MIMO-TTR+: A Novel Topology-Transparent Scheduling Scheme for MIMO Wireless Networks

Project Code :TMPGWI02

Objective

In this paper, we present MIMO-TTR+, a topology-transparent scheduling protocol for multi-hop wireless networks with MIMO-enabled transceivers which utilize the channel bandwidth effectively.

Abstract

In this project, we present MIMOTTR+, a topology-transparent scheduling protocol for multi-hop wireless networks with MIMO-enabled transceivers. Multi-hop packet radio networks with a volatile topology pose significant challenges in the design of scheduling protocols.

It is desired that changes in topology do not trigger updates to existing schedules. Topology-transparent scheduling algorithms achieve this objective as they work only with global network parameters, namely the maximum size and maximum nodal degree of the network.

The protocol uses RTS/CTS handshaking with multiple RTS mini slots to utilize the channel bandwidth effectively even when the maximum nodal degree exceeds the number of receive antennas at the destination node. We perform detailed mathematical analysis and numerical simulations to show the superiority of our approach over similar ones in the literature.

Keywords: Wireless network, Topology-transparent scheduling (TTS), Multihop, MIMO, RTS/CTS.

NOTE: Without the concern of our team, please don't submit to the college. This Abstract varies based on student requirements.

Block Diagram

Specifications

Software & Hardware Requirements:

Software: Matlab 2018a or above

Hardware:

Operating Systems:

Windows 10
Windows 7 Service Pack 1
Windows Server 2019
Windows Server 2016

Processors:

Minimum: Any Intel or AMD x86-64 processor

Recommended: Any Intel or AMD x86-64 processor with four logical cores and AVX2 instruction set support

Disk:

Minimum: 2.9 GB of HDD space for MATLAB only, 5-8 GB for a typical installation

Recommended: An SSD is recommended a full installation of all Math Works products may take up to 29 GB of disk space

RAM:

Minimum: 4 GB

Recommended: 8 GB

Learning Outcomes

Introduction to Matlab
What is EISPACK & LINPACK
How to start with MATLAB
About Matlab language
Matlab coding skills
About tools & libraries
Application Program Interface in Matlab
About Matlab desktop
How to use Matlab editor to create M-Files
Features of Matlab
Basics on Matlab
Basics of wireless sensor networks
About Transmission conflicts.
How system modal can be formed in Matlab.
Construction of algorithm according to system modal
Analyzing and visualization of plots.
About Transparent scheduling schemes.
About MIMO wireless communications.
Phases of data transmission:

Generation of input data
Construction of WSN nodes
Clustering of WSN nodes

How to extend our work to another real time applications
Project development Skills

Problem analyzing skills
Problem solving skills
Creativity and imaginary skills
Programming skills
Deployment
Testing skills
Debugging skills
Project presentation skills
Thesis writing skills

Demo Video

Request Video

Artificial Intelligence

Deep Learning
Artificial Neural Network

Image Processing

Image Segmentation
Image Enhancement
Image Denoising
Stegnography
Fusion and Saliency
Image Retrieval

Communications

Modulation Techniques
5G networks
MIMO Transmissions
Device-to-Device Communications

Wireless Sensor Networks

Protocols
Routing Concepts

Signal Processing

Denoising
Smoothing

Antenna

Patch Antenna