The present invention discloses a fire-resistant sealing unit installed adjacent to a penetration part penetrating a partition wall inside a building, and filling the penetration part with fire-resistant sealing by heat generated in case of a fire in the building; a fire sensing unit installed adjacent to a fire-resistant sealing unit to detect whether a fire has occurred in a compartment area; and a control server that divides the inside of the building into predetermined conceptualized compartments, manages them as conceptualized compartmental areas, detects fire occurrence information from a fire sensing unit for each compartmental area, and calculates fire vector information.

The current invention relates to a crew safety system for monitoring persons on a ship. The system comprising a plurality of wearables in a two way connection with at least one room module, said room module being in a two way connection with a central module. Said two way connection between each room module and the central module being provided by cabling of a fire safety system. The invention permits the monitoring of the status of a number of crew members and the environment they work in while being advantageously easy and inexpensive to install, run and operate.

A multi sensor detection and disabling lock system includes detector cases for holding interchangeable detectors that sample for chemical, biological and radiological compounds, agents and elements, with each detector case disposed in or upon the monitored product. The detector case transmits detection information to a monitoring computer terminal and transmits a signal to a lock disabler engaged to the product to lock or disable the product's lock thereby preventing untrained, unauthorized and unequipped individuals from gaining access and entry to the product, and also preventing further contamination of the area. The detection system can be interconnected to surveillance towers scanning detector cases disposed at seaport docks, freight depots and rail terminals for monitoring containers being prepared for shipment or sitting on docks for long periods of time.

A multi sensor detection and disabling lock system includes detector cases for holding interchangeable detectors that sample for chemical, biological and radiological compounds, agents and elements, with each detector case disposed in or upon the monitored product. The detector case transmits detection information to a monitoring computer terminal and transmits a signal to a lock disabler engaged to the product to lock or disable the product's lock thereby preventing untrained, unauthorized and unequipped individuals from gaining access and entry to the product, and also preventing further contamination of the area. The detection system can be interconnected to surveillance towers scanning detector cases disposed at seaport docks, freight depots and rail terminals for monitoring containers being prepared for shipment or sitting on docks for long periods of time.

System and methods for delivering defibrillator incident information to a PSAP in real-time during emergency use of an AED are described. Such information is utilized by a telecommunicator at a PSAP to provide better guidance to volunteer caregivers during potential cardiac arrest incidents. In another aspect the AED's current instruction state and optionally the time in that state is provided to the PSAP.

Doorbell systems can include a speaker and a visitor detection system that includes at least one of a button, a camera, and a motion detector. Doorbell systems can be configured to detect an identity of a visitor via facial recognition, initiate a communication session with a remote computing device, and send the identity to the remote computing device via the first communication session.

Systems and methods are described for securely monitoring a shipping container for an environmental anomaly using elements of a wireless node network of sensor-based ID nodes disposed within the container and a command node associated with the container. The method has the command node identifying which of the ID nodes are confirmed as trusted sensors based upon a security credential specific to each of the ID nodes; monitoring only the confirmed ID nodes for sensor data broadcast those ID nodes; detecting the anomaly based upon the sensor data from at least one of the confirmed ID nodes; automatically generating an alert notification related to the detected environmental anomaly for the shipping container; and transmitting the alert notification to the external transceiver to initiate a mediation response related to the detected environmental anomaly.

An apparatus and method for monitoring the productivity of a portable machine are provided. The method includes receiving motion data for at least one component of the portable machine from a multi-axis accelerometer, receiving position data for the at least one component from a process parameter sensor communicatively coupled to the at least one component, and determining, based on the received motion data and the received position data that the at least one component is oriented in a predetermined position for productive operation. The method also includes determining an area of productive operation using at least one physical dimension of the at least one component and the received motion data when the at least one component is oriented in the predetermined position for productive operation and incrementing a total area counter based on the determination.

In a monitoring system, a master device stores setting information indicating a detection area of a target detected by a sensor in a storage unit, and transmits the setting information to a camera (a baby monitoring camera) having a sensor built thereinto or correlated with a sensor so as to set a detection parameter including the detection area therein. When a predetermined state set by the detection parameter is detected inside the detection area by the camera, a master device transmits detection notification information to a smartphone, and the smartphone displays a detection information screen based on the detection notification information transmitted from the master device on a display/input unit.

A personal alert device for sending a panic signal and location coordinates includes a housing that defines an internal space. An inlet is positioned in a first end of the housing. The first end is configured to position between lips of a user. An outlet is positioned in the housing such that air passing from the inlet through the internal space and exiting through the outlet generates a whistling sound. A wall, coupled to the housing and positioned in the internal space, defines a compartment. An electronics module positioned in the compartment is configured to wirelessly communicate, to receive location coordinates, and to be activated by a user blowing air through the inlet. The housing emits the whistling sound and the electronics module is compelled to wirelessly communicate the panic signal and the location coordinates to at least one cellular phone and to emergency response personnel.