Write My Thesis

Write My Thesis

Commonly, the thesis writing process requires specific rules and guidelines. As we abide by the university guidelines, we guarantee you 100% success our experts suggest your original topic that assess your passion. Plagiarism free paper will be provided which is our major ethics we follow. The following are the formatted approach that assists us to write our thesis efficiently:

  1. Introduction
  • Context: In this section, information regarding the significance of network simulation in our research region is offered by us.
  • Thesis Statement: Our thesis goal is defined explicitly, and the outcomes are contrasted from various network simulation equipment.
  • Relevance: In the recent research roadmap, why this comparison is important are described.
  1. Literature Review
  • Existing Research: The existing researches which have utilized network simulation equipment are considered.
  • Gap Analysis: The gap that our research aims to overcome is emphasized, specifically concentrating on why a comparison of these equipment is required.
  1. Methodology
  • Tool Selection: We describe why the certain network simulation equipment is selected for comparison.
  • Simulation Design: In what way, we arrange our simulations, comprising settings, configurations, and network metrics are explained by us.
  • Data Collection: How we gather outcomes from each simulation tool is elaborated.
  • Analytical Approach: Define how we plan to compare and examine the outcomes.
  1. Results
  • Presentation of Data: The data gathered from each equipment is demonstrated. For clearness, we utilize charts, tables, and graphs.
  • Descriptive Analysis: An explanatory examination of the outcomes is offered, noticing of advancements, directions, or abnormalities.
  1. Discussion
  • Comparative Analysis: We consider the resemblances and variations in the findings obtained from the various simulation equipment.
  • Interpretation: It is important to understand what these outcomes state on the basis of our research query.
  • Tool Efficacy: The effectiveness of every tool in accordance with feasibility, usability, and precision are estimated.
  1. Conclusion
  • Summary of Findings: The main results from our estimation are outlined.
  • Implications: The consequences of our results for the domain of network simulation and research are examined.
  • Limitations: The challenges faced in our research are declared.
  • Future Research: On the basis of our outcomes, we recommend regions for further research.
  1. References
  • Our work incorporates all the literary references that we have mentioned in our thesis.
  1. Appendices
  • Additional Data: Any supplementary information, elaborated tables, or prolonged graphs that assist our thesis are encompassed in this section.

Network simulation tools thesis parameters

Various aspects are required to consider while selecting a proper network simulation parameters. Here are the general instructions that assist in selecting and examining network simulation metrics in your thesis:

  1. Network Topology
  • Type of Network: Explain what kind of network you are dealing with, such as wired networks, wireless networks, IoT networks, ad-hoc networks, etc.
  • Topology Structure: Define the network structure such as star, mesh, ring, tree, etc.
  1. Network Size and Scale
  • Number of Nodes: It mentions the total count of nodes such as switches, hosts, routers utilized in your simulation.
  • Geographical Spread: The geographical distribution and scale are considered for extensive networks.
  1. Device and Link Specifications
  • Device Types: It denotes the kind of devices employed such as servers, routers, switches, end-user devices.
  • Link properties: The following are the link attributes such as latency, bandwidth, and packet loss rate of the links among nodes.
  1. Traffic Characteristics

We suggest some traffic properties that could be included in your thesis:

  • Traffic Type: It represents the kind of the traffic such as video streaming, FTP, HTTP.
  • Traffic Volume: It demonstrates the amount of traffic produced in the network.
  • Traffic Patterns: Defines the format of the traffic direction, whether it is random, uniform, or depending on a certain framework?
  1. Protocol Specifications
  • Routing Protocols: The certain routing protocols such as BGP, AODV, OSPF are being simulated.
  • Transport Layer Protocols: Consider the UDP, TCP, or other transport layer protocols and their configuration.
  1. Performance Metrics

The following are the description of few metrics that could be employed in thesis:

  • Throughput: The amount of effective message delivery through a communication channel.
  • Latency/Delay: It represents the time obtained for a packet to travel from source to destination.
  • Packet Loss Rate: The packet loss rate states the percentage of packets that are missing during the transmission.
  • Jitter: The jitter metric describes the changes in the latency of received packets.
  • Quality of Service (QoS) Metrics: The metrics such as error rates, bandwidth, etc., that impacts the network efficiency.
  1. Simulation Environmental Settings
  • Duration of Simulation: The duration specifies the time frame of the simulation performance.
  • Replication of Simulation: The replication means, how many times the simulation process is carried out to make sure statistical credibility.
  • Initial Conditions: In the initial phase of simulation, create any particular constraints.
  1. External Factors (if applicable)
  • Mobility Models: Utilizing the model governing node movement for wireless and mobile networks.
  • Environmental Factors: Aspects such as signal attenuation, interference, etc., are considered in wireless networks.

Discussing Parameters in the Thesis

  • Justification: Describe why you selected these particular metrics and in what way they are related to your research aim.
  • Impact on Result: It is advisable to examine in what way these metrics could impact your simulation’s results.
  • Comparison with Real-World Scenarios: If suitable, it is better to contrast your simulation metrics with practical network settings to determine the realistic significance of your research.
Write My PhD paper

Thesis Writing Based on Network Simulation Tool Results

Systematic approach is required to write network simulation thesis. Recent techniques and tools to boost up your research will be carried on by our best experts. NS2/NS3, OPNET, GNS3, or MATLAB Network Simulator will be used to get the desired results. Go through our recent topics in which we have provided best Thesis Writing Based on Network Simulation Tool.

  1. Dynamic Channel State Information based Relay Selection in Device-to-Device Communication
  2. Energy-Efficient Power Allocation and Q-Learning-Based Relay Selection for Relay-Aided D2D Communication
  3. Reduction Scheme of SS for D2D Relay-Path Selection to Achieve Guaranteed Throughput for 5G systems
  4. Implications of Resource Optimization in D2D Communication for Efficient Usage of RF Energy: Practice and Challenges
  5. Optimal Routing for Multihop Social-Based D2D Communications in the Internet of Things
  6. Resource Allocation in Secure Full-Duplex D2D Communications Using Zero Forcing Beamforming
  7. A power allocation scheme for D2D communication with enhanced throughput
  8. Capacity Maximization Based on Optimal Mode Selection in Multi-Mode and Multi-Pair D2D Communications
  9. An efficient retransmission scheme for data sharing in D2D assisted cellular networks
  10. Performance analysis for time synchronization of D2D communication in heterogeneous networks
  11. Massive MIMO relaying assisted D2D with opportunistic energy harvesting
  12. Scalable MAC protocol for D2D communication for future 5G network
  13. Mode selection for energy efficient D2D communications in dynamic TDD systems
  14. Applications of interference alignment in D2D communication
  15. Optimal Resource Allocation for Multi-D2D Links Underlying OFDMA-Based Communication
  16. Robust Energy-Efficient Transmission for Wireless-Powered D2D Communication Networks
  17. A QoE-Aware Resource Allocation Algorithm for D2D Communication Underlaying Cellular Networks
  18. Social-Community-Aware Long-Range Link Establishment for Multihop D2D Communication Networks
  19. Design and Evaluation of a Hybrid D2D Discovery Mechanism in 5G Cellular Networks
  20. Trust Management Method of D2D Communication Based on RF Fingerprint Identification
Live Tasks
Technology Ph.D MS M.Tech
NS2 75 117 95
NS3 98 119 206
OMNET++ 103 95 87
OPNET 36 64 89
QULANET 30 76 60
MININET 71 62 74
MATLAB 96 185 180
LTESIM 38 32 16
COOJA SIMULATOR 35 67 28
CONTIKI OS 42 36 29
GNS3 35 89 14
NETSIM 35 11 21
EVE-NG 4 8 9
TRANS 9 5 4
PEERSIM 8 8 12
GLOMOSIM 6 10 6
RTOOL 13 15 8
KATHARA SHADOW 9 8 9
VNX and VNUML 8 7 8
WISTAR 9 9 8
CNET 6 8 4
ESCAPE 8 7 9
NETMIRAGE 7 11 7
BOSON NETSIM 6 8 9
VIRL 9 9 8
CISCO PACKET TRACER 7 7 10
SWAN 9 19 5
JAVASIM 40 68 69
SSFNET 7 9 8
TOSSIM 5 7 4
PSIM 7 8 6
PETRI NET 4 6 4
ONESIM 5 10 5
OPTISYSTEM 32 64 24
DIVERT 4 9 8
TINY OS 19 27 17
TRANS 7 8 6
OPENPANA 8 9 9
SECURE CRT 7 8 7
EXTENDSIM 6 7 5
CONSELF 7 19 6
ARENA 5 12 9
VENSIM 8 10 7
MARIONNET 5 7 9
NETKIT 6 8 7
GEOIP 9 17 8
REAL 7 5 5
NEST 5 10 9
PTOLEMY 7 8 4

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