Design of Dual Band Flexible Antenna for WLAN Applications & Comparing its Return Loss WIMW Shaped Antenna.

Project Code :TMMAAN13

Objective

In this project we will design the T dual band, H dual band, W dual band, Rectangular, Circular and Hexagonal shapes by Using HFSS software. After completion of that design process, two bands are compared and plotted the return loss, radiation pattern, gain graphs.

Abstract

A novel and compact dual band planar antenna for 2.4/5.2/5.8-GHz wireless local area network (WLAN) applications is proposed and studied in this paper. In this project we will design the T dual band, H dual band, W dual band, Rectangular, Circular and Hexagonal shapes by Using HFSS software. The parametric study is performed in order to understand the characteristics of the proposed antenna. The return loss, radiation pattern, gain are studied too. The simulation return loss indicates the suitability of this antenna for the WLAN applications.

Keywords: Microstrip patch antenna , T slot, H slot, W slot , Rectangular , Hexagonal , circular slots.

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: HFSS Antenna designing.

Hardware:

64-bit Intel or AMD system, running Windows 10.
8 GB RAM
A dedicated graphics card with latest drivers and at least 1GB video RAM, capable of supporting OpenGL 4.5 and DirectX 11, or higher. Use of integrated graphics (e.g., Intel HD/IRIS) is not recommended and is not support by the Analyze stage in Discovery. See below for special graphics requirements for ANSYS Discovery Live.
3 button Mouse.

Learning Outcomes

Introduction to HFSS
What is Antenna designing
How to start with HFSS antenna designing.
About Electromagnetic environmental setup
Designing skills
About libraries
How to add feed, radiation patterns for Antenna.
About HFSS desktop
How to use different shapes in creation of Antenna
Features of HFSS
Basics on HFSS
How to create EM fields in HFSS.
How to generate directive gain, return loss graphs for different frequencies.
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

Artificial Neural Network
Deep Learning

Image Processing

Fusion and Saliency
Image Segmentation
Image Compression
Image Detection
Image Retrieval
Security Applications
Image Enhancement
Image Denoising

Communications

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

Wireless Sensor Networks

Routing Concepts
Protocols

Signal Processing

Security Applications
Denoising
Smoothing

Antenna

Reconfigurable Antenna
Patch Antenna