The present invention relates to Small Arm Goggle scope System which the scope is view through the goggles by shooter to fire on a target with precision, accuracy and without looking directly through the scope using state of the art sensor technology.
A typical shooter has to look directly through the scope or small arm rear sight to fire on a target which can lead to being exposed when trying to shoot at a target. The shooter also relies on natural shooting techniques that can make a shooter inconstant and inaccurate which can cause the shooter to miss the target at higher rate. In order to improve a shooter accuracy, precision on hitting a target and a shooter having the ability to fire on a target without looking directly through the scope or small arms rear sight a system is need were smart eye wear and smart scopes are combine. The Small arm goggle scope system is just the idea system.
Small Arm Goggle Scope System is a system that combines state of the art smart eye wear such as Google glasses, smart rifle scope technology and micro camera technology which is attach to the rear sight of the smart scope. The Small Arm Goggle Scope System will allow a shooter to fire on a target that both eyes focus on. Rear sight Scope camera aligns with the smart eye wear sights when shooter eyes focus on target, this occurs using focus motion sensor that adjust with respect to the shooters eyes focal point once shooter aligned both sights using eye focal point with sensor motion interface, shooter than can fire once both crosshairs locked on targeted.
The Small Arm Goggle Scope system is a system that is comprised of a smart scope 23, smart eye wear 21 such as Google glasses and a micro digital camera 25 which is attach to the rear sight of the smart scope 23. The micro digital camera 25 transmits 37 the digital crosshair 34 of the smart scope 23 to the smart eye wear 21 receiver 26. Once the shooter activates the smart scope 23 the smart eye wear 21 is activated the micro digital camera 25 will automatically communicate the same display the smart scope 23 sees to the smart eye wear 21. Once the Shooter is seeing the smart scope 23 though the smart eye wear 21, the shooter sees the smart eye wear crosshair 35 which is controlled by the shooters eyes and the digital crosshair 34 of the smart scope 23, which is displayed by the micro digital camera 25. Hence the shooter must align the smart eye wear crosshair 35 and the digital crosshair 34 of the smart scope 23.
Once the smart eye wear crosshair 35 and the digital crosshair 34 of the smart scope 23 are aligned 36 the shooter can fire. Once the shooter has fired the shooter can either stay focus on the same target or focus on another target using the motion of shooters eyes using technology such as sensor eye motion interface technology. The Shooter can fire on a target using Small Arm Goggle Scope system without looking through the scope of the small arm. The Small Arm Goggle Scope system can easily be maintained by charging up or replacing the small power supply such as battery.
Number | Date | Country | |
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61689481 | Jun 2012 | US |