Hybrid-system simulation for National Airspace System safety analysis

Amy Pritchett; Seungman Lee; David Huang; David Goldsman

Hybrid-system simulation for National Airspace System safety analysis

Amy Pritchett, Seungman Lee, David Huang, David Goldsman

Aerospace Engineering

Research output: Contribution to journal › Conference article

8 Scopus citations

Abstract

Analysis of large, complex systems requires simulations of hybrid-system dynamics, i.e., dynamics which are best described by a combination of continuous-time and discrete-event models, and their interactions. To serve as valuable research tools, such simulations need also be computationally efficient, readily modifiable, and open to a wide range of component modules. This paper describes the development of a simulation architecture meeting these criteria. The issues with its development are described conceptually, and its application to the task of safety analysis of the national airspace system is discussed. In particular, an object-oriented approach to hybrid-system simulation is detailed, and computationally efficient methods of updating the simulation are described and compared.

Original language	English (US)
Pages (from-to)	1132-1142
Number of pages	11
Journal	Winter Simulation Conference Proceedings
Volume	2
Publication status	Published - Dec 1 2000
Event	2000 Winter Simulation Proceedings - Orlando, FL, USA Duration: Dec 10 2000 → Dec 13 2000

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All Science Journal Classification (ASJC) codes

Software
Modeling and Simulation
Safety, Risk, Reliability and Quality
Chemical Health and Safety
Applied Mathematics

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Pritchett, A., Lee, S., Huang, D., & Goldsman, D. (2000). Hybrid-system simulation for National Airspace System safety analysis. Winter Simulation Conference Proceedings, 2, 1132-1142.

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T1 - Hybrid-system simulation for National Airspace System safety analysis

AU - Pritchett, Amy

AU - Lee, Seungman

AU - Huang, David

AU - Goldsman, David

PY - 2000/12/1

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N2 - Analysis of large, complex systems requires simulations of hybrid-system dynamics, i.e., dynamics which are best described by a combination of continuous-time and discrete-event models, and their interactions. To serve as valuable research tools, such simulations need also be computationally efficient, readily modifiable, and open to a wide range of component modules. This paper describes the development of a simulation architecture meeting these criteria. The issues with its development are described conceptually, and its application to the task of safety analysis of the national airspace system is discussed. In particular, an object-oriented approach to hybrid-system simulation is detailed, and computationally efficient methods of updating the simulation are described and compared.

AB - Analysis of large, complex systems requires simulations of hybrid-system dynamics, i.e., dynamics which are best described by a combination of continuous-time and discrete-event models, and their interactions. To serve as valuable research tools, such simulations need also be computationally efficient, readily modifiable, and open to a wide range of component modules. This paper describes the development of a simulation architecture meeting these criteria. The issues with its development are described conceptually, and its application to the task of safety analysis of the national airspace system is discussed. In particular, an object-oriented approach to hybrid-system simulation is detailed, and computationally efficient methods of updating the simulation are described and compared.

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JO - Winter Simulation Conference Proceedings

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SN - 0275-0708

T2 - 2000 Winter Simulation Proceedings

Y2 - 10 December 2000 through 13 December 2000

ER -

Hybrid-system simulation for National Airspace System safety analysis

Abstract

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All Science Journal Classification (ASJC) codes

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