A device for attracting wildlife is provided. The device generally comprises a shell having a plurality of compartments and at least one wildlife attractant. The shell may be rigid, soft, or a combination thereof. In some embodiments of the device, a bung may be used to allow a user to fill the compartments with a wildlife attractant of their choice. The combination of wildlife attractants used in the device may entice and/or ward wildlife to a particular area of an environment.

The invention provides an automatic launching system for simulated training ammunition. It can mimic the effect of explosive detonation in close quarters battles without causing any casualties, and can ignite the fuze and launch the simulated training ammunition without gunpowder involved. The technical solution of the invention is that: the automatic launching system for simulated training ammunition comprises a launcher, a controller and a simulated training ammunition loaded inside the launcher. The Simulated training ammunition comprises an outer shell, a core and a fuze structure at the bottom of the simulated training ammunition. The piston cylinder of the launcher comprises vents in the cylinder sidewall for communicating the cylinder cavity with the launcher cavity. The lower part of the cylinder is connected to a high-pressure gas holder through a pipeline and a normally closed solenoid valve. This invention can automatically identify the target and ignite the fuze and launch the simulated training ammunition after identifying the target, and mimic explosion effects. It uses no gunpowder, thus has no potential safety risks, and is safe, reliable, easy to operate, simple in structure, and suitable for civil production and manufacturing.

A cartridge incorporating a projectile assembly, the projectile assembly having a base, mid body component housing a marking powder and lighter metallic nose cap. The projectile's mid-body component undergoes wall failure at impact, the wall failure is induced as forward momentum of the base and other residual forces act to expel the marking powder from the projectile, the manner of ejection suspending a low density material with contrast dye, in the vicinity of the impact, providing a gunner with visual cue in regard to a projectile's impact location.

A cartridge incorporating a projectile assembly, the projectile assembly having a base, mid body component housing a marking powder and lighter metallic nose cap. The projectile's mid-body component undergoes wall failure at impact, the wall failure is induced as forward momentum of the base and other residual forces act to expel the marking powder from the projectile, the manner of ejection suspending a low density material with contrast dye, in the vicinity of the impact, providing a gunner with visual cue in regard to a projectile's impact location.

An airburst delivery system that may provide for effective delivery of firefighting material to forest fires. The system generally utilizes an explosive charge to detonate a frangible containment vessel filled with firefighting material above the earth and typically above fire in a forest canopy. The resulting expanding sphere of water and related shockwaves provides a multi-effect interaction with the fire resulting in multiple water soakings combined with the sue of the vacuum and compression created by the shockwave to starve the fire of fuel and oxygen.

Asteroid redirection and soft-landing systems are provided that use cosmic ray and muon-catalyzed micro-fusion. These systems include a micro-fusion propulsion system providing thrust for redirecting a small asteroid, as well as providing a particle cushion at a landing site for a soft-landing. The systems deploy deuterium-containing fuel material as a localized cloud interacting with incoming ambient cosmic rays to generate energetic fusion products. Dust or other particulate matter in the fuel material converts some cosmic rays into muons that also catalyze fusion. The fusion products provide thrusting upon the asteroid. The fusion products also aid deceleration of incoming asteroids to be mined for a soft landing upon a lunar or planetary surface.

Asteroid redirection and soft-landing systems are provided that use cosmic ray and muon-catalyzed micro-fusion. These systems include a micro-fusion propulsion system providing thrust for redirecting a small asteroid, as well as providing a particle cushion at a landing site for a soft-landing. The systems deploy deuterium-containing fuel material as a localized cloud interacting with incoming ambient cosmic rays to generate energetic fusion products. Dust or other particulate matter in the fuel material converts some cosmic rays into muons that also catalyze fusion. The fusion products provide thrusting upon the asteroid. The fusion products also aid deceleration of incoming asteroids to be mined for a soft landing upon a lunar or planetary surface.

A nonlethal projectile includes a debilitating material for immobilizing a target. The projectile is capable of self-separating or otherwise opening after launch by a launcher to release the debilitating material prior to impact with a target. The launcher is capable of initiating separation of the projectile. Opening may also be accomplished by a control circuit with a radio-frequency identification (RFID), where an RFID tag in the projectile causes the projectile to open at a user-specified distance from the launcher or by the force of launch on the projectile. A magazine may hold a plurality of projectiles and the various projectiles of the magazine may be configured to open at different distances and/or times after launch. The launcher may include a trigger and/or a safety switch to prevent the projectile from becoming armed until a certain parameter is met. The debilitating material may also be released through pores in the projectile.

A nonlethal projectile includes a debilitating material for immobilizing a target. The projectile is capable of self-separating or otherwise opening after launch by a launcher to release the debilitating material prior to impact with a target. The launcher is capable of initiating separation of the projectile. Opening may also be accomplished by a control circuit with a radio-frequency identification (RFID), where an RFID tag in the projectile causes the projectile to open at a user-specified distance from the launcher or by the force of launch on the projectile. A magazine may hold a plurality of projectiles and the various projectiles of the magazine may be configured to open at different distances and/or times after launch. The launcher may include a trigger and/or a safety switch to prevent the projectile from becoming armed until a certain parameter is met. The debilitating material may also be released through pores in the projectile.

A nonlethal projectile includes a debilitating material for immobilizing a target. The projectile is capable of self-separating or otherwise opening after launch by a launcher to release the debilitating material prior to impact with a target. The launcher is capable of initiating separation of the projectile. Opening may also be accomplished by a control circuit with a radio-frequency identification (RFID), where an RFID tag in the projectile causes the projectile to open at a user-specified distance from the launcher or by the force of launch on the projectile. A magazine may hold a plurality of projectiles and the various projectiles of the magazine may be configured to open at different distances and/or times after launch. The launcher may include a trigger and/or a safety switch to prevent the projectile from becoming armed until a certain parameter is met. The debilitating material may also be released through pores in the projectile.