Login / Register
MyProjectBazaar
0 Items
₹ 0 00

Cart

View Cart Empty Cart
  • No products in the cart.

CUSTOMER SUPPORT

+91 96777 48277, +91 96777 51577

LOVE IS SHARING
  • HOME
  • ABOUTUS
  • SHOP BY
    • DOMAIN
      • Application Projects
      • Big Data
      • Cloud Computing
      • Communications
      • Datamining
      • Digital Image Processing
      • Digital Signal Processing
      • Mobile Computing
      • Networking
      • Network Security
      • Parallel & Distribued
      • Power Electronics
      • VLSI
      • Web Services
      • Wireless Sensor Networking
    • LANGUAGE
      • Java Projects
      • Dotnet Projects
      • Matlab Projects
      • Android Projects
      • PHP Projects
    • YEAR
      • 2013 Projects
      • 2014 Projects
      • 2015 Projects
      • 2016 Projects
      • 2017 Projects
      • 2018-2019 Projects
      • 2019-2020 Projects
      • 2021 projects
    • PRICE
      • 1000 – 3000INR
      • 3000 – 5000INR
      • 5000INR AND UP
  • BLOG
  • FAQ
  • FEATURES
  • OFFERS
  • SUPPORT
  • ONLINE PAYMENT
Back to top
Home / programming language / Online Matlab Projects / Power Minimization Precoding in Uplink Multi-Antenna NOMA Systems
‹ Back to the shop
NOMA Systems
  • NOMA Systems

Power Minimization Precoding in Uplink Multi-Antenna NOMA Systems

Wishlist
Categories: 2019-2020 Projects, Communications Projects, Online Matlab Projects Tags: Network failures, network restoration, nextgeneration communication, p-cycles, wireless sensor network
  • Description
  • Additional information
  • Product Inquiry

Product Description

Power Minimization Precoding in Uplink Multi-Antenna NOMA Systems With Jamming

Abstract-By exploiting the power domain, non-orthogonal multiple access (NOMA) is capable of improving system spectrum efficiency and supporting massive concurrent connections. However, NOMA transmissions are susceptible to jamming attacks. In this paper, we study anti-jamming policies in a NOMA system by using the multiple-input-multiple-output (MIMO) technique. A novel anti-jamming precoding design is proposed for minimizing the total transmit power of an uplink MIMO-NOMA system. In the proposed scheme, transmitters are divided into multiple groups. Precoders at the transmitters in the same group and equalizers at the receiver are jointly designed to enhance system power efficiency, while successive interference cancellation is employed to eliminate inter-group interference. Two sequential algorithms with closed-form procedures are developed to compute the precoding matrices. Simulation results show that the proposed NOMA scheme outperforms the existing signal alignment NOMA scheme and its orthogonal multiple access (OMA) counterpart in terms of the total power consumption. Besides, the proposed NOMA scheme can perform very well even when only the sample covariance matrix of jamming interference is available.

Video Demo23

450

Including Packages

  • Source Code
  • Documentation
  • Complete Presentation Slides
  • Flow Diagram
  • Database File
  • Screenshots
  • Execution Procedure
  • Readme File
  • Addons
  • Video Tutorials
  • Supporting Softwares

Our Specialization

  • Voice Conference
  • Video On Demand *
  • Remote Connectivity *
  • Code Customization **
  • Document Customization **
Points

Support Service

  • 24/7 Support
  • Ticketing System
  • Live Chat Support
  • Toll Free Support *

 

  • *- PremiumSupport Service (Based on Service Hours)
  • ** – Premium Development Service (Based on Requirements)

Discount

CUSTOMER SUPPORT

Call us +91 96777 61440

HAPPY CUSTOMERS

Read the testimonials

LATEST NEWS

enjoy our blog

Statistical Report

110

satisfied customers

3,589
25

Freelance projects

983
311

sales on Site

11,021
41

developers

175+

Ieee_Final_Year_ProjectsStudent_ProjectsIeee_Projects

Additional Information

Domains

Communications Projects

Programming Language

Matlab

* Insert the name
* Insert a valid email
* Insert a message

Related products

  • On sale!

    Multistructure Large Deformation Diffeomorphic Brain Registration

    ₹4,500.00
    Add to cart
    Details
    Wishlist
    Share

    Share on:

    facebook
    twitter
    google
    pinterest
  • On sale!

    Robust Face Recognition for Uncontrolled Pose and Illumination Changes

    ₹4,500.00
    Add to cart
    Details
    Wishlist
    Share

    Share on:

    facebook
    twitter
    google
    pinterest
  • On sale!

    Wang-Landau Monte Carlo-Based Tracking Methods for Abrupt Motions

    ₹4,500.00
    Add to cart
    Details
    Wishlist
    Share

    Share on:

    facebook
    twitter
    google
    pinterest

₹4,500.00

Wishlist
Share

Share on:

facebook
twitter
pinterest


Copyright myprojectbazaar 2020

LiveZilla Live Chat Software

Terms & Conditions // Disclaimer // Cancellation & Refund // Privacy Policy // Shipping and Delivery