Described herein are enhanced visual & audio devices for use in access control systems. In one aspect, the device includes a reader, a first sensor, and at least one processor. The reader receives a user credential. The first sensor detects motion within a predetermined distance from the device. The at least one processor triggers at least one output notification if motion within the predetermined distance from the device has been detected by the first sensor. In one aspect, the device is mounted to a surface proximately to an access point to a controlled area and the device includes a second sensor that detects motion that is indicative of a person passing through the access point.

The invention relates to a system for remote monitoring of an area intended to accommodate at least one passenger of an aeroplane, notably a cargo area provisionally converted into cabin space, including: at least one control member configured to generate at least one signal relating to the safety of the passenger present in the area, and at least one interface means that is situated at a distance from the area and allows the cabin crew to have access to information relating to the area and/or to the passenger present in the area on the basis of the signal.

Various embodiments of the present disclosure can include a system. The system can include a computing device. The system can further include an application programming interface in communication with the computing device. The system can further include an interactive button, comprising a processor and a non-transitory computer readable medium that includes instructions executable by the processor. In some embodiments, the instructions can be executable to establish communication between the interactive button and the computing device via the application programming interface. In some embodiments, the instructions can be executable to send an instruction to the computing device from the interactive button via the application programming interface.

The disclosed technology is directed towards providing guidance, e.g., point-to-point audio guidance, along an evacuation route. The presence of occupant(s) within a structure/area is monitored. If an evacuation event occurs, an evacuation route is determined for each occupant based on their current monitored starting location. Guidance is output, e.g., by various output devices along the evacuation route, which can be the safety monitors that monitor occupant presence, to guide each occupant from point-to-point along the evacuation route. For example, one monitor can be configured to hand off guidance responsibility to a next monitor along the evacuation route. The guidance can be customized for each known occupant based on their recognized features, or can be directed generally to an unknown occupant. Status information of the occupants can be provided to other occupants and to a responding entity. A responding entity can also be given directional guidance.

This application describes systems and methods for locating, securing, accessing and utilizing a discrete enclosure or workspace. The discrete enclosure or workspace may be located in a public, private or semi-private setting and may comprise a combination of working platforms or surfaces, seats, desks and other apparatus, as well as computer hardware and software. Systems may comprise natural language processing, artificial intelligence, machine learning and other adaptive learning capabilities to enhance the use of the discrete workspace. The workspace may be dimensioned to be used for a wide variety of activities by one or more users.

The present technology relates to an information processing device, an information processing method, and a program that enable a user to perceive a surrounding situation reliably and stably. A distance and a direction of a measurement point with respect to a first position in a first coordinate system are calculated based on a relative distance and direction in the first coordinate system or a second coordinate system between the first position whose coordinates in the first coordinate system are determined and a second position whose coordinates in the second coordinate system are determined, the second position being separated from the first position, a relative attitude between the first coordinate system and the second coordinate system, and a distance to the measurement point present in a predetermined measurement direction in the second coordinate system, measured from the second position, and a notification signal to be presented to a user is generated based on at least one of the distance and the direction of the measurement point with respect to the first position. The present technology can be applied to an obstacle notification system that notifies a visually impaired person or the like of the presence of an obstacle.

An emergency mode is provided in a portable electronic device for locating a survivor in a disaster. The device includes a wireless antenna to transmit and receive wireless signals; a memory to store one or more identifiers; a user interface to receive a command that enables the emergency mode. The device also includes one or more processors, which, in response to the command, detect via the wireless receiver a predetermined identifier that matches a stored identifier identifying a sender of the predetermined identifier as a trusted node. When the predetermined identifier and a timing measurement frame are received from the trusted node, the device sends a response to the trusted node to indicate its presence.

A safety system for high-voltage electrical cabinetry presents alarm indications representing alarm conditions of the electrical switchgear cabinet system at every electrical switchgear cabinet during maintenance. The system includes encoder and decoder devices connected to existing switchgear cabinet lighting infrastructure. The encoder devices receive alarm signals from a control system of the electrical switchgear cabinet system and send encoded alarm signals to the decoder devices by modulating power relayed from the encoder devices to the decoder devices and possibly to lamps. The decoder devices decode the encoded alarm signals and present the alarm indications audibly and/or visually using light and sound indicators. A technician performing maintenance can evaluate instantly the importance of the alarm based on the alarm indications and act accordingly.

A method in an electronic device includes detecting, by one or more processors of the electronic device, an operating context of the electronic device. The method then alters, by the one or more processors, one or more of a source file of an audio alert or a playback characteristic of the audio alert as a function of the operating context. The altering can eliminate a mismatch between the audible alert and audio content being delivered by an audio output that the audible alert interrupts. The audio output of the electronic device then delivers the audio alert in response to detecting an audio output triggering event.

In some implementations, a system may receive user data from a plurality of user devices corresponding to a plurality of users participating in a video conferencing session. The system may provide, based on the user data and as input to a machine learning model, user attention data associated with attentions of the plurality of users with respect to the video conferencing session. The machine learning model may be trained based on historical user attention data associated with a plurality of historical video conferencing sessions. The system may receive, as output from the machine learning model, an indication that one or more non-attentive users, of the plurality of users, are not attentive to the video conferencing session. The system may perform, based on the indication, one or more actions to gain attention from the one or more non-attentive users.