A control system includes: an input receiver that receives an input from a user; and a controller that, if a security system is set in a notification mode, brings the input receiver into a cancellation preparation state in response to a sensor being changed to a predetermined state. The notification mode is a mode in which a notification is provided after a predetermined time period has elapsed since the sensor has changed to the predetermined state. The cancellation preparation state is a state in which a cancellation input for cancelling a setting of the notification mode is receivable. The controller cancels the setting of the notification mode when the cancellation input is received by the input receiver in the cancellation preparation state.

Methods, systems, computer-readable media, and apparatuses for processing alarm signals are presented. In some embodiments, a mobile device may be registered with a security system that is installed at a premises. Subsequently, an alarm trigger associated with the security system may be received. Based on receiving the alarm trigger, the location of the mobile device may be determined. A response to the alarm trigger then may be determined based on the location of the mobile device.

A personal safety management system (100) comprising at least one portable communication device (200) communicatively connected to a wireless communication network (400); and a central computing device (500) communicatively connected to the wireless communication network (400). The at least one portable communication device (200) is configured to enable the activation of an alarm condition by a user (700) and transmitting data on the activation of the alarm condition to the central computing device (500). The central computing device (500) is configured to receive the data on the activation of the alarm condition from the at least one portable communication device (200). Furthermore, the central computing device (500) is configured to activate the alarm condition at the end of a predetermined time delay after the activation of a first operating element (210) on the communication device (200). In one embodiment, the portable communication device comprises a second operating element (220) and is configured to input, from the second operating element (220), extension data indicating the extension of the predetermined delay, and to transmit the extension data to the central computing device (500); and the central computing device (500) is configured to extend the predetermined delay based on the extension data.

A social distancing system that addresses maintaining a minimum social distance of 6 ft during a pandemic by using social distancing devices that determine the distance between devices and generate alarms when the minimum social distance is violated.

A security device for an item of merchandise is provided. The security device includes a non-programmable locking mechanism comprising a mechanical lock and a programmable locking mechanism comprising a monitoring circuit operatively coupled to an alarm. The security device is configured to secure an item of merchandise from theft or removal when the mechanical lock is locked and to be separated from the item of merchandise when the mechanical lock is unlocked. The alarm is configured to provide an alarm signal if the security device is separated from the item of merchandise while the monitoring circuit is armed.

Various systems and method related to home automation systems are presented. A service robot system may be present that includes a service robot that autonomously moves within a structure to perform a household task. The service robot system may include a wireless communication interface, wherein the service robot system is configured to transmit, via the wireless communication interface, an indication of robot activity indicative of the service robot moving within the structure. Such a home automation system may also include a home security system that includes one or more motion sensors that detect motion within a structure. The home security system may be configured to distinguish intrusion activity (e.g., a burglar) from robot activity based at least in part on the indication of robot activity.

There is provided a device and a method for detecting exit of a person from a room, the device comprising: means for detecting door opening and closing; movement detection means for detecting movement in the room; and a processing circuitry configured to initiate processing of measurement data from the movement detection means as a response to detecting the door closing, and to cause an output of a message concerning the processing of said measurement data.

In some embodiments, security and/or automation systems, collectively referred to as automation systems, may offer a user the peace of mind of having an automation system active while the user is present in a residence. False alarms may become costly to both the user of the automation system and to emergency responders using resources to respond to the false alarms. The automation system may provide the benefit of an armed automation system without the risk of frequent false alarms. An automation system may provide additional or alternative security to a residence when a person is detected in the home with a reduction in the false alarms that may be present in a strict alarm state. This may provide security to a person in the home during the day and provide unique daytime features.

Systems and methods for installing, commissioning, testing, and maintaining a fire alarm control panel via a mobile device are provided. Some methods can include receiving a first signal from a fire alarm control panel device, the first signal containing identifying information of the fire alarm control panel device, transmitting a second signal containing the identifying information to a server device, receiving a third signal containing a second piece of information from the server device, and displaying the second piece of information on a user interface device, wherein the second piece of information includes information for installing, commissioning, testing, or maintaining the fire alarm control panel device.

Systems and methods for using multi-criteria state machines to manage alarming states and pre-alarming states of a hazard detection system are described herein. The multi-criteria state machines can include one or more sensor state machines that can control the alarming states and one or more system state machines that can control the pre-alarming states. Each state machine can transition among any one of its states based on sensor data values, hush events, and transition conditions. The transition conditions can define how a state machine transitions from one state to another. The hazard detection system can use a dual processor arrangement to execute the multi-criteria state machines according to various embodiments. The dual processor arrangement can enable the hazard detection system to manage the alarming and pre-alarming states in a manner that promotes minimal power usage while simultaneously promoting reliability in hazard detection and alarming functionality.