ADAPTIVE TARGET TRAINING SYSTEM
There is provided an adaptive target training system, that comprises electronic target trainers with multicolor output areas and target areas within a defined area that are configured to be illuminated by target emitters in training scenarios. The target devices are configurable to provide training scenarios and in certain embodiments, gather metrics and interact with other devices through a network connection.
This application claims priority to U.S. Provisional Patent Application Ser. No. 62/103,978 filed Jan. 15, 2015, titled, “Adaptive Training Laser Target System,” the disclosure of which is fully incorporated herein by reference for all purposes.
DESCRIPTION OF THE INVENTION1. Field of the Invention
The present invention relates to systems and methods for increasing firearm and tactical proficiency while maintaining or improving safety, cost, speed, and reliability. More particularly, aspects of the invention address an integrated laser target training system with networked components, adaptive training capabilities, and metric tracking and reporting.
2. Background of the Invention
It is well known that to maintain and improve competence in handling and using firearms, continued training is necessary. Law enforcement officers, members of the military, and civilian weapon owners all frequently engage in “range time” to try to develop vital skills in safe weapons handling and accuracy during fire. As a result, the continued training process involves firing a live weapon repeatedly at a stationary target. The downsides to this training approach are evident. Ammunition cost is at an all-time high while the supply is at a historic low. Shooting live weapons requires a safe shooting range, and time and location can restrict training flexibility. Firing live weapons also subjects the weapons to expected wear and tear, further increasing maintenance costs. Even when prior art electronic targets are used in lieu of live fire practice, lack of flexibility further hampers the ability of the user to improve skill. Even more problematic, static targets used in weapons training such as simple paper targets or other unsophisticated electronic target areas leave it up to the shooter to track results and attempt to determine how to improve performance. Further still, the environment of a shooting range also makes it difficult for weapon holders to practice important skills in multiple target acquisition and tracking, and unsophisticated electronic targets fail to provide necessary configuration and tracking to allow users to improve vital skills.
SUMMARY OF THE INVENTIONOne aspect of the present invention provides a system to increase firearm and tactical proficiency while maintaining or improving safety, cost, speed, and reliability. Additionally, the current geopolitical climate creates a need for a training system that is able to adapt to ever more complex scenarios. Embodiments of the present system can be configured to adapt to any users training requirements while leaving room for expansion, thus allowing users to scale the system from small to vast deployments. The present invention allows users in different geographical locations to train together, or in competition with one another which is not a possibility with any prior live or dry fire training system. Embodiments of the present invention also have a full color display and sensor array that are user configurable allowing trainees to have rich, engaging, and dynamic experiences. Components of the present invention may or may not be wirelessly connected using a network protocol, and in certain embodiments, mesh network technologies are utilized to configure the present invention, using protocols such as WI-FI, Bluetooth, ZigBee, FM, Microwave, or others. Using such networked embodiments, the present invention provides unidirectional and/or bidirectional communication for control and data acquisition.
Embodiments of this invention may include a target trainer that includes of an array of LED's and an array of sensors co-occupying a defined target/display area. Exemplary target trainers of the present invention include an onboard processor, wireless functionality, battery, battery management system, and user interface. The target trainers may include wireless charging, extendable batteries, and mounting/connection options. Various embodiments of the target trainers may contain multicolor display elements and sensors for detecting one or more of a user position, motion, and distance and or location of the user in relation to aspects of the system.
Laser emitting devices that comprise aspects of the present system may include batteries, wireless charging, processors, and wireless communication. Aspects of laser emitting devices of the present invention track metrics using onboard and external sensor networks. Embodiments of laser emitting devices of the present invention may be configured to include hardware and control components to generate simulated recoil through electrical or mechanical means.
Expanded modules for the system of the present invention include the capability to control and interact with robotic motion systems, ambient environment detection, building automation integration, and hardware and software to gather statistics in a network configuration.
One preferred embodiment of an aspect of the present invention may be referred to as the “ATLAS-08.” The ATLAS-08 is a fully programmable adaptive laser training target; users have full control over the 64 full color pixels and sensor array. The ATLAS-08 can detect red, green, blue, and infrared laser emitters while differentiating between lasers and flashlights to enable true low/no light training scenarios.
Designed to meet IP67 standards for dust immunity and water submersion down to 1 meter these rugged targets can follow the user into the field to take dry-fire training outdoors. ATLAS-08 targets are wireless enabled and can be easily deployed in large scale operations to create sophisticated training environments. ATLAS-08 targets are capable of interfacing with WiFi and Bluetooth LE in conjunction with extended range mesh networking provides a robust solution for any scale deployment. In addition to wireless loading, training programs can be loaded onto the target trainer device and operated via the on-board navigation buttons if operation from a PC/Mobile device is not an option or is otherwise undesirable.
Through use of a mobile or desktop application, the user can control the training environment while also receiving real time feedback (Draw stroke, split times, accuracy, etc.). Metrics can be tracked over time (optional) providing users with a real data set to track their progress and ensure that they are operating at the peak of their skill set. The on-board rechargeable battery in one embodiment provides for up to eight hours of training and can be recharged in under three hours through either USB or charging cradle.
The ATLAS-08 trainer target includes a ¼-20 UNC mount on the bottom of the device for mounting to tripods, RAM mounts, or any standard camera mounts to give the user an ability to mount your trainers to suit the user's individual needs.
A more complete understanding of the present invention may be derived by referring to the detailed description and claims when considered in connection with the following illustrative figures. Unless indicated otherwise herein, identical reference numerals between figures illustrate the same or similar components between the provided views.
Both the foregoing summary and the following detailed description are exemplary and explanatory only and are not restrictive of the invention as claimed. When referring to aspects of the present invention, the terms “electronic target” and “target trainers” or simply “targets” may be used interchangeably within context.
There is provided an adaptive electronic target training system. A target trainer interacts with an emitter device as components of a more comprehensive system as shown in
A target trainer of the present invention is depicted in
Additional views of a target trainer of the present invention are shown in
Target trainer 100A is shown as not connected to any peer devices, but can be connected through network 1100 to a server 1130, which is configured to accept performance data and metrics collected by the target trainer 100A, and can provide configuration data to be downloaded to provision the target trainer 100A with operating software/firmware along with configuration data for a training session. Metrics gathered and stored by target trainer 100A (or any of the target trainers 100A, 100B, 100C) may be relayed and stored in the sever 1130, which may also comprise a portable hub.
Multiple target trainers may also be interconnected in any desired manner, such as a star configuration 1100B, or a mesh configuration 1100C. By interconnecting target trainers 100C as mesh peer devices 1100C or trainers 100B in a central star configuration 1100B, a peer or master-slave arrangement can provide methods to relay information between devices so that a multiple target scenarios can be configured. In such a manner, a person undergoing training can be provided multiple target trainer devices along with programmed challenges to use an emitter device to illuminate particular targets in particular sequences; accordingly, metrics can be tracked to monitor the shooter's performance.
The system 1110 is also shown to be in wireless communication with mobile devices 1120, 1130, in which software applications are installed. The mobile devices 1120, 1130, which may comprise smart phones executing iOS, Android, or any desired operating system, are configured by the installed software to control target trainers 100A, 1008, or 100C, to configure and/or initiate training sessions, gather metrics, or any other function to control desired training scenarios.
Exemplary Target Trainer Interaction with Laser Emitters
Referring to the various figures and
Exemplary Training Modes
Embodiments of systems of the present invention are configured to allow multiple training modes and scenarios to be implemented. Exemplary scenarios are provided below.
Reaction Mode
This training mode is designed to be used for the improvement of the trainee's users draw stroke, reaction speed, and split times (when using multiple targets). This mode when a user is practicing draw from concealment, testing new equipment for the right adjustment and placement, or to build general muscle memory and form. Tracking metrics in this mode can provide a historical data set to visualize muscle memory improvement and draw stroke refinement over time.
Trainee Starts with an UNLOADED or INERT training handgun in a holster or an UNLOADED or INERT training long gun at a low-ready stance.
Trainee Initiates the Reaction mode and waits for a visual and/or audible prompt to engage target.
A successful hit on the target within the ‘Hit’ region will stop the timer and record the Metrics.
Hostage Mode
This mode encourages the trainee to make quick decisions as to which targets should or should not be engaged, combined with the need to place precise shots on the appropriate areas of the target. This mode is designed to increase speed of target recognition and requires the trainee to practice adjusting for Height-Over-Bore at varying distances. Metrics can be tracked in this mode to know split times, reaction speed, overall accuracy, number of ‘shoot’ vs ‘no-shoot’ areas struck.
Trainee Starts with an UNLOADED or INERT training handgun in a holster or an UNLOADED or INERT training long gun at a low-ready stance.
Trainee Initiates the Hostage mode and waits for a visual and/or audible prompt to engage target.
A successful hit on the target within the ‘Hit’ region will stop the timer and record the Metrics.
Color of ‘hit’ and ‘no-hit’ regions is at user's discretion.
Memory Mode
This mode is designed to improve cognitive function and memory by making the trainee memorize a sequence of colors, the trainee must then engage the targets in the correct sequence in order to pass; hitting an incorrect color will fail the trainee. This mode can be run on multiple targets and include stationary/moving targets to increase difficulty.
Trainee Starts with an UNLOADED or INERT training handgun in a holster or an UNLOADED or INERT training long gun at a low-ready stance.
Trainee Initiates the Memory mode and waits for a visual and/or audible prompt. The target will cycle through three colors with an associated auto prompt; these colors must be remembered in the correct order.
The target will illuminate with several colored boxes and each box must be hit in the correct color sequence to pass.
Crowd Mode
When confronted with confusing and constantly evolving situations the correct response is not always to shoot. This mode is designed to test trainees with numerous targets that will change over time, the trainee must assess targets not only by the color but minor differentiating features to determine if they are ‘hostile’ , ‘friendly’, or ‘neutral’ and engage accordingly. Targets can be set to update randomly or change in response to feedback from trainees to create a realistic crowd environment and increase trainees ability to assess evolving situations with multiple targets.
Trainee Starts with an UNLOADED or INERT training handgun in a holster or an UNLOADED or INERT training long gun at a low-ready stance
Trainee Initiates the Crowd mode and waits for a visual and/or audible prompt to engage targets.
Hits on “Hostile”, “Friendly”, and “Neutral” are recorded. Method of completing training mode can be user-set (I.e. end on “Friendly” hit, end on X “Hostile” hits, etc.)
Shot Placement Modes
This mode is designed to give real time feedback of shot-placement and group size, targets can be configured to give a visual prompt indicating “Threat” or “Non-Threat” or no visual prompt prior to engaging the target. Shot placement can be displayed in real-time or set to display after the training has finished if instant feedback is not desired. Shot placement can be displayed in solid colors, colored according to distance from center, or visualized as a “Heat Map” to show historical patterns. Metrics can be tracked over time and visualized to show form improvement, trigger discipline, and grip patterns over time.
Trainee Starts with an UNLOADED or INERT training handgun in a holster or an UNLOADED or INERT training long gun at a low-ready stance.
Trainee Initiates the Accuracy Mode and waits for a visual and/or audible prompt to engage target.
A hit on the target will display where the shot would have impacted. Visual feedback can be in real-time or after-action at the discretion of the trainee.
Trainees can visualize their shot placement in a “Heat Map” mode to show more detailed weapon manipulation habits.
Multiple-Hit Scenarios
This mode is designed to practice placing multiple shots on multiple targets this mode can display a number from 0-9 and must be hit that number of times as quickly as possible. The targets can also be set to display a shape and conceal the number of hits required from the trainee to add a level of uncertainty; they will visually and/or audibly alert the trainee that the target was struck the correct number of times. Multiple trainers can be deployed that require the trainee to engage them from left to right, right to left, in another specific pattern, randomly, or at their discretion. Metrics tracked in this mode are used to analyze the trainee's response time, split times, trigger control, and their ability to respond to changing situations.
Trainee Starts with an UNLOADED or INERT training handgun in a holster or an UNLOADED or INERT training long gun at a low-ready stance.
Trainee Initiates the Multiple Shot Mode and waits for a visual and/or audible prompt to engage target.
A hit on the target will generate an audible and/or visual feedback to alert that it was struck, once the target has been engaged the correct number of times a visual and/or audible response will be generated depending on how the training is configured.
Numbers can be scaled to different sizes and colors to suit training environment
The particular implementations shown and described above are illustrative of the invention and its best mode and are not intended to otherwise limit the scope of the present invention in any way. Indeed, for the sake of brevity, conventional data storage, data transmission, and other functional aspects of the systems may not be described in detail. Methods illustrated in the various figures may include more, fewer, or other steps. Additionally, steps may be performed in any suitable order without departing from the scope of the invention. Furthermore, the connecting lines shown in the various figures are intended to represent exemplary functional relationships and/or physical couplings between the various elements. Many alternative or additional functional relationships or physical connections may be present in a practical system.
Changes and modifications may be made to the disclosed embodiments without departing from the scope of the present invention. These and other changes or modifications are intended to be included within the scope of the present invention, as expressed in the following claims.
Claims
1. A system comprising: illuminate one or more light generating devices within the display/target area of the target trainer device to provide input to a trainee; monitor light strikes received by light sensors within the display/target area; and track performance of a trainee with respect to performance criteria established for a target scenario.
- a target trainer device, comprising: a display/target area having an array of LED's and an array of sensors co-occupying a defined area; an onboard processor; non-volatile memory; a wireless transceiver circuit, a battery and battery management system; and user interface;
- wherein the target trainer device is configured to interact wirelessly with one of a network hub/server, a mobile communication device, and a second target trainer device;
- wherein the onboard processor is configured to execute software instructions to:
2. An electronic target for firearms training, comprising:
- an array of individually addressable zones, each said zone may be capable of detecting visible or invisible light and displaying hits or other data through a visible or invisible light emitting element;
- wherein:
- said visible elements are capable of producing multiple wavelengths of light;
- said visible elements may display static or animated images;
- said images may span one or more said electronic targets;
- said electronic target may be capable of display while simultaneously sensing external events;
- said external events may be specific to sensors in a specific zone on said device, or said external events may be specific to the device and not to a zone on the device
- said external events may be visible or invisible light
- said visible or invisible light may have data encoded within it for purposes of distinguishing between one or more sources striking said electronic target, or said external events may be pressure applied to a said addressable zone, or said external events may be sound, or said external events may be acceleration applied to said electronic target, or said external events may be distance to said electronic target, and distance to said electronic target may be used as an aid to placement of electronic target
- said external events may be a data transmitted wirelessly from an emitter manipulated by the operator, or
- said external events may be sensor or other data transmitted from another electronic target or network device which may communicate over wires or wirelessly with said electronic target, and
- said electronic target may react differently depending on the type of said external events being sensed, and
- said electronic target may react differently depending on the data that may be encoded within said external event.
3. The electronic target of claim 2, further comprising:
- said electronic target may be capable of storing metrics related to accuracy and speed, and said metrics may be for one operator or multiple operators, and
- said electronic target may display these metrics on said electronic target, and
- said electronic target may be capable of transmitting metrics related to accuracy and speed to an external device or network for storage or analysis
- said electronic target may be capable of having new training scenarios and modes loaded onto it either through wires or wirelessly, and
- said electronic target may be capable of displaying other information such as time, date or images when not being used for firearms training, and
- said electronic target may be capable of displaying “hits” in a different addressable zone than the one that detected the “hit” to simulate the effects of environmental factors such as gravity or wind, and
- said electronic target may have the ability to display images which are to be “hit” or “no hit” to condition operator to think before responding, and said electronic target may dynamically change display from “hit” to “no hit” or from “no hit” to “hit” to simulate rapidly changing circumstances.
Type: Application
Filed: Jan 14, 2016
Publication Date: Aug 25, 2016
Inventors: Philip Ian Haasnoot (Chndler, AZ), Corey Thomas Renner (Chandler, AZ), Richard Darienzo (Patchogue, NY)
Application Number: 14/996,098