Best antennas matlab for 2019

Finding your suitable antennas matlab is not easy. You may need consider between hundred or thousand products from many store. In this article, we make a short list of the best antennas matlab including detail information and customer reviews. Let’s find out which is your favorite one.

Best antennas matlab

Product	Features	Editor's score	Go to site
	Smart Antennas with MATLAB, Second Edition		Go to amazon.com
	Antenna and EM Modeling with Matlab		Go to amazon.com
	The Finite Difference Time Domain Method for Electromagnetics: With MATLAB Simulations		Go to amazon.com
	Antenna Design and Visualization Using MATLAB: (Version 2.0 with Source Code)		Go to amazon.com
	Smart Antennas for Wireless Communications: With MATLAB (Professional Engineering)		Go to amazon.com
	Modelling the Wireless Propagation Channel: A simulation approach with MATLAB		Go to amazon.com
	Frontiers in Antennas: Next Generation Design & Engineering		Go to amazon.com
	SODIAL(R) NESDR Mini 2 SDR & DVB-T USB Stick (RTL2832 + R820T2) with Antenna and Remote Control		Go to amazon.com

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1. Smart Antennas with MATLAB, Second Edition

Description

Publisher's Note: Products purchased from Third Party sellers are not guaranteed by the publisher for quality, authenticity, or access to any online entitlements included with the product.

The most complete, current guide to smart antenna design and performance

Featuring new coverage of reconfigurable antennas, vector antennas, and direction-finding antennas, this up-to-date resource offers a rigorous review of the basic electromagnetic principles that drive smart antenna design and deployment. Case studies and worked examples using MATLAB are provided. End-of-chapter assignments reinforce the concepts presented. Thoroughly revised to reflect recent developments and the latest technologies, this is a comprehensive reference for all professionals, students, and researchers in the field of smart antennas.

Smart Antennas with MATLAB, Second Edition, covers:

• Fundamentals of electromagnetic fields
• Antenna fundamentals
• Array fundamentals
• Principles of random variables and processes
• Propagation channel characteristics
• Angle-of-arrival estimation
• Smart antennas
• Direction finding
• Electromagnetic vector sensors
• Smart antenna design and optimization

2. Antenna and EM Modeling with Matlab

Feature

Used Book in Good Condition

Description

An accessible and practical tool for effective antenna design

Due to the rapid development of wireless communications, the modeling of radiation and scattering is becoming more important in the design of antennas. Consequently, it is increasingly important for antenna designers and students of antenna design to have a comprehensive simulation tool.

Sergey Makarov's text utilizes the widely used Matlab software, which offers a e flexible and affordable alternative to other antenna and electromagnetic modeling tools currently available. After providing the basic background in electromagnetic theory necessary to utilize the software, the author describes the benefits and many practical uses of the Matlab package. The text demonstrates how Matlab solves basic radiation/scattering antenna problems in structures that range from simple dipoles to patch antennas and patch antenna arrays. Specialized antenna types like fractal antennas and frequency selective surfaces are considered as well. Finally, the text introduces Matlab applications to more advanced problems such as broadband and loaded antennas, UWB pulse antennas, and microstrip antenna arrays.

For students and professionals in the field of antenna design, Antenna and EM Modeling with Matlab:

• Strikes an important balance between text and programming manual
• Provides numerous examples on how to calculate important antenna/target parameters
• Provides means for modifying existing codes for various individual projects
• Includes companion website with Matlab codes and antenna geometry files

The present MATLAB codes are only supported by MATLAB 5 and 6 (up to 2004).

3. The Finite Difference Time Domain Method for Electromagnetics: With MATLAB Simulations

Description

The scope of the book is the fundamental techniques in the FDTD method. The book consists of 12 chapters, each chapter built on the concepts provided in the previous chapters.



In each chapter the details of the concepts are discussed at a graduate student level. Using this book, students will be able to construct a program with sufficient functionally to solve some basic problems. The construction of final equations is presented with a detailed step-by-step approach. In most cases the full-set of equations are provided.



While constructing the equations, the reader needs to visualize the positioning and orientation of field components in a three dimensional space. This is very difficult and usually requires extensive experience to be able to imagine the 3D space. Therefore, the book presents the construction of equations accompanied by a nice set of 3D illustrations. The figures greatly facilitate the understanding of the concepts.



While the concepts are being presented, it has been kept in mind that the outcome of the book will be a software package that will be sufficient to solve several types of basic electromagnetic problems. In each chapter the transformation of the concepts into programming is explained. Therefore the chapters are presented in such a way that, by adding/developing a new part of the code, chapter by chapter, at the end a well developed FDTD simulation package will be constructed.



A Solutions Manual is also available.

4. Antenna Design and Visualization Using MATLAB: (Version 2.0 with Source Code)

Description

In the course of designing antennas and antenna arrays, it is often advantageous to be able to visualize the radiation patterns, examine these patterns in a variety of ways, observe antenna performance over a wide variety of situations, and determine the antenna or antenna array's constituent parameters. ADV was developed to be an interactive program for the visualization, design, and synthesis of antennas and associated arrays.



This program allows for the design and visualization of both single elements and of arrays of common elements based on assumed, known, or user provided patterns. The visualization options in the program allow for the inspection of the radiation pattern in full 3-D or in multiple 2-D and 3-D plane cuts. A great advantage is gained by being able to quickly and efficiently examine the radiation pattern in many different ways. The ability to examine the different radiation characteristics for many common types of antennas and arrays enhances the educational value of this package.



ADV allows for the design of many common types of elements, such as dipoles, loops, helixes, apertures, bi-conical, and corner reflectors. For each of these different element types, the user is allowed to change any number of parameters that define the antenna and its operation within specified limits. The program also allows the user to design, synthesize, and visualize various configurations of 1-D, 2-D, 3-D arrays and arbitrary system of array elements.



Key Features:



* Comprehensive list of various types of antenna elements

* Analysis of 1D, 2D, and 3D antenna arrays

* Several models of antenna synthesis techniques

* Graphical representation of far field qualities in 2D and 3D

* User defined plane cuts for the 3D pattern

5. Smart Antennas for Wireless Communications: With MATLAB (Professional Engineering)

Description

Smart antennas boost the power of a wireless network, saving energy and money and greatly increasing the range of wireless broadband. Smart Antennas is a rigorous textbook on smart antenna design and deployment.

6. Modelling the Wireless Propagation Channel: A simulation approach with MATLAB

Description

A practical tool for propagation channel modeling withMATLAB simulations.

Many books on wireless propagation channel provide a highlytheoretical coverage, which for some interested readers, may bedifficult to follow. This book takes a very practical approach byintroducing the theory in each chapter first, and then carrying outsimulations showing how exactly put the theory into practice. Theresulting plots are analyzed and commented for clarity, andconclusions are drawn and explained from the obtained results.

Key features include:

• A unique approach to propagation channel modeling withaccompanying MATLAB simulations to demonstrate the theory inpractice
• Contains step by step commentary and analysis of the obtainedsimulation results in order to provide a comprehensive andstructured learning tool
• Covers a wide range of topics including shadowing effects,coverage and interference, Multipath Narrowband channel, MultipathWideband channel, propagation in micro and pico-cells, the landmobile satellite (LMS) channel, the directional Multipath channeland MIMO and propagation effects in fixed radio links (terrestrialand satellite)
• The book comes with an accompanying website that contains theMATLAB simulations and allows readers to try them outthemselves
• Well suited for lab-use, as reference and as a self-learningtool both for advanced students and professionals

Modeling the Wireless Propagation Channel: A simulationapproach with MATLAB will be best suited for postgraduate(Masters and PhD) students and practicing engineers intelecommunications and electrical engineering fields, who areseeking to familiarise themselves with the topic without too manyformulas. The book will also be of interest to network engineers,system engineers and researchers

7. Frontiers in Antennas: Next Generation Design & Engineering

Description

Publisher's Note:Products purchased from Third Party sellers are not guaranteed by the publisher for quality, authenticity, or access to any online entitlements included with the product.

The state of the art in antenna design and engineering

Edited by one of the world's foremost authorities on smart antennas and featuring contributions from global experts, Frontiers in Antennas discusses the latest advances in antenna design and engineering. This pioneering guide deals primarily with frontier antenna designs and frontier numerical methods. Many of the concepts presented have emerged within the last few years and are still in a rapid state of development. Each chapter provides in-depth details on a unique and modern antenna technology.

Frontiers in Antennas covers:

• Ultra-wideband antenna arrays using fractal, polyfractal, and aperiodic geometries
• Smart antennas using evolutionary signal processing methods
• The latest developments in Vivaldi antenna arrays
• Effective media models applied to artificial magnetic conductors and high impedance surfaces
• Novel developments in metamaterial antennas
• Biological antenna design methods using genetic algorithms
• Contact and parasitic methods applied to reconfigurable antennas
• Antennas in medicine: ingestible capsule antennas using conformal meandered methods
• Leaky-wave antennas
• Plasma antennas which can electronically appear and disappear
• Numerical methods in antenna modeling using time, frequency, and conformal domain decomposition methods

8. SODIAL(R) NESDR Mini 2 SDR & DVB-T USB Stick (RTL2832 + R820T2) with Antenna and Remote Control

Feature

Contains all the same improvements on the 'generic' design as were made on the popular and well-tested NESDR Mini, including higher-accuracy clock, low-ESR capacitors, high-Q inductors, and more!
Frequency capability is approximately 24MHz-1750MHz, with no gaps within that range. Expansion to HF, all the way down to 100kHz, is available with the Ham It Up upconverter (sold separately).
Free high-quality telescopic antenna, much improved over the older thin-whip style antenna. Turn on, tune in and...listen!
The perfect device for learning software defined radio, on the cheap. Amateur radio, ADS-B, police & fire scanning, trunking, satellite images--you name it, this little guy can probably do it. Outperforms many devices 10x its cost! This custom SDR is a modified DVB-T USB dongle tuned for SDR usage, including upgraded crystal, capacitors and inductors compared to generic devices.
Full compatibility with a large array of software packages, such as MATLAB, HDSDR, SDR Touch, SDR#, Planeplotter--too many to list. The RTL-SDR radio support package enables you to design wireless receivers using real world signals. Using Communications System ToolboxTM in conjunction with an RTL-SDR USB radio, you can design and prototype systems that process real-time wireless signals in MATLAB and Simulink

Description

* SODIAL is a registered trademark. ONLY Authorized seller of SODIAL can sell under SODIAL listings.Our products will enhance your experience to unparalleled inspiration.
SODIAL(R) NESDR Mini 2 SDR & DVB-T USB Stick (RTL2832 + R820T2) with Antenna and Remote Control
Contains RTL2832U interface IC and the new, improved R820T2 tuner! This tuner has improved sensitivity and SNR compared to devices using the R820T. Unmatched price-performance. There is also an RTL2832U IC on board of course, which acts as the demodulator and USB interface.
material:ABS
color:blue
Package Contents: 1x antenna and remote control NESDR Mini 2 SDR and DVB-T USB stick
Note: Light shooting and different displays may cause the color of the item in the picture a little different from the real thing. The measurement allowed error is +/- 1-3cm.

Conclusion

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