A self-defense apparatus includes a sleeve portion, an adapter portion connected to the sleeve portion, and a weapon. The sleeve portion includes one of a fastener or a fastener-receiving passage. The sleeve portion includes a proximal sleeve portion, a distal sleeve portion, a proximal end surface, an outer side surface, and a distal end surface. The sleeve portion defines an implement-receiving cavity that extends axially into the proximal end surface. The proximal end surface and a proximal portion of the outer side surface define a handle portion of the sleeve portion. The distal end surface and a distal portion of the outer side surface define a distal sleeve portion having an adapter-interfacing body of the sleeve portion. The adapter portion includes the other of the fastener and the fastener-receiving passage. The adapter portion defines an adapter body. The weapon is defined by the adapter body and the adapter-interfacing body.

A method of deterring an armed assailant inside of a building which involves the steps of placing physically disabling devices inside a building occupied by people, placing video and audio devices inside a building, then connecting the devices to remote activation controllers, then recognizing an armed assailant by an occupant of the building with the ability to activate the physically disabling devices remotely, then activating the devices, then transmitting the audio and video media to law enforcement and building officials, then determining that the assault continues, then activating more physically disabling devices, then deactivating the devices.

A method for protection of inflight aircraft during approaching-to-landing and takeoff/climbout phases of flight against handheld laser attacks includes two different drone types: a skeining drone and a swarming drone. One or more skeining drones are deployed close to the aircraft and/or one or more swarming drones are deployed further from the aircraft and closer to the beam source. Prior to the aircraft's traversal of a determinable approach point, a plurality of swarming drones are pre-deployed in loitering mode or else launched, and are subsequently directed toward the reckoned source of a trained beam while skeining drones are pre-deployed in a patrol mode or else launched, and fly closer to the aircraft. The skein classically shields the cockpit by flying a controlled interference pattern roughly parallel to the aircraft flightpath while the swarm saturates one or more determined and dynamically redetermined regions athwart the beam source location.

Embodiments of the invention include a drone system or method for distracting a threat with a light source. In some embodiments, an environment can be scanned with a sensor that produces sensor data. A threat within the environment can be identified from the sensor data, and the location of the threat can be determined. The light source can be aimed toward the threat; and light may be directed from the light source toward the threat.

A portable charger that attaches to a cell phone case by the use of magnets and metal plates over molded into the plastic phone case and doubles as a passive self defence device with a strobe light and alarm.

A system for temporarily disabling selected occupants of an area includes one or more flashing units and one or more eye protection units. Each flashing unit includes a light source that generates flashes of light sufficiently bright to temporarily disable people who see the flashes. Each eye protection unit includes a shutter that blocks light while the flashes are being generated. Each flashing unit and each eye protection unit stores data that specifies when the flashes will occur, and are synchronized with each other to ensure that the shutters are closed during each flash. A controller in each flashing unit and a controller in each eye protection unit is configured to change, at coordinated times, the data that specifies when the flashes will occur. In some embodiments, the light source comprises LEDs and the flashing units have heat sinks configured to absorb heat generated by the LEDs.

A device for nullifying images captured by drones utilizing a high power light to overexpose said images. One or more cameras installed in the device capture images of the area surrounding the device. Computer vision and deep learning are utilized to identify drones in the captured images. If a drone is identified, the location thereof is estimated. A high power light installed in the device is directed at the estimated location of the drone to overexpose any images that are being taken of the area around the device by the drone.

There is disclosed a flash device for selective activation where upon activation the device may emit at least 100,000 lumens, the flash device comprising, an operator interface, a power unit comprising an energy store, at least one light emission unit connected to the power unit and comprising an array of light emitting elements, a power converter unit for driving the array, a control unit operably connected to the at least one light emission unit, the control unit comprising a processor and being operably connected to the operator interface.

A visual obscurant system for obscuring object from an observer having a field of view (FOV) is disclosed. The system comprises a sensor for detecting characteristics that indicate a presence of the object, a light source for emitting light in an electromagnetic spectrum, a source, and a controller. The source releases an obscurant into atmosphere to create a cloud. The obscurant attenuates a portion of the electromagnetic spectrum. The cloud is positioned within the FOV of the observer so as to obscure the object when the light emitted from the light source is directed towards the cloud. The controller is in communication with at least the sensor and the source. The controller modulates the light source at a frequency sufficient such that the observer interprets the light as being constant when energized.

A multifunctional personal safety device includes a main body having an ergonomic gripping surface, and a finger trigger for selectively activating a non-contact deterrent unit and an active deterrent unit. The non-contact deterrent unit including a controller, memory, wireless communication unit, a siren, a light, a laser, and a camera. The information captured by the camera is stored in one or both of a removable media card and the onboard memory. The active deterrent unit includes an aerosol canister containing one or both of a chemical irritant or an inflammatory agent. A safety switch transitions between a locked and unlocked position wherein the finger trigger is selectively blocked and allowed to engage the aerosol canister, respectively.