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The Army's Future Vertical Lift Aircraft will provide joint forces with flexible, agile and decisive options based on next-generation technological advances as well as advanced tactics and teaming. Future vertical lift will feature transformative speed, range, and endurance to create strategic and operational advantages, operate from places of relative sanctuary, and rapidly deliver combat power to the strategic edge of the battlefield.
Next-generation technological advances and the modular open systems approach of the Future Vertical Lift set the conditions for interoperability and convergence within the joint integrated fire and intelligence environment to enable expanded strategies. Future Vertical Lift (FVL) provides the joint force commander with critical Army aviation capabilities to achieve decisive results while creating multiple dilemmas for the enemy.
To maximize the capabilities presented by the revolutionary FVL capability, the Army will modernize training concepts and techniques with adaptive training strategies, technology advances and modern training systems to create rapid readiness.
Innovative approach
FVL will utilize existing training systems and infrastructure as much as possible while taking advantage of innovative training technologies and advanced training techniques. The FVL training approach includes a front-end analysis of the training requirements necessary to meet the program's rapid acquisition strategy. This front-end analysis helps identify the initial assessment of Army aviation and key system characteristics that are unique to the aircraft. Training developers can then identify training strategies and systems to develop the knowledge, skills, and tasks that aviation personnel will need to operate, maintain, and support FVL.
This evolving training strategy will ensure that individuals and FVL units can effectively employ FVL capabilities on future battlefields to build readiness. Key components of the FVL training strategy include institutional training; unit training; training aids, devices, simulators and simulations; range; and hands-on skills training. The strategy will support FVL operators and maintainers, and MOS training programs while enhancing individual skills and competencies to ensure aircraft availability and aircrew proficiency for follow-on combined training.
The FVL integrated training concept will support initial qualification, fielding and training of FVL units. Soldiers will train at existing institutional training locations and ensure on-the-job skills. They will acquire on-the-job skills through traditional classroom, demonstration and hands-on methods and by incorporating future innovative training techniques and media. Media will include computer-based training/computer-assisted instruction such as collaborative/simulated classrooms, distributed learning, part-task training devices, full-fidelity mission simulators, embedded training, mixed reality/virtual reality/augmented reality, and hands-on training. on
Unit training conceptual frameworks continue to evolve as Army leaders evaluate the most effective methods of conducting joint training for FVL units while maximizing the capabilities of future attack reconnaissance aircraft and future long-range assault aircraft as readiness increases. Training locations, ranges, and facilities must support the FVL's unique requirements, including increased speed, range, and endurance, along with advanced sensors, munitions, and air-launched effects.
leading the way
U.S. The Army Aviation Center of Excellence leads efforts to evaluate the most effective methods for conducting a joint unit fielding and training program. Using a dedicated organization that provides combined training on key mission profiles in one location, much like the AH-64 Apache and OH-58D Kiowa helicopters and MQ-1C Gray Eagle unmanned aerial systems, is essential to rapid readiness. Those fielding units. The Center can focus on FVL conversion capabilities during a regionally aligned readiness and modernization model cycle to produce operationally ready battalion-level units in the shortest possible time.
There are challenges associated with this training concept that training developers and senior leaders must reconcile before making final decisions about how FVL unit training will occur. However, this single unit fielding and training concept aligns within the regionally aligned readiness and modernization model cycle, providing a functionally ready battalion for the Army.
The training enterprise continues to analyze, identify and define a training support structure to deliver an effective and cost-efficient training program that meets new equipment fielding requirements while preserving readiness for the Air Force. FVL's training systems capitalize on FVL's modular open systems approach and digital backbone to enable integration and near-real-time concurrency between platforms and training enterprises. It provides the information needed to identify potentially improved training technologies to achieve effective and efficient training solutions in the most cost-efficient manner.
Research and analysis of current and future training technologies, learning science, and operator- and maintainer-related performance are critical to developing training-support solutions for the Army Aviation Formation.
Coordinating method
The future learning environment must evolve to support the training and education requirements of troops operating, maintaining and supporting FVL aircraft and systems. Training Soldiers to use these advanced systems requires the Army's learning environment to utilize advanced technologies and systems. Learning products, processes and support systems will capitalize on those advanced technologies and adapt to support a new mix of capabilities, tools and learning media.
While many traditional ways of individual and collective learning will endure, FVL will supplement or replace those ways as science and technology improve learning.
Research shows that there are benefits to combining training methods with gaming technologies such as blended training (live, virtual, formative, gaming). FVL will use these technologies. FVL training will include mixed reality, virtual reality and augmented reality to meet technological advances in training capabilities that support future learning environments.
The next evolution of advanced training will include linking live, virtual, formative and gaming training systems together in synthetic training environments. As science learning and technology advances, FVL Training Development will adapt to new methods of training.
An important aspect of FVL training is the tactical training interface as part of the embedded training concept. The current Army training environment uses aircraft systems linked via smart data interface modules to transmit aircraft data. The FVL approach benefits from open system architecture and embedded training capabilities. This allows FVL to use nonhardware solutions to replace current functions while providing data/telemetry solutions. It integrates other core FVL capabilities such as threat simulation, degraded performance, system malfunction and mission rehearsals, to name a few. The FVL embedded training interface allows connection to synthetic training environments as both systems continue to advance in capability development.
Using STE
FVL training will include capabilities that are currently under development within the synthetic training environment to ensure compatibility with all Army training systems. Synthetic training environments combine live and virtual training environments, aiming to provide accessible exercises that simulate the full complexity of the physical world.
Synthetic training environments, such as FVL, will use existing technological advances to transform combat forces. Synthetic training environments enhance the efficiency and realism of live training for lethality and survival, build terrain familiarity, provide mission repetition and simulate combat.
Combining live, virtual, formative and gaming training environments, the artificial training environment will provide interoperable training through simulated real-world terrain that includes advanced 3D mapping software, which FVL will leverage.
Synthetic training environments support the necessary training, functional capacity, and accessibility of sufficient repetitions to be highly valuable for strength. It allows for realistic and dynamic multidomain operations training, including cross-domain, cross-force and multiple-partner convergence. It will improve urban operations training by simulating chaos, crowd dynamics, logistics, long-range fires, and cyber and electronic warfare.
As integrated members of a synthetic training environment, aircrews can perform training with other members of a combined arms team located across an installation or at different installations across synthetic-virtual and constructive worlds. Artificial training environments can make high-impact training and mission exercises far less dangerous and less expensive than traditional force-on-force or live-fire training.
FVL's simulation-ready architecture replicates the digital backbone of weapon systems that leverage training aids, devices, simulators and simulation environments with a modular open systems approach that enables ease of integrating system updates in near-real-time. This will also reduce life cycle costs while accurately replicating the FVL's actual handling and engagement qualities. This allows FVL aircrews to rehearse missions multiple times in complex simulated environments before attempting missions in live training without risking life or limb.
FVL's training aids, devices, simulators and interface capabilities within the simulation architecture facilitate integration and "networkability" with other simulation commodities as required by synthetic training environments. Additionally, the strategic training interface with embedded training concepts and synthetic training environments will provide an integrated action-review capability that provides near-real-time feedback to evaluate the application of strategies, tactics, and procedures.
Decisive power
FVL provides Army and joint forces with transformative capabilities that deliver critical sustainment increases in speed, range, survivability, lethality, and maneuverability in the expanded battlefields envisioned in future conflicts.
Prototypes, modeling, and analyzes demonstrate the survivability and transformative capabilities bringing FVL-equipped formations into large-scale combat operations. FVL training development solutions will utilize emerging technologies, synthetic training environment capabilities and innovative training solutions to ensure operators, maintainers and sustainers have the skills needed to operate in future environments, while increasing readiness for the operational commander.
FVL is a decisive capability that presents multiple dilemmas to the enemy and extends tactical commanders' understanding across the depth of the operating environment. The Army will provide training that maximizes those capabilities to fully support an agile and adaptive expeditionary force that provides effective and cost-effective critical overmatch for both Army and joint forces.
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