Methods and devices provide physiological movement detection, such as gesture, breathing, cardiac and/or gross body motion, with active sound generation such as for an interactive audio device. The processor may evaluate, via a microphone coupled to the interactive audio device, a sensed audible verbal communication. The processor may control producing, via a speaker coupled to the processor, a sound signal in a user's vicinity. The processor may control sensing, via a microphone coupled to the processor, a reflected sound signal. This reflected sound signal is a reflection of the generated sound signal from the vicinity or user. The processor may process the reflected sound, such as by a demodulation technique, to derive a physiological movement signal. The processor may generate, in response to the sensed audible verbal communication, an output based on an evaluation of the derived physiological movement signal.

According to at least one aspect, a fluid flow monitoring system includes an ultrasonic sensor for generating measurement signals associated with respective ultrasonic signals propagating through the fluid in the lumen, a shut-off valve for blocking fluid flow in the lumen, and a controller. The controller can be communicatively coupled to the ultrasonic sensor and to the shut-off valve. The controller can be configured to compute a plurality of fluid flow parameter estimates based on a plurality of measurement signals generated by the ultrasonic sensor over a time window while the shut-off valve is open. The controller can obtain an offset value associated with fluid flow parameter measurements during a zero flow state of the shut-off valve. The controller can then check for presence of a fluid leak event based on the fluid flow parameter estimates over the time window and the offset value.

According to at least one aspect, a fluid flow monitoring system includes an ultrasonic sensor for generating measurement signals associated with respective ultrasonic signals propagating through the fluid in the lumen, a shut-off valve for blocking fluid flow in the lumen, and a controller. The controller can be communicatively coupled to the ultrasonic sensor and to the shut-off valve. The controller can be configured to compute a plurality of fluid flow parameter estimates based on a plurality of measurement signals generated by the ultrasonic sensor over a time window while the shut-off valve is open. The controller can obtain an offset value associated with fluid flow parameter measurements during a zero flow state of the shut-off valve. The controller can then check for presence of a fluid leak event based on the fluid flow parameter estimates over the time window and the offset value.

A monitoring support apparatus according to an aspect of the present disclosure is for supporting work of a monitoring person who monitors subjects by sequentially visiting the subjects and includes a measuring device that measures the subjects and the monitoring person by radiating a detecting wave toward the subjects and the monitoring person, a position specifying circuit that specifies positions of the subjects and a position of the monitoring person on the basis of information obtained by the measuring device, and a decision circuit that decides at least one selected from a group consisting of a next subject suitable as a subject to be visited next by the monitoring person among the subjects and a movement path along which the monitoring person moves from the position of the monitoring person to the next subject on the basis of the positions of the subjects and the position of the monitoring person.

According to at least one aspect, a fluid flow monitoring system includes an ultrasonic sensor for generating measurement signals associated with respective ultrasonic signals propagating through the fluid in the lumen, a shut-off valve for blocking fluid flow in the lumen, and a controller. The controller can be communicatively coupled to the ultrasonic sensor and to the shut-off valve. The controller can be configured to compute a plurality of fluid flow parameter estimates based on a plurality of measurement signals generated by the ultrasonic sensor over a time window while the shut-off valve is open. The controller can obtain an offset value associated with fluid flow parameter measurements during a zero flow state of the shut-off valve. The controller can then check for presence of a fluid leak event based on the fluid flow parameter estimates over the time window and the offset value.

A system for programming, controlling and monitoring wireless networks enabling a wireless device (Dev) being utilized and integrated into car electronic control module or home (or business) alarm/security system. This system also presents a general control (robotic) device, which controls general input and output functions, where plurality of cellular handsets, internet devices can co-control, monitor, share and exchange information through the cellular, the internet networks and other wire/wireless network.

Systems, methods, and devices for interfaces for resolving maintenance activities are described herein. For example, one or more embodiments include receiving an indication of a fault associated with an equipment item of a building, providing an interface via a display, wherein the interface includes a first portion configured to provide information associated with the fault based on the data, a second portion configured to provide navigation to the building, a third portion configured to provide navigation within the building to the equipment item, and a fourth portion configured to display an augmented reality visualization of the equipment item.

Methods, systems and apparatuses are described herein to provide adaptive severity functions for alerts, particularly security alerts. The adaptive severity functions may be aligned with an existing global security situation to upgrade or downgrade the severity of new and existing alerts. By taking into consideration the time factor along with other parameters, the alerts may be prioritized or reprioritized appropriately. The modification of the severity level for the alerts may be made based on rules and/or one or more triggering events or by using severity functions with or without the aid of artificial intelligence based on best-practice preferences.

A graphical audio station of a nurse call system is operable to permit a user to perform one or more of the following functions: establish a two-way voice communication link with another computer device in another patient and/or with a another computer device located in another staff work area and/or with a wireless communication device carried by caregiver and/or with a telephone of the healthcare facility; broadcast a voice page to a group of other selected computer devices; compose and send a text message to a portable device that is carried by a caregiver and that has wireless communication capability; browse web pages and/or view multimedia content, such as videos, hosted on servers of the healthcare facility and/or that are accessible via the Internet; view and/or acknowledge and/or answer and/or cancel alerts or nurse calls originating in a plurality of patient rooms.

The technology disclosed herein enables an endpoint system to present a visual indicator that user communications have been suspended. In a particular embodiment, a method includes exchanging audio user communications for the communication between the first endpoint system and a second endpoint system. At the first endpoint system, the method includes determining that the second endpoint system caused a suspension of the audio user communications and providing a first visual indicator of the suspension.