PROJECT TITLE :

Millimeter-wave gigabit broadband evolution toward 5G: fixed access and backhaul

ABSTRACT:

As wireless communication evolves toward 5G, both mounted broadband and mobile broadband can play an important half in providing the gigabit-per-second infrastructure for a connected society. This text proposes an MGB system as the solution to 2 vital issues during this evolution: last-mile access for mounted broadband and small cell backhaul for mobile broadband. The key plan is to use spectrum that's already out there in the millimeter-wave bands for mounted wireless access with optimized dynamic beamforming and huge MIMO infrastructure to attain high capacity with wide area coverage. This text explains the MGB concept and describes potential array architectures for realizing the system. Simulations demonstrate that with five hundred MHz of bandwidth (at 39 GHz band) and twenty eight dBm transmission power (fifty five dBm EIRP), it's potential to supply more than eleven Gb/s backhaul capacity for ninety six tiny cells within a one km radius.


Did you like this research project?

To get this research project Guidelines, Training and Code... Click Here


PROJECT TITLE :Spatial- and Frequency-Wideband Effects in Millimeter-Wave Massive MIMO Systems - 2018ABSTRACT:When there are a giant range of antennas in large MIMO systems, the transmitted wideband signal can be sensitive to
PROJECT TITLE :Relay Hybrid Precoding Design in Millimeter-Wave Massive MIMO Systems - 2018ABSTRACT:This Project investigates the relay hybrid precoding style in millimeter-wave massive multiple-input multiple-output systems.
PROJECT TITLE :Efficient Compressive Channel Estimation for Millimeter-Wave Large-Scale Antenna Systems - 2018ABSTRACT:Giant-scale antenna systems are thought of as a viable technology to catch up on huge path loss in millimeter-wave
PROJECT TITLE :Low-Power Injection-Locked Zero-IF Self-Oscillating Mixer for High Gbit/s Data-Rate Battery-Free Active Tag at Millimeter-Wave Frequencies in 65-nm CMOSABSTRACT:In this paper, a low-power zero-IF self-oscillating
PROJECT TITLE :CMOS I/Q Subharmonic Mixer for Millimeter-Wave Atmospheric Remote SensingABSTRACT:A compact second harmonic a hundred and eighty GHz I/Q balanced resistive mixer is realized in a very thirty two-nm SOI CMOS technology

Ready to Complete Your Academic MTech Project Work In Affordable Price ?

Project Enquiry