NS2 Master ThesisNS2 simulation and NS2 Based Thesis for PhD Scholars
Network simulator 2 an important simulator to ensure simulation and design large area network model. We offer NS2 project center with network simulation based projects for college students. We ensure NS2 projects based on IEEE papers for engineering students. We developed latest network based projects with 5G network and satellite communication. We developed more network based projects for communication students. We implement NS2 projects to ensure proper communication over wireless network.
Wireless communication system developed from GSM system to LTE system. GSM referred as 2G networks and LTE referred as 4G network system. We ensure 4G network for high throughput with different criteria. We implement 5G communication network used to extend 3D performance with delay, throughput and communication links. We enhance various technologies to implement fundamental tradeoff among 3D performance. We provide 5G network system with low latency, energy efficient and high reliable communication network.
Terahertz band communication:
We develop a key technology terahertz band communication to satisfy data rate needs of future wireless network communication by terahertz we developed more than 75+ projects in network communication. It enables new application for classical network and enhance THZ band communication network closer to major communication applications.
Self healing communication:
We use self healing communication in digital error correcting across independent links. By this technique, it makes use of network capacity required for coding with feedback channel routing performance. We use discrete Fourier transfer based model to ensure self healing or fault tolerant communication network with continuous or discrete amplitude signals. Main benefits of this communication are simplified encoder and decoder in high speed network diversity.
Aeronautical communication network:
We implement aeronautical network which uses aeronautical station as multitier network part and considers as future wireless communication system for M.E students. CAN research ensure high throughput and cost effective network communication for aeronautical applications. We provide aeronautical application with air traffic management (ATM), air traffic control (ATC) and commercial in flight internet activities. We implement CAN topology by simple mobile adhoc network. By this process we analyze single hop and two hop network model. In this network, every source and destination are communicated by aeronautical stations (AS) with or without intermediate AS. CAN two hop model achieve high throughput than single hop network.
LEO and ICO satellite network:
We provide network communication based on low earth orbit (LEO) and intermediate cellular orbit (ICO) in satellite communication model development. We consider satellite network topology with number of orbit, satellite and communication channel. LEO/ICO based network ensure high link capacity, traffic needs and network topology.
Journal Support for Research Scholars
Ns2 Projects Work Progress
- MANET – Mobile Ad Hoc Network 95%
- VANET – Vechicle Ad Hoc Netwok 97%
- LTE – Long Term Evolution 78%
- IoT – Internet of Things 90%
- Wireless Sensor Network 89%
- Network Security 89%
- Ns2 Attacks 96%
- Cognitive Radio Network 85%
- Parallel and Distributed Computing 73%
- SDN – Software Defined Networking 95%
- P2P , Video Streaming , Peersim 96%
- IPV4 , IPV6 88%
- 4G Network , 5G Network 80%
- Visual , Underwater Sensor Network 79%
- Multicasting Communication 84%
- Wimax, WiFi 90%
- OFDMA 94%