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Figure 2 below shows such an opticalĬommunication link project.
How to write matlabcode in optisystem code#
Indeed, OptiSystem allows integration of Matlab code to support co-simulation in a fast and easy manner.
How to write matlabcode in optisystem software#
The software enabled students to experiment with optical link and network design inĪ flexible manner.
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Representations, and the impact of the different parameters on system performance. Its comprehensive design suite helped students bridge the gap between the understanding of the physical models and their mathematical Instructors found the OptiSystem software to be an efficient teaching tool that helped to understand the various trade-offs involved when designing an opticalĬommunication link. Table 1 : On-line graduate course content Project presentation on the design of an optical communication link. Q-factor, OSNR sensitivity) with respect to system parameters (dispersion, nonlinearity).įorward error correction (encoding/ decoding/ implementations) and impact of coding on Optical communication links including optical noise and dynamic response calculations.Ĭalculation of system performance at the receiver for various modulation formats (BER, Operating principle of EDF and numerical tools for amplifier response simulations in Properties of optical filters (integrated waveguide filters, arrayed-waveguide-gratings,įiber gratings) and calculation of their transfer function for system simulations. System simulations taking into account dispersion and third order nonlinearities. Linear and nonlinear propagation equations in optical fibers in their numerical solution for Mathematical models of optical modulators for amplitude and/or phase modulationįormats and their implementations for system simulations. Mathematical modeling of noise (simulation of random Poisson and Weiner processes,Įlectrical and optical noise) in the context of amplified WDM transmissions.ĭescription of semiconductor lasers using deterministic and stochastic rate equationsĪnd their implementations for system simulations and laser performance assessment. Optical communication system overview and introduction to system simulation andĭigital representation of signal and noise for system simulations. This course was evaluated as a regular graduate course and students received credit for a one-term course towards their degree requirements. Students presented their solution to their colleagues during the last session. Students were able to identify factors that deterministically limit the system performance and to make compromises in order to achieve the optimum performance. The course culminated with a system simulation project that involved the design and optimization of a 2400 km link. The detailed course content is presented below in Table 1. Some aspects of the assignments required students to write their own code Matlab, while other aspects were based on the use of the OptiSystem simulation package generously provided to NGON by Optiwave Systems Inc. Practical training took the form of six assignments involving numerical simulations of devices or systems. Students were able to participate by asking questions verbally or using a chat window, as well as having access to archived video of the three hour lectures. The thirteen week course was given on-line using Elluminate, an environment that allows the instructor to share desktop applications and demonstrate simulation tools. Jin (clockwise) discussing an simulation assignment on OptiSystem. One outcome was the creation of a common graduate course on the simulation of optical communications systems, first offered during the winter semester 2012.įigure 1: Prof.
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In Canada, the Next Generation Optical Networks (NGON) consortia was created at Queen’s University, Université Laval and McGill University to provide graduate students with targeted training with industrial input and participation. Preparation of highly qualified personnel to drive the optical communications industry and spur innovation requires training adapted to that industry’s requirements. On-Line Graduate Course on Simulation of Optical Communication Systems with OptiSystem Contributing to Society with latest technologies and our specialized services in Process Control, Analytical Instruments, Public Addressing Notification Systems & Photonic Design and Simulation Software.