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Control strategies and stability analysis of small-scale unmanned helicoptersZhang, Lin January 2017 (has links)
This thesis presents the design and the stability analysis of a hierarchical controller for unmanned aerial vehicles. We utilize non-linear control methodology to command dynamics of unmanned helicopter which has been divided into slower translational dynamics (outer-loop) and faster orientation dynamics (inner-loop), thus exhibiting hierarchical structure. The attitude angles and position which separately belongs to the inner-loop and the outer-loop can be independently controlled by backstepping control strategy. Stability analysis of the helicopter system including applying dynamics has been illustrated after designing. And relative comparison between linear and nonlinear controllers has been carried out. After studying linear control, nonlinear control and stability analysis of one small-scale helicopter, we think about control strategy of a group helicopter which can be called as consensus control.
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Wavelet theory of optical pulse propagationPierce, Iestyn January 1998 (has links)
No description available.
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Deep-tow study of magnetic anomalies in the Pacific Jurassic Quiet ZoneTominaga, Masako 30 October 2006 (has links)
The Jurassic Quiet Zone (JQZ) is a region of low amplitude, difficult-to-correlate magnetic anomalies located over Jurassic oceanic crust. We collected 1200 km of new deep-tow magnetic anomaly profiles over the Pacific JQZ that complement 2 deep-tow profiles reported in Sager et al. (1998). Our primary goals were to extend the correlation of deep-tow magnetic anomalies farther back in time, to evaluate the correlatability and repeatability of anomalies, and to refine the Jurassic geomagnetic polarity reversal time scale (GPTS). Correlations of anomalies were excellent over M34 and over supposedly older seafloor to the south of ODP Site 801. In contrast, the correlation in the region between M34 and Site 801 was difficult. Using anomaly correlation models, we made magnetic polarity block models to establish a revised Jurassic GPTS extending until 169.4 Ma. Age calibration was accomplished with radiometric dates from two ODP holes. Systematic changes in anomaly amplitudes occur along the survey lines with the amplitudes decreasing backward in time and then increasing again in the oldest part of survey area. The zone of the most difficult to correlate anomalies corresponds to a period of ~4 m.y. that appears to have an abrupt end. This low amplitude zone suggests unusual magnetic behavior during the Jurassic. It has been said that many of the larger anomalies are likely caused by changes in polarity, whereas smaller anomalies may be intensity fluctuations. Although it is impossible to identify which anomalies are caused by reversals and which are not, magnetization structures observed in ODP Hole 801C suggest that many of the smallest anomalies, particularly around Hole 801C indicate polarity reversals. We concluded that (1) the new data demonstrates repeatability and correlatability of the JQZ magnetic anomalies implying that they are seafloor spreading lineations and (2) good correlations made new GPTS models extending back to 169.4 Ma; and (3) the origin of the JQZ may be a combination of rapid polarity reversals in the Jurassic low magnetic dipole field and closely spaced, tilted magnetization structure in the oceanic crust.
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Short-Time Scale Dynamic Failure Modes in a Through-Silicon-Via (TSV) Flip-Chip ConfigurationHuang, Chang-Chia 2009 August 1900 (has links)
The demand for high performance microelectronic products drives the
development of 3-D chip-stacking structure. By the introduction of through-silicon-via
(TSV) into 3-D flip-chip packages, microelectronic performance is improved by
increasing circuit capacity and diminishing signal delay. However, TSV-embedded
structure also raises concerns over many reliability issues that come with the steep
thermal and mechanical transient responses, increasing numbers of bi-material interfaces
and reduced component sizes. In this research, defect initiation induced by thermalmechanical
phenomena is studied to establish the early failure modes within 3-D flip-chip
packages. It is found that low amplitude but extremely high frequency thermal
stress waves would occur and attenuate rapidly in the first hundreds of nanoseconds
upon power-on. Although the amplitude of these waves is far below material yielding
points, their intrinsic characteristics of high frequency and high power density are
capable of compromising the integrity of all flip-chip components. By conducting
spectral analysis of the stress waves and applying the methodology of accumulated
damage evaluation, it is demonstrated that micron crack initiation and interconnect debond are highly probable in the immediate proximity of the heat source. Such a
negative impact exerted by the stress wave in the early, while brief, transient period is
recognized as the short time scale dynamic effect. Researched results strongly indicate
that short-time scale effects would inflict very serious reliability issues in 3-D flip-chip
packages. The fact that 3-D flip-chip packages accommodate a large amount of
reduced-size interconnects makes it vulnerable to the attack of short time scale
propagating stress waves. In addition, the stacking structure also renders shearing effect
extremely detrimental to 3-D flip-chip integrity. Finally, several guidelines effective in
discouraging short-time scale effects and thus improving TSV flip-chip package
reliability are proposed
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Deep-tow study of magnetic anomalies in the Pacific Jurassic Quiet ZoneTominaga, Masako 30 October 2006 (has links)
The Jurassic Quiet Zone (JQZ) is a region of low amplitude, difficult-to-correlate magnetic anomalies located over Jurassic oceanic crust. We collected 1200 km of new deep-tow magnetic anomaly profiles over the Pacific JQZ that complement 2 deep-tow profiles reported in Sager et al. (1998). Our primary goals were to extend the correlation of deep-tow magnetic anomalies farther back in time, to evaluate the correlatability and repeatability of anomalies, and to refine the Jurassic geomagnetic polarity reversal time scale (GPTS). Correlations of anomalies were excellent over M34 and over supposedly older seafloor to the south of ODP Site 801. In contrast, the correlation in the region between M34 and Site 801 was difficult. Using anomaly correlation models, we made magnetic polarity block models to establish a revised Jurassic GPTS extending until 169.4 Ma. Age calibration was accomplished with radiometric dates from two ODP holes. Systematic changes in anomaly amplitudes occur along the survey lines with the amplitudes decreasing backward in time and then increasing again in the oldest part of survey area. The zone of the most difficult to correlate anomalies corresponds to a period of ~4 m.y. that appears to have an abrupt end. This low amplitude zone suggests unusual magnetic behavior during the Jurassic. It has been said that many of the larger anomalies are likely caused by changes in polarity, whereas smaller anomalies may be intensity fluctuations. Although it is impossible to identify which anomalies are caused by reversals and which are not, magnetization structures observed in ODP Hole 801C suggest that many of the smallest anomalies, particularly around Hole 801C indicate polarity reversals. We concluded that (1) the new data demonstrates repeatability and correlatability of the JQZ magnetic anomalies implying that they are seafloor spreading lineations and (2) good correlations made new GPTS models extending back to 169.4 Ma; and (3) the origin of the JQZ may be a combination of rapid polarity reversals in the Jurassic low magnetic dipole field and closely spaced, tilted magnetization structure in the oceanic crust.
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Processes and Time Scales of Differentiation in Silicic Magma Chambers: Chemical and Isotopic InvestigationsSnyder, Darin C. 18 April 2005 (has links)
No description available.
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Superstatistics and symbolic dynamics of share price returns on different time scalesXu, Dan January 2017 (has links)
Share price returns on different time scales can be well modeled by a superstatistical dynamics. We provide an investigation which type of superstatistics is most suitable to properly describe share price dynamics on various time scales. It is shown that while chi-square-superstatistics works well on a time scale of days, on a much smaller time scale of minutes the price changes are better described by lognormal superstatistics. The system dynamics thus exhibits a transition from lognormal to chi-square-superstatistics as a function of time scale. We discuss a more general model interpolating between both statistics which fits the observed data very well. We also present results on correlation functions of the extracted superstatistical volatility parameter, which exhibits exponential decay for returns on large time scales, whereas for returns on small time scales there are long-range correlations and power-law decays. We also apply the symbolic dynamics technique from dynamical system theory to analyse the coarse-grained evolution of share price returns. A nontrivial spectrum of Renyi entropies is found. We study how the spectrum depends on the time scale of returns, the sector of stocks considered, as well as the number of symbols used for the symbolic description. Overall our analysis confirms that in the symbol space transition probabilities of observed share price returns depend on the entire history of previous symbols, thus emphasizing the need for a model of share price evolution based on non-Markovian stochastic processes. Our method allows for quantitative comparisons of entirely different complex systems, for example the statistics of coarse-grained share price returns using 4 symbols can be compared with that of other complex systems.
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Processes and time scales of differentiation in silicic magma chambers chemical and isotopic investigations /Snyder, Darin C. January 2005 (has links)
Thesis (Ph. D.)--Miami University, Dept. of Geology, 2005. / Title from second page of PDF document. Document formatted into pages; contains [3], viii, 216 p. : ill. Includes bibliographical references (p. 151-159).
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[en] DETERMINATIO OF BEST INTERVAL FOR CLOCKS CALIBRATIONS / [pt] DETERMINAÇÃO DE INTERVALOS ÓTIMOS PARA CALIBRAÇÃO DE RELÓGIOSRICARDO MARTINS DE AZEVEDO 01 November 2005 (has links)
[pt] Neste trabalho estudamos a aplicação da metodologia de Box
& Jenkins em séries de diferenças entre relógios de
precisão a fim de definir qual o intervalo ótimo entre
calibrações. Para tanto, utilizamos um conjunto de
procedimentos que permite a automatização desta
metodologia até um grau em que não é mais necessária a
intervenção humana. Propomos o uso da análise de variância
para definir a ordem da diferenciação necessária a cada
série, o uso da Função de Autocorrelação Estendida para
definir os hiperparâmetros do modelo, o uso do método de
Mínimos Quadrados Ponderados Recursivos para obtenção dos
parâmetros do modelo além de alguns testes para validação
do modelo encontrado. Utilizamos os dados reais obtidos
dos relógios do Observatório Nacional - Departamento da
Hora, Laboratório Primário de Tempo e Frequência para
mostrar que a metodologia, como proposta, é válida. / [en] In this work we study the application of the Box & Jenlins
methodology to series of differences between precision
clocks to define what is the best interval between
calibratons. We use an ensemble of preceedings that allows
the automatizion of this methodology to a level where
there are no more need of human´s intervention. We propose
the use of variance analysis to define the order of
differentiation necessary to each series, the use of
Extended Autocorrelation Function to define the model´s
hiperparameters, the use of Recursive Pondered Least
Square to obtain the model´s parameters and some tests to
validate the resulting model. We use data from clocks of
the National Observatory - Hour Department, Frequency and
Time Primary Laboratory to show that the proposed
methodology is valid.
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Comparison of Paul and Morlet Wavelets for Measuring the Characteristic Scale of Peak Pressure Events on Low-Rise StructuresChabalko, Christopher Carter 23 August 2001 (has links)
A methodology to measure a characteristic time scale (duration) of peaks in pressure and velocity data is presented. This methodology is based on the use of the Morlet and Paul wavelets. Detailed descriptions of these wavelets and their implementation procedures are given. The results show that similar time scales or durations can be measured using either Morlet or Paul wavelets. To obtain consistent results data windowing might need to be applied. Using the Paul wavelet, durations of events measured in different wind tunnel simulations are obtained and discussed. / Master of Science
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