system may process the sensor data to determine a set of parameters associated the virtual sensor. The system may determine, based on the set of parameters associated with the virtual sensor, that a physical environment condition is satisfied. The system may cause, based on determining that the physical environment condition is satisfied, one or more actions to be performed.

A system (1) is configured to cause a first set of one or more radio frequency signals to be transmitted with a first transmission characteristic and/or a first reception characteristic, e.g. by lighting devices (31-37), detect whether changes in said first set of radio frequency signals are caused by a human (49) presence, detect whether the changes in the first set of radio frequency signals have a further cause, and cause a second set of one or more radio frequency signals to be transmitted with a second transmission characteristic and/or received with a second reception characteristic upon detecting that the changes in the first set of radio frequency signals have a further cause. The system is further configured to identify the further cause based on changes in the second set of radio frequency signals and provide output comprising the further cause or in dependence on the further cause.

A security and smart home system, components thereof, and associated methods. The system can include a host-carried monitor configured to monitor data associated with the host, such as motion data, position data, temperature data, or humidity data. The system can include one or more security devices located at a premises to monitor security data at the premises, with the one or more security devices in communication with a remote server programmed to process security event signals from the one or more security devices and transmit action instructions to the one or more security devices. Security devices can include an electrical power switch, an electrical power plug, and a camera.

A security and smart home system, components thereof, and associated methods. The system can include a host-carried monitor configured to monitor data associated with the host, such as motion data, position data, temperature data, or humidity data. The system can include one or more security devices located at a premises to monitor security data at the premises, with the one or more security devices in communication with a remote server programmed to process security event signals from the one or more security devices and transmit action instructions to the one or more security devices. Security devices can include an electrical power switch, an electrical power plug, and a camera.

A water detection system for a fluid storage system includes a housing configured to be disposed in fluid communication with a fluid storage vessel, a water-activated battery disposed within the housing and configured to produce an electrical voltage upon contact with water, and an electronic circuit disposed within the housing and configured to detect water above a threshold within the fluid storage vessel based at least in part on the electrical voltage.