Search Results - "Haas, M.W."

Decision-making and emotions in the contested information environment by Haas, M.W., Hirshfield, L.M., Ponangi, P.V., Kidambi, P., Rao, D., Edala, N., Armbrust, E., Fendley, M., Narayanan, S.

“…Future conflicts will necessitate the ability to conduct effective military operations in a contested information environment. The building and maintaining of…”
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Human-machine haptic interface design using stochastic resonance methods by Repperger, D.W., Phillips, C.A., Berlin, J.E., Neidhard-Doll, A.T., Haas, M.W.

“…A study was conducted with haptic (forces produced on a human via mechanical systems) interfaces and how they may interact with an operator to improve tracking…”
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An architecture for modeling uninhabited aerial vehicles by Ruff, H.A., Rao Edala, N., Geist, J., Kumar, P.K., Narayanan, S., Draper, M., Haas, M.W.

“…State-of-the-art advances in sensors, communication, and computing technologies have made military missions involving uninhabited aerial vehicles (UAVs) a…”
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Cyberspace and Networked Systems - Paradigms for Security and Dynamic Attacks by Repperger, D.W., Haas, M.W., McDonald, J.T., Ewing, R.L.

“…A variety of issues are discussed related to cyberspace warfare and network systems. Present systems are now highly distributed, yet may be extremely…”
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Navigating through virtual flight environments using brain-body-actuated control by Nelson, W.T., Hettinger, L.J., Cunningham, J.A., Roe, M.M., Haas, M.W., Dennis, L.B.

“…Alternative control technologies enable users to control human machine systems without using their hands For example, the Cyberlink/sup TM/ interface, a brain…”
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An introduction of a direct vestibular display into a virtual environment by Cress, J.D., Hettinger, L.J., Cunningham, J.A., Riccio, G.E., McMillan, G.R., Haas, M.W.

“…The US Air Force Armstrong Synthesized Immersion Research Environment Facility is currently investigating the development and potential application of direct…”
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Haptic specification of environmental events: implications for the design of adaptive, virtual interfaces by Brickman, B.J., Hettinger, L.J., Roe, M.M., Liem Lu, Repperger, D.W., Haas, M.W.

“…Future airborne crewstations are currently being designed that will incorporate multisensory virtual displays to convey operationally relevant information to…”
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Failure detection methods to predict loss of control involving human-interface devices. I. Theory by Repperger, D.W., Haas, M.W., Schley, P.C., Koivo, A.J.

“…A method is developed to detect a precipitation or loss of control in a device used as a human interface. The human-machine problem of interest involves two…”
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Failure detection methods to predict loss of control involving human-interface devices. II. Empirical validation by Repperger, D.W., Haas, M.W., Schley, P.C., Koivo, A.J.

“…Part I, published in the same conference, addressed certain theoretical issues concerning the design of a human-interface device to help predict the loss of…”
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Automated adaptive control of display characteristics within future Air Force crew stations by Haas, M.W., Repperger, D.W.

“…The Human Effectiveness Directorate of the Air Force Research Laboratory is developing and evaluating human-machine interface concepts to enhance overall…”
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Using fault detection methods to optimize parameters in human-machine interface devices by Repperger, D.W., Haas, M.W., Koivo, A.J.

“…Using methods from fault diagnosis studies and signal detection theory, an optimal model involving decision making of the human operator is formulated…”
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A study of adaptive stick controllers in human interface systems by Repperger, D.W., Phillips, C.A., Haas, M.W.

“…A summary of research regarding adaptive and other active stick controllers is given. A description of adaptation mechanisms is explained based on properties…”
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Adaptive interfaces for advanced airborne crew stations by Hettinger, L.J., Cress, J.D., Brickman, B.J., Haas, M.W.

“…This paper discusses several general research and development issues that the authors view as critical to the design of adaptive interfaces for future US Air…”
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Using a hidden Markov process to both characterize critical human tracking regions and to predict the incidence of pilot induced oscillation by Repperger, D.W., Koivo, A.J., Haas, M.W.

“…Hidden Markov models (HMM) are used to investigate human tracking behavior in the flying of aircraft, by predicting steady state tracking performance and…”
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An approach to developing adaptive interface technology for advanced airborne crew stations by Cress, J.D., Hettinger, L.J., Nelson, W.T., Haas, M.W.

“…A program of research and development is currently underway at the US Air Force Armstrong Laboratory's Synthesized Immersion Research Environment (SIRE)…”
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Surgical strike: interface design across task domains by Hettinger, L.J., Tannen, R.S., Geiselman, E.E., Brickman, B.J., Moroney, B.W., Haas, M.W.

“…To what extent can similarities in the general demands placed on human performance in apparently disparate task domains be used to enhance human-machine…”
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Integrating vestibular displays for VE and airborne applications by Cress, J.D., Hettinger, L.J., Cunningham, J.A., Riccio, G.E., Haas, M.W., McMillan, G.R.

“…Designing effective human machine interfaces is one of the more challenging and exciting issues facing engineers today. Many virtual environment (VE) designers…”
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