Master Thesis LTE Projects

Master Thesis LTE Projects

    Master Thesis LTE Projects are our main service started for our students and research scholars. We offer enormous services to research scholars across the world. Our services are writing, developing, editing, coding, proofreading, formatting, plagiarism checking, and also in statistical analysis, illustrating, etc.

Consequently, We just breakthrough your ideas and translate them into research projects. Our Master Thesis LTE Projects is your beneficial platform for those interested in writing a thesis for their master’s degree courses. We prepare your thesis to depend on your university format or even your college/institution you are doing your master’s degree. You are just starting your thesis with us. We offer you plenty of opportunities to get to start your thesis.

Thesis LTE Projects

    Master Thesis LTE Projects ideally prepared to guide students and research scholars. A thesis is the mandatory part of your master’s degree. You must need some assistance to complete it. The main focus is on becoming our student is an expert.  In the following, you will get some idea about LTE as well as you get an idea of what Dos and Don’ts in your LTE Projects. When you write a thesis, we surely give guidance to prepare it on time. If you have a doubt, you may discuss with our top writers related to thesis format/structure, technical contents, and so on.

Master Thesis LTE Projects Online Major Features of LTE

  • Supports for FDD and also TDD communication systems
  • Provides peak data rate also for Downlink at100 Mbps and Uplink at 50 Mbps
  • Supports mobility at various mobile speeds [up to 5Mhz] also among cellular networks
  • Offers high peak spectrum efficiency [also for Downlink: three-four times release 6 HSDPA, and Uplink: two-to three times release 6 enhanced uplink]
  • Supports other advanced technologies [LTE-Advanced and LTE-Unlicensed Spectrum]
  • It uses OFDMA also for Downlink and SC-FDMA for Uplink
  • A new protocol called “LTE Direct” also for adding D2D communication
  • The C-plane capacity allows spectrum allocation up to 5 MHZ for 200 users/cell in the active state
  • LTE supports also for broadcast multicast single frequency network
  • Most important aspects of LTE:

                       -Support also for high data rates with minimum delay

                       -Enhanced system capacity and also coverage

                       -Reduced cost also for operator

                       -Support also for Flexible Spectrum Allocation

                       -Used for Spectrum utilization

LTE Simulation Tools

  • LTESim
  • SimuLTE
  • LTE Network Simulator
  • Valid8 LTE CORE simulator
  • OpenLTE
  • Vienna
  • NetSim
  • LENA

LTE Interfacing with Other Simulators

  • NS2 with LTE
  • NS3 with LTE
  • MATLAB also with LTE
  • OPNET with LTE
  • OMNET++ with LTE

LTE Supported Protocols/Techniques/Algorithms

  • Non access stratum protocol
  • S1 Application Protocol
  • SGs Application Part Protocol
  • X2 Application Protocol
  • Diameter base Protocol
  • Non access stratum protocol
  • GPRS tunneling protocol
  • Voice over Internet protocol
  • MAC protocol
  • Delay limited scheduling protocol
  • Resource management protocols
  • Video streaming protocol

Major Research Areas of LTE

  • LTE Security Issues
  • OFDMA and MIMO Enhancement
  • Channel and also in carrier aggregation
  • LTE Vs. Wimax
  • LTE/4G Policy control and management
  • LTE 450 MHZ system assessment
  • Multicell Cooperation Rx/Tx
  • 4G Radio Technologies
  • Security issues on LTE
  • IEEE 802.11 WLAN Discovery Scheme
  • Energy efficient dynamic point selection
  • Interference management
  • Density increased talking of 5G networks
  • Small cell solution for densification
  • Network management with policy and autonomics
  • Fast group discovery and nonrepudiation in M2M communication
  • Intracell CoMP scheduling in LTE-A
  • Packet scheduling on multimedia applications

Latest Thesis LTE Projects Topics

  • A framework for LTE radio base station receivers also using low noise amplifier
  • LTE and LTE-A adaptation also for D2D and M2M communications
  • Mode Filtering Technique Adaptation also for Last Time Access Network in 4G-LTE Hybrid RoMMF-FSO
  • Doherty power amplifier for asymmetric cells also using fundamental Currant ratio
  • Low power massive Internet of Things narrowband wireless access also in a bandwidth perspective
  • High fidelity RF sources in photonic generation also for mobile communications
  • Coalition formation in heterogeneous cellular networks also using Bayesian reinforcement learning for distributed resource sharing D2D users
  • Contention based radio access protocols and also collision free comparison analysis in IoT
  • Intelligent Transport Systems Critical Access also for Smoothing Drive
  • Study for V2X Safety critical communications also using unsupervised long term evolution D2D.
  • LTE-UMTS Spectrum Smart Utilization also for Communication in Smart Grids