Presented is a system and method for monitoring activities of daily living, ADLs, of a person within an environment. The system comprises an ADL inference unit adapted to receive a sensor output signal representative of a detected value of a property of at least one of: the person; and the environment, and to generate an inferred ADL output signal representative of the inferred ADL of the person. A monitor unit is adapted to generate a monitor signal dependent on at least one of: the received sensor output signal; and the inferred ADL output signal.

Embodiments relate to a device for mounting on a wall for monitoring an environment. In one embodiment the device comprises: a body comprising: an active reflected wave detector; and a processor coupled to the active reflected wave detector, the processor configured to: control the active reflected wave detector to measure wave reflections from the environment to accrue measured wave reflection data, and identify a status of a person in the environment based on the measured wave reflection data, wherein the processor assumes, for said identification, that the active reflected wave detector is at an operating height above a floor of the environment. The device comprises a cord extending from the body, the cord having a length for ending at the floor when the device is mounted with the active reflected wave detector at said operating height and the cord is freely hanging and straight.

A method comprising: controlling an active reflected wave detector to measure wave reflections from an environment using a first frame rate to accrue measured wave reflection data for a classifier, after a first amount of time, determining whether a predefined criteria is satisfied, wherein satisfaction of the predefined criteria is indicative of the classifier being likely to successfully identify a fall status of a person in the environment by a second amount of time of accruing measured wave reflection data from the active reflected wave detector, the second amount of time being greater than the first amount of time; in the event that the predefined criteria is not met, the method comprising controlling the active reflected wave detector to accrue measured wave reflection data at a lower second frame rate for classifying the fall status based on measured wave reflection data accrued at the lower second rate.

The device for monitoring a situation within a volume includes at least one electronic unit containing a plurality of different types of sensors, at least one program for controlling the sensors according to a predefined profile and a program for processing data recorded by the sensors, a device for signaling the detection of data representative of an event within the volume, a remote management unit and device for exchanging data between the electronic unit and the remote management unit defined by a radio transmitter/receiver that includes the electronic unit and the remote management unit. The electronic unit includes a device for manual activation of the radio emitter, defined by a button arranged on a housing for an infrared presence sensor equipped with its lens forming a protuberance on the outer face of the unit. The invention also concerns a method for monitoring a situation within the volume by the device.

An ear-wearable device includes a photoplethysmography (PPG) sensor. One or more processors of the ear-wearable device are configured to determine, based on sample values of a PPG signal generated by the PPG sensor, whether a user of the ear-wearable device has fallen.

A multi-sensory sensor comprises at least a first and a second sensor element, wherein the multi-sensory sensor is adapted for attachment to a movable structure in a building. The multi-sensory sensor is operatively associated with a controller that is configured to receive input from said first sensor element, wherein the input is indicative of a movement of the movable structure. The controller is further configured to receive input from the second sensor element, and indirectly identify a human behavioral action in the building based on a combination of the input from the first sensor element and the input from the second sensor element. It is further configured to determine a function to be taken based on the identified action, and cause the function to be taken to be executed. In one embodiment the first sensor is a movement sensor element for sensing a movement and the second sensor element is an audio sensor element for sensing audio.

A stairway safety system and method including movement sensors and/or force sensors, a safety button, a central processing unit, a user notify device configured to generate audio or visual indications prompting the stairway user to engage the safety button, and a communication device configured to send a message requesting help. The central processing unit is configured to measure the length of time between detecting signals from the sensors and also to instruct the first user notify device to generate audio or visual indications when the measured time between detecting the signals is shorter or longer than a stairway user's actual or estimated typical travel time through the stairway. The central processing unit is configured to measure time and to instruct the communication device to send the message requesting help if a safety signal is not detected within a safety time period which indicates a request for help may be needed.

A fall detection system includes first sensing devices, second sensing devices, positioning modules, a data server and a display device. The first sensing device is configured to detect a posture of a body part of a user for obtaining body part posture data. The positioning modules are configured to detect positions of the first and second sensing devices, so as to obtain corresponding body part position data. Each of the second sensing devices is disposed on a shoe to detect a posture of a user's feet and to measure a distance from an ambient object for obtaining feet posture data and distance measurement data. The data server is configured to receive the body part posture data, the body part position data, the feet posture data and the distance measurement data to determine if the user falls down.

A system for providing care to a ward that alerts a caregiver of the caregiver's capacity to deal competently with the ward's needs.

A monitoring system that is configured to monitor a property includes a camera that is configured to capture video data of the property. The monitoring system further includes a microphone that is configured to capture audio data of the property. The monitoring system further includes a monitor control unit that is configured to access and analyze the video data. The monitor control unit is further configured to determine that an alarm condition does not exist at the property. The monitor control unit is further configured to access and analyze the audio data. The monitor control unit is further configured to override the determination that an alarm condition does not exist at the property. The monitor control unit is further configured to, based on overriding the determination that an alarm condition does not exist at the property, perform a monitoring system action.