A patient support apparatus includes a frame, a patient support surface, and a nurse call cable interface adapted to communicatively couple to a wall-mounted nurse call outlet having a plurality of pins to thereby allow the patient to communicate with a remotely positioned nurse. One or more sensors are included that detect when the cable is plugged into the nurse call outlet and/or when the bed is communicatively coupled to the nurse call system. The controller may activate an indicator when the sensor detects that the bed is not coupled to the nurse call system outlet, automatically select whether to communicate with the nurse call system via a wireless transceiver or via the nurse call cable interface based on the sensor output, and/or inform the caregiver when a headwall module spaced from the bed is not communicatively coupled to the nurse call system outlet.

A system for automatically disarming an intrusion detection system protecting a premises and having at least an armed state of operation and a disarmed state of operation, the system for automatically disarming the intrusion detection system including an intrusion detection system state of operation ascertainer operable for receiving an indication of activation of an armed state of operation of the intrusion detection system; and a registered mobile communicator proximity detector communicating with the intrusion detection system state of operation ascertainer and operable, responsive to receiving the indication of activation of the armed state of operation by the intrusion detection system state of operation ascertainer for ascertaining at least a subset of a multiplicity of registered mobile communicators which are located in a vicinity of the premises during an activation time of the armed state of operation and for deactivating the subset of the multiplicity of registered mobile communicators.

Methods, systems, and apparatus, including computer programs encoded on a storage device, for enabling drone activity in a property monitored by a property monitoring system without triggering a false alarm. In one aspect, the method includes actions of obtaining a location of the drone, identifying a first sensor installed at the property that is within a predetermined distance of the drone, detecting first sensor data generated by the first sensor that is within a predetermined distance of the drone, wherein the first sensor data includes data that is indicative of an event, determining whether a second sensor that is mounted to the drone is generating second sensor data that corroborates the event indicated by the first sensor data, and disregarding, by the property monitoring system, the first sensor data in determining whether to trigger an alarm.

According to an aspect, there is provided an elevator communication system. The system comprises an ethernet bus, a safety master node communicatively connected to the ethernet bus and configured to communicate via the ethernet bus, and safety slave nodes communicatively connected to the ethernet bus and configured to communicate via the ethernet bus. The safety master node and the safety slave nodes are configured to communicate by using a time-triggered communication protocol. In the time-triggered communication protocol the safety master node is configured to send a polling diagnostic request message to the safety slave nodes by using a predetermined polling cycle.

According to an aspect, there is provided an elevator communication system. The system comprises an ethernet bus, a safety master node communicatively connected to the ethernet bus and configured to communicate via the ethernet bus, and safety slave nodes communicatively connected to the ethernet bus and configured to communicate via the ethernet bus. The safety master node and the safety slave nodes are configured to communicate by using a time-triggered communication protocol. In the time-triggered communication protocol the safety master node is configured to send a polling diagnostic request message to the safety slave nodes by using a predetermined polling cycle.

The disclosure relates to an alarm system comprising a plurality of detectors, each configured to detect an event in an environment and to emit an event detection signal, and a plurality of alarm signal emitters, each configured to emit at least one alarm signal in case of the detection of an event, the detectors and the emitters being linked to one another, wherein each of the emitters is configured to emit a plurality of distinct alarm signals. In case of the detection of an event by a first detector, a first identifier is assigned to at least one first emitter, the closest to the first detector out of the plurality of emitters, and an alarm generation instruction is transmitted to the first emitter with the first identifier, to activate the first emitter with a first alarm signal which is a function of the first identifier.

One example cloud-based electronic computing device includes and electronic processor and communicates over a wireless communication network with a User Equipment (UE) device. The electronic processor receives public safety incident information about a public safety incident from a public safety command center. The electronic processor receives metadata representing first gathered data from a location of the public safety incident from the UE device. The electronic processor may determine, based on the public safety incident information and the metadata, whether to process the first gathered data by a first UE device at the location of the public safety incident or by the electronic processor of the cloud-based electronic computing device.

A system for generating hazard alerts is provided. The system includes a plurality of sensor units including a plurality of sensors and a locating device, and a hazard analyzing (HA) computing device configured to communicate with the sensor units and including at least one memory device configured to store a scene definition, the scene definition defining a coordinate space of a worksite, and at least one processor configured to receive, from the sensors, a plurality of sensor measurements, receive, from the locating device of each sensor unit, at least one coordinate of the coordinate space, determine, based on the at least one coordinate, a location of the sensor unit during each sensor measurement, and determine, for at least a first sensor unit, that an alert condition is present based on the scene definition, the sensor measurements, and the determined location associated with the first sensor unit.

One example cloud-based electronic computing device includes and electronic processor and communicates over a wireless communication network with a User Equipment (UE) device. The electronic processor receives public safety incident information about a public safety incident from a public safety command center. The electronic processor receives metadata representing first gathered data from a location of the public safety incident from the UE device. The electronic processor may determine, based on the public safety incident information and the metadata, whether to process the first gathered data by a first UE device at the location of the public safety incident or by the electronic processor of the cloud-based electronic computing device.

An emergency system can access a variety of situational data items, such as video streams, facility information, and present and past incident data. The emergency system identifies data items that may be relevant to a particular incident and provides the relevant data items in one or more user interfaces. For example, the emergency system identifies relevant data items based on the reported location of the incident and the type of incident. As additional incident information is received or entered by telecommunicators, the emergency system can further filter and surface data items likely to be useful in responding to the incident. Certain data items may only be permitted to be viewed by certain types of users, or under certain conditions. The emergency system may ensure that data items are provided to authorized users and in permitted use cases.