A smart aiming device for a firearm includes a processor, a memory, and sensors. The sensors include an inertial measurement unit (IMU) for measuring movement of the firearm; a trigger sensor for monitoring a depression of a trigger of the firearm; and an image sensor configured to capture images of a target region. During operation of the firearm, the sensors collect data and provide said data to the processor and memory for analysis and storage. The device further includes an optical window for viewing a target via at least one of an optical lens and a micro-display. The memory includes a non-transitory computer-readable medium storing therein instructions, that, when executed by the processor, causes the processor to provide feedback to a user regarding one or more techniques of firearm operation, based on analysis of the data collected by the plurality of sensors during operation of the firearm.
A smart aiming device includes an image sensor, a processor, and an adjustable reticle. A method of zeroing the smart aiming device includes: activating a dedicated zeroing mode: shooting at least one bullet on a zeroing target while aiming the firearm on the target using the reticle to determine an expected point of impact of the bullet on the zeroing target: imaging the zeroing target with the image sensor: identifying a location of at least one bullet hole formed by the bullet on the target, and calculating a distance between each bullet hole and the expected point of impact; and adjusting a location of the reticle respective to the bore of the firearm based on the calculated at least one distance, to thereby indicate a zeroed point of impact on the target on which a subsequent bullet shot from the firearm is expected to impact.
A firearm trigger control device, which is adapted to control the displacement of a firearm's trigger, such as to enable the discharge of a projectile upon receiving a firing signal (e.g., at a timing determined as optimal for hitting a designated target).
A telescopic sight for firearms including: magnifying elements disposed along a user optical path between an objective lens assembly and an ocular lens; an imaging system including an imaging sensor and an image processor; a digital optical augmentation (DOA) system disposed outside of the user optical path; at least one optical element adapted to: redirect a spectrum of incoming light from the objective lens assembly to the imaging sensor along a video optical path, redirect/reflect digital markings projected from the DOA system into the user optical path and disallow the projected digital markings from reaching the imaging sensor, and wherein the imaging system is adapted to capture and process imagery from the incoming light to provide image processing data.
F41G 1/38 - Telescopic sights specially adapted for smallarms or ordnance; Supports or mountings therefor
F41G 3/16 - Sighting devices adapted for indirect laying of fire
G02B 23/00 - Telescopes, e.g. binoculars; Periscopes; Instruments for viewing the inside of hollow bodies; Viewfinders; Optical aiming or sighting devices
G02B 23/12 - Telescopes, e.g. binoculars; Periscopes; Instruments for viewing the inside of hollow bodies; Viewfinders; Optical aiming or sighting devices with means for image conversion or intensification
5.
SYSTEMS AND METHODS FOR RESTRICTING A FIREARM TO LESS LETHAL SHOOTING
A system for restricting a firearm to less lethal shooting includes an image sensor, at least one non-transitory memory storing instructions, and at least one processor that executes the instructions to cause the performance of the following steps: processing images to detect potential targets within a scene; locking onto and tracking at least one of the potential targets; defining a safety line relative to the scene; defining one or more aiming regions on the at least one locked-on target below the safety line; and controlling discharge of the firearm, so as to permit discharge of the firearm when a projectile discharged from the firearm will impact the scene or the target at one of the defined aiming regions, and to prevent discharge of the firearm when a projectile discharged from the firearm will impact the scene or target outside one of the aiming regions.
A smart aiming device for a firearm includes a processor, a memory, and sensors. The sensors include an inertial measurement unit (IMU) for measuring movement of the firearm; a trigger sensor for monitoring a depression of a trigger of the firearm; and an image sensor configured to capture images of a target region. During operation of the firearm, the sensors collect data and provide said data to the processor and memory for analysis and storage. The device further includes an optical window for viewing a target via at least one of an optical lens and a micro-display. The memory includes a non-transitory computer-readable medium storing therein instructions, that, when executed by the processor, causes the processor to provide feedback to a user regarding one or more techniques of firearm operation, based on analysis of the data collected by the plurality of sensors during operation of the firearm.
A smart aiming device includes an image sensor, a processor, and an adjustable reticle. A method of zeroing the smart aiming device includes: activating a dedicated zeroing mode; shooting at least one bullet on a zeroing target while aiming the firearm on the target using the reticle to determine an expected point of impact of the bullet on the zeroing target; imaging the zeroing target with the image sensor; identifying a location of at least one bullet hole formed by the bullet on the target, and calculating a distance between each bullet hole and the expected point of impact; and adjusting a location of the reticle respective to the bore of the firearm based on the calculated at least one distance, to thereby indicate a zeroed point of impact on the target on which a subsequent bullet shot from the firearm is expected to impact.
A firearm trigger control device, which is adapted to control the displacement of a firearm's trigger, such as to enable the discharge of a projectile upon receiving a firing signal (e.g., at a timing determined as optimal for hitting a designated target).
A telescopic sight for firearms including: magnifying elements disposed along a user optical path between an objective lens assembly and an ocular lens; an imaging system including an imaging sensor and an image processor; a digital optical augmentation (DOA) system disposed outside of the user optical path; at least one optical element adapted to: redirect a spectrum of incoming light from the objective lens assembly to the imaging sensor along a video optical path, redirect/reflect digital markings projected from the DOA system into the user optical path and disallow the projected digital markings from reaching the imaging sensor, and wherein the imaging system is adapted to capture and process imagery from the incoming light to provide image processing data.
A weapon-mounted Fire Control System (FCS) for a handheld weapon includes an imaging sensor and a processing system configured to operate in two modes. In a first mode, for handheld operation of the weapon, the processing system tracks a target, determines an aim-region with which the weapon should be aligned for firing in order to strike the target, and generates an output to facilitate accurate firing of the weapon towards the aim region. The output may indicate the aim region on a display, and/or may control a firing control mechanism. In a second mode, when the weapon is on an adjustable weapon support, the processor tracks a target, determines an aim-region, and generates output signals for controlling operation of at least one actuator of the adjustable weapon support in order to align the weapon with the aim region.
A foldable support for aiming an aimable device, including:(a) a coupling arrangement adapted to releasably couple the aimable device thereto; (b) a foldable leg mechanically coupled to the coupling arrangement; (c) two linear actuators adapted to be angularly spaced apart, the two linear actuators adjustably coupled to the coupling arrangement; and (d) a collapsible reinforcement frame selectively providing rigid interconnection between bases of each of the two linear actuators and the foldable leg, and collapsible to provide a compact portable form of the support.
A weapon-mounted Fire Control System (FCS) for a handheld weapon includes an imaging sensor and a processing system configured to operate in two modes. In a first mode, for handheld operation of the weapon, the processing system tracks a target, determines an aim-region with which the weapon should be aligned for firing in order to strike the target, and generates an output to facilitate accurate firing of the weapon towards the aim region. The output may indicate the aim region on a display, and/or may control a firing control mechanism. In a second mode, when the weapon is on an adjustable weapon support, the processor tracks a target, determines an aim-region, and generates output signals for controlling operation of at least one actuator of the adjustable weapon support in order to align the weapon with the aim region.
A foldable support for aiming an aimable device, including: (a) a coupling arrangement adapted to releasably couple the aimable device thereto; (b) a foldable leg mechanically coupled to the coupling arrangement; (c) two linear actuators adapted to be angularly spaced apart, the two linear actuators adjustably coupled to the coupling arrangement; and (d) a collapsible reinforcement frame selectively providing rigid interconnection between bases of each of the two linear actuators and the foldable leg, and collapsible to provide a compact portable form of the support.
A laser system operationally coupled to an aimable device having a Line of Sight (LOS), and adapted for providing a graphic laser display, including: at least one laser source adapted to generate: a first laser output, displaying a fixed pattern at a hit point having a fixed orientation relative to an axis of the LOS of the aimable device, and a second laser output, forming the graphic laser display; a motion control mechanism adapted to direct at least the second laser output; a tracking system configured to track at least one target; and a processing unit, configured to receive tracking data relating to a location of the at least one target relative to the LOS of the aimable device and instruct the motion control mechanism to direct the second laser output to display the graphic laser display on the at least one target.
G06F 19/00 - Digital computing or data processing equipment or methods, specially adapted for specific applications (specially adapted for specific functions G06F 17/00;data processing systems or methods specially adapted for administrative, commercial, financial, managerial, supervisory or forecasting purposes G06Q;healthcare informatics G16H)
F41G 3/06 - Aiming or laying means with rangefinder
F41G 1/36 - Night sights, e.g. luminescent combined with light source, e.g. spot light with infrared light source
F41G 3/08 - Aiming or laying means with means for compensating for speed, direction, temperature, pressure, or humidity of the atmosphere
F41G 3/12 - Aiming or laying means with means for compensating for muzzle velocity or powder temperature
F41G 3/16 - Sighting devices adapted for indirect laying of fire
A laser system operationally coupled to an aimable device having a Line of Sight (LOS), and adapted for providing a graphic laser display, including: at least one laser source adapted to generate: a first laser output, displaying a fixed pattern at a hit point having a fixed orientation relative to an axis of the LOS of the aimable device, and a second laser output, forming the graphic laser display; a motion control mechanism adapted to direct at least the second laser output; a tracking system configured to track at least one target; and a processing unit, configured to receive tracking data relating to a location of the at feast one target relative to the LOS of the aimable device and instruct the motion control mechanism to direct the second laser output to display the graphic laser display on the at least one target.
A laser system operationally coupled to an aimable device having a Line of Sight (LOS), and adapted for providing a graphic laser display, including: at least one laser source adapted to generate: a first laser output, displaying a fixed pattern at a hit point having a fixed orientation relative to an axis of the LOS of the aimable device, and a second laser output, forming the graphic laser display; a motion control mechanism adapted to direct at least the second laser output; a tracking system configured to track at least one target; and a processing unit, configured to receive tracking data relating to a location of the at feast one target relative to the LOS of the aimable device and instruct the motion control mechanism to direct the second laser output to display the graphic laser display on the at least one target.
An aiming system of an aimable device includes a user display, an imaging system, user controls, a tracker, and a range finder such as a LRF. The imaging system displays, on the user display, an indicator of the direction in which the device points. The user uses the user controls to lock on a target towards which the device points according to the indicator. Then the tracker tracks the target, and the range finder measures the range to the tracked target. The tracker aims the range finder at the target, or alternatively scans the target and its background, one-dimensionally or two-dimensionally.
F41G 3/04 - Aiming or laying means for dispersing fire from a battery
F41G 3/12 - Aiming or laying means with means for compensating for muzzle velocity or powder temperature
F41G 3/16 - Sighting devices adapted for indirect laying of fire
G01S 7/48 - RADIO DIRECTION-FINDING; RADIO NAVIGATION; DETERMINING DISTANCE OR VELOCITY BY USE OF RADIO WAVES; LOCATING OR PRESENCE-DETECTING BY USE OF THE REFLECTION OR RERADIATION OF RADIO WAVES; ANALOGOUS ARRANGEMENTS USING OTHER WAVES - Details of systems according to groups , , of systems according to group
G01S 17/42 - Simultaneous measurement of distance and other coordinates
18.
FIREARM AIMING SYSTEM WITH RANGE FINDER, AND METHOD OF ACQUIRING A TARGET
An aiming system of an aimable device includes a user display, an imaging system, user controls, a tracker, and a range finder such as a LRF. The imaging system displays, on the user display, an indicator of the direction in which the device points. The user uses the user controls to lock on a target towards which the device points according to the indicator. Then the tracker tracks the target, and the range finder measures the range to the tracked target. The tracker aims the range finder at the target, or alternatively scans the target and its background, one-dimensionally or two- dimensionally.
An aiming system of an aimable device includes a user display, an imaging system, user controls, a tracker, and a range finder such as a LRF. The imaging system displays, on the user display, an indicator of the direction in which the device points. The user uses the user controls to lock on a target towards which the device points according to the indicator. Then the tracker tracks the target, and the range finder measures the range to the tracked target. The tracker aims the range finder at the target, or alternatively scans the target and its background, one-dimensionally or two- dimensionally.
A firearm aiming system comprising an imaging system comprising an imaging sensor and an image processor; and a user display, wherein the imaging system is adapted to detect a potential target on the user display based on target features. In some embodiments the system includes a firing processor with an epsilon logic module for calculating a target aim-point/area used by the firing processor to make a firing decision.
G06F 19/00 - Digital computing or data processing equipment or methods, specially adapted for specific applications (specially adapted for specific functions G06F 17/00;data processing systems or methods specially adapted for administrative, commercial, financial, managerial, supervisory or forecasting purposes G06Q;healthcare informatics G16H)
G06G 7/80 - Analogue computers for specific processes, systems, or devices, e.g. simulators for guiding missiles
A firearm aiming system comprising an imaging system comprising an imaging sensor and an image processor; and a user display, wherein the imaging system is adapted to detect a potential target on the user display based on target features. In some embodiments the system includes a firing processor with an epsilon logic module for calculating a target aim-point/area used by the firing processor to make a firing decision.
A firearm aiming system comprising an imaging system comprising an imaging sensor and an image processor; and a user display, wherein the imaging system is adapted to detect a potential target on the user display based on target features. In some embodiments the system includes a firing processor with an epsilon logic module for calculating a target aim-point/area used by the firing processor to make a firing decision.
patents
