• Corpus ID: 18394936

Analysis and Design Hilbert Curve Fractal Antenna Feed with Co-planar Waveguide for multi-band wireless communications

@inproceedings{Prombutr2008AnalysisAD,
  title={Analysis and Design Hilbert Curve Fractal Antenna Feed with Co-planar Waveguide for multi-band wireless communications},
  author={Niruth Prombutr and Suhazlan Suhaimi and K. S. Kahlon and P. K. Bansal and Kawaljeet Singh},
  year={2008},
  url={https://api.semanticscholar.org/CorpusID:18394936}
}
The purpose of this project is to design and analyze Hilbert curve fractal antennas to get the empirical and electrical model and uses the Zealand program for simulating antennas.
cscjournals.org
11 Citations
Background Citations
4
Methods Citations
1

Figures and Tables from this paper

11 Citations

A Novel Low Cost Fractal Antenna Structure for ISM and WiMAX Applications

A design of a dual-band fractal antenna fed by coplanar waveguide (CPW) transmission line that exhibits an interesting dual frequency resonant behavior making it suitable for dual band communication systems including the ISM and WiMAX applications.

A novel planar square fractal antenna for wireless devices

The aim of the paper is to design an antenna suitable for wireless devices used in telemedicine, simulate and test its performance. To achieve this objective, a simpler, lighter, smaller sized

An extensive survey on fractal structures using iterated function system in patch antennas

Over the last few years, fractal structure has been used in several engineering fields such as surface physics, telecommunication, fluid mechanics, and so forth. In telecommunication, often there is

Study of Compact Hilbert Curve Fractal Antennas for Implantable Medical Applications

Two new miniaturized compact fractal shaped implantable microstrip antennas are proposed in this work and the analysis reports that the antennas are suitable for wireless as well as (Implantable Medical Device (IMD) applications.

Design of a fractal antenna based on hexaflake fractal structure

Design of a fractal antenna structure based on iteration 1 and iteration 2 of hexaflake fractal structure is proposed. A multiport network model of basic hexagonal patch structure is analysed. Based

A Review of Various Multi-Frequency Antenna Design Techniques

This paper gives a comprehensive review of various techniques to design compact, multiband planar antennas for wireless devices and applications which includes improved antenna designs using better techniques for enhanced performance in the respective fields.

Fractal Minkowski Antenna Loaded with Hilbert Curve as Complementary Split Ring Resonator

Fractal Minkowski patch antenna is proposed. Classical complementary split ring resonator (CSRR) is slotted on the patch. For comparison, fractal Hilbert shape split ring resonator also slotted on

Design, Analysis and Implementation of Microstrip UWB Antenna to monitor the Fetus in Uterus

The key finding in the integrated Hilbert curve expandable biomedical antenna proposal with wearable substrate is presented, and the proposed antenna's essential characteristics are analyzed and demonstrate a good level of simulation agreement.

A compact triple‐band metamaterial‐inspired antenna for wearable applications

A low‐profile (28 mm × 32 mm × 0.394 mm), metamaterial‐inspired antenna employing an array of 3 × 5 Hilbert‐shaped unit radiators printed on the upper side of a flexible dielectric substrate while

A new method in encryption of gray scale images using chaos game representation

It has been proved that the proposed method is capable of providing a high level of security and provides a large key space(2418), which is a significant amount to prevent various attacks.

21 References

Hilbert curve fractal antenna: A small resonant antenna for VHF/UHF applications

The usefulness of fractal Hilbert curves in antenna geometry is explored here for the first time. Apart from being simple and self‐similar, these curves have the additional property of approximately

Fractal element antennas: a compilation of configurations with novel characteristics

Fractal geometries have been used in science to mathematically define intriguing features observed in nature, from describing the formation of clouds to coastlines to tree bark. It expands the

The Koch monopole: a small fractal antenna

Fractal objects have some unique geometrical properties. One of them is the possibility to enclose in a finite area an infinitely long curve. The resulting curve is highly convoluted being nowhere

Fractal antenna applications in wireless telecommunications

    Nathan Cohen
    Engineering, Physics
    Professional Program Proceedings. Electronic…
  • 1997
Applying fractals to antenna elements allows for smaller, resonant antennas which are multiband/broadband and may be optimized for gain. They do not use additional loading components and are simple

Resonant frequency and radiation efficiency of meander line antennas

One of the approaches to reducing the size of half-wavelength linear dipole antennas is the meander dipole antenna, where the elements form a meander line. This paper presents a formula for the

Antenna Theory: Analysis and Design

The most-up-to-date resource available on antenna theory and design. Expanded coverage of design procedures and equations makes meeting ABET design requirements easy and prepares readers for

Small but long Koch fractal monopole

A small but long wire fractal antenna based on the Koch curve is presented. Experimental and numerical results show that the antenna improves the features of a common linear monopole. The radiation

Fractal multiband antenna based on the Sierpinski gasket

Experimental and computed results show a multiband behaviour over five bands for the new fractal Sierpinski antenna. Such a behaviour is based on the self-similarity properties of the antenna's

FRACTALS IN THE FUNDAMENTAL AND APPLIED SCIENCES Proceedings of the First IFIP Conference on Fractals in the Fundamental and Applied Sciences

Some Mathematical Models for the Pattern Growth in the Ordered Systems and Visualizing the Dynamics of Particle-Field Interactions are presented.

Transmission Line Design Handbook

Generalized Transmission Lines. Physical Transmission Lines. Coupled Lines. Transmission Line Components and Discontinuities. Inductors. Capacitors. Resistors. Printed Circuit Fabrication. Cable