Sep 10, 2015 · This paper presents the design of this framework including how OMNeT++'s abstractions have been utilized to model quantum optical components, ...

This paper presents the design of this framework including how OMNeT++'s abstractions have been utilized to model quantum optical components, optical pulses, ...

This paper presents the design of this framework including how OMNeT++'s abstractions have been utilized to model quantum optical components, optical pulses, ...

Modeling fiber cables involves subclassing. OMNeT++'s channel abstraction and adding the features needed to account for length, attenuation effects, and even.

Sep 3, 2015 · Quantum channel modeling for discrete event simulation of quantum key distribution (Master's thesis, Air Force Institute of Technology ).

Using modeling and simulation to study photon number splitting attacks. LO ... Modeling quantum optical components, pulses and fiber channels using omnet++.

We have introduced our approach to modeling these systems using OMNeT++ without including too many details associated with quantum calculations. We have also ...

This article discusses the modeling of a decoy state enabled Quantum Key Distribution system built to study the impact of practical limitations of the ...

Sep 3, 2015 · This paper presents the design of this framework including how OMNeT++'s abstractions have been utilized to model quantum optical components, ...

OMNeT++, and. C++, also supports a functional programming paradigm which allows behaviors to be more easily modeled without being tied to specific classes. Thus ...