Optical Fiber Communication Using OptSim

Program Info

OptiSystem is an optical communication system simulation package for the design, testing, and optimization of the links between the optical networks. In modern communications systems, conventional wires are being replaced by optical fibers because these have high bandwidth and hence offers high data rates and are immune to noise. Tools like opti system have been developed to design communication systems using optical fiber links. OptiSystem serves a wide range of applications, from CATV/WDM network design and SONET/SDH ring design to map design and transmitter, channel, amplifier, and receiver design.
To walk in hand with the modern era, you need to have adequate knowledge of the in trend technologies. To upgrade your knowledge about the trending tools and software, foundation courses have been introduced by EESPL. One such foundation course designed by EESPL is on opti system. This foundation course takes a total of 30 hours time and you will have enough knowledge of the tool to design any communication model.
The course will include the introductory sessions and the knowledge of the toolboxes used in opti system. The trainers of EESPL are industry experts and will provide you a deep insight of the tool. Learning opti system will prove beneficial for you in near future as it is a new tool introduced in the market and hence its knowledge can fetch you numbers of jobs. Nowadays, OptiSystem uses the MATLAB .dll files to evaluate the MATLAB script in the component to perform the calculations. So, when learning Opti system you will also learn MATLAB software.
Optisystem has proved to be a good field of research as with the advancing technology, communication system models are being upgraded.
Opti system has gained popularity because it minimizes time requirements and decrease cost related to the design of optical systems, links, and components. It is an innovative, rapidly evolving, and powerful software design tool and is a field of interest for many researchers, scholars, students pursuing post graduation and doctorate degrees. Communication models can be designed and advanced using opti system as your project or thesis research topics.

Courses syllabus
Title estimate time PDF Tutorials
Session 1 :- Introduction To Optical Fiber Communication & Software
 Overview To Optical Fiber Communication
What is Communication? 10 min yes
Types of Communication Medium 10 min yes
Types of Communication Mediums In Networks 10 min yes
Optical Fiber Communication 10 min yes
Need of Optical fiber Communication 10 min yes
Applications 10 min yes
 Overview to OPTISYSTEM software and Its Use
Introduction To Software Interface 25 min yes
Working with OPTISYSTEM Component 25 min yes
Connecting components 25 min yes
To study visualizers and Data monitors 20 min yes
How to Change Component parameters 25 min yes
Running and simulations 20 min yes
Create a subsystems 25 min yes
 Projects Demonstration Session
Simulation of over optical fiber with Different Coding scheme. 60 min yes
Session 2 :- Fundamentals of Multiplexing In optical Systems
 Introduction to Multiplexing
Introduction to Multiplexing 30 min yes
 Concept of Wavelength Division Multiplexing in Optical Systems
What are WDM systems? 20 min yes
Use of WDM systems 20 min yes
WDM systems Applications. 20 min no
 How to Design WDM systems in OPTISYSTEM
General concept of Multiplexing 15 min yes
Create a WDM system in OPTISYSTEM 15 min yes
Running and simulations 15 min no
Analysis of Results 15 min yes
 Projects Demonstration Session
Compensation in Optical Fiber WDM System Using Different compensation Techniques 30 min yes
 Practical Session
Design a Transmitter and Receiver and Analysis of performance parameter 90 min no
To develop an application to construct a WDM systems using optical fiber. 90 min no
Session 3 :- Design and Discussion Of Optical System Components
 Optical transmitters
Types Of modulators 12 min yes
Led Modulation response 12 min yes
Semi conductor laser modulation response 12 min yes
Chirp in Mach-Zehnder Lithium Niobate modulators 12 min yes
Laser noise and linewidth 12 min yes
 Projects Demonstration Session
Individual Model discussion with different modulators 60 min yes
 Optical Receivers
Noise in Optical Receivers 15 min yes
Receiver sensitivity analysis 15 min yes
Sensitivity degradation 15 min yes
Effect of Electrical PLL in optical receiver 15 min yes
 Optical Amplifier
Analysis of Gain and Noise in Erbium doped fiber 10 min yes
Types of Amplifiers 10 min yes
EDFA 10 min yes
Raman Amplifier 10 min yes
SOA 10 min yes
Waveguide amplifiers 10 min yes
 Projects Demonstration Session
Hybrid approach of EDFA/Raman Amplifier with Reduced Channel Spacing. 30 min yes
An Analysis of 10 Gbits/s Optical Transmission System using Fiber Bragg Grating (FBG) 30 min yes
 Practical Session
Design a simulink model using different optical amplifiers and Analysis of effect of each amplifier of performance parameters 120 min no
Session 4 :- Recent Trending Technologies In Optical Fiber Communication
 Concept of Optical wireless communications
Introduction of OWC systems. 30 min yes
Design OWC system in optical systems 30 min yes
Simulation in optical systems using Different coding scheme. 30 min yes
 Projects Demonstration Session
Simulation analysis of 32-channel DWDM IS-OWC system and its BER performance 90 min yes
 Practical Session
Design a simulink model of optical fiber communication using different channels 90 min no
Simulation Model of 8-Channel WDM System for inter satellite optical link. 90 min no