Master Thesis Telecommunication LTE Projects

Master Thesis Telecommunication LTE Projects

  Master Thesis Telecommunication LTE Projects is our prime service started with the aim of promoting our students to explore their research. We have 150+ world class engineers who assist our students in well-prepared manner and they have provided both theoretical and practical knowledge for students and research scholars. Currently, LTE is a new trend technology that growing day by day. Our world renowned professionals and dedicated networking researchers are accomplished nearly 1000+ Master Thesis Telecommunication LTE projects and now they have work on 700+ projects. We provide training program for our students in wide areas include LTE, LTE-A, 5G, GSM, and WiMax with our world class experts. For foreign students we conduct learning session through online (Email, Skype, Team viewer, Mobile Phone and sharing audio and video files). If you want to join with us or be a part of our journey, reach us immediately.

Master Thesis Telecommunication LTE Projects

  Master Thesis Telecommunication LTE Projects change your research style with the help of our research group. We prepare customized thesis [Based on your university guidelines] for your research projects in any of the research field. If you need your Master Thesis in any of the format, see our other articles there we have enumerate our thesis structure. Telecommunication LTE is a standard for wireless communication that provides high speed network access for users. Due to its emerging research scope, students are interested to do their Projects in LTE Telecommunication. For our student’s reference, here we have emphasis about LTE Telecommunication.

Features of Telecommunication LTE:

  • Support for inherent mobility in global ecosystem
  • Provides high performance in terms of latency and speed
  • Support for high performance mobile computing
  • Offers security and privacy with easy access
  • Improve spectral efficiency by reducing the cost per bit
  • Due to its low latency LTE support for Real time applications
  • Achieve great performance for real time video and multimedia transmission
  • Support for End-to-End Quality of Service

Future Trends for LTE Telecommunication:

  • Frequency domain equalization
  • Fractional frequency reuse (FFR)
  • Orthogonal Frequency Division Multiplexing Access (OFDMA)
  • Multi-Input-Multi-Output Technique (MIMO)
  • Single Carrier FDMA (SC-FDMA)
  • Multi carrier dependent resource scheduling
  • SC-FDMA and OFDMA using DFT Spreading
  • Integration of various Multimedia services
  • Voice Over IP support for voice traffic

LTE Design Schemes:

 Advanced Coding and Modulation Techniques:

  • 16QAM, QPSK, and 64QAM
  • Contention free internal inter leaver, coding rate at 1/3, and two 8-state constituent encoders.

Multiple Access Schemes:

  • Cyclic Prefix with Single Carrier FDMA
  • CP with OFDMA Multiplexing

Advanced Spatial MIMO Multiplexing:

  • Downlink and uplink (2/4) *(2/4)

LTE Advanced Antenna Techniques:

  • Spatial Multiplexing support high data rate and spectral efficiency
  • User diversity and Multiple data stream for link robustness
  • Single data stream and User diversity
  • Beam forming technologies for longer battery life and coverage
  • Spatial Division Multiple Access Techniques

Recent LTE Telecommunication Simulation Tools:

  • OPNET (OPNET Modeler)
  • OMNeT++ (SimuLTE, OMNeT++ v4.6, INET Framework v2.3)
  • NS3 (LENA-LTE-EPC Network Simulator)
  • LTE System Toolbox in Matlab
  • LTE Simulator Xilinx
  • CORE Simulator
  • LTE Protocol Simulator (4G network S1, S11, and S5/S8 interfaces simulation)

Major Research Areas for LTE:

  • LTE cellular network with low energy
  • Mobile grid based LTE for disconnection handling
  • Multi user version of MIMO in LTE network
  • Intelligent transporting system based on LTE
  • LTE and LTE-A cell throughput investigation
  • High number of transceiver antennas utilization in MIMO
  • HTTP traffic cache ability analysis in LTE networks
  • Femto and Macro network factors usage analysis
  • Radio air interface based on Multi carrier
  • Fast Frequency selective resource scheduling
  • IP-based Flat Network Architecture Design
  • Coordination and interference avoidance using FFR
  • Network optimization and flexibility deployment
  • Subscriber and session state management
  • Diversity scheme with SU-MIMO and MU-MIMO in LTE network

LTE Performance Considerations:

Quantitative Performance Metrics:

  • VoIP Capacity
  • Data Rates
  • Network Latency
  • Peak Data Rates
  • Coverage, and Radio Performance
  • Frequency Band Effect
  • Spectral Efficiency ( Cell and Peak)
  • Bandwidth
  • Latency and Packet Loss Rate
  • Handover Latency
  • Mobile Edge Throughput
  • Mobility Class
  • Etc

Non-Quantitative/Qualitative Performance Metrics:

  • Network scalability
  • Flexibility
  • Security
  • Improved Mobility
  • System inter-operability
  • Etc

  We provided very few information about LTE Telecommunication. For further information, approach our top experts at any time [24/7]. Our experts are best tutors and mentors who are accepted and recognized in world level. You just hold our hands, we move towards your success which increases your knowledge and potential power.