According to an embodiment of the present disclosure, a security hub includes a near field communication (NFC) interface, a communications interface, and a computer processor. The NFC interface is configured to detect an NFC-enabled sensor. The communications interface is configured to establish communication with the NFC-enabled sensor, a communications network, and an electronic device. The computer processor is operatively connected to the NFC interface and the communications interface and configured to: onboard the NFC-enabled sensor, analyze detection information received from the NFC-enabled sensor, and perform an action in response to the analysis of the detection information.

Systems and methods are disclosed herein for an infrastructure monitoring system. The infrastructure monitoring system may include an operations center; a monitoring device, the monitoring device may be coupled to a component of the infrastructure, include at least one sensor sensing at least one condition within the infrastructure, a data storage device storing data sensed by the at least one sensor, a transceiver device adapted to transmit and receive data, and a processor communicatively coupled to the at least one sensor, the data storage device, and the transceiver device, the processor may be configured to receive the data sensed by the at least one sensor, determine, based on the data sensed by the at least one sensor, if there is a problem with the at least one condition within the infrastructure that the at least one sensor sensed, upon determining that there is a problem with the at least one condition within the infrastructure that the at least one sensor sensed, transmitting a message to the operations center via the transceiver device, and periodically compiling sensing data stored in the data storage device and transmitting the compiled sensing data to the operations center via the transceiver device; and a control device, the control device may be communicatively coupled to at least one of the operations center and the monitoring device, and the control device may be configured to operate at least one output device when signaled by at least one of the operations center and the monitoring device, and the control device may be positioned within a fire hydrant.

Apparatuses, techniques, and methods for a security and/or automation system are described. In some cases, methods may include obtaining data from a first sensor at a first location, receiving identification data related to a person or an event at the first location; comparing the obtained data with the identification data, adjusting a first security action at the first location based at least in part on comparing the received data with the obtained data, and transmitting information to a second sensor at a second location different from the first location based at least in part on the determining, the second sensor being part of a predetermined group of devices.

Apparatuses, techniques, and methods for a security and/or automation system are described. In some cases, methods may include receiving, from a first device at a first location, a request to access data associated with a time period from a second device at a second location, the data comprising at least one of audio data, visual data, or a combination thereof, receiving, from the first device, a category associated with the request, identifying a first set of data associated with the time period, the identified first set of data based at least in part on the request and the category, and automatically transmitting the first set of data to the first device based at least in part on the category.

The occupancy-control device includes a locating element for determining a location of the occupancy-control device, a movement-determining element for determining whether the occupancy-control device is moving beyond a predetermined distance parameter, and a timer element. An instructing element is also provided by which a movement-instructing signal is outputable, and a logic element is included in communication with the locating element and the movement-determining element which determines whether the occupancy-control device is stationary within a predetermined activation area. A movement-instructing signal is outputable by the instructing element based on said determination and an elapsed period of the timer element. A method of encouraging motion of a plurality of people within a crowd using such devices is also provided.

An event notification system is configured with a record for each one of a plurality of individual responders to a mass notification event. Each record can have preference information that is specified by an individual responder associated with the record, and the event notification system can use the preference information to generate, for each of the individual responders, a single mass notification message that is formatted according to the preferences of each individual responder.

It is determined, during monitoring of a patient, that a plurality of alarm conditions has been initiated. The alarm conditions characterize a measurement by and/or operation of at least one medical device and have an associated grade among a plurality of prioritized grades. Thereafter, alarms can be generated that corresponding to some or all of the plurality of alarm conditions such that among concurrent active alarms: (i) an alarm corresponding to an alarm condition having a highest priority grade is conveyed at a first level upon initiation and, if such alarm condition remains active for a pre-defined time period, at the first level upon expiration of the pre-defined time period, and (ii) alarms corresponding to alarm conditions having equal or lower priority grades than the priority grade of the current highest priority grade alarm condition are conveyed at a second level, the second level being different from the first level.

An independent and automatic alert device, system and method provides an alert transmission to a remote location in the event of an incident occurring to an object (such as a person or vehicle). Detection means detects at least one characteristic of an incident, such as speed, angle, vector, roll, yaw, heave, pitch, acceleration, deceleration, rate of deceleration (jerk), position, immersion, presence of one or more chemicals, radioactive materials or radiation, temperature, force or overall area of any impact to the object. Determination means identifies whether a detected incident requires an alert to be transmitted. Transmission means transmits an alert to the remote location based on the at least one characteristic of the incident.

An emergency service provision platform may be provided. The platform may be integrated into existing transportation service provision platforms. The platform may be configured to receive pick-up and destination location and track a passenger's route from the pick-up location to the destination. The platform may provide the passenger with an emergency notification button. Upon selection of the emergency notification button, the platform may communicate and alert comprising passenger and driver information to emergency contacts, infrastructure, and personnel. In some embodiments, the alert may be issued upon a detection of deviation from a route between the pick-up location and the destination. The emergency contacts, infrastructure, and personnel that receive the alert may be pre-set or determined dynamically based on the passenger's location at the time of the alert issuance. Furthermore, while the passenger is en route to the destination, the platform may provide the passenger with destination specific information.

This invention concerns an electronic alerting system and a method for the same. The method comprises receiving data from a client device, wherein a user of the client device has a profile data stored in a server; and wherein the data comprises at least a location information of the client device; determining whether the data relates to an emergency; and if so routing an alarm to a group of contact persons, which are related to the profile data; determining location of each contact person having provided an accepting response to said alarm; creating information comprising at least the determined locations; and providing said information at least to the client device.