Network Simulation for Master Thesis

Network Simulation for Master Thesis

     Network Simulation for Master Thesis offers best environment for you to obtain creative ideas from our magnificent professionals. Our tremendous knowledgeable professionals help our students and research colleagues to upgrade knowledge in their academic research. We provide surprising guidance and support for your intellectual research thesis preparations. Our impressive Network Simulator for Master Thesis service is very useful for you to accomplish your research career with the magnificent achievements. Every day, we are walking with you to provide our best guidance and training in each and step of your marvelous academic research. Our admirable guidance and support will help you to stand with the world level dedicated experts in your future. Are your interested to utilize our miraculous brilliant’s assistance and guidance? Approach us anytime.

Structure of Thesis:

  • Title Page
  • Abstract

             -Written with small description (Outline line of research work) why the paper is important

  • Table Contents

             -All heading and subheadings list with page numbers

  • List of Figures

              -List of page numbers for all figures with the short titles for each figures

  • List of Tables

              -List of page numbers for all tables with the short titles for each tables

  • Introduction

              -Sufficient information about respective field

  • Methods

              -Description of techniques, mathematical equations and figures

  • Results

               -Actual Observations such as graphs, tables and statistics

  • Discussion

               -What are the relations among results [Existing vs. Proposed]?

  • Conclusion
  • Recommendation
  • Acknowledgment
  • Reference
  • Appendices

Network Simulation for Master Thesis

     Network Simulation for Master Thesis provides highly confidential research for you to complete your ground breaking research with the aid of our record-breaking scientist. We initiate our service with the ambition of provides our innovative ideas for students and research scholars to achieve great future in this competitive world. Our world classy scientists have best knowledge in various network simulators, latest versions of software and tools and networking research areas. We are recently implemented thousands of network simulation projects in various networking research areas such as cognitive acoustic sensor networks, 5G network communication, heterogeneous cellular networks, mobile social big data, content centric networks, wireless body area sensor networks, autonomous mobile social networks, grid power distribution networks etc. 

Network Simulators:

  • NS2 and NS3
  • GloMoSim
  • Parallel/Distributed NS
  • QualNet
  • Traffic Simulator
  • OPNET
  • JSIM
  • Heterogeneous Grooming Optical Network Simulator (HEGONS)
  • GrooveNet
  • Scalable Simulation Framework
  • OMNET++
  • Cloonix
  • PhySim
  • DartMouth SSF
  • MiniNet
  • Shunra Virtual Enterprise
  • TraNS

      Here, we highlighted advanced research ideas for some of the network simulators

GloMoSim:

  • Evaluate Data Gathering in Terrestrial and Underwater Sensor Networks
  • Reduce Energy consumption in MANET to Enhance Path Selection
  • Elliptic Curve Cryptography for MHWSN (Military Cryptography Wireless Sensor Networks)
  • Deploy Wireless Sensor Network Using Optimization Framework
  • Hyper-elliptic Curve Cryptography for ADOV Based MANET
  • Maximize Ubiquitous Computing Based Network Topology Life time
  • Control Traffic Congestion for Vehicular Ad Hoc Networks

MiniNet:

  • Visualize Real Time Packet Flows in MiniNet
  • Software Defined Networks for Identify and Mitigate Spoofing Attack
  • MiniNet Emulator for Software Defined Testbed
  • MiniNet for Evaluate Software Defined Networks
  • MiniNet Emulator for Simulate Minimum Path Estimation
  • ONOS SDN Controller for Teaching 5G Networks
  • Software Defined Networking for Programmable Networks

OPNET:

  • IEEE 802.16e Secured Estimation and Measurement
  • OPNET for Simulate ZigBee Multi Hop Wireless Sensor Networks
  • LoRa Modeling and Simulation in OPNET
  • OPNET for Simulate Power Line communication Silent Node Problem
  • IPv6 Video Streaming for End to End QoS (Quality of Service)
  • Enhance Handover Delay using Dual Trigger Handover Algorithm
  • Agro Sensor Communication in MANET
  • IEDs in Substation Automation Systems Based on IEC 61850
  • Performance Evaluation of IOP Multimedia and Session Initiation

PhySim:

  • Object Detection Using Multi View Pose Estimation and Physics Simulation
  • Physics Engines to Robotic Manipulation
  • Intelligent Transport systems Using Convergent Networks Simulations

QualNet:

  • Comparison of IEEE 802 Standard Networks
  • Cloud Smoke Sensing Using ZRP, IERP and IARP Routing Protocols in QualNet
  • Random and Grid Node Arrangement in 2.4 GHz Band for Multiple CBR Traffic
  • Fuzzy Based NTT-DYMO for Improve QoS (Quality of Service)
  • Optimally Powered Overheard Nodes for Time Synchronization
  • Boundary Detection on 3D WSN (Wireless Sensor Networks)
  • Optimized Secondary User Selection for Improve Two Tier Multi Tier CRN

Ns2 and Ns3:

  • Raman Spectroscopy for Alkali Silica Reaction Gels Characterization
  • Failed Node Replacement in Mobile Wireless Networks
  • Space Environment Using Implementation of MANET Model
  • Big Data Injection Using Data Processing Pipelines
  • Human Boca-virus 1 DNA Replication in Divided HEK293 Cells
  • Virus Derived Double Stranded RANs for Rice Stripe Virus Slicing

GNs3:

  • GNs3 for IP-SEC VPN Domineering Evaluation and Mitigation
  • Transformation between Data and Semantic in GNS3 for Network Attack Planning
  • OSPFV3 and EIGRPV6 for Hybrid IPv4 – Ipv6
  • Wireless Sensor Networks by Multi-lingual Virtual Environment
  • IP Filter for Implementation on Improving Network Security
  • Alternative Educational Framework for Adoption of Open source Software
  • Event-B and Formal Method for Evaluate eID System

OMNET++:

  • OMNET++ for IoT (Internet of Things) Simulation
  • Large Networks Simulations Used in Flow Level Extension to OMNET++
  • Multi Scenario WSN Using B-MAC Protocol Based Power Consumption Optimization
  • Elliptic Optical Networks Using Defragmentation Ready Simulation System
  • WSN (Wireless Sensor Networks) Using Improved Chord Overlay Protocol
  • OMNET++ for Finite State Machine Based Cryptographic Protocols Modeling and Simulation
  • Multi Hop and Multi Head Vehicular Ad Hoc Networks for Multilevel Clustering

Latest Topics for Network Simulation for Master Thesis:

  • Coupled Transmission Lines in Hybrid AC/DC System for HVDC Converter Transformer Saturation
  • Cyber Physical Systems in Large Scale MIMO Wireless Communications for Evaluate Secrecy Outage Physical Layer Security
  • High Speed Trains Using Transmit Energy Minimization and Base Station Planning in OFDMA Systems with Multiple Moving Relays
  • Multi User MIMO CWPC (Cognitive Wireless Powered Communication) Networks Using Sum Throughput Maximization
  • Multi-Tier Heterogeneous Networks Using Relay Aided D2D (Device to Device) Based Load Balancing Scheme
  • Non-Differentiable Optimization Problems Using Lagrange Programming Neural Networks in Sparse Approximation
  • Lithium Lon Batteries Using State of Charge Observer Design Based on Neural Networks

       We are abovementioned some of the important information about simulators such as network simulators, purpose of simulators and latest project topics. If you interested to get more information from us, you can come and together with our expert’s directly.