The present disclosure relates to an augmented reality system including one or more of a building, sensor(s), a gateway, a server, and a monitoring computer. The augmented reality system may further includes drones that capture video or other images of the building. The monitoring computer gathers information from the sensor(s) and/or drones and facilitates the creation of an augmented view of the building to provide intelligence to emergency responders.

The disclosure presents a system for remotely managing emergency equipment through wireless network and methods to use this system to monitor emergency equipment and deliver emergency information to subscribers. The system for remotely managing emergency equipment includes at least a node, also called as end user emergency equipment, a remote server, and a plurality of direct and indirect subscriber devices. The remote server receives data collected from each node, processes the node data, and sends the processed data to direct and indirect subscribers to manage emergency equipment. The system can improve the efficiency on collision avoidance, emergency warning, and emergency vehicle dispatch management.

A distributed processing network system (10), an integrated response system (50) comprising multiple distributed processing network systems and related methods providing situational awareness information for emergency responses. In one embodiment there is disclosed a response system (50) comprising first and second server based systems (10, 11) each providing real time awareness of personnel (18, 19) for different organizations, the first system receiving information for a first organization and the second system receiving information for a second organization, the first system coupled to the second system to communicate information generated in the first system to personnel in the second organization via the second system to facilitate timely and appropriate response by personnel in the second organization to an emergency situation in the first organization.

A system allows for a user to notify an insurance provider or other third-party with a button press. The button can notify of an emergency situation. An event determiner may analyze information of events surrounding the button click. This information may include the time of day, location, identifying information for the insured, recent locations of the button, information from similar button presses and information from previous insurance claims. Based on this information, the event determiner may provide a high percentage estimate of an abnormal condition: home break-in, car accident, flat tire, etc. The system may automatically take action, depending on the event, such as contacting the police, sending a tow truck, or starting an insurance claim.

Some embodiments are directed to a system that includes multiple fire sensors and equipment, and mobile devices of the users of the system. These fire sensors and equipment are configured in a network so as to allow communication with a processor. A processor in the system interrogates the status of the fire sensors and fire safety elements on a continuous basis. Upon a change in system status, the processor interprets the change and classifies according to operation state or probability of a fire or other imminent threat. The data, processing and storage provide the means by which occupants and potential occupants can better navigate a building during the occurrence of a fire. The system enables communication between users of the system through their mobile devices used and communication between devices that may be present in the

An emergency responder alert assembly includes an alert housing that is mountable at a location which is associated with a residence such that the alert housing is visible to emergency responders. A plurality of light emitters is provided and each of the light emitters is coupled to the alert housing for visually alerting the emergency responders that the residence is the location to which the emergency responders have been dispatched. A pendant actuate unit is movably integrated into a pendant and each of the light emitters is turned on when the pendant actuate unit is actuated by the user. A desktop actuate unit is in remote communication with the plurality of light emitters and each of the light emitters is turned on when the desktop actuate unit is actuated by the user.

A wireless communication-based casualty reporting, responder-ready emergency application system permits users to notify one or more pre-programmed responders of an emergency event so that an emergency alert can be broadcast to notify the users in the facility/site of the emergency. The system includes a check-in and verification component to provide access with respect to each specific facility/site. The system further includes a data storage provision coupled with the main application and is configured to maintain logs of alert events and other relevant information for future reference to build protocols and check for any patterns. To facilitate these operations, the system is programmed to relay crisis management plans and standard emergency protocols to users within a facility/site when an emergency event arises.

A portable shield includes a protective shield and a handle attached to the protective shield for holding and carrying the portable shield from a first side of the protective shield. The portable shield further includes a battery and a display element powered by the battery. The display is configured for electronically displaying an instructional message that is visible from a second side of the protective shield at a distance, wherein the second side is opposite the first side. The portable shield further includes electronic circuitry powered by the battery that is configured for selectively displaying the instructional message on the display element. In some examples, the portable shield may wirelessly receive information regarding the instructional message from a base station along with other instances of the portable shield.

A portable protection apparatus includes a protective shield, a handle, a rechargeable battery, electrical circuitry configured to be powered by the rechargeable battery, and a first display element positioned on a first side of the protective shield. The first display element is configured to selectively display an instructional message when directed by the electrical circuitry, wherein the first display element is configured to be visible at a distance from the first side of the protective shield. The portable protection apparatus also includes a second display element positioned on a second side of the protective shield configured to display the instructional message to the user holding the protective shield.

A computer device generates a response to an emergency being reported by a plurality of sensor devices. The memory contains a sensor data engine and a determinant code calculator. The computer device determines the likelihood of an emergency based on received sensor data and, in some embodiments, answers received from an information provider. The sensor data engine receives external sensor data, determines data values associated with the external sensor data, and calculates an emergency likelihood based on the data values. The determinant code calculator generates a determinant code based on the calculated likelihood, and provides the code to an emergency responder system to generate an emergency dispatch response.