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MeetingACGS Committee Meeting 121 - Tucson, AZ - April 2018
Agenda Location4 GENERAL COMMITTEE TECHNICAL SESSION
4.2 Research Institutions, Industry, and University Reports
4.2.2 Universities
4.2.2.1 Embry–Riddle Aeronautical University
TitleEmbry–Riddle Aeronautical University
PresenterMark Balas
Available Downloads*presentation
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AbstractLinear infinite dimensional systems are described by a closed, densely defined linear operator that generates a continuous semigroup of bounded operators on a general Hilbert space of states and are controlled via a finite number of actuators and sensors. Many distributed applications are included in this formulation, such as large flexible aerospace structures, adaptive optics, diffusion reactions, smart electric power grids, and quantum information systems. We focused here on progress in Quantum Information Systems and Infinite Dimensional Direct Adaptive control. Quantum Systems are intrinsically posed on an infinite dimensional Hilbert space of quantum states whose dynamic behavior is governed by the Schrodinger Wave Equation. In quantum computing the gates that perform the operations suffer decoherence which we propose to mitigate with direct adaptive control to cause the open quantum system to behave like the closed quantum system of an idealized gate.


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