Network Projects

Network Projects

    Network Projects hopefully motivate today’s young academic learners to excel over the future advanced creations. The evolution of communication crossed several generations of networks and has reached fifth-generation till now. Goal of 5G is facilitated by Massive Multiple–Input–Multiple–Output antenna technology and achieves higher data rates.

Massive MIMO employs multiple antennas that scale up to hundreds or thousands of antenna terminals. 5G telecommunication enables the use of Millimeter Wave over MIMO technology. For performing Network Projects, we have an amazing professional developing team working over this area for 10+ years. This area is very familiar for our technical team, so advancements are easier for us to work with.

Network Projects for Final Year Students Online MOST TRENDING CONCEPTS IN 5G MIMO

  • Pilot contamination
  • Cell Edge Coverage Schemes
  • Multiple access techniques
  • Doubly–Massive MIMO systems
  • Mitigation of Peak–to–Average–Power–Ratio
  • Beamforming / 3D Beamforming
  • Precoding schemes
  • Smart Antennas
  • Multi–path offloading techniques
  • Novel Slicing techniques
  • Cooperative NOMA / Millimeter Wave NOMA
  • Multicarrier / Hybrid NOMA

       Precoding schemes support a huge number of user’s through5G mmWave Massive MIMO in cellular systems under minimized interference. Beam alignment is also efficiently increased for maximizing the potentialities of massive mmWave MIMO technology. Many networks have created a major impact on several days–to–day activities.

This is one of the major reasons that attract learners towards this research area and define a popular communication-based concept. For this, we perform teamwork, which is one of our specialties that has created 5000+ happy customersTake up a step ahead to discuss and know more about our procedures free of costWe provide updated status regarding your project work to make you know that the project is under process. Your goal is our destination to be reached.

Awaited Topics on Software Defined Networks Using 5G

  • Automation of Storage and Abstraction
  • Provisioning Policy-driven storages
  • Self-management System
  • Service related architectures
  • SDN-NFV Orchestration
  • SDN NFV based Control plane / Data plane Design
  • Hardware system Designs in SDN-NFV
  • Huge Storage system for SDN-NFV
  • Radio Access Network Virtualization
  • SDN-NFV in Cloud based Datacenter
  • Insider Threats detection system
  • Real-time load detection model / User Satisfaction
  • Automatic Computation system

Hereby from our knowledge, we point out a few latest topics in mmWave MIMO technology,

  • Analog to Digital Convertors and also Digital to Analog Convertors based on On-bit for Massive MIMO Systems.
  • Decomposition based Hybrid Beamforming also in Millimeter–Wave Massive MIMO Systems.
  • Angle of Arrival Estimation supporting Multiuser Precoding also in Millimeter Wave Massive MIMO.
  • Wideband effects over Spatial and also Frequency under Millimeter Wave Massive MIMO Systems.
  • Pilot contamination also using location-aided Massive MIMO systems.
  • Estimate Noise Variations also for Pilot contamination in Massive MIMO Systems.
  • Linear Beamforming also for Pilot contamination applied over a distributed Massive MIMO Systems.
  • Using Superimposed pilots to minimize pilot contamination also in Massive Multiple–Input–Multiple–Output systems.
  • Pilot contamination in Massive MIMO Systems also using Game Theoretic Approach in 5G communication.
  • Reduction of Pilot contamination also based on graph coloring used under Multi–cell Systems.
  • 2–Dimensional array Geometry also for Channel Estimation in Massive MIMO Systems.
  • Channel estimation using location and also vertex graph coloring based pilot assignment in Massive MIMO systems.
  • Markov Prior with Turbo also for Channel Estimation.
  • Discrete Fourier Transform involved also for estimating channels of Massive MIMO systems.
  • Channel Estimation in Multiuser Massive MIMO Systems also using efficient Semi-Blind method.
  • Hybrid Precoding and Two–Dimensional ESPRIT also based Channel Estimation in Millimeter–Wave Massive MIMO.

    We guide upcoming graduates to handle their projects and also make them reach successful project completion.  Network Projects are also likely chosen by graduates and explore their ideas and knowledge into this area. Applicability and advanced growth in 5G inspire learners to innovate concepts in the network.