AUGMENTED REALITY BASED HANDGUNS TARGETING SYSTEM

AUGMENTED REALITY BASED HANDGUNS TARGETING SYSTEM

A handgun shooter while in motion is unable to hold attention to the target and the point of impact continuously. In order to target more precisely, the shooter needs to stop for a moment, focus on the target and align the front and rear sights with the target, which normally means wasting valuable...

Ausführliche Beschreibung

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Bibliographische Detailangaben
Hauptverfasser: LELAS, KARLO, KRSTINIC, DAMIR, LELAS, IVAN
Format: Patent
Sprache:eng ; fre
Schlagworte:
AIMING
BLASTING
HEATING
LIGHTING
MECHANICAL ENGINEERING
OPTICAL ELEMENTS, SYSTEMS, OR APPARATUS
OPTICS
PHYSICS
WEAPON SIGHTS
WEAPONS
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Beschreibung
Zusammenfassung:A handgun shooter while in motion is unable to hold attention to the target and the point of impact continuously. In order to target more precisely, the shooter needs to stop for a moment, focus on the target and align the front and rear sights with the target, which normally means wasting valuable time. In bright light conditions, not even a built-in laser is of any help, since the laser point is hard to detect. This problem is solved by the augmented reality based handguns targeting system. The system utilises glasses (1) with built-in cameras (3) and a computer (4). Computer processing of the image obtained by cameras (3) discovers the point of impact. Before the shooter's eye, the reticle (12) is outlined on the transparent screen (5), marking the point of impact (16). The reticle on transparent screen (5) of glasses (1) is maintained continuously, as long as the weapon is directed in the watching direction, regardless of the shooter's other activities. The moment the shooter decides to shoot, the reticle marks the point of impact, enabling fast and intuitive shooting, requiring no repositioning of the weapon to the eye level and looking through the targeting devices. The system is used for handguns (6) equipped with a laser (7) and handguns (10) equipped with a camera (11). In handguns with built-in laser (7), the point of impact, marked with laser point (9), is detected by processing the image from cameras (3) on glasses (1). In handguns with built-in camera, the point of impact is detected by comparing images from camera (11) on the handgun (10) and cameras (3) on glasses (1). Le problème résolu par la présente invention est qu'un tireur à l'arme de poing qui est en mouvement est incapable de maintenir son attention sur la cible et le point d'impact de façon continue. Afin de viser plus précisément, le tireur doit s'arrêter un moment, mettre au point sur la cible et aligner les mires avant et arrière avec la cible, ce qui signifie normalement une perte de temps précieux. Dans des conditions fortement lumineuses, même un laser intégré n'est d'aucune aide, étant donné que le point laser est difficile à détecter. Ce problème est résolu par un système de visée d'armes de poing fondé sur la réalité augmentée. Le système utilise des lunettes (1) dotées de caméras intégrées (3) et un ordinateur (4). L'ordinateur traitant l'image obtenue par des caméras (3) découvre le point d'impact. Avant l'œil du tireur, le réticule (12) est mis en évidence sur l'écran t