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This research encompassed the second in a series of experiments on the functional capabilities of a collection of four Virtual Individual Combatant(VIC) simulation technologies linked in the Dismounted Warrior Network (DWN). These experiments (user and engineering) provided enhanced restricted terrain (ERT) an improved database and VIC systems. The intent was to demonstrate a reliable low cost easy to use way to insert Dismounted Infantry into synthetic virtual environments. Multiple agencies collaborated over several months; experimentation occurred in July 1998. Data collection occurred at the U.S. ArmyInfantry Centers Dismounted Battlespace Battle Lab Land Warrior Testbed and the Fort Benning McKenna Military Observations on Urban Terrain (MOUT) site. The four VICs were networked and the individual soldiers in their VICs appeared (visually) to each other in the virtual environment. User exercises measured theVICs' ability to support the individual soldiers as part of a team performing a collective virtual task of room clearing. The MOUT data collection was an attempt to observe the soldiers in actual room clearing. The U.S. Army Research Institute provided man in the loop observations, results of questionnaires and structured interviews.
"This research encompassed the second in a series of experiments on the functional capabilities of a collection of four Virtual Individual Combatant (VIC) simulation technologies linked in the Dismounted Warrior Network (DWN). These experiments (user and engineering) provided enhanced restricted terrain (ERT) an improved database and VIC systems. The intent was to demonstrate a reliable low cost easy to use way to insert Dismounted Infantry into synthetic virtual environments. Multiple agencies collaborated over several months; experimentation occurred in July 1998. Data collection occurred at the U.S. Army Infantry Centers Dismounted Battlespace Battle Lab Land Warrior Testbed and the Fort Benning McKenna Military Observations on Urban Terrain (MOUT) site. The four VICs were networked and the individual soldiers in their VICs appeared (visually) to each other in the virtual environment. User exercises measured the VICs' ability to support the individual soldiers as part of a team performing a collective virtual task of room clearing. The MOUT data collection was an attempt to observe the soldiers in actual room clearing. The U.S. Army Research Institute provided man in the loop observations, results of questionnaires and structured interviews." -- Stinet.
"This report describes the work on a Science and Technology Objective (STO) entitled Virtual Environments for Dismounted Soldier Simulation, Training and Mission Rehearsal. The four-year (Fiscal Year FY 99-FY 02) STO effort was proposed to address a range of U.S. Army future operational capabilities described in U.S. Army Training and Doctrine Command (TRADOC) Pamphlet 525-66 (U.S. Army Training and Doctrine Command, 1997). The STO activities and goals were focused on overcoming critical technological challenges that prevented effective Infantry Soldier simulation. The U. S. Army Research Institute for the Behavioral and Social Sciences (ARI) led a team of both government and industry developers in examining simulation capabilities for industry. The other government partners vent the U.S. Army Simulation, Training, and Instrumentation Command (STRICOM) and the U.S. Army Research Laboratory Human Research and Engineering Directorate (ARL-HRED) and Computational and information Sciences Directorate (ARL-ClSD). Each of the major players had a particular area of interest but all worked together to explore concepts and systems and to recommend directions for further work on training, concept development, and mission rehearsal."--DTIC.
The increasingly complex environment of the 21st century demands unprecedented knowledge, skills and abilities for people from all walks of life. One powerful solution that blends the science of learning with the technological advances of computing is Virtual Environments. In the United States alone, the Department of Defense has invested billions of dollars over the past decade to make this field and its developments as effective as possible. This 3-volume work provides, for the first time, comprehensive coverage of the many different domains that must be integrated for Virtual Environments to fully provide effective training and education. The first volume is dedicated to a thorough understanding of learning theory, requirements definition and performance measurement, providing insight into the human-centric specifications the VE must satisfy to succeed. Volume II provides the latest information on VE component technologies, and Volume III offers discussion of an extensive collection of integrated systems presented as VE use-cases, and results of effectiveness evaluation studies. The text includes emerging directions of this evolving technology, from cognitive rehabilitation to the next generation of museum exhibitions. Finally, the handbook offers a glimpse into the future with this fascinating technology. This groundbreaking set will interest students, scholars and researchers in the fields of military science, technology, computer science, business, law enforcement, cognitive psychology, education and health. Topics addressed include guidance and interventions using VE as a teaching tool, what to look for in terms of human-centered systems and components, and current training uses in the Navy, Army, Air Force and Marines. Game-based and long distance training are explained, as are particular challenges such as the emergence of VE sickness. Chapters also highlight the combination of VE and cybernetics, robotics and artificial intelligence.
"This report describes a multi-tiered process for generating a set of high payoff tasks that can be cost effectively represented in virtual environments. The tasks were used to guide the development of small unit (squad/team) dismounted Infantry training scenarios which were evaluated at the Dismounted Battlespace Battlelab (DBBL) Land Warrior Test Bed. Scenarios were based on five major tasks, Assault, Move Tactically, Enter Building and Clear a Room, Reconnoiter Area, and React to Contact. Soldiers, working as teams or part of a squad, executed all task-based scenarios through the use of individual combatant simulators. Soldiers indicated that simulations improved their real-world performance on similar tasks. Overall, the simulators were seen as effective for small unit training, e.g., team coordination, communication, decision making. the scenarios which provided the most training value integrated soldiers with computer generated forces to provide live force-on-force capability. The research showed the potential training value of dismounted infantry simulation technologies for soldier and small unit training, particularly cognitive-based activities. Subsequent research will focus on the use of this technology to enhance the decision-making skills of soldiers and small unit leaders."--Stinet.
"This research examined the use of virtual environments as a viable dismounted infantry mission rehearsal tool. Four squads of soldiers individually conducted two missions that involved clearing a two-story building located at an urban operations training site. Two squads rehearsed the mission in a virtual representation of the exact building they would clear at the urban training site. The remaining squads rehearsed in an actual two-story building that was similar to the one they would clear at the urban training site. Squads executed both missions in each environment. Performance differences between the rehearsal groups across the two real-world' missions were small to negligible. Group performance differences for flatricides and personnel flagging were negatively affected by simulator constraints. Effectiveness ratings for the two rehearsal modes were clearly dependent on the setting where soldiers rehearsed. The research showed that while virtual environments show promise for this type of training, a number of interface and technology problems must be overcome. Currently, virtual environments do not appear to be as effective as real-world tactical training for improving skills underlying specific small unit tasks or battle drills. However, these environments may be used effectively at selected stages of training to enhance cognitive skills development."--DTIC.