Optical Network Simulator – Performance Analysis

The term optical network refers to the communication system in which data is transmitted through a fiber cable. The endpoints of the communication channel are interconnected with the fiber cables. Light pulses are the replication of fiber cable data signals. Thus, it is highly demanded to have optical signal communication. Using the simulation tools here will yield us incredible results in optical network communication.

“This is the article which is fully contented of optical network simulator concepts and other aspects pampered in the same”

Our technical team made this article with utmost care to make aware of the students in the optical network simulator concepts. At the end of this article, you will be educated on the necessary areas. This is one of the promising areas in which you can examine the futuristic aspects comprised of optical networking. Let’s begin this article with the merits of the optical networking architecture.

Benefits of Optical Networks

• Adaptive networking system than transmission system
• Wide range of signal transmission
• Compatible with effective bandwidth

These are some of the benefits of optical networking. They are not limited to these benefits but also covered with various merits. If you do want more information in the same area you can visit our website at any time. The optical network is subject to numerous types. Our experts have itemized the types of optical networks for your better understanding.

Different Types of Optical Networks

• Optical Wireless Networks
• Elastic Optical Networks
• Local, Regional & Global Networks
• Transport, Access & Customer Premises Networks
• OTDM & WDM Networks
• Optical Transparent Networks
• Free Space Optics
• Visible Light Communications
• Optical Packet-switched Networks
• Wavelength Routed Networks
• Soliton-based Networks
• Digital and Optical Signal Processing
• Photonic Networks in Space
• Undersea &  Long-haul Networks

In addition to these optical network types, there is another 2 important classification of the optical network lies under as mentioned in the following section.

• Free Space Optical Networking
• Short Range- IRDA
• Medium Range- Visible Light
• Fiber Optic Networks / Passive Optical Network
• Ring /Mesh Networks
• Communication Networks

As of now, we have debated the merits and types of the optical network. We hope that you are getting the essential key factors mentioned in the foregoing passages. Our researchers are well versed in optical network simulator researches and projects. As we are offering so many projects and researches in the technical area, we are being trusted by students from all over the world. We are very unique in the industry and promise achievements in the proposed research areas. In this regard, we wanted to let you know the research areas in optical networks.

Research Areas in Optical Networks

• Video Clip Monitoring & Controlling
• Urban Area Networks
• Conferencing & Video Streaming

The aforementioned are some of the promising research areas in which you can kick up your research initiations. Generally, students and unskilled developers need research assistance in these areas. For this, we are rendering research guidance in the required approaches of the research. If you are confused about the optical network simulator projects you can have suggestions from our experts and technical team. 

In addition to the research areas, we have also highlighted the novel ideas in optical networks for the ease of your understanding. Are you interested in stepping into the next phases? Yes, we know that you are just admiring the concepts. Let’s keep the flow to have a better understanding.

Research Ideas in Optical Networks

• Interconnects & Switching Optical Devices
• Multi-wavelength Soliton Networks
• Phenomenon Optical Non-linearity & Network Devices
• Switching Architecture & Techniques
• Power-Efficient Energy Model
• PON-Passive Optical Networks
• Coherent-detection & Direct-detection Optical System
• SDM-Space Division Multiplexing
• Subcarrier & Code-Division-Multiplexed Networks

The listed above are some of the novel ideas in optical networks. Apart from this, we do have plenty of novel ideas which are in trend. As we are updating ourselves in the network adaptations, we deliberately know the techniques and methodologies used in the optical network simulator concepts.

We also wanted to let you know the much-awaited technical stuff following the optical network standards and protocols used in the system. Yes, the upcoming section is all about the standards and protocols of optical networking.

Optical Network Standards and Protocols

• Fiber Channel Standard
• Gigabit Ethernet
• SONET-Synchronous Optical Network
• ATM-Asynchronous Transfer Mode
• Fiber Channel Standard
• FDDI-Fiber Distributed Data Interface
• ESCON-Enterprise System Connection
• SBCON-Serial Byte Connection

The itemized above are the standards and protocols used in optical networking. Our technical team is always concerned with innovations and effective results in the determined areas. Hence they wanted to demonstrate to you how the multiplexing method supports optical networking for your better understanding. In the subsequent passage, we bulletined the same

Multiplexing Methods for Optical Networks

• DWDM- Dense Wavelength Division Multiplexing
• SWDM- Shortwave Wavelength Division Multiplexing
• EWDM- Enhanced Wavelength Division Multiplexing
• CWDM- Coarse Wavelength Division Multiplexing
• WDM- Wavelength Division Multiplexing

In the immediate section, we additionally showcased one of the multiplexing methods (DWDM) to make you understand. Let’s get into that.

• Optimal Routing
  • Killer whale Optimization
  • Spider Monkey Optimization
  • Red Deer Optimization
  • Artificial Flora Optimization
• Traffic Grooming
  • Multi-Stack Polynomial Network
  • Neutrosophic Intelligence
  • Artificial Neural Network (Fuzzy)
  • Gated Recurrent Unit
  • Roughset Theory
• Estimation of Offset Time
  • Kapur’s Entropy
  • Bayesian Probability Evaluation
  • Multi-Thresholding
  • Tsallis Entropy
  • Cross Entropy

This is how the Dense Wavelength Division Multiplexing (DWDM) works according to several parameters. We hope that you are getting the points till now stated. In addition to this area, you need to know the physical layer protocols used in the optical network. Suppose if you are not aware of the MAC Protocols in Optical Network then the upcoming section is for you.

Optical Network MAC Protocols 

• Quadro Protocol
  • Throughput: High
  • Channels: N
  • Equipment: TR, FR, 2FTs & Delay-lines
• DAS HTDM Protocol
  • Throughput: High
  • Channels: N
  • Equipment: TR, FR & 2FTs
• TDMA-C Protocol
  • Throughput: Medium
  • Channels: 1 &  1
  • Equipment: TR, FR & TT
• Conflict-free DT-WDMA Protocol
  • Throughput: High
  • Channels: N & 1
  • Equipment: TR, FR & 2FTs
• DT-WDMA Protocol
  • Throughput: Medium
  • Channels: N & 1
  • Equipment: TR, FR & 2FTs
• MultiS-Net Protocol
  • Throughput: Medium
  • Channels: 1 &  1
  • Equipment: TR & TT
• RCA Protocol
  • Throughput: Medium
  • Channels: 1 &  1
  • Equipment: TR & TT
• SA1 Reservation Protocol
  • Throughput: Medium
  • Channels: 1 &  1
  • Equipment: TR, FR, TT & FT
• S-Aloha Reservation Protocol
  • Throughput: Low
  • Channels: 1 &  1
  • Equipment: TR & TT
• Improved MC SA1 Protocol
  • Throughput: Low
  • Channels:   1
  • Equipment: TR & TT
• Improved Aloha & S-CSMA Protocol
  • Throughput: Low
  • Channels: 1 &  1
  • Equipment: TR & TT
• MC Demand Assignment Protocol
  • Throughput: Low
  • Channels: 1 &  1
  • Equipment: Demux/Mux & CFTs/CFRs
• SA1 Sync/Polite N-Server Protocol
  • Throughput: Low
  • Channels: 1 &  1
  • Equipment: TR & TT
• Improved SA1/Aloha N-Server Protocol
  • Throughput: Low
  • Channels: 1 &  1
  • Equipment: TR & TT
• CLAR Protocol
  • Throughput: Low
  • Channels: 1 &  1
  • Equipment: TR, FR, TT & FT
• CSMA/N-server & Aloha/CSMA Protocol
  • Throughput: Low
  • Channels: 1 &  1
  • Equipment: TR & TT

So far, we have discussed the significant aspects concreted in the optical network. Optical networks are working properly with the help of several tools named Optiwave, Optisystem, OMNeT++and OptiSim & Matlab. Let us have further explanations in the following area.

Optical Networks Simulation Tools

• OMNeT++
  • Fiber optical network with effective bandwidth
  • Topology modules are ONU & OLT
  • Stream-line effect & frameworks (OBS)
  • OMNET++(4.1) verification of routing wavelength assignment & SLE
• Matlab
  • Wavelength-routing by MatPlanWDM
  • Topology parameters and technical barriers
  • Optical networking with prolonged heuristic algorithms (VMware)
  • International time zone frames with local time nodes
• OptiSim
  • Communication environ by OptiSim simulation
  • Compatible with levels & performance valuations
  • Consist of optical / opto electrical elements, algorithms, frameworks & libraries
  • Adaptive component design application (customized)
• Optisystem
  • Application of passive network model (optical system)
  • Optical network units & optical line termination
  • Improved GN modules, optical fibers, MCF XT core pitch/ bending radius
  • OFDM by PAPR evaluations & datasheets
• Optiwave
  • OptiInstrument (1.0) is the updated version
  • Active remote control and navigation tool
  • Interfaces- TCP/IP stacks & port numbers
  • Effective tool handling by XML & SCPI (tree) commands
  • Waveform creations and exhibitions

Our technical team is proficient in the above-mentioned and other optical network tools. If you do want assistance in the aforesaid or other areas you can reach our experts to explore the interesting facts. We are offering the optical network simulator projects following the student’s requirements. We do alternations and add innovative perceptions into the existing project ideas.

Optical networks are simulated and evaluated according to several parameters. Bandwidth, wavelengths, guard, and queue size are some of the simulation parameters. Apart from this, there are various lists. You guessed right, yes we are going to state you about the simulation parameters for optical networks for the ease of your understanding.

Simulation Parameters for Optical Networks

• Wavelength Conversion
• Fiber Delay Line
• Maximum Burst Length
• Bit Error Rate
• Propagation Delay
• Link Bandwidth
• SLICT Fairness Factors
• Ensured/Reserved Time Slots
• Cycle Time (Maximum)
• Queue Size
• Guard Time
• Tentative Time Slots
• EPON Link Rate
• ONU Input

The bulletined above are some of the parameters used in the simulation. We hope that you would have understood the concepts covered in the article. Our articles are highly demanded and published in the top journals. As it consists of simple and effective facts, it results in the student’s best understanding. If you are planning to do projects and researches in emerging technologies such as optical network simulator and others you are always welcome to have our suggestions and guidance. We are always there for you to lend our helping hands.

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