MIMO OFDM Thesis Projects

MIMO OFDM Thesis Projects

  MIMO OFDM Thesis Projects provide complete support for students and research colleagues across the world. We give highly developed MIMO OFDM projects for students (ME/MTech/MCA/MPhil) and researchers (PhD/MS). First, we concentrate your area of interest and your dream of research. After that, our experts prepare your groundbreaking research with their inventive ideas and provide completely developed projects for you within stipulated time. We provide complete support for you in different research areas with various tools, software, platform and hardware which are used in your research project implementation. Today, our institution had named as “World. No 1” institution with ISO 9001.2000. Due to this, we have millions and billions of students and research scholars in all over the world. Do you wish to get our complete guidance? Approach our research institution through our online and offline service.

Our Prime Service for MIMO OFDM Thesis Projects:

  • Highly Advanced Research Topics Support
  • Support with Source Code, Simulation and Analysis
  • International Journal Paper Publication Support
  • PPT Presentation and Synopsis Support
  • Project Validation Support
  • Thesis Writing with Reediting Facility
  • Support for Research Paper Proofreading
  • Support Result Analysis in Graph and Chart

MIMO OFDM Thesis Projects

  MIMO OFDM Thesis Projects provide knowledgeable environment to upgrade your knowledge with the aid of our world level certified experts. We provide highly sophisticated research topics in various research areas. MIMO-OFDM is a modern wireless broadband system which provides wide coverage and reliable communication. Today, majority of students take their research in MIMO-OFDM due to its good rate of data transmission and robustness again good spectral efficiency and multipath fading. Recently, we are implemented thousands of MIMO OFDM Thesis Projects using various simulators and hybrid algorithms. We provide our best training for you with the highly advanced research ideas to develop your MIMO OFDM Thesis Projects by own. Here, we highlighted some of the advance information about MIMO-OFDM for you.

Advanced Research Areas in MIMO-OFDM:

  • Wi-MAX Networks
  • Underwater Acoustic Wireless Sensor Networks
  • Mobile Ad Hoc Networks
  • Peer to Peer (P2P) Networks
  • Cognitive Radio Networks
  • Millimeter Wave Ad Hoc Networks
  • OFDM Wireless Networks
  • Visible Light Communication
  • Vehicular Networks
  • OFDM Based Heterogeneous Cellular Networks
  • MIMO Wireless Powered Communication Networks
  • Massive MIMO Based 5G Networks
  • Multi-Relay OFDM Networks
  • Multi Hop Relay Networks
  • 5G Asynchronous Communication
  • Wireless Heterogeneous Networks

Supported Simulators:

  • OPNET
  • Matlab
  • NS2
  • NS3
  • Eurocopter Simulator 2017 LTE
  • UE Simulator
  • OptSim
  • NetSim
  • QualNet
  • 4G LTE Network Simulator
  • OMNET++
  • LTE-EPC Network Simulator
  • INET
  • LTESim
  • Vienna LTE-A
  • VoLTE

MIMO-OFDM IEEE Standard:

  • IEEE 802.16 or so2.16m for WiMax Systems
  • IEEE 802.16.1 (Currently Used), IEEE 802.16.1b, 802.16.1a for Wireless MAN
  • IEEE 802.11a&g for WLAN Systems
  • IEEE 802.11a for MMAC System
  • IEEE 802.11g for HIPERLAN/2
  • IEEE 802.16e for MAN
  • IEEE 802.11af for TV White Space Spectrum Sharing
  • IEEE 802.16p for Air Interface
  • IEEE 802.11ah for Information Technology
  • IEEE 802.11ac for Wireless LAN
  • IEEE 802.11ax for Next Generation WLAN
  • IEEE 802.11 for Wi-Fi MAC (Medium Access Control)

MIMO-OFDM Applications:

  • Digital Audio Broadcasting (DAB)
  • Discrete Multi-Tone Systems (DMT)
  • Multible Antenna Systems
  • W-MAN, Wi-MAX, Wi-Fi
  • Frequency Spectrum (PTS Based MIMO-OFDM)
  • Radio Access Technology
  • Digital Video Broadcasting (DVB-T)
  • Dual-Polarized MIMO Antenna System (Wi-Fi and LTE Wireless Access Point Application)
  • Mobile Satellite System
  • 5G Networks (Multi-User, Massive MIMO)

Major Issues in MIMO-OFDM:

  • Downlink Channel Estimation (Millimeter Wave MIMO-OFDM)
  • Impact of Transmitter Nonlinearity (Multi-User MIMO-OFDM)\
  • Inter Carrier Interference (Robust MIMO-OFDM)
  • Channel Estimation (Insufficient Cyclic Prefix MIMO-OFDM)
  • Multi Access Interference (Multiuser MIMO-OFDM)
  • Retrieval of Channel State Information (MIMO-OFDM)
  • Out-of-the-Band Power Emission (Spectrally Pre-coded MIMO-OFDM)
  • Iterative Joint Tone Interference (MIMO-OFDM)
  • Modulation Classification (MIMO)
  • Effect of Phase Noise (MIMO-OFDM)
  • Assumption of Unknown Frequency Selective Fading Channels (Multiple-Antenna MIMO-OFDM)
  • Throughput Maximization (Single-Cell MIMO-OFDM)
  • Downlink Throughput (MIMO-OFDM)

Major Modulation Techniques in MIMO-OFDM:

  • BPSK
  • QPSK
  • MPSK
  • 16QAM
  • 64QAM
  • MQAM

Advanced Research Ideas:

  • Wide Band MIMO Measurements Analysis for 60 GHz Band
  • IEEE 802.15.7r1 Reference Channel Models for VLC (Visible Light Communication)
  • Vehicular Radar through Modified IEEE 802.11 Devices
  • Multi User MIMO Transformation
  • IEEE 802.11ac for enable Very high Throughput Wireless LAN
  • IEEE 802.11 for Future Fourth-Generation Wireless and Mobile Communication Systems
  • MIMO-OFDM Based Location Aware ICI Reduction
  • Archive 3D MIMO with Massive Antennas
  • Estimate Delay and Angle for 3D Massive MIMO/FD-MIMO Systems
  • IoT Cloud Supported Autonomous Vehicles in Millimeter Wave Wireless Communication
  • Interference Resilient OFDM Wireless Communication
  • IEEE 802.11n/ac PHY/MAC High Throughput Improvement
  • Channel Estimation Based on Expectation Maximization
  • Estimate Tomographic Channel in Distributed MIMO Systems
  • IEEE 802.11 ac (Compliant MIMO WLAN) Full-Duplex Transmission
  • Estimate Spare Channel in MISO/ Multi-User OFDM Systems
  • Data Transmission Optimization and Joint Jamming for VLCS
  • Fiber Wireless Integration and Networking
  • MIMO Technologies in 5G Network
  • Visible Light Based Throughput Downlink Connectivity for CRN

MIMO Systems:

  • Millimeter Wave MIMO-OFDM Systems
  • Enhanced MIMO-OFDM Visible Light Communications
  • Wireless MIMO-OFDM Communication System
  • Multi-Cell Multi-User 3D Millimeter Wave Massive MIMO-OFDM System
  • Wideband Millimeter MIMO Systems
  • 5G MIMO Systems
  • Single Carrier Millimeter Wave Systems
  • MIMO-OFDM Full Duplex Relaying Communications
  • Bi-Directional Full-Duplex MIMO OFDM Systems
  • Multi-Service Multi-User MIMI-OFDM Systems
  • Multi-User FDD Massive MIMO Systems
  • 3D Massive MIMO/FD-MIMO Systems
  • Mobile Automotive MIMO Communication Systems

  We previously mentioned some of the information about MIMO-OFDM such as research areas, simulators, IEEE standard, applications, issues, modulation techniques, advanced research ideas and MIMO systems. For all of your queries, approach us at 24 hours in all working days.