PROJECT TITLE :

Smart backhauling and fronthauling for 5G networks: from precoding to network architecture [Guest editorial]

ABSTRACT:

The recent widespread use of mobile.Net along with the arrival of many sensible applications has led to the explosive growth of mobile information traffic in the last few years. This outstanding growing momentum of mobile traffic will presumably continue thanks to the emerging desires of connecting folks, machines, and applications through mobile infrastructure. Thus, this and projected dramatic growth of mobile knowledge traffic necessitates the event of fifth-generation (5G) mobile Communications technology. 5G cellular Communications will provide us with the promise of a mobile broadband expertise so much beyond our current 4G systems. 5G includes a broad vision and envisages design targets that include 10???a hundred?? peak date rate, one thousand?? network capacity, ten?? energy potency, and 10???30?? lower latency. In achieving these expectations, operators and carriers are designing to leverage metro cells and little cells to improve user expertise and improve overall network performance. Hence, there's considerable market interest in the development of innovative backhaul and fronthaul solutions for ultra-dense heterogeneous networks that are an evolution of the existing backhaul and fronthaul technologies.


Did you like this research project?

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


PROJECT TITLE : An Automated Machine Learning Approach for Smart Waste Management Systems ABSTRACT: This study shows how automated machine learning can be used to solve a real-world problem in a Smart Waste Management system.
PROJECT TITLE : High-Efficiency Bidirectional Buck-Boost Converter for Photovoltaic and Energy Storage Systems in a Smart Grid ABSTRACT: One of the major components of a solar and energy storage system is the innovative bidirectional
PROJECT TITLE : Sliding-Window-Based Real-Time Model Order Reduction for Stability Prediction in Smart Grid ABSTRACT: In this paper, a new real-time model order reduction method for smart grid stability prediction is presented.
PROJECT TITLE : Modeling and simulation for smart grid integration of solor wind energy ABSTRACT: Power grid analysis and control are essential because of the system's complexity and the rising demand for electricity. The
PROJECT TITLE : Modelling and Control of a Grid-connected PV System for Smart Grid Integration ABSTRACT: In this study, a grid-connected photovoltaic (PV) system is modelled and controlled in LabVIEW. It is possible to operate

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

Project Enquiry