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Performance enhancement of small antennas and applications in RFID /Hirvonen, Mervi. January 2008 (has links) (PDF)
Thesis (doctoral)--Helsinki University of Technology, 2008. / Includes bibliographical references. Also available on the World Wide Web.
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A high gain tri-reflector antenna configuration for beam scanning /Werntz, Paul C., January 1993 (has links)
Thesis (Ph. D.)--Virginia Polytechnic Institute and State University, 1993. / Vita. Abstract. Includes bibliographical references. Also available via the Internet.
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Antenna performance analysis for the nationwide differential Global Positioning SystemBarton, Ian Matthew. January 2005 (has links)
Thesis (M.S.)--Ohio University, November, 2005. / Title from PDF t.p. Includes bibliographical references (p. 111-118)
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A multiple antenna Global Positioning System configuration for enhanced performanceNair, Sidharth. January 2004 (has links)
Thesis (M.S.)--Ohio University, June, 2004. / Title from PDF t.p. Includes bibliographical references (p. 131-133)
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A look at the antenna radiation problem in the time domain /McWane, Pearson Dudley, January 1900 (has links)
Thesis (Ph. D.)--Ohio State University, 1972. / Includes vita. Includes bibliographical references (leaves 206-213). Available online via OhioLINK's ETD Center.
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RFID antenna designs /Cheng, Chi Ho. January 2007 (has links)
Thesis (M.Phil.)--Hong Kong University of Science and Technology, 2007. / Also available in electronic version.
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Analysis of self-resonant bent antennasAli, Mohammod 19 July 2018 (has links)
The primary focus of this dissertation is on the analyses of self-resonant bent
antennas. The need for the accurate characterization of such antennas due to their
growing importance in present day wireless communications is the motivation for this
work. To this end, several self-resonant bent antennas are analyzed which includes
an inverted-L antenna (ILA), a meander-line dipole (MLD) antenna, a meander-line
bow-tie (MLBT) antenna, a dual meander antenna, and a printed meander antenna.
A simple analytical model, based on the induced EMF method, is presented to
compute the input impedance of the ILA. First, a sinusoidal distribution of current
on the antenna, with zero current at the end is assumed, and then an expression for
the input impedance is derived using the near-fields of the antenna. The accuracy
of the formulation is verified by comparing the results computed using it with that
from NEC [1] computation. Unlike the analytical solutions available in the literature,
our proposed solution is not restricted to antennas that are electrically small. In
addition the new formulation can be extended to treat other antennas, such as the
T-antenna, the folded unipole antenna, and the loop-loaded monopole antenna.
The input impedance, radiation pattern, and gain of the MLD and MLBT antennas
are computed and correlated with their parameters. Input impedances of both
antennas are computed using NEC. Simple analytical models are presented to compute
the radiation patterns of the MLD and the MLBT antennas. For each antenna,
a sinusoidal distribution of current is assumed and closed-form expressions for the
radiation fields are derived. The results computed using the analytical models are
verified by comparing them with the results from the NEC computation. Since in
each model the radiation pattern of an antenna is expressed in terms of ready to
evaluate algebraic expressions, the computation of such pattern is fast and easy.
The input impedance and radiation characteristics of a dual meander antenna
are computed using NEC. Similarly as before the input impedance, radiation pattern,
and gain of this antenna are also correlated with its parameters. The input
impedance and radiation pattern of a planar printed meander antenna are investigated
using the Finite-Difference Time-Domain (FDTD) technique. The antenna is modeled on a dielectric substrate both in the presence and absence of a metallic
ground plane. Characteristics of the antenna are examined as function of dielectric
constant, and substrate thickness. New results of input impedance, radiation
pattern, and gain are presented which are vital for the design of such antennas.
Several novel applications of self-resonant bent antennas are described. First, a
wide-band dual meander-sleeve antenna is designed, manufactured, and measured
for application in dual frequency vehicular personal communication. The antenna
can operate simultaneously in the 824-894 MHz and 1850-1990 MHz bands of the
PCS system. Second, an MLBT dipole is introduced as a feed for plane sheet
reflectors. Numerical results computed using NEC show that the feed when used
in front of a plane sheet reflector, results in superior radiation characteristics than
a conventional dipole feed, namely, it reduces the reflector dimension by 46% for
the same front to back ratio, beam width and gain. Finally, a compact plane sheet
reflector antenna is described that uses an MLBT monopole feed. Since the antenna uses a monopole, a balun is not required. This antenna has a gain and half-power
beam width of 8.4 dBi and 94° respectively. / Graduate
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A multiple-antenna-multiple-equalizer system for CDMA indoor wireless systemsSubramanian, Srikanth 31 July 2018 (has links)
A multiple-antenna-multiple-equalizer (MAME) system is proposed for overcoming
cochannel interference (CCI) in code-division multiple access (CDMA) indoor wireless
systems. The main advantage of the MAME system is the enhanced interference
suppression capability as compared with many existing approaches. Thus, the use of the
MAME system can lead to an increase in the capacity of the CDMA system. In the
MAME system, a fractionally-spaced equalizer (FSE) is used to process the signal at each
antenna. The number of antennas or the tap spacing of the FSEs is not fixed and inherent
flexibility is available to the designer. In particular, CDMA indoor wireless systems are
best suited to use the interference suppression capabilities of the MAME system.
It is shown that spectral correlation present in user signals is the reason for the interference
suppression capability of the MAME system. Moreover, the MAME system is
interpreted as a dual-domain diversity combiner. Spatial and bandwidth-domain diversity
are used and the relative importance of the diversity domains is discussed. These discussions
offer new insights into the interference suppression capabilities of the MAME
system and give a clear picture of its workings.
Extensive simulation results are presented to illustrate the performance of the
MAME system under various conditions. Optimal or minimum mean-squared error
(MMSE) results are first presented to illustrate the superior interference suppression performance.
The effects of the number of antennas, tap spacing, receive filtering, spectral
correlation, diversity domains, and near-far conditions on performance are examined and
results obtained support the arguments presented earlier in the thesis.
The FSEs in the MAME system are implemented as adaptive filters and the mean-squared-
error (MSE) performance is investigated. A quasi-Newton (QN) algorithm is
recommended over other adaptive filtering algorithms because of ill-conditioning of the
autocorrelation matrix in the MAME system. Simulation results confirm the superior
convergence performance of the QN algorithm. Decision-directed equalization is also
investigated and bit-error rate (BER) results presented illustrate that the gains in the
MMSE performance will most likely translate into gains in BER performance. The BER
performance in near-far and birth of interferers conditions illustrate that the MAME system
is a promising solution to counter these problems.
The thesis concludes with an indoor wireless strategy based on the MAME system
which offers the following advantages:
1. More users than the processing gain of the CDMA system can share the same
bandwidth.
2. No information about code sequences is needed at the receiver.
3. Simple code sequence allocation schemes can be used at the transmitter.
4. Variable numbers of users can be accommodated.
5. Simple power control and error-correction coding schemes can be used. / Graduate
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Methods for determining dish antenna pointing anglesEisemann, David W. 30 March 2010 (has links)
<p>Satellite Look Angles are the coordinates to which an earth
station antenna must point to communicate with a satellite. Each
satellite has it's own unique set of look angles. The first method,
developed to calculate a satellite's look angles, uses standard plane
and spherical trigonometry and assumes a perfectly spherical earth. The
second method developed is unique to this paper and wi11 not be found
anywhere, including general satellite communication textbooks. This
method uses a geodetic reference system which refers to the earth as an
ellipsoid rather than a sphere. This second method is a more rigorous
approach to determining look angles and readily lends itself to pointing
at satellites in any given orbit. Fortran code was written implementing
both methods and it is concluded that employing a geodetic reference
frame is viable where high degrees of accuracy are required. Fortran
code was also developed to calculate the pointing angles for Radio
Sources such as pulsars and quasars. This code corrects for precession,
nutation, annual aberration, and polar motion of the earth.</p> / Master of Science
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The multiple plate antennaSchell, Allan Carter, 1934- January 1961 (has links)
Thesis: Sc. D., Massachusetts Institute of Technology, Department of Electrical Engineering, 1961. / [1970]. / Cambridge, Mass. / 3 microfiches. / Massachusetts Institute of Technology, Microreproduction Laboratory, / "September 1961." Vita. / Includes bibliographical references (leaves 136-138 ). / by Allan Carter Schell. / Sc. D.
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