Threat identification devices, systems, and methods are disclosed which identify and locate various threats and provide a variety of countermeasures to reduce the loss of life in an attack. In one implementation, a device is provided with a housing and a plurality of tubes coupled to and extending from the housing. Sensors are located within the tubes for sensing external conditions. A control unit is in electronic communication with the sensors. Upon detection of an external condition, the sensors transmit a signal to the control unit, which activates countermeasures, including rotating light sources to identify the location of the external condition as well as preferred escape routes. The control unit may also transmit signals to other devices in the environment, including video panels and speakers, to provide instructions.

Methods and apparatus are provided for a ballistic resistant shelter configured for emergency deployment in an open space. The shelter has a structural frame configured to rapidly convert from a stowed condition disposed substantially flat on the ground, to a deployed condition in which the frame is elevated substantially above ground level. One or more anti-ballistic panels are attached to the frame so as to be tilted or lifted above ground level when the frame is deployed. The anti-ballistic panels collectively present enough surface area to shield at least one person from a single source of gunfire.

Methods and apparatus are provided for a ballistic resistant shelter configured for emergency deployment in an open space. The shelter has a structural frame configured to rapidly convert from a stowed condition disposed substantially flat on the ground, to a deployed condition in which the frame is elevated substantially above ground level. One or more anti-ballistic panels are attached to the frame so as to be tilted or lifted above ground level when the frame is deployed. The anti-ballistic panels collectively present enough surface area to shield at least one person from a single source of gunfire.

A portable Doppler microwave radar defense system that saves lives in dangerous situations, and alerts a person from surrounded threats, exposes enemy location, and shows the health data and injured person's location to remote server at a base. The system lets the person know about the surrounded threats before it happens, as it will detect any bullets in the detection zone and alert the person immediately from the incoming bullet within a long range which will let the person have seconds to avoid the bullet and save his life and the location of the shooter will be exposed to the person. The detection system can also be deployed over an object such as a car, truck, battle tank, aircraft, jet, helicopter, spaceship, or a satellite.

A portable Doppler microwave radar defense system that saves lives in dangerous situations, and alerts a person from surrounded threats, exposes enemy location, and shows the health data and injured person's location to remote server at a base. The system lets the person know about the surrounded threats before it happens, as it will detect any bullets in the detection zone and alert the person immediately from the incoming bullet within a long range which will let the person have seconds to avoid the bullet and save his life and the location of the shooter will be exposed to the person. The detection system can also be deployed over an object such as a car, truck, battle tank, aircraft, jet, helicopter, spaceship, or a satellite.

An orb or body deployable from a launch tube serves as a countermeasures system. Where used, a tow rocket may be used to tow the orb or body to a desired location generally in front of an oncoming threat, and the tow rocket is released. Multiple line tow rockets are then launched from the orb in every direction, each extending a line connected to the orb to define a spherical volume within which the orb and lines operate. Each line may include at least one of sensors for sensing acoustic, magnetic or other disturbances, countermeasures systems including explosives, antenna, and radiating countermeasures transducers. Explosives or transducers may also be mounted in or to the orb. Magnetic, acoustic or electrical signals or the like may be emitted to confuse a threat, and explosives may be triggered when the threat enters the spherical volume defined by the extended lines.

An orb or body deployable from a launch tube serves as a countermeasures system. Where used, a tow rocket may be used to tow the orb or body to a desired location generally in front of an oncoming threat, and the tow rocket is released. Multiple line tow rockets are then launched from the orb in every direction, each extending a line connected to the orb to define a spherical volume within which the orb and lines operate. Each line may include at least one of sensors for sensing acoustic, magnetic or other disturbances, countermeasures systems including explosives, antenna, and radiating countermeasures transducers. Explosives or transducers may also be mounted in or to the orb. Magnetic, acoustic or electrical signals or the like may be emitted to confuse a threat, and explosives may be triggered when the threat enters the spherical volume defined by the extended lines.

A protection system for a classroom or other space to protect against a terrorist. The system includes a fixed control unit and a mobile control unit. The fixed control unit contains a hanger for drones to be launched against the terrorist. The fixed control unit also includes data storage units, a computer, a computer program and a memory, power storage units, a sighting laser for obtaining location information about the terrorist and an etching laser for marking the terrorist, an optics system for receiving visual information, and a telecommunication unit to send and receive information. The mobile control unit is worn by a protecting person in the space and includes some of the same components as the fixed control unit. It also has a local aiming system that includes for example a rifle type sight. The drone is a self-contained, self-propelled robotic flying vehicle that can be very small or even the size of a mouse. It has a mag-lev engine, electrical storage units and an aeronautically shaped body.

A protection system for a classroom or other space to protect against a terrorist. The system includes a fixed control unit and a mobile control unit. The fixed control unit contains a hanger for drones to be launched against the terrorist. The fixed control unit also includes data storage units, a computer, a computer program and a memory, power storage units, a sighting laser for obtaining location information about the terrorist and an etching laser for marking the terrorist, an optics system for receiving visual information, and a telecommunication unit to send and receive information. The mobile control unit is worn by a protecting person in the space and includes some of the same components as the fixed control unit. It also has a local aiming system that includes for example a rifle type sight. The drone is a self-contained, self-propelled robotic flying vehicle that can be very small or even the size of a mouse. It has a mag-lev engine, electrical storage units and an aeronautically shaped body.

Disclosed are coatings applied to a surface, which upon irradiation by a laser beam, results in specular reflection of a portion of the incident laser beam upon said surface, back towards the source of said beam. Furthermore, the coating may also result in diffuse reflection of another portion of said laser beam away from said surface. This reduces the absorption rate of the incident laser energy by the surface, thus lengthening the amount of time, known as the engagement time, needed to compromise the structural integrity of the underlying material. The laser light reflected back towards the source may also interfere with the sensors used by the laser system to focus and/or track the target, an effect known as dazzling. This dazzling effect may also serve to lengthen the necessary engagement time needed to inflict structural damage on the target. By application of the disclosed coatings, the engagement time may be lengthened to the point where the target would survive the encounter with the laser beam. Additionally, these coatings may reduce the effectiveness and/or effective range of some target designation systems by reflecting a significant portion of the incident laser radiation back towards the laser designator, thus making it unavailable for scattering and sensing by the sensors aboard an incoming laser-guided projectile, bomb, missile, or other laser-guided device. Furthermore, enough laser light may be reflected back to dazzle or blind the sensors aboard an incoming laser-guided weapon with a trajectory near illumination beam axis.