ForgeFX Simulations  

San Francisco,  CA 
United States
http://www.forgefx.com
  • Booth: 3464


ForgeFX: Custom 3D Simulation Software Development

ForgeFX Simulations is a custom training simulation software development company. Founded in 2002, ForgeFX develops high-quality custom interactive 3D simulation and visualization software products for clients across a wide array of industries. Leveraging high-fidelity 3D graphics and modern game engine development tools, ForgeFX provides virtual and augmented reality application development services for clients who are looking to distribute interactive simulation-based training solutions, as well as machine learning development services applicable to a variety of different business processes.

Our training products, employed by industries including national defense, healthcare, pharmaceutical, insurance, mining, construction, and transportation, produce measurable improvements in trainee engagement and knowledge retention.


 Show Specials

  • Stop by our booth to see how we integrate a virtual reality environment with interactive hardware to provide a brand-new way to experience training. AccessReady Fusion XR™, is a cost-effective VR training simulator for booms and scissor lifts, that leverages cutting-edge technology to help trainees practice the hands-on skills they need in an immersive virtual environment. The JLG AccessReady XR™ Equipment Simulator helps operators to quickly, and safely, become comfortable and gain proficiency with equipment controls, allowing them to be better, faster, and safer operators in the real world. Virtual reality training rapidly translates into real-world knowledge, while decreasing trainee time to proficiency. 

    Reduced Training Costs: Advanced simulation-based training allows employees to train in a safe and risk-free virtual environment, reducing wear and tear on valuable physical equipment.
    Quality Practice Time: Increased virtual hands-on training reduces the time it takes to reach to proficiency. Real-world controls and simulator integration translates easily to machine knowledge.
    Skills Evaluation: Create and save custom training scenarios to test a variety of different skills and select the criteria important to your organization used to monitor trainee performance.


 Press Releases

  • UAS simulator gives JPEO-CBRND the ability to deploy simulation-based training to operators to master the controls and process involved in operating a UAV.

    SAN FRANCISCO, September 19, 2023 (EINPresswire.com) - This interactive 3D virtual training simulator is designed to instruct CBRND personnel in the remote operation of an Unmanned Aircraft System (UAS) from within a Nuclear Biological Chemical Reconnaissance Vehicle (NBCRV). Working directly with subject matter experts (SMEs) from the DoD and Teledyne FLIR, ForgeFX created digital replicas of their physical and virtual products, reproducing all the functions the physical objects perform. This simulator, running on a standard tablet computer, gives the JPEO-CBRND the ability to widely deploy simulation-based training to operators, who can master the complex controls and processes involved in operating a UAV and all of the onboard sensors it carries.

    The simulator recreates a CBRND reconnaissance mission featuring an NBCRV equipped with a sensor suite array and two pods, each containing a UAS. The UAS in the simulator is an R80D Skyraider drone carrying a MUVETM B330 Continuous Biological Detector and Collector payload, both manufactured by Teledyne FLIR. The Skyraider is launched from the NBCRV and directed into an area suspected to be contaminated by airborne substances. Operated by means of the ATAK application running on a tablet computer inside the NBCRV, the drone’s sensor payload helps the CBRND personnel triangulate on the position, speed, and contents of airborne contamination.

    The unmanned aerial system tele-operation training simulator includes four guided lessons and an unguided reconnaissance mission in which the techniques learned in the lessons are put to the test and the trainee’s performance is evaluated. Each lesson is methodical and interactive, simultaneously introducing the trainee to the placement and purpose of the controls while prompting them to perform the actions of the tasks. In this fashion the trainee is learning “on the job” with a skilled instructor.

    The first lesson introduces two main aspects of the user interface: the controls for operating the two UAS pods to prepare for launch, and the components for deploying and controlling the B330 sensor payload. Instructions include directing the user how to interpret atmospheric conditions which can potentially halt the mission, and how to read the B330 sensor status and collection results. After activating the B330, the user is guided to activate the pod camera and open the pod. The pod camera video feed is shown in an inset window, and the user is instructed to look for obstacles that might impede the launch. Finally, the user learns about advanced features of the B330 collector, including the direction to only turn on the collector when the UAS is at height, and what kind of readings to look for when collecting samples from an aerosol cloud.

    At the mission’s conclusion, trainees receive a detailed performance report, grading them on total mission time, total flight time, sample collection time, number of collisions, and distance traveled. Medals—ranging from gold to participation—are awarded based on performance, along with a percentage score. A link to a detailed report itemizes any errors that the trainee had made, such as failure to reset the baseline of the B330 sensor or failure to employ the forward camera before sending the UAS to a waypoint.

    With operator performance and expertise mission-critical factors in these types of CBRN surveillance missions, the real-time user performance analysis system likewise becomes a keystone component of the training simulator. By evaluating the trainee’s performance metrics, the system not only charts the user’s progress but also identifies specific areas for improvement, which results in actionable insights. Whether it’s adjusting flight patterns, understanding sensor readings, or maneuvering to avoid collisions, the feedback is tailored to guide and uplift each user’s proficiency. Performance analysis also helps to make the training more engaging. By providing real-time feedback and tracking the user’s progress, performance reports can create a sense of challenge and accomplishment. This can help to keep the user motivated and involved in the training. By intertwining state-of-the-art simulation with robust performance analysis, ForgeFX ensures that users of the Tele-Op Simulator are not just trained but are continually challenged and engaged, pushing the boundaries of their potential with every mission.

    Learn more about this unmanned aerial system training simulator:
    https://forgefx.com/simulation-projects/unmanned-vehicle-tele-operation-training-simulator/

  • Augmented Reality Simulators to Enhance Warfare Training for The Joint Project Lead for Chemical, Biological, Radiological and Nuclear Special Operations Forces

    Designated as Enhanced Warfare Augmented Training, the initiative puts comprehensive, hands-on device training in the reach of personnel who may not otherwise have access to the physical equipment.”
    — Greg Meyers

    SAN FRANCISCO, CALIFORNIA, UNITED STATES, November 22, 2022 /EINPresswire.com/ -- ForgeFX Simulations and MRIGlobal have partnered to develop a suite of augmented reality device training simulators for the Joint Project Lead for Chemical, Biological, Radiological, and Nuclear Special Operations Forces (JPL CBRN SOF). Created for the Microsoft HoloLens 2, the CBRND HoloTrainer instructs trainees in the familiarization, operation, and maintenance of CBRN devices by providing holographically-projected interactive 3D virtual versions of the equipment they need to learn to use.

    The CBRND HoloTrainer includes comprehensive training for several CBRN detection devices which locate and analyze chemical, biological, radiological, and nuclear hazards. For each device training module, the application supplies two virtual models. One model is used as a reference for demonstration purposes—virtually displaying the correct actions and steps that need to be performed. The second model allows the user to interact and practice these actions.

    Additionally, if a trainee has access to a real-world device, they can conduct these actions on the physical device while learning from the virtual reference model. This allows the simulator to provide training to trainees whether or not they have access to a physical device. While working with the interactive virtual models, the trainee is guided by textual information, audio narration, animation, and sound effects. By providing these multiple levels of instruction to the user, we ensure that the necessary information is being conveyed in a format that works with their style of learning.

    In addition to single-user mode, the augmented reality training simulators supports a networked multiuser mode, allowing several people to connect to the simulation session regardless of their physical location. Even though users may be on opposite ends of the planet, they can work together collectively on the same virtual device as if they were standing in the same room. This support for multiuser helps overcome the challenges and costs of conducting training in the real-world associated with travel. Furthermore, users can use the simulator to quickly connect with subject matter experts while in the field to ensure they are using the device correctly—an invaluable advantage when conducting mission-critical exercises.

    Because there is so little room for error when working with hazardous materials, the training simulator must provide the highest level of training available. By deploying the application on the Microsoft HoloLens 2, users can virtually get their hands on digital twins of the devices they’ll be required to operate during mission-critical activities.

    Taking simulation-based training into the third dimension and presenting it as holographically-projected interactive virtual content allows users to interact with the subject material in a way never before possible, increasing their participation and involvement to deliver highly impactful training while reducing the risks associated with working with hazardous substances.

    One of the first sensors to be chosen for simulation, 908 Devices’ MX908, is a handheld mass spectrometer with a high degree of sensitivity. The CBRND HoloTrainer familiarization lessons instruct the user on taking samples of chemical, explosive, drug, and hazmat contaminants; and in how to read the spectrometer analysis of the substances. One of the key benefits of virtual training is the much-reduced risk of physical harm to the trainees; another is reduction in cost of consumable or disposable items such as swabs, caps, and pens.

    For more information: https://www.forgefx.com/

  • Announcing the release of the Teledyne FLIR identiFINDER R440 Enhanced Warfighter Augmented Trainer

    This innovative augmented reality training simulator marks a revolutionary leap in the field of CBRN device training, bringing the most realistic and collaborative learning experience to end users.”
    — Greg Meyers, CEO of ForgeFX Simulations

    SAN FRANCISCO, CALIFORNIA, UNITED STATES, May 30, 2023/EINPresswire.com/ -- The U.S. Department of Defense Joint Program Executive Office for Chemical, Biological, Radiological and Nuclear Defense (JPEO-CBRND) has contracted MRIGlobal and ForgeFX Simulations to develop an augmented reality (AR) CBRN detection device training simulator. The Enhanced Warfighter Augmented Trainer (EWAT), or HoloTrainer, is a training simulator designed specifically for the Joint Project Manager Chemical Biological Radiological Nuclear Special Operations Forces (JPM CBRN SOF) to provide first responders and warfighters with the best possible training to identify hazardous materials and situations accurately.

    The training simulator program is powered by a Microsoft HoloLens 2, projecting holographic interactive digital twins of physical devices. The application includes guided training lessons for all major functions the device performs, with voice-over-narration and text instruction. Users can learn at their own pace, by doing actual tasks and steps needed to master use of the real-world device. In addition, the HoloTrainer allows users to train with physical devices, seeing holographically projected animations and instructions on the heads-up-display (HUD) in front of them, allowing them to keep their hands on the device at all times. The application also supports networked multi-user connectivity, enabling trainers and trainees to work together remotely as if in the same room.

    Starting today, the Teledyne FLIR identiFINDER® R440 will be available for trainees within the application. Teledyne FLIR Defense, makers of the identiFINDER series of field-proven handheld radiation detectors, is one of the device manufacturers working with MRIGlobal and ForgeFX Simulations. The identiFINDER® R440 is a lightweight radionuclide identification device (RID) that delivers highly sensitive detection and fast results. The R440 is available with various advanced detector options to respond to radiological threats from farther away, behind heavier shielding, and with better resolution than similar-sized devices. Operators can train on the familiar three-button interface, common to all Teledyne FLIR hand-held radiation detectors, using the HoloTrainer’s virtual and tactile learning combination.

    Incorporating Microsoft's Mixed Reality Toolkit for hand-tracking, and taking advantage of the built-in forward-facing HoloLens cameras, users can interact with holographically projected interactive objects using natural, intuitive hand gestures during simulation-based training. The HoloTrainer provides an animated reference device to guide users through actions and expected outcomes. The application can simulate hazardous situations such as lethal doses of radiation and CBRN equipment used to detect it. The simulator includes a collection of lessons that provide training on subjects like Parts Familiarization and Power Up/Down, as well as training on the Finder, EasyFinder, and Identify Modes. In addition, the application offers remote connectivity capabilities through multiuser cloud servers, enabling users to train together in private online sessions, allowing trainers and trainees to collaborate seamlessly as if they were in the same room, even though they may be thousands of miles apart.

    "This project represents a groundbreaking approach in delivering cutting-edge training to those performing mission-critical operations," said ForgeFX Simulations CEO, Greg Meyers. "We are proud to partner with MRIGlobal, JPEO-CBRND, and Teledyne FLIR to develop this innovative training simulator, ensuring first responders have state-of-the-art training before facing hazardous situations.”

    The AR-based training simulator is set to redefine the way first responders and soldiers are trained, ensuring that they are adequately prepared to handle hazardous materials and situations with confidence. The success of this project represents a major step forward in CBRN training and highlights the importance of collaboration and innovation in developing cutting-edge solutions for complex challenges. By working together, MRIGlobal, ForgeFX Simulations, JPEO-CBRND, and Teledyne FLIR have created an invaluable tool that redefines first responder and soldier training, helping to safeguard lives and enhance security.

    About ForgeFX Simulations: ForgeFX Simulations is a leading developer of custom simulation-based training solutions for a variety of industries. With more than two decades of experience, ForgeFX has a proven track record of creating immersive, interactive simulations that improve safety, reduce costs, and enhance learning outcomes. Our team of experts works closely with clients to understand their unique needs and develop customized solutions that address their specific challenges. To learn more about ForgeFX Simulations, visit our website at www.forgefx.com.

    About MRIGlobal: MRIGlobal is an independent, not-for-profit organization that performs contract research and development for government agencies, industry, and academia. With more than 75 years of experience, MRIGlobal has established a reputation for excellence in science and technology, and a commitment to finding innovative solutions to complex challenges. Our multidisciplinary team of experts works across a range of fields, including health, energy, national security, and the environment, to deliver high-impact results that improve lives and support economic growth. To learn more about MRIGlobal, visit our website at www.mriglobal.org.

    About the JPEO-CBRND: The Joint Program Executive Office for Chemical, Biological, Radiological and Nuclear Defense (JPEO-CBRND) is a joint service organization within the U.S. Department of Defense tasked with protecting the armed forces from the effects of chemical, biological, radiological, and nuclear weapons. JPEO-CBRND's mission is to provide innovative solutions to the warfighter's CBRN defense needs, from detection and identification to protection and decontamination. Our team of dedicated professionals works in partnership with industry, academia, and government to develop and deliver cutting-edge technologies and capabilities that help safeguard the nation's security. To learn more about JPEO-CBRND, visit our website at www.jpeocbrnd.osd.mil.

    About Teledyne FLIR: Teledyne FLIR, a Teledyne Technologies company, is a world leader in intelligent sensing, unmanned systems, and integrated solutions for defense and industrial markets. Founded in 1978, the company develops a wide range of advanced technologies to help professionals make better, faster decisions that save lives and livelihoods. To learn more, visit www.teledyneflir.com or follow us on social media. #AnyThreatAnywhere

  • JPEO-CBRND Selects MRIGlobal and ForgeFX Simulations to bring latest advances in simulation-based training to its NBCRV technology and deployment strategies.

    SAN FRANCISCO, CA, USA, July 11, 2023/EINPresswire.com/ -- The Joint Program Executive Office for Chemical, Biological, Radiological and Nuclear Defense (JPEO-CBRND) has selected MRIGlobal and ForgeFX Simulations to bring the latest advances in simulation-based training programs to its Nuclear Biological Chemical Reconnaissance Vehicle (NBCRV) technology and deployment strategies. As the military continues to modernize and upgrade its hardware and software capabilities, its training must keep pace to ensure warfighters remain at the top of their game. The newest installment to these programs will update the JPEO-CBRND’s Tele Operations Simulator for the modern UAS (Unmanned Aerial Systems) used by the military today.

    First produced in 2020, the Tele-Op Simulator is among a series of simulation-based training and visualization products that MRIGlobal and ForgeFX Simulations have collaborated on for the US Government. The original simulator includes a virtual Polaris MRZR equipped as an unmanned ground vehicle (UGV). Mounted with previous prototype Chemical, Biological, Radiological, and Nuclear (CBRN) detection equipment and activated with onboard controls, the UGV is piloted via a customized version of the ATAK (Android Team Awareness Kit) application. Using a module that recreates the ATAK interface, the simulator allows trainees to activate and remotely drive the virtual UGV across several square kilometers of virtual terrain, exactly as they would in the field.

    The updated Tele-Op Simulator will feature the next generation of the virtual ATAK interface, enabling the deployment and operation of Teledyne FLIR’s SkyRaider R80D UAS (Unmanned Aerial Systems). A simulated UAS Tool plug-in will allow users to learn how to pilot the UAS and position it correctly within contaminated aerosol clouds to collect samples and deliver them to a remote lab for analysis. Wind direction and lighting conditions will be varied in the testing modes in which users will be graded on their performance.

    The Teledyne FLIR SkyRaider UAS is designed for CBRN response missions and used for a wide range of applications, including aerial surveillance, search and rescue operations, and environmental monitoring. The SkyRaider UAS can be configured to carry a wide variety of sensors, including infrared thermal imaging technology, a spectrometer that can identify a wide range of hazardous chemicals, and LIDAR, which can be used to detect and quantify airborne particulates. Used collectively and with the proper training, these sensors provide operators with a higher level of situational awareness and the ability to make a comprehensive assessment of the situation they’re responding to—an invaluable tool to have during mission-critical operations.

    The Stryker NBCRV, equipped with the Sensor Suite Upgrade and accompanied by the UAS capabilities, constitutes an agile and powerful reconnaissance unit, requiring warfighters to possess an intimate knowledge of several interdependent systems. The JPEO-CBRND’s continued partnership with MRIGlobal and ForgeFX Simulations ensures its military personnel are given the highest level of training and knowledge retention possible to master these skills in a safe and controlled environment, minimizing the risk of accidents that can occur in real-world training scenarios and conserving valuable resources.

    About MRIGlobal MRIGlobal addresses some of the world's greatest threats and challenges. Founded in 1944 as an independent, non-profit organization, MRIGlobal performs contract research for government, industry, and academia. Their customized solutions in national security and defense and health include research and development capabilities in clinical research support, infectious disease, and biological threat agent detection, global biological engagement, in vitro diagnostics, and laboratory management and operations. MRIGlobal is one of two partners in the Alliance for Sustainable Energy, LLC, which manages and operates the National Renewable Energy Laboratory (NREL) in Golden, Colorado, for the U.S. Department of Energy. For more information, visit: https://www.mriglobal.org/

    About ForgeFX Simulations ForgeFX is a training simulation software development company. Founded in 2002, ForgeFX develops high-quality custom interactive 3D simulation and visualization software products for clients across a wide array of industries. Leveraging high-fidelity 3D graphics and game engine development tools, ForgeFX provides virtual and augmented reality application development services for clients who are looking to distribute interactive simulation-based training solutions. Their training products—employed by industries including national defense, healthcare, pharmaceutical, insurance, mining, construction, and transportation—produce measurable improvements in trainee engagement and knowledge retention. For more information, visit: https://forgefx.com/

    About JPEO-CBRND
    The Joint Program Executive Office for Chemical, Biological, Radiological and Nuclear Defense (JPEO-CBRND) mission is to provide an integrated layered chemical, biological, radiological, and nuclear defense capabilities to the Joint Force across combined Joint All-Domain Operations. JPEO-CBRND’s goal is to enable the Joint Force to fight and win unencumbered by a CBRN environment. To learn more about JPEO-CBRND, visit: https://www.jpeocbrnd.osd.mil/, or follow JPEO-CBRND on social media @JPEOCBRND.


 Products

  • UNMANNED AIRCRAFT SYSTEM TRAINING SIMULATION
    The Unmanned Vehicle Tele-Operation Training Simulator trains pilots and operators to control an unmanned aircraft or its payload from a control station in a virtual environment without the risks, constraints, and associated costs of a real flight....

  • The Unmanned Vehicle Tele-Operation Training Simulator is an interactive 3D virtual simulator designed to instruct CBRND personnel in remote operation of an Unmanned Aircraft System (UAS) from within a Nuclear Biological Chemical Reconnaissance Vehicle (NBCRV).

    • Made in collaboration with the Department of Defense and Teledyne FLIR subject matter experts (SMEs) to create digital replicas of their physical and virtual products, reproducing all functions the physical objects perform.
    • ForgeFX Simulations developed in partnership with MRIGlobal for the Joint Program Executive Office – Chemical, Biological, Radiological, and Nuclear Defense (JPEO-CBRND), division of the US Department of Defense.

    Emulating Real-World Missions

    The simulator recreates a CBRND reconnaissance mission featuring an NBCRV equipped with a sensor suite array and two pods, each containing a UAS.

    • The UAS is an R80D Skyraider drone carrying a MUVETM B330 Continuous Biological Detector and Collector payload, manufactured by Teledyne FLIR.
    • Skyraider is launched from the NBCRV into a suspected contaminated area.
    • Operated via the ATAK application on a tablet computer inside the NBCRV.
    • The drone’s sensor payload helps CBRND personnel triangulate position, speed, and contents of airborne contamination.
    • Includes environmental conditions, real-time interactive 3D models of the UAS and NBCRV, simulated video feeds of multiple cameras, code that emulates the B330 sensor readings, AI-generated voiceover narration of tutorial steps, and simulated radio communications.

    Procedural Training

    Consisting of four guided lessons and an unguided reconnaissance mission, lessons are methodical and interactive, introducing the trainee to control placement and purpose while prompting to perform actions and tasks.

    Pre-Mission Instructions:

    • The first lesson introduces controls for operating the UAS pods to prepare for launch, and components for deploying and controlling the B330 sensor payload.
    • Instructions include directing the user to interpret atmospheric conditions and how to read the B330 sensor status and collection results.
    • After activating the B330, the user is guided to activate the pod camera and open the pod. The pod camera video feed is shown in an inset window, and the user is instructed to look for obstacles.
    • The user learns advanced features of the B330 collector, incl. direction to only turn on the collector when UAS is at height, and what readings to look for when collecting samples from an aerosol cloud.

    UAS Flight Control Overview:

    • The trainee is introduced to the interface section dedicated to programming operating parameters and actions of the Skyraider and its cameras prior to launch.
    • Right part of screen shows Operator View for the UAS, featuring a collage of four feeds from the downward facing cameras.
    • Lesson describes the purpose of interface elements while stepping through tasks to prepare for launch.
    • One task is to set “clean” and “dirty” home bases for the UAS to return once it has taken readings or if it encounters operational errors.
    • After being guided through the protocols of closing the pod lid, the user learns how to set a destination with the waypoint icon and a specified altitude.
    • The trainee can practice setting destinations and flying to them.
    • If a collision occurs, the camera feed simulates the tilting angle of the tumbling drone and resets the drone to an acceptable hovering location.
    • The final steps of this lesson guides the user to direct the UAS to land at a home base.

    Waypoint Flying Procedures:

    • Focuses on contaminated area which appears on the map as a white area and in the forward-facing camera as a low white cloud.
    • After launching the UAS, the user is directed to deploy the B330 sensor and reset the baseline to collect a clean reading for the sensor to compare against.
    • The drone is sent to contaminated area, where the user is instructed to switch to downward cameras and use the B330 altitude preset to lower the drone into the aerosol cloud and identify an adequate sampling area.

    Post-Collection Procedures:

    • Instructs user to return UAS to dirty home base.
    • Once the drone has landed, trainee simulates calling the unmounted team members to request they collect the drone.
    • The final step is to relinquish control of the drone.

    Waypoint Flying Mission:

    • In this evaluated scenario, the simulator generates the aerosol cloud in a random position.
    • The trainee must perform sequences practiced in previous training lessons to complete a mission.
    • User can choose to run scenario in day, dusk, or night mode. In night mode, the trainee uses the IR camera to view drone surroundings.

    Insightful Performance Analysis

    At mission conclusion, trainees receive a detailed performance report grading on errors, total mission time, total flight time, sample collection time, number of collisions, and distance traveled. Medals ranging from gold to participation are awarded based on performance, along with a percentage score. 

    Real-time user performance analysis:

    • Evaluates trainee performance metrics to chart progress and pinpoint areas for improvement.
    • Real-time feedback and progress tracking enhance engagement and proficiency in adjusting flight patterns, understanding sensor readings, or avoiding collisions.

    Benefits

    The Tele-Op Simulator presents an optimal fusion of cost savings, universal access, and uncompromised safety.

    • Sidesteps substantial expenses associated with real-world training exercises, while achieving equal and superior educational outcomes.
    • Offers trainees flexibility to hone skills irrespective of time, location, physical, and consumable constraints, ensuring all personnel, regardless of geographical or logistical circumstances, have equal opportunity to excel.
    • Eliminates risks associated with hands-on training, safeguarding expensive equipment and human lives.

  • WELDING TRAINING SIMULATOR
    A virtual reality welding training simulator program that teaches students how to prep, grind and join materials in a virtual environment that removes the safety and cost concerns....

  • ForgeFX Simulations is proud to be a training simulator development partner of StrataTech Education Group, a company that focuses on the acquisition, growth and development of specialized career education schools, particularly skilled-trade programs designed to address the nation’s growing infrastructure needs. ForgeFX worked with StrataTech and their subsidiary, the Tulsa Welding School, to develop OcuWeld™, a virtual reality welding training simulator program that teaches students how to prep, grind and join materials in a virtual environment that removes the safety and cost concerns.

    OcuWeld Welding Training Simulator

    Welcome to the digital transformation of education! The OcuWeld™ welding training simulator utilizes virtual reality to enhance welding training programs using the Meta Quest 2 device and available for distribution to current Tulsa Welding School students on Meta’s App Lab. Designed by welders for welders, and developed by seasoned ForgeFX Simulations developers, OcuWeld provides welding students with the opportunity to practice their hands-on training in a virtual environment where concerns about safety, access and cost are no longer relevant. OcuWeld immerses students in a virtual environment that mimics real life training experiences and provides the opportunity to practice skills independently.

    StrataTech has integrated OcuWeld into the curricula of their subsidiaries, Tulsa Welding School and The Refrigeration School, to ensure that students have future-proof skills that employers are seeking. The program launches at a time when demand for skilled trade workers is at an all-time high in part due to the recently passed Infrastructure Bill. The bill, combined with President Biden’s Build Back Framework, will add an average of 1.5 million jobs per year for the next 10 years, according to The White House.

    First of Its Kind Virtual Reality Training Aims to Help Growing Demand in Skilled Trade Jobs Amid New Infrastructure Bill
    The growing pace of digitization is shifting the paradigm of education to lifelong learning that requires a continual evolution of technical skills and training. Alex DeClair and Chris Schuler, directors of the welding programs at The Refrigeration School, Inc. (RSI) and Tulsa Welding School (TWS), say today’s students have different needs, and infusing technology into programs is now imperative in the modern education space. Similarly, Chase Lane, VP of Transformation for StrataTech, understands the need for digital transformation in education and its role in addressing the nation’s critical infrastructure needs.

    “It’s time that higher education meets the needs of its students rather than vice versa,” said Lane. “Digital is transforming education and ensuring that these technological advances reach the skilled trades is extremely important to StrataTech and vital to the growing needs of our labor force.”

    OcuWeld engages students with a mixture of gamification and education. Students enjoy learning in a fun and highly interactive and dynamic environment that mimics real-world applications.

    “As educators, it is our responsibility to ensure that we infuse technology into our programs and curriculum to meet the changing needs of our students and their future employers,” said Mary Kelly, President/CEO of StrataTech. “OcuWeld will not only help our students get additional training, it will also position them to meet the growing demand for skilled professionals.”

    The OcuWeld training simulator includes a library of lessons that cover topics ranging from welding tools and techniques, MIG, TIG, and Stick welds. Leveraging virtual reality hosted simulation-based training, trainees are able to hold virtual torches, grinders, and filler rods just as they would real-world objects during live physical training. Including lessons that cover everything from flat overlapping beads, to overhead beveled plates, to vertical overlapping beads, trainees are able to master lessons by correctly completing each task correctly, in the right order, and without making mistakes.

    OcuWeld provides enhanced academic benefits for students through access, autonomy, and amplification. OcuWeld is a fully self-contained application within a Quest 2 device. Students can access OcuWeld any place, any time, with or without internet connection. While OcuWeld is fully integrated with StrataTech’s curriculum, it provides students the autonomy to drill down into process or positions where they feel the need for additional practice, or have a stronger interest. OcuWeld amplifies the student experience by providing supplemental learning outside of the classroom environment, reinforcing the skills and knowledge these students will need to find successful employment in the field.

    The simulator includes functional virtual versions of the tools that are required to complete each lesson, giving users not only training on the conceptual aspects but also muscle memory for how to use the tools to complete the job. Just as astronauts and airline pilots practice inside flight simulators until procedures and actions are second nature, welding students are able to practice safely until they are proficient.

    “We had the pleasure of working with ForgeFX Simulations on the development of OcuWeld™, our virtual reality welding training simulator. The entire ForgeFX team was fantastic to work with—delivering a high-quality product on time and on budget to help us overcome our business challenges. The software solution they proposed and developed met all of our requirements and exceeded our expectations. Thank you, ForgeFX Simulations!”, Mary Kelly, President/CEO of StrataTech.

  • UNMANNED GROUND VEHICLE TRAINING SIMULATOR
    Designed to simulate realistic operating conditions for unmanned ground vehicles, this tool offers immersive hands-on experience and advanced instructional strategies in 3D virtual environments ensuring a rewarding, and safe learning experience....

  • For years, the military has relied on Nuclear Biological Chemical Reconnaissance Vehicles (NBCRV) to visualize and navigate battlefield threats like dangerous chemical, biological, radiological, or nuclear weapons at close range. Unmanned ground vehicles can be remotely operated to conduct sampling, provide valuable situational awareness for the soldier, and increase combat power. 

    Revolutionary Training

    Welcome to the forefront of innovative training solutions in unmanned ground vehicle operation. Leveraging state-of-the-art technology, ForgeFX has developed a Teleoperation Training Simulator that revolutionizes the way we approach operator training. Designed to simulate realistic operating conditions for unmanned ground vehicles, this breakthrough tool offers immersive, hands-on experience even before the user touches the real equipment. In collaboration with MRIGlobal, we have harnessed the power of gaming technology, 3D virtual environments, and advanced instructional strategies to offer a comprehensive training tool that improves response time, accuracy, and comprehension of vehicle control [2]. Whether you are a seasoned operator or a novice, our simulator ensures a consistent, rewarding, and safe learning experience, setting new standards in the field of teleoperation training.

    Cutting-Edge Simulators Prepare Warfighters for Real-World Scenarios

    While traditional training methods (like lectures and demonstrations) on these sophisticated, multi-million dollar vehicles are tried and true, simulator-based instruction can accelerate and enhance comprehension. Trainees receive hands-on experience with virtual equipment and environments before they ever touch the real-world machines.

    Joint Program Executive Office for Chemical, Biological, Radiological and Nuclear Defense, UGV Training Simulator

    MRIGlobal Intelligence, Surveillance and Reconnaissance software engineers are experienced in working with the Joint Program Executive Office for Chemical, Biological, Radiological and Nuclear Defense (JPEO-CBRND) to develop an acclaimed sensor suite upgrade that integrates CBRN sensors onto reconnaissance vehicles. Building on that expertise, MRIGlobal, in partnership with ForgeFX Simulations, designed a cutting-edge modern simulator for training use on a full suite of manned and unmanned ground vehicles and the sensors they contain. 

    With a mouse, game pad controller, and video game technology on a portable computer tablet, the soldier can learn to drive and operate the reconnaissance vehicle in a variety of simulated scenarios. Training involves state-of-the-art game development tools and techniques, including onscreen instructions to reinforce education to increase familiarity with the equipment and develop muscle memory to improve response time and accuracy; structured tutorials to ensure consistency in training; virtual 3D equipment to duplicate real-world audio cues and realistic environments; and game-design strategies using feedback and rewards to motivate the trainee to achieve the highest possible results. 

  • AUGMENTED REALITY CBRN DEVICE TRAINING SIMULATOR
    Instructs trainees in the familiarization, operation, and maintenance of CBRN devices by providing holographically-projected interactive 3D virtual versions of enhanced warfare training equipment....

  • ForgeFX is honored to continue a working partnership with MRIGlobal, experts in intelligence, surveillance, and reconnaissance software development. Having first completed the Unmanned Ground Vehicle Tele-Op Simulator, the partnership turns to development of a suite of augmented reality device training simulators for the Joint Project Lead for Chemical, Biological, Radiological, and Nuclear Special Operations Forces (JPL CBRN SOF). Created for the Microsoft HoloLens 2, the CBRND HoloTrainer instructs trainees in the familiarization, operation, and maintenance of CBRN devices by providing holographically-projected interactive 3D virtual versions of the equipment they need to learn to use.

    Multi-Faceted Training for Multiple Devices

    The CBRND HoloTrainer includes comprehensive training for several CBRN detection devices which locate and analyze chemical, biological, radiological, and nuclear hazards.

    For each device training module, the application supplies two virtual models. One model is used as a reference for demonstration purposes—virtually displaying the correct actions and steps that need to be performed. The second model allows the user to interact and practice these actions.

    Additionally, if a trainee has access to a real-world device, they can conduct these actions on the physical device while learning from the virtual reference model. This allows the simulator to provide training to trainees whether or not they have access to a physical device.

    While working with the interactive virtual models, the trainee is guided by textual information, audio narration, animation, and sound effects. By providing these multiple levels of instruction to the user, we ensure that the necessary information is being conveyed in a format that works with their style of learning.

    Multiuser Capability

    In addition to single-user mode, the augmented reality training simulators supports a networked multiuser mode, allowing several people to connect to the simulation session regardless of their physical location. Even though users may be on opposite ends of the planet, they can work together collectively on the same virtual device as if they were standing in the same room. This support for multiuser helps overcome the challenges and costs of conducting training in the real-world associated with travel. Furthermore, users can use the simulator to quickly connect with subject matter experts while in the field to ensure they are using the device correctly—an invaluable advantage when conducting mission-critical exercises.

    Risk Reduction

    Because there is so little room for error when working with hazardous materials, the training simulator must provide the highest level of training available. By deploying the application on the Microsoft HoloLens 2, users can virtually get their hands on digital twins of the devices they’ll be required to operate during mission-critical activities. Taking simulation-based training into the third dimension and presenting it as holographically-projected interactive virtual content allows users to interact with the subject material in a way never before possible, increasing their participation and involvement to deliver highly impactful training while reducing the risks associated with working with hazardous substances.

    One of the first sensors to be chosen for simulation, 908 Devices’ MX908, is a handheld mass spectrometer with a high degree of sensitivity. The CBRND HoloTrainer familiarization lessons instruct the user on taking samples of chemical, explosive, drug, and hazmat contaminants; and in how to read the spectrometer analysis of the substances. One of the key benefits of virtual training is the much-reduced risk of physical harm to the trainees; another is reduction in cost of consumable or disposable items such as swabs, caps, and pens.

    Augmented Reality Device Training Simulators

    The CBRND HoloTrainer initially includes more than a dozen devices for users to train on, with more slated to be added in the near future. The application is one part of an umbrella initiative created by the JPL CBRN SOF. Designated EWAT (Enhanced Warfare Augmented Training), the initiative puts comprehensive, hands-on device training in the reach of personnel who may not otherwise have access to the physical equipment, accelerating device familiarization, operation, and maintenance training for warfighters anywhere, at any time.


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