NS3 WIMAX SIMULATION PROJECTS

WiMAX referred as worldwide Interoperability for microwave access. WiMax a broadband wireless network based on IEEE 802.16 standard. We offer NS3 Wimax simulation project for communication and telecommunication students. We do final year projects in wimax wireless network with Ns3 simulation for computer science and Information technology students. We enhance Ns3 wimax simulation with interoperability and compatibility among broadband wireless access. We support NS3 library model for large application design wireless network based on Wi-max with science direct reference papers.

Services offered by wimax projects in ns3

Types of Wi-Max:

We implement wimax types with broad services are:

  • Fixed WiMax.
  • Mobile WiMax.

Fixed WiMax:

We use Fixed WiMAX to attain high gain and low portability unidirectional antenna. It ensures limited wireless broadband access. We adopt sub channel as OFDM 256FFT, Single high gain carrier are used in fixed Wimax.

Mobile Wimax:

We use mobile WiMAX as IEEE 802.16 e to access with large coverage area with low gain high portable at users end. By Mobile Wi-Max we support OFDMA 1kFFT, OFDM 256 FFT, and OFDM 2k-FFT channels.

Wi-max Features:

We achieve the factors in Wi-max to develop a B.Tech/ M.Tech projects are:

  • Scalability.
  • Network coverage.
  • Access range.
  • Quality of service.

 

Advantages of Wi-max Simulation Projects:

We attain the factors are:

  • Easy to Implement.
  • Faster than Broadband Service.
  • Provide Wider Coverage than Other Network.
  • Less Cost.
research on robotic sensor network of b.tech projects in ns3

Fuzzy based stable routing scheme:

We propose fuzzy based stable routing algorithm to find most stable route for data transmission. This algorithm function based on considering number of intermediate nodes packet queue occupancy and distance among nodes are given as input for fuzzy logic system. We evaluate these parameters and calculate route lifetime by fuzzy controller. We use this algorithm to consider QOS factors such as packet delivery ratio, end to end delay and routing load.