A system to control and to monitor the entirety of a sanitary facility by using various specialized connected devices that are distributed throughout the sanitary facility, communicating with one another and over the internet network. Each one of these connected devices carries out its function or functions by using the information communicated by the other connected devices. Each one of these connected devices carries out its function or some of its functions independently in the event of a breakdown in the communication with the other connected devices. From the mobile or fixed apparatuses such as a Smartphone, touchscreen tablet, computer, server, etc. that are connected to the Internet, the user or users can interact with the connected devices, can be alerted in real time to malfunctions, and can receive information regarding the condition of the sanitary facility.

A method, computer-readable medium, and device for deploying virtual network functions in response to detecting an emergency event are disclosed. A method may detect an emergency event associated with a first location, deploy a first virtual network function on a first host device of the wireless network in a central zone associated with the first location, in response to detecting the emergency event, and configure a first alarm threshold for the first virtual network function that is indicative of a type loading condition at the first virtual network function. The method may further deploy a second virtual network function on a second host device of the wireless network in a second zone and configure a second alarm threshold for the second virtual network function that is indicative of the type of loading condition at the second virtual network function.

A sensor system is provided for monitoring anti-personnel effectiveness of a gun that fires a projectile against a mannequin target. The system includes an instrumentation sensor, an aggregation controller and a base station. The instrumentation sensor is disposed on the target. The sensor transmits a status condition based on electrical integrity. The status condition is either intact as default or else disablement in response to impact from the projectile. The aggregation controller receives the status condition from the sensor and transmits the status information as aggregated information. The base station receives the aggregated information for analysis to determine the effectiveness in response to the gun firing at the target.

A hydrant apparatus may be employed to monitor a water distribution system, and may include a sensor, a processor, and a local clock source. The apparatus may wake from a low power mode to a sensing mode, receive the sensor data, associate the sensor data with a first local clock time, and return the apparatus to the low power mode from the sensing mode. The apparatus may subsequently wake to an operational mode, determine a second local clock time subsequent to the first local clock time, associate an external clock time with the second local clock time, determine an offset for the received sensor data based on the first local clock time and the association between the second local clock time and the external clock time, and transmit the sensor data and the offset to an external monitoring system.

An electronic system for monitoring a physical parameter includes an ADM comprising an accumulation mode sensor for measuring the physical parameter by generating electrical energy associated with the physical parameter in response to a surrounding condition, and an energy storing device coupled to the accumulation mode sensor for accumulatively storing the generated electrical energy; a power source; and an SoC coupling with the ADM and the power source, configured such that the stored electrical energy is monitored, and when the stored electrical energy is equal to or greater than a pre-defined threshold, a wake-up event is generated to trigger the SoC to operates in a run mode in which the physical parameter is wirelessly transmitted to a receiver and the stored electrical energy in the energy storing device is discharged, and then the SoC returns to a sleep mode in which a minimal power is consumed.

Example systems and methods are described that wirelessly charge a rechargeable battery associated with a lock. In one implementation, a rechargeable battery is electrically coupled to an electronic lock module associated with a door corresponding to a door frame. An electronic control module associated with the door frame and physically separate from the electronic lock module generates a wireless charging link between the electronic control module and the electronic lock module. The electronic control module transmits a charging signal to the electronic lock module via the wireless charging link, and the electronic lock module uses this charging signal to charge the rechargeable battery. The implementation also includes a lock associated with the door that can be locked or unlocked by the electronic lock module.

A sensing device is provided in the present invention. The sensing device includes a first conductive element, a second conductive element, a processing unit, a cover and a base. The processing electrically connects to the first conductive element and the second conductive element. The cover has an opening. The base forms a space with the cover, and the first conductive element and the second conductive element are set on the base.

An electronic device may include at least one sensor, a communication circuit, and at least one processor operatively connected with the at least one sensor and the communication circuit. The at least one processor may be configured to: if change amount of movement of the electronic device obtained via the at least one sensor is within a threshold range, identify a wearing state of the electronic device via the at least one sensor, select a group which corresponds to the wearing state from among a plurality of groups including a first group including saturations of percutaneous oxygen (SpO2s) which may correspond to reference values based on photoplethysmogram (PPG) signals and a second group including other SpO2s which may correspond to the reference values, and obtain a first PPG signal via the at least one sensor, and obtain a first SpO2 using the selected group and a first reference value which is based on the first PPG signal. Other embodiments are possible.

A floor cleaning machine having an intelligent system including a recovery tank sub-assembly, a vacuum fan sub-assembly, a solution tank sub-assembly, wherein the solution tank sub-assembly preferably includes a secondary electrochemical cell, a solution flow sub-assembly, a control console sub-assembly, a frame and wheel sub-assembly and/or a frame and transaxle sub-assembly, a scrub head sub-assembly, a scrub head lift sub-assembly, a squeegee sub-assembly, a solution flow sub-assembly, and an intelligent system associated with at least one of the above-identified sub-assemblies, wherein the intelligent system at least one of selectively gathers, obtains, monitors, stores, records, and analyzes data associated with components of the floor cleaning machine assembly, and at least one of controllably communicates and disseminates such data with at least one of another system and user.

A monitor and control system and a method of monitoring and controlling an onboard system of an assembly includes one or more of a plurality of sensors detects whether an event occurred in the onboard system. The sensors communicate with a master controller when the master controller is in a nominal mode in which the master controller is powered on to actively monitor the sensors, and includes a sleep mode in which the master controller is powered off and does not monitor the sensors when in the sleep mode. An agent controller monitors the sensors when the master controller is in the sleep mode. One or more of the sensors signal the agent controller that the event has occurred. The agent controller signals the master controller to awaken from the sleep mode in response to the one or more of the sensors signaling the agent controller of the event.