An assembly for burning class A fuels during firefighter training. The assembly has enhanced smoke generating characteristics for simulating a realistic room fire in training exercises. In particular, the assembly is designed with ease of setup and to increase the amount of smoke generated during combustion so that a realistic room fire involving modern housing materials can be simulated.

A fire-fighting virtual reality simulator allows the trainee to move in a virtual space in various complex virtual fire disaster situations and perform a suppression of a virtual fire and a confrontation training. An experience interactive simulator for providing a trainee with a floor movement that may occur in a fire disaster situation so that the trainee wearing HMD in a virtual fire-fighting training has the same sense of feeling as that in an actual fire-fighting training is provided. For the realistic content experience, a physical floor movement, such as tilting, falling, and shaking of the floor is reproduced using a base motion, thereby providing a floor movement that enables a sense of feeling similar to a fire disaster situation.

Disclosed herein are a motion-based virtual-reality simulator device and a method for controlling the same. The motion-based virtual-reality simulator device includes a virtual-reality interface for outputting virtual reality content in a form of multi-sense data that is perceptible by a user, a virtual-reality movement implementation unit including a track component for performing continuous track motion in a state in which a user gets on the track component, the track component being configured such that a slope of the track component is controlled while a surface of the track component is deformed into an even surface or an uneven surface, and an interworking control unit for outputting a control signal to the virtual-reality movement implementation unit so that a slope and a surface of the track component are deformed in accordance with the virtual reality content that is output through the virtual-reality interface.

Provided are embodiments including a system for operating an augmented reality model-based fire extinguisher training platform. The system includes a computation engine configured to receive one or more inputs and generate a simulation based on the one or more inputs, and a fire extinguisher configured to communicate with the computation engine, wherein the fire extinguisher includes a plurality of sensors to provide feedback to the computation engine. The system also includes a display device that is operably coupled to the computation engine and is configured to display the generated simulation from the computation engine, and wherein the computation engine is configured to perform analytics to generate a recommendation for a design of the fire extinguisher based at least in part on the feedback from fire extinguisher. Also provided are embodiments that include a method for operating an augmented reality model-based fire extinguisher training platform.

A fire extinguisher training device comprising a display device for displaying imagery of a fire, a holder for holding the display device, a central member to which the holder is mounted, and an electronic control module mounted to the central member. The device has a trigger mechanism and a trigger sensor for sensing movement of the trigger mechanism, wherein the electronic control module is communicatively connected to the trigger sensor and also to the display device.

A mobile aircraft simulation tool that includes a simulated aircraft body extending between a front end and rear end along a central axis X and having a length of between 10 and 60 feet. The simulated aircraft body includes a plurality of windows, one or more doors, an internal cavity, and a passenger cabin within the internal cavity having a plurality of seats.

Systems and methods for training firefighters and other first responders are provided. The systems include a plurality of sensors configured to detect at least one ambient condition, such as, temperature; a receiver configured to receive the electric signals from the plurality of sensors; and a digital storage device operatively connected to the receiver and adapted to store the electrical signals corresponding to the detected ambient conditions. The data detected by the sensors can be retrieved for later review, analysis, and training. The systems may include at least one video recorder and/or at least one infrared image recorder each configured to detect images that can be stored for later retrieval and a synchronizing device adapted to synchronize the sensor data with the recorded images for later review. Methods of implementing the systems and portable cases enclosing the system are also provided.

The present invention provides a system and method for high-precision fire simulation-based virtual fire training interaction that features a fire suppression support virtual fire training interaction that combines a scientific fire simulation (FDS) result expression technology used for fire situation analysis and a real-time interaction technology processing dynamic changes in order to have more realistic training in virtual fire training such as fire suppression.

Devices and methods for the detection of streams of water or other extinguishants. A device has a substrate, an array including a plurality of capacitance sensors disposed on the substrate, and a controller operatively connected to each of the plurality of capacitance sensors to measure a capacitance of each respective sensor. The controller is configured to analyze a time-varying component of a series of measured capacitances for each sensor and to output a signal representing how closely that time-varying component matches a stored reference component of a reference signal in which a sensor is proximate to a stream of an extinguishant. A corresponding method obtains a series of measured capacitances from each of a plurality of capacitance sensors disposed upon a substrate, analyzes a time-varying component of the each of the series, and outputs a signal representing a degree of similarity between that series and such a reference signal.

Some embodiments and methods described herein relate to fire training systems and to fire simulators or fire training apparatus. In some embodiments, an apparatus includes a housing with a surface and an interior volume. A smoke generator is disposed within the interior volume of the housing and is configured to selectively generate smoke. A port is extended between the smoke generator and the surface of the housing and is configured to permit at least a portion of the smoke to be discharged through the port from the smoke generator to an exterior of the housing. A light emitter is coupled to the housing and configured to emit a light. The light and the portion of smoke are collectively configured to simulate a flame or electric arc above the surface of the housing such that the simulated flame or electric arc is viewable from more than 180 degrees about the surface of the housing. A logic controller is disposed within the interior volume of the housing and is configured to modulate the light and the smoke based on receipt of an extinguishing agent by a predetermined portion of the housing.