New targeting systems, hardware and techniques are provided, in which an auxiliary probe is first launched and deployed at a target. Extremely precise, deliberate targeting for future projectiles, weapons or non-lethal measures is then made relative to the position and orientation of the probe. In one embodiment, a system enables a sniper to plan measures with extreme precision within an environment, evaluate their effectiveness, and execute them extremely rapidly once satisfied. A user may create, set, adjust and execute Impact Point indicators, corresponding with projected points of impact of a projectile on a target subject within a target environment. The system may counteract and otherwise adjust for certain ballistic and environmental factors in a firing mechanism to maintain such an Impact Point fire ready, in real time. Yet the system is unobtrusive, allowing the user to engage ordinary targeting activity.

A method of achieving controlled, variable ballistic dispersion in an automatic weapon is disclosed includes providing a plurality of cartridges, where each cartridge has a case and a projectile partially inserted into a mouth of the case forming a circumferential joint between the projectile and the mouth of the cartridge and held therein at a different pull strength. The method also includes providing a plurality of adhesive sealants, where each adhesive sealant of the plurality of adhesive sealants sets a design bullet pull strength that is different from each other adhesive sealant.

A controllable firing pattern firearm system is described herein. The controllable firing pattern firearm system includes a firearm, one or more actuators for adjusting at least one of a position and orientation of the firearm, and a controller controlling the actuators to produce a designated firing pattern on a target as the firearm is fired. The controller receives several user inputs to generate the commands for the actuators to produce the designated firing pattern, where the designated firing pattern may be a spiral firing pattern. The user provides input through a control panel having several control input mechanisms. The user inputs include a firing pattern size or target diameter, projectile firing density, and a distance of a target from the firearm, among other inputs. A method is also described herein for firing a spiral firing pattern on a target with the controllable firing pattern firearm system.

New targeting systems, hardware and techniques are provided, in which an auxiliary probe is first launched and deployed at a target. Extremely precise, deliberate targeting for future projectiles, weapons or non-lethal measures is then made relative to the position and orientation of the probe. In one embodiment, a system enables a sniper to plan measures with extreme precision within an environment, evaluate their effectiveness, and execute them extremely rapidly once satisfied. A user may create, set, adjust and execute Impact Point indicators, corresponding with projected points of impact of a projectile on a target subject within a target environment. The system may counteract and otherwise adjust for certain ballistic and environmental factors in a firing mechanism to maintain such an Impact Point fire ready, in real time. Yet the system is unobtrusive, allowing the user to engage ordinary targeting activity.

A multi-mode and/or multi-ammunition weapon is described, whereupon being removed from a stored position is always initially in a first mode that is intended to disable or stun a subject. If deadly force is required, the weapon is easily and quickly placed in a second mode that is deadly. When returned to the stored position, the weapon is automatically placed in the first mode. Different mechanisms for disabling and/or stunning a subject are also described. A mechanism is optionally included for recording sequences of attack modes and/or ammunition types fired to provide an un-alterable record of events when the weapon is fired.

New targeting systems, hardware and techniques are provided. In a preferred embodiment, a system enables a sniper to, in effect, take a projected, trial shot at a subject within an environment, evaluate its effectiveness, and execute it if satisfied. A user may create, set, adjust and execute Impact Point indicators, corresponding with projected points of impact of a projectile on a target subject within a target environment. The system may counteract and otherwise adjust for certain ballistic and environmental factors in a firing mechanism to maintain such an Impact Point fire ready, in real time. Yet the system allows the user to continue to move the sight to engage in further targeting activity. In other aspects, the system may execute multiple impact points, together or in rapid succession, which impact points may surround, lead, cover or otherwise diversify their distribution about a targeting subject and/or its projected path.

A multi-mode and/or multi-ammunition weapon is described, whereupon being removed from a stored position is always initially in a first mode that is intended to disable or stun a subject. If deadly force is required, the weapon is easily and quickly placed in a second mode that is deadly. When returned to the stored position, the weapon is automatically placed in the first mode. Different mechanisms for disabling and/or stunning a subject are also described. A mechanism is optionally included for recording sequences of attack modes and/or ammunition types fired to provide an un-alterable record of events when the weapon is fired.