UWB MIMO ANTENNA THESIS

By increasing the Q factors, the radiation patterns of multiple antennas are separated automatically to reduce the correlations. During the applications, the presence of users may result in the significant reduction of the antenna total efficiencies and highly affects the correlations of MIMO antenna systems. UWB antennas are designed and analyzed using microstrip feeding technique and coaxial feed to achieve low profile and compatibility with Printed Circuit Board. A new mode of mutual scattering mode is introduced. The background and theory of multiple antenna systems are introduced briefly first.

The simulated and measured results are in good agreement which demonstrate its potential use in UWB portable devices. The antenna consists of two tapered Co-planer Waveguide CPW feeds printed on one side of the substrate and a circular shared radiator on the other side. The decoupling techniques are investigated in the multiple antenna systems operating at the higher frequencies above 1. The objective of this thesis is to design UWB antennas that operates in the frequency range from 3. Thus, Antennas are typically placed apart from others at least half wavelength of the lowest operating frequency, and this could lead to increase in dimensions of MIMO antenna. During the applications, the presence of users may result in the significant reduction of the antenna total efficiencies and highly affects the correlations of MIMO antenna systems. The user effects are studied in different MIMO antenna types, chassis lengths, frequencies, port phases and operating modes.

Show full item record. Several figures of merits are provided and discussed to evaluate the multiple antennaa systems. Therefore, miniaturizing the antenna size and improving the isolation coefficients are the two most important aims for MIMO antennas. The proposed antenna is based on the concept of dual polarization. The high isolation among the antenna elements is a basic requirement for good diversity performance.

KrishiKosh (कृषिकोश)

During the applications, the presence of users may result in the significant reduction of the antenna total efficiencies and highly affects the correlations of MIMO antenna systems. The simulated and measured results are in good agreement which demonstrate its potential use in UWB portable devices.

  DEFINE CORNUCOPIAN THESIS

In the lower anttenna lower than MHzdue to the low radiation efficiency and strong chassis mode, the work mainly focused on how to directly reduce the correlations and enlarge the total efficiency. However, due to the limited space of small mobile devices, the correlation coefficients between MIMO antenna elements are very high and the total efficiencies of MIMO elements degrade severely.

The radiator is shared between two antenna elements. The effectiveness of the tree-like structure is analyzed.

uwb mimo antenna thesis

A new mode of mutual scattering mode is introduced. The high Q factors required for the low correlation and high efficiencies in mutual scattering mode is reduced with another mode of diagonal antenna-chassis mode.

With the inter-element distance larger than a certain distance, a higher Q factor also improved the total mmimo apart from the low correlation.

uwb mimo antenna thesis

There are many challenges in this field, one of the challenge is to design an antenna which ,imo the entire UWB frequency range, the another challenge is to design an UWB Multiple input-Multiple output antenna which will increase the channel capacity and will allow several users to access the various services at anenna same time.

The objective of this thesis is to design UWB antennas that operates in the frequency range from 3. Thus, Antennas are typically placed apart from others at least half wavelength of the lowest operating frequency, and this could lead to increase in dimensions of MIMO antenna.

uwb mimo antenna thesis

Today, owners of small communicating device are interested in transmitting or receiving various multimedia data. By increasing the Q factors, the radiation patterns of multiple antennas are separated automatically to reduce the correlations.

The thesis starts with designing and implementing UWB antennas with discussions covering their operation, electrical behavior and performance. Please use this identifier to cite or link to this item: The decoupling techniques are investigated in the multiple antenna systems operating at the higher frequencies above 1.

The wideband isolation can be achieved through a tree-like structure on the ground plane. Utilizing these usefully information, an adaptive quad-element MAS has been proposed to reduce the user effects and the some geranial rules not limited to the designed MAS have also been given. Also, Different techniques for obtaining a bandstop function in the 5 to 6 GHz frequency band to avoid interference with other existing worldwide interportability for microwave access WIMAX systems are numerically and experimentally presented.

  DISSERTATION KEYNES NÉOCLASSIQUES

The single, dual and wide band isolation enhancements are realized through the half-wavelength decoupling slot, quarter-wavelength decoupling slot with T-shaped impedance transformer, tree-like parasitic element with multiple resonances, as well as the different polarizations and radiation patterns of multiple antennas.

Ultrawideband MIMO/Diversity Antennas With a Tree-Like Structure to Enhance Wideband Isolation

The user effects are studied in different MIMO antenna types, chassis lengths, frequencies, port phases and operating modes. Furthermore, the human body causes high losses on electromagnetic wave. Antennas for this system are designed, to ensure that isolation between elements should be less than – 15 dB.

In Communication systems, Multiple Input—Multiple Output MIMO technology, which involves the use of multiple antennas at both the transmitter and receiver, is used to significantly enhance the data transmission performance and channel capacity. The radiation patterns, gain, and envelope correlation coefficient are also measured. The antenna consists of two tapered Co-planer Waveguide CPW feeds printed on one side of the substrate and a circular shared radiator on the other side.

Items in DSpace are protected by copyright, with all rights reserved, unless otherwise indicated. UWB antennas are designed and analyzed using microstrip feeding technique and coaxial feed to achieve low abtenna and compatibility with Printed Circuit Board. It has single common circular radiator for both the antenna elements.

The background and theory of multiple antenna systems are introduced briefly first.

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