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Conceptual Modeling of a Quantum Key Distribution Simulation Framework Using the Discrete Event System Specification.

机译：基于离散事件系统规范的量子密钥分布仿真框架概念建模。

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Quantum Key Distribution (QKD) is a revolutionary security technology that exploits the laws of quantum mechanics to achieve information- theoretical secure key exchange. QKD is suitable for use in applications that require high security such as those found in certain commercial, governmental, and military domains. As QKD is a new technology, there is a need to develop a robust quantum communication modeling and simulation framework to support the analysis of QKD systems. This dissertation presents conceptual modeling QKD system components using the Discrete Event System Specification (DEVS) formalism to assure the component models are provably composable and exhibit temporal behavior independent of the simulation environment. These attributes enable users to assemble and simulate any collection of compatible components to represent QKD system architectures. The developed models demonstrate closure under coupling and exhibit behavior suitable for the intended analytic purpose, thus improving the validity of the simulation. This research contributes to the validity of the QKD simulation, increasing developer and user confidence in the correctness of the models and providing a composable, canonical basis for performance analysis efforts. The research supports the efficient modeling, simulation, and analysis of QKD systems when evaluating existing systems or developing next generation QKD cryptographic systems.

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Morris, J. D.;
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年度 2014
页码 1-770
总页数 770
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Cryptography; Models; Quantum theory; Simulation; Theses; Conceptual modeling; Discrete event simulation; Discrete event system specification; Modeling and simulation; Quantum key distribution;

机译：密码学;模型;量子理论;模拟;论文;概念建模;离散事件模拟;离散事件系统规范;建模与仿真;量子密钥分配;

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专利

1. USING A SOFT SYSTEMS METHODOLOGY FRAMEWORK TO GUIDE THE CONCEPTUAL MODELING PROCESS IN DISCRETE EVENT SIMULATION [J] . Jose Arnaldo Barra Montevechi, Jonathan Daniel Friend Proceedings of the Workshop on Principles of Advanced and Distributed Simulation . 2012,第CDaROM期

机译：使用软件系统方法框架指导离散事件模拟中的概念建模过程
2. Discrete Event Simulation of the quantum channel within a Quantum Key Distribution system [J] . Nathaniel T Sorensen, Michael R Grimaila Journal of defense modeling and simulatio . 2015,第4期

机译：量子密钥分配系统中量子通道的离散事件模拟
3. Using the Discrete Event System Specification to model Quantum Key Distribution system components [J] . Jeffrey D Morris, Michael R Grimaila, Douglas D Hodson, Journal of defense modeling and simulatio . 2015,第4期

机译：使用离散事件系统规范对量子密钥分发系统组件进行建模
4. Modeling Continuous Time Optical Pulses in a Quantum Key Distribution Discrete Event Simulation [C] . Logan O. Mailloux, Michael R. Grimaila, Douglas D. Hodson, International conference on security management . 2014

机译：在量子密钥分配离散事件仿真中对连续时间光脉冲建模
5. Conceptual modeling of a quantum key distribution simulation framework using the discrete event system specification [D] . Morris, Jeffrey D. 2014

机译：使用离散事件系统规范的量子密钥分发模拟框架的概念建模
6. A conceptual modeling framework for discrete event simulation using hierarchical control structures [O] . N. Furian, M. O’Sullivan, C. Walker, -1

机译：使用分层控制结构的离散事件仿真的概念建模框架
7. USING A SOFT SYSTEMS METHODOLOGY FRAMEWORK TO GUIDE THE CONCEPTUAL MODELING PROCESS IN DISCRETE EVENT SIMULATION [O] . C. Laroque, J. Himmelspach, R. Pasupathy, 2014

机译：利用软系统方法框架指导离散事件模拟中的概念建模过程

Conceptual Modeling of a Quantum Key Distribution Simulation Framework Using the Discrete Event System Specification.

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