Abstract: A firearm training system provides a firearm body having a trigger and a trigger pull sensor circuit. When the trigger is pulled, the trigger pull sensor circuit provides trigger pull data allowing monitoring of the actual two-dimensional trigger pull path taken by the trigger during the trigger pull. The trigger pull path is graft on a predetermined map together with boundary lines representing a predetermined difference threshold from ideal trigger pull data. The system provides a way to monitor trigger pull path to determine whether the trigger has been pulled laterally and/or the firearm body has moved with respect to a longitudinal axis of the firearm body during the trigger pull. By repeatedly monitoring trigger pulls using the system, a user can train to improve trigger pull technique.

Abstract: A target device is usable with a simulation system which includes a weapon simulator having a trigger, a chamber for firing a blank cartridge in response to the trigger, and a transmitter arranged to emit a light signal defining one or more activation codes of prescribed duration in response to the trigger. The target device includes a sensor array of photodiodes and a processor receiving output signals from the photodiodes. The processor determines that the sensor array has been hit by the weapon simulator in response to a first portion of one activation code being received by one of the photodiodes and at least one second portion of the same activation code being received by the same or a different one of the photodiodes when the first portion and the at least one second portion correspond to an entirety of one activation code within the respective prescribed duration.

Abstract: A system and method uses three-dimensional, visual feedback for simulated weapons fire during training of a soldier in a combat exercise. In the system, the soldier is provided with a weapon equipped with a laser transmitter that simulates the firing of actual rounds. Further, sensors are positioned on a human target. Also, discharge members are located on the human target. When a signal is received by a sensor, selected discharge members are activated to immediately expel a plume of dust. As a result, the plume of expelled dust provides three-dimensional, visual feedback to the soldier in real-time. Additionally, the system contemplates providing three-dimensional, visual feedback from background surfaces and vehicles in the combat environment.

Abstract: Laser target practice using an ultra-violet light emitting laser that is pulsed on when a weapon trigger is pulled. The UV laser light pulse illuminates a spot on a target having a coating of phosphorescent material on a face thereof. The phosphorescent material within the illuminated spot glows for a certain time thereby visually indicating a location of the spot on the target. The UV laser light pulse may also illuminate a spot on a target having a photochromic paint coatings on a face thereof. The photochromic paint coatings within the illuminated spot changes color thereby indicating a location of the spot on the target.

Abstract: The present disclosure relates to an airburst simulation system and method. The airburst simulation system includes a laser emitting unit to emit laser beam to an airburst aiming position, preset above a target hidden behind an obstacle, such that a warhead is airbursted to shoot the target, a laser detecting unit mounted onto the target to detect an arrival of the laser beam above the target, and a determining unit to measure a distance between the airburst aiming position and an arrival position of the laser detected by the laser detecting unit, and determine whether or not the target has been shot based on the distance. This allows for a simulated engagement using an airburst apparatus, with no harm to human bodies by virtue of the use of laser.

Abstract: A target acquisition apparatus for use in association with a target, includes a weapon activation sensor, an image detector, a modulated light detector, a weapon processor, and a weapon transceiver for detecting activation of the weapon and producing a triggering signal. The weapon processor identifies a predetermined modulation characteristic from detected light radiation, identifies a predetermined spatial configuration within a predetermined portion of an acquired image, determines a local coordinate system, and produces a hit indication.

Abstract: A gun-resembling apparatus having a gunstock and a barrel, a sight aligned with the barrel, a trigger mounted along the gunstock, and image capturing features for capturing targeted images via operating the trigger and safety features incorporated with the image capturing features to teach the student proper gun-handling procedures. The device includes a camera to capture image(s) in a sight line of the barrel. The image(s) are displayed on a display screen for viewing and editing. The device also incorporates a safety switch having a safe and fire position, the camera being prohibited from operating in the safe position and being allowed to operate in the fire position. An alert signal may sound through a speaker if the trigger is not operated after a predetermined time of the safety switch being in the fire position. An image storage device may also be used.

Abstract: Immersive training scenario systems and related methods are provided. The immersive training scenario systems can provide at least one simulated structure. The at least one simulated structure can include a base structure having at least one surface thereon. One or more substrates with one or more photographic images printed thereon are applied to the surface of the base structure so that the simulated structure has realistic visual characteristics representative of a mission site or mission scenario.

Abstract: A firing apparatus includes a light generating device for emitting a modulated light beam that includes information regarding the firing apparatus upon triggering in a direction toward a target. Lens optics is positioned in a path of the modulated light beam including a one dimensional lens for beam shaping the modulated light beam to provide a shaped modulated beam including a low divergence horizontal beam portion and a vertically elongated beam portion. A combat training system includes a head mounted apparatus including at least one photodetector affixed. The vertically elongated beam portion allows the light beam generated by the firing apparatus to be aimed at the torso of the target and be detected by photodetectors that are exclusively on the helmet.

Abstract: A device includes a first light source to be aligned along a path of a projectile. The first light source has a narrow divergence to simulate the path of the projectile. A second light source has a vertically wide divergence extending above the path of the projectile. The first and second light sources are encoded and aligned to facilitate distinguishing between head and body shots using only head sensors.

Abstract: The system and method to advance human performance in sighting, tracking, recognizing, and reacting to (collectively “engaging”) moving and stationary objects, for example, advancing skill in engaging targets with a firearm. System components include software and hardware that provide target and non-target image stimuli that can be manually or automatically generated as stationary or moving stimuli in a blank or a rendered scene environment. The methods including increase stimuli movement speeds and/or reducing the interval between or the time for which stimuli are displayed until the trainee fails to properly engage the stimuli, then reduce the movement speeds and/or increase the interval time to levels at which the trainee properly engages the stimuli. By repeating training methods with increasing speed, the trainee will be conditioned to achieve proper stimuli engagement with increasingly elevated speed and accuracy.

Abstract: A system and method calculate a range and velocity of an object in image data. The range calculation includes detecting a contour of the object from the image data, forming a template from the image data based on the contour; and calculating a range to the object using pixel resolution and dimension statistics of the object. A three-dimensional velocity of the object is determined by calculating a radial component and an angular component of the velocity. The radial velocity component is calculated by determining the range of the object in two or more image frames, determining a time differential between the two or more image frames, and calculating the radial velocity as a function of the range of the object in the two or more image frames and the time differential between the two or more image frames. The angular component is calculated using spatial-temporal derivatives as a function of a motion constraint equation.

Abstract: A simulated weapon for simulating projectiles fired at a target includes a firearm housing and an optical transmitter. The firearm housing is configured to be aimed at the target by a gunner. The optical transmitter is mechanically coupled to the firearm housing and is configured to transmit an optical beam that simulates a projectile. The optical transmitter includes an optical generator for generating the optical beam and a beam shaping element operatively positioned to receive the optical beam from the optical generator. The beam shaping element is configured to adjust an intensity profile of the optical beam that is incident upon the target so that a first portion of the optical beam simulates a trajectory of a projectile and a second portion of the optical beam has a greater divergence than the first portion of the optical beam.

Abstract: An analog ballistic system calculator for long range shooting is constructed of a pair of rugged, waterproof rotatable transparent discs superimposed over a base member on one side and a single transparent rotatable disc on the opposite side of the base. The hand held calculator device provides a wind speed and direction and air temperature adjusted calculator device for long distance rifles.

Abstract: A system and method uses three-dimensional, visual feedback for simulated weapons fire during training of a soldier in a combat exercise. In the system, the soldier is provided with a weapon equipped with a laser transmitter that simulates the firing of actual rounds. Further, sensors are positioned on a human target. Also, discharge members are located on the human target. When a signal is received by a sensor, selected discharge members are activated to immediately expel a plume of dust. As a result, the plume of expelled dust provides three-dimensional, visual feedback to the soldier in real-time.

Abstract: Provided is a firing weapon simulation system simulating leading firing. The firing weapon simulation system is configured to include laser firing apparatus mounted on a firing weapon and a target sensing apparatus attached to a target. The laser firing apparatus includes a first control unit, a firing switch which is driven cooperatively with firing of the firing weapon, an image processing unit which measuring a leading angle from an image including the moving target, a first GPS receiver, a laser beam firer, and a motor assembly which rotates the laser beam firer. When the firing switch is switched on, the first control unit generates the firing data, allows the motor assembly to reversely rotate the laser beam firer by a measured value of the leading angle, and allows the laser beam firer to emit the laser beam carrying the firing data.

Abstract: A live-fire simulation system uses a position sensitive detector (PSD) in a weapon-mounted sensor to intercept emitted light from target emitters spatially distributed about a target. Each target emitter is modulated with a unique frequency. The system can thus not only determine the points of interception on the PSD but also determine which emitter caused which interception by using a frequency analysis.

Abstract: Laser target practice using an ultra-violet light emitting laser that is pulsed on when a weapon trigger is pulled. The LTV laser light pulse illuminates a spot on a target having a phosphorus coating on a face thereof. The phosphorus within the illuminated spot glows for a certain time thereby visually indicating a location of the spot on the target. The UV laser light pulse may also illuminate a spot on a target having a photochromic paint coatings on a face thereof. The photochromic paint coatings within the illuminated spot changes color thereby indicating a location of the spot on the target.

Abstract: A device for a toy gun is adapted for connection to the front end of the barrel of a toy gun. The device comprises a laser unit including a sighting means and a firing means, so that the firing accuracy of the toy gun can be increased. Also, the device can measure the speed of a projectile fired from the toy gun, the total number of projectiles that have been fired from the toy gun, so that a player can adjust the toy gun or replace the magazine of projectiles at an appropriate time.

Abstract: A method and system for a projectile training system that automatically predicts a ballistics solution based upon automatically-gathered meteorological and distance information is disclosed. The projectile training system also confirms that manual efforts performed by an operator to adjust the sight turrets would or would not result in a hit and/or kill of the target. Both adjustment of the turrets and aim of weapon is automatically gathered in a determination of whether there was a hit, kill, miss, or near miss. A light or other signal is sent from the weapon toward the target to indicate a shot was sent by the weapon.

Abstract: A system and method for an automated improvised explosive device training is disclosed. According to one embodiment of the present invention, the system utilizes an IED mock-up that embeds a processor and wireless modem. A separate processor and wireless modem is embedded in a trainee unit. A wireless network interface is provided, allowing for communication between the IED and trainee processors. Upon a simulated detonation, the IED processor queries each trainee unit for their current position using a wireless local area network message. The IED processor is configured to determine distance differentiation and casualty assessment data based on received signal strength of exchanged wireless messages or GPS coordinates. The trainee processor is configured to automatically signal casualty status to the trainee based on casualty assessment data.

Abstract: The system and method to advance human performance in sighting, tracking, recognizing, and reacting to (collectively “engaging”) moving and stationary objects, for example, advancing skill in engaging targets with a firearm. System components include software and hardware that provide target and non-target image stimuli that can be manually or automatically generated as stationary or moving stimuli in a blank or a rendered scene environment. The methods including increase stimuli movement speeds and/or reducing the interval between or the time for which stimuli are displayed until the trainee fails to properly engage the stimuli, then reduce the movement speeds and/or increase the interval time to levels at which the trainee properly engages the stimuli. By repeating training methods with increasing speed, the trainee will be conditioned to achieve proper stimuli engagement with increasingly elevated speed and accuracy.

Abstract: A system for aligning a simulator arranged for firing a mounted on a weapon. The simulator has a radiation source arranged so as to emit a beam along a simulation axis, and for adjusting the simulation axis so that it is aligned with the weapon sight. The system includes a sighting mark at which the weapon sight is to be aimed during alignment, and a device arranged in connection with the sighting mark to emit beam along an axis representing an aligned simulation axis. The system further includes an aligning unit that is deployable at the simulator and in which at least a first part of the beam from the element is reflected along an axis representing the current position of the simulation axis.

Abstract: A set of light generating devices provide simultaneously emission of a first modulated light beam and at least a second modulated light beam. The set of light generating devices are positioned so that their respective light beams are incident on the scanning mirror at different elevation angles. A photodetector detects reflected light from the target. A simulation controller is coupled to receive data obtained from the reflected light to generate a scan control signal based on the receive data and a projectile trajectory path for the projectile to the target. The scan control signal sequentially scans the elevation angle of the scanning mirror so that the respective light beams simultaneously scan different sectors of the simulated trajectory path to obtain a simulation that represents the projectile trajectory path.

Abstract: A simulated weapon for simulating projectiles fired at a target includes a firearm housing and an optical transmitter. The firearm housing is configured to be aimed at the target by a gunner. The optical transmitter is mechanically coupled to the firearm housing and is configured to transmit an optical beam that simulates a projectile. The optical transmitter includes an optical generator for generating the optical beam and a beam shaping element operatively positioned to receive the optical beam from the optical generator. The beam shaping element is configured to adjust an intensity profile of the optical beam that is incident upon the target so that a first portion of the optical beam simulates a trajectory of a projectile and a second portion of the optical beam has a greater divergence than the first portion of the optical beam.

Abstract: A system and method uses three-dimensional, visual feedback for simulated weapons fire during training of a soldier in a combat exercise. In the system, the soldier is provided with a weapon equipped with a laser transmitter that simulates the firing of actual rounds. Further, sensors are positioned on a human target. Also, discharge members are located on the human target. When a signal is received by a sensor, selected discharge members are activated to immediately expel a plume of dust. As a result, the plume of expelled dust provides three-dimensional, visual feedback to the soldier in real-time.

Abstract: A hit detection system including: a simulated weapon, a laser attached to the simulated weapon, a full screen projector projecting an image on a screen, a screen for target depiction and making a laser footprint visible to a hit-detection camera, at least a first hit detection camera being a high precision camera that is capable of detecting a laser footprint and generating hit detection data, a simulation computer in operative connection with the full screen projector and the hit detection camera, a link between a trigger on the simulated weapon and the first hit detection camera, a data storage means for storing hit detection data generated by the first hit detection camera, so that, in use, when a trigger on the simulated weapon is pulled to activate the laser a laser footprint is projected onto the screen and at the same time the hit detection camera takes an image of the laser footprint on the screen.

Abstract: A method and system for a projectile training system that automatically predicts a ballistics solution based upon automatically-gathered meteorological and distance information is disclosed. The projectile training system also confirms that manual efforts performed by an operator to adjust the sight turrets would or would not result in a hit and/or kill of the target. Both adjustment of the turrets and aim of weapon is automatically gathered in a determination of whether there was a hit, kill, miss, or near miss. A light or other signal is sent from the weapon toward the target to indicate a shot was sent by the weapon.

Abstract: A device includes a first light source to be aligned along a path of a projectile. The first light source has a narrow divergence to simulate the path of the projectile. A second light source has a vertically wide divergence extending above the path of the projectile. The first and second light sources are encoded and aligned to facilitate distinguishing between head and body shots using only head sensors.

Abstract: A personal under fire trainer includes a harness holding a wireless receiver and plural electrode leads. The harness can be donned by a trainee and the leads connected to electrodes attached to the trainee's body. A trainer can operate a remote transmitter to send a signal to the receiver, activating one or more electrodes which contract the trainee's muscles, forcing the trainee to react under simulated gun fight conditions while receiving simulated gunshot wounds.

Abstract: An apparatus for communicating simulation data is disclosed. The apparatus includes an assembly for mounting the apparatus on an edifice. The apparatus further includes a receiver for receiving simulation data from a plurality of players within a specified area of the edifice and for receiving simulation data from a central controller. The apparatus further includes a transmitter for transmitting simulation data to the plurality of players and to the central controller, wherein simulation data is transmitted to the central controller only when a simulation event occurs. In one alternative, the apparatus further includes an infrared camera for capturing video and still images of simulation events. In another alternative, the apparatus includes an infrared radiator for producing infrared light for illuminating video and still images captured by the infrared camera.

Abstract: An exemplary embodiment of the invention relates to an infrared weapon aimpoint and triggering detection system that includes an IRED that is modulated in two modes for training and evaluating first responders who are required to enter buildings and raid houses. The IRED mode is either an aiming mode or a triggered mode. The triggered mode is initiated for a short period when the weapon is fired as sensed by a recoil sensing mechanism. An IRED detector and controller sense and process the signal, and may provide output to an instructor, evaluator or a target controller to control the behavior of a target.

Abstract: A weapon simulation system is used to correct the misalignment between a laser of a simulated weapon and an aim point of the simulated weapon. A compensation offset profile and a compensation angle profile are stored in a weapon controller card in the simulated weapon identifying the misalignment of the laser module in the corresponding simulated weapon. The compensation offset profile and compensation angle profile is transmitted from the weapon controller card to a central computer, where the central computer calculates the aim point of the simulated weapon using said compensation offset profile and said compensation angle profile from said weapon controller card. The position of the simulated weapon with respect to a screen of the weapon simulation system is further calculated using an RFID reader in electrical communication with the weapon controller card and at least one RFID tag positioned in a fire line mat, which transmits the position information to said central computer.

Abstract: The present invention is related to a simulated firing system, which is comprising; a firing control terminal being inputted information of start firing and a target through an input device of a range supervisor; a range management server, which converts the information of the start firing and the target received from the firing control terminal to control signals of the start firing and the target; a target control device, which is automatically replaced a target corresponding to the inputted the target information in the firing control terminal when the target control signal is transmitted from the range management server; a shooter alerting terminal, which displays an image signal or alerts a sound signal through a video or audio units to start firing when the start firing signal received from the range management server; a target shooting camera, which is taking images of the target being pointed a laser beam fired from the shooter's gun in real time when the shooter has recognized a start firing signal t

Abstract: Firearm training systems and associated methods are provided. A firearm training system may include a firearm, a scope, a tracking system, and at least one controller. The scope may be mounted to the firearm, and the scope may include a display. The tracking system may be configured to collect information associated with a position and an orientation of the firearm. The at least one controller may be configured to (i) determine, based at least in part upon the information collected by the tracking component, a viewpoint of the firearm, (ii) determine, based at least in part upon the viewpoint of the firearm, image data to be rendered by the display, and (iii) direct output of the image data for receipt by the display.

Abstract: Methods and systems are provided for making more accurate range and marksmanship determinations in laser-based military engagements. These methods and systems allow a shooter and a target in a laser engagement system to be paired with one another in a substantially unambiguous manner. Such pairing allows the lasers to be used at full power and is particularly well suited for clustered environments in which multiple combatants may be in close proximity to one another. The methods and systems are also particularly well suited for testing new or experimental weapon systems by virtue of the more accurate range and marksmanship estimates provided.

Abstract: A firing apparatus includes a light generating device for emitting a modulated light beam that includes information regarding the firing apparatus upon triggering in a direction toward a target. Lens optics is positioned in a path of the modulated light beam including a one dimensional lens for beam shaping the modulated light beam to provide a shaped modulated beam including a low divergence horizontal beam portion and a vertically elongated beam portion. A combat training system includes a head mounted apparatus including at least one photodetector affixed. The vertically elongated beam portion allows the light beam generated by the firing apparatus to be aimed at the torso of the target and be detected by photodetectors that are exclusively on the helmet.

Abstract: A training target is described for electronically controlled devices or weapons such as a Taser® gun. The target includes a front sheet having an electrically conductive sheet positioned at the back side thereof with the target being in the shape of a substantially life-size human being. The image of the human being is printed on the front face of the front sheet. The sheets may be reversed so that the image is printed on the electronically conductive sheet.

Abstract: In one embodiment, an explosive device (IED) simulator usable with a laser detector is provided, the IED simulator comprising a laser transmitter and a first switch. The laser transmitter is capable of directing a laser signal to the laser detector, the laser signal comprising information readable by the laser detector, wherein the laser signal is designed to simulate at least a first type of explosion of an IED. The first switch is operably coupled to the laser transmitter, the first switch permitting a user to trigger the laser signal from the laser transmitter. The first type of explosion that is simulated can comprise at least one type selected from the group consisting of an indoor IED explosion, an outdoor IED explosion, a long range IED explosion, an IED explosion of 2 m to 5 m away from a target, an IED explosion of up to 600 m from a target, and an IED explosion having a predetermined kill pattern.

Abstract: An exemplary embodiment of the invention relates to an infrared weapon aimpoint and triggering detection system that includes an IRED that is modulated in two modes for training and evaluating first responders who are required to enter buildings and raid houses. The IRED mode is either an aiming mode or a triggered mode. The triggered mode is initiated for a short period when the weapon is fired as sensed by a recoil sensing mechanism. An IRED detector and controller sense and process the signal, and may provide output to an instructor, evaluator or a target controller to control the behavior of a target.

Abstract: A method and device for training persons to remain within a safety zone. An emitter establishes a safety zone that is not to be exceeded by the person, and an adjuster may be operatively connected to the emitter to adjust the size and position of the safety zone. A sensor is placed away from the emitter to indicate when the person moves outside of the safety zone. The method comprises activating the emitter and positioning the person within the safety zone. When the person nears the signal or exits the safety zone, an alarm is indicated to the person and/or a facilitator. Upon return to the safety zone, the alarm may be deactivated and the training procedure within the safety zone can continue.

Abstract: A system for transmission of information between at least two players in a training area comprises means on a first (1) of said players for encoding light pulses and means for transmitting information in the form of such coded light pulses towards at least one second (2-4) of said players, said second player having means for receiving said light pulses and means for decoding the information thereof. Each of said players is provided with a clock, and the system comprises means for keeping said clocks synchronized. The encoding means and the decoding means are adapted to utilize data of times of transmission and receipt of said light pulses for transmitting information from the first player to the second player.

Abstract: The invention provides a method for automatic calibration and subsequent correlation of the position of a pulsed laser on a projected image in a system having a projector for projecting images onto a surface and a camera for sensing laser pulses on the surface. The automatic calibration method sets the camera exposure, allowing the system to operate in normal room-lighting conditions, and correlates camera pixel positions to projected image pixel positions by use of projected calibration images formed by sets of horizontal and vertical lines, with automatic calibration completing in less than 5 seconds. After calibration, the system determines two-dimensional camera pixel centroids of laser beam pulses on the projection surface to sub-pixel accuracy, and the calibration data is used to correlate the camera pixel centroids to the exact positions of the laser pulses on the projected image.

Abstract: The invention described her falls in the class of training simulators designed for practicing of sharpshooter skills form light firearms. This training simulator is designed for both individual and group training with sniper rifles as well as other types of light firearms without using ammunition as well as to sustain the acquired sniper skills on a required high level. The training simulator supports shooting practice against stationary, mobile, close proximity, remote and very remote targets. The shots are emulated by sending a laser pulse along the target line that is accompanied by the sound in n the shooter's headphones. The training simulator is equipped with a computer and a high resolution TV camera, which registers the hit point of the laser beams on the targets, the optical axis of the TV camera and the projector are aligned with high precision. The performance results of the shooters are displayed in symbolic and digital formats on the individual computer screens in real time.

Abstract: Hand position monitoring systems and methods for use with firearms. The hand monitoring system monitors a hand position of a firearm user and includes a sensor assembly and a controller. The sensor assembly acquires hand position information (e.g., index or trigger finger position information) of a firearm user and electronically communicates the hand position information for review and/or analysis.

Abstract: For improved sniper training, a sniper skills training system is described. The sniper training system comprises a computer trainer station having a 3D rendering engine, a computer display, a trainer user interface module, at least one database, and a data storage; and a simulated rifle unit having a near-to-eye display and a hardware interface module, wherein the trainer station is interfaced with the simulated rifle unit to provide a simulated training scenario.

Abstract: A gun system including a gun directional receiver for directionally receiving a response light from a target emitter, wherein the response light includes an identification of the target emitter, and the gun system further including a gun emitter for broadly sending an identification light to a target receiver, wherein the identification light includes the target emitter identification.

Abstract: An optical system or assembly is formed of a plurality of optical sources (10, 12, 14) and components of different laser-based equipment systems. The sources and/or components may be combined and/or eliminated to reduce complexity, cost and/or overall weight of the system by consolidating multiple laser sources into a reduced number of sources, and by multiplexing (19) different wavelength signals over common carriers. A laser engagement system (12, 14) and an infrared aim light (10) (or infrared illuminator) are powered by a single laser source which is adopted for use with conventional equipment by lengthening the duration of the coded pulses emitted by the transmitter. The transmitter may be triggered in response to the heat and/or pressure generated by the blank upon firing. A visible bore light may be eliminated by connecting infrared and/or visible aim light (10) directly to a rifle barrel.

Abstract: According to one embodiment, a military training device includes a multiple integrated laser engagement system (MILES) device configured in a piece of apparel. The multiple integrated laser engagement system device includes a light transducing element coupled to an electrical circuit. The light transducing element transmits or receives multiple integrated laser engagement system compliant signals. The light transducing element is attached to an outer surface of the apparel and oriented so that a radiation pattern of the multiple integrated laser engagement system compliant signals is generated outwardly from the apparel during use.

Abstract: Hand position monitoring systems and methods for use with firearms. The hand monitoring system monitors a hand position of a firearm user and includes a sensor assembly and a controller. The sensor assembly acquires hand position information (e.g., index or trigger finger position information) of a firearm user and electronically communicates the hand position information for review and/or analysis.