The present disclosure describes a system and method designed to protect the contents of a region or space within a facility (e.g., building, home, vehicle, outdoor space, etc.). The system is configured to identify an area to be protected (e.g., nightstand, medicine cabinet, safe), monitor surroundings, and manage and deploy response(s) to threats to the region or space under protection. The system may also be configured to provide incremental warnings, interventions, or countermeasures to deter people or animals from accessing the Protected Space.

An article of clothing includes user-protection circuitry, integrated into the article of clothing. The user-protection circuitry includes condition-detection circuitry, which, in operation, generates one or more indications related to an environment of the article of clothing. The user-protection circuitry also includes broadcast circuitry including at least one pulsing device, and control circuitry. The control circuitry, in operation, activates the broadcast circuitry based on the one or more indications related to the environment of the article of clothing generated by the condition-detection circuitry.

In one aspect, an example system includes an arrow nock configured to couple to an arrow, a transmitter coupled to the arrow nock, and a controller. The controller is configured to (i) determine that the arrow has been shot from a bow and (ii) responsive to determining that the arrow has been shot from the bow, cause the transmitter to transmit a beacon signal at a variable rate that varies based on an amount of time elapsed since determining that the arrow has been shot from the bow.

In one aspect, an example system includes an arrow nock configured to couple to an arrow, a transmitter coupled to the arrow nock, and a controller. The controller is configured to (i) determine that the arrow has been shot from a bow and (ii) responsive to determining that the arrow has been shot from the bow, cause the transmitter to transmit a beacon signal at a variable rate that varies based on an amount of time elapsed since determining that the arrow has been shot from the bow.

The present invention relates to a device and a method associated with the device. With respect to the device, it is a wearable garment for the hand, wrist, and/or forearm with an embedded array of lights; one or more micro processing units; one or more touch or pressure activated switches, buttons, or toggles; one or more motion sensing mechanisms; and one or more wireless transmission components which is capable of receiving and transmitting information to a mobile computing device. A wireless transmission device is also disclosed which is attached or embedded in a vehicle connected to the turn signaling system. The mobile computing device such as a smartphone or GPS unit tracks the wearer's location and route and transmits a signal to the wearable garment when a turn approaches causing haptic feedback vibration to the wearer and activation of the embedded lights on the appropriate side. The wearable garment also transmits and receives signals from the wireless transmission device in the vehicle which activates or deactivates the turn signals on the vehicle when the wearable garment's lights and haptic feedback mechanisms are activated or deactivated, and reciprocally the lights and haptic feedback systems on the wearable garment when the turn signal on the vehicle is activated or deactivated. The wearable garment signaling system may be activated by the user's hand/arm motions, by actuation of embedded switches, buttons, or toggles, or by signal from the mobile computing device.

The present disclosure relates to a method performed in a communication network (1). The method comprises receiving a trigger message a) indicating that a situation (4) has occurred. The trigger message comprises situation specific information. The method also comprises, based on the received situation specific information, configuring a service for handling the situation during a period of time until a predefined goal has been achieved. The service includes a plurality of partially-ordered tasks to be performed and a plurality of stakeholders (3). The tasks are parameterized with entities and the stakeholders. The method also comprises, during the period of time, as part of the service, sending updated information c) about the tasks to the stakeholders. The method also comprises, in response to the information sent, receiving input d) about the tasks from the stakeholders. The method also comprises, in response to the received input, automatically and dynamically reconfiguring the service, including updating the information about the tasks, until the predefined goal has been achieved.

A system assesses activity and displays a unitless activity value. A detector senses activity of a user. A processor reads sensed activity data from the detector. A display displays the unitless activity value. An enclosure houses the detector and the processor. The processor periodically reads the sensed activity data from the detector and processes the data to generate an activity number, the number being used to generate the unitless activity value based upon a maximum number and a display range.

A system assesses activity and displays a unitless activity value. A detector senses activity of a user. A processor reads sensed activity data from the detector. A display displays the unitless activity value. An enclosure houses the detector and the processor. The processor periodically reads the sensed activity data from the detector and processes the data to generate an activity number, the number being used to generate the unitless activity value based upon a maximum number and a display range.

A warning device and a mobile carrier assembly are provided. The mobile carrier assembly includes a mobile carrier and a warning device mounted at the outside of the mobile carrier. The warning device includes an energy harvesting unit, a battery, an object sensor and a warning element. The energy harvesting unit is used to retrieve an energy from an environment and convert the energy into an electrical energy. The battery is electrically connected with the energy harvesting unit for storing the electrical energy. The object sensor is electrically connected with the battery and used to sense whether an object is present in a predetermined range. The warning element is electrically connected with the object sensor and used to issue an alert when the object sensor senses that an object is present in the predetermined range. The alert includes a sound or light.

The disclosed fire detection system improves fire detection, e.g., aboard an aircraft, by optically monitoring an interior compartment to detect, at a first time, visible radiation in a visible light spectrum and thermal radiation in an infrared light spectrum. The fire detection system combines the detected radiation to generate a multi-spectrum image, spanning visible and infrared wavelengths, of the interior compartment at the first time to facilitate the detection of a fire event and/or threat within the interior compartment. As a result, the fire detection system provides situational awareness of a fire event and/or threat within the interior compartment.