Minimum disparity inference for discrete ranked set sampling data

Alexandridis, Roxana Antoanela

12 September 2005

No description available.

Statistics

Bias

Mean square error

Hellinger distance

Imperfect ranking

Robustness

Minimum distance estimation

An investigation on the effects of beam squint caused by an analog beamformed user terminal utilizing antenna arrays

Abd-Alhameed, Raed, Hu, Yim Fun, Al-Yasir, Yasir I.A., Parchin, N.O., Ullah, Atta

09 September 2023

Yes / In the equivalent frequency-based model, the antenna array gain is utilised to characterise the frequency response of the beam squint effect generated by the antenna array. This impact is considered for a wide range of uniform linear array (ULA) and uniform planar array (UPA) designs, including those with and without tapering configurations. For a closer look at how the frequency response of the array adapts to the variations in the incidence angle of the signal, the bandwidth of the spectrum is varied and investigated. To study this effect, we have considered using the gain array response as an equivalent channel model in our approach. Beam squinting caused by distortion in the frequency response gain can be verified by one of two equalisers: a zero-forcing (ZF) equaliser or a minimum mean square error (MMSE) equaliser. Different cases with their analysis and results are studied and compared in terms of coded and uncoded modulations. / This work was supported in part by the Satellite Network of Experts V under Contract 4000130962/20/NL/NL/FE, and in part by the Innovation Program under Grant H2020-MSCA-ITN-2016 SECRET-722424.

Equaliser

Minimal mean square error

Uniform linear array

Uniform planar array

Random Vibration Analysis of Higher-Order Nonlinear Beams and Composite Plates with Applications of ARMA Models

Lu, Yunkai

11 November 2009

In this work, the random vibration of higher-order nonlinear beams and composite plates subjected to stochastic loading is studied. The fourth-order nonlinear beam equation is examined to study the effect of rotary inertia and shear deformation on the root mean square values of displacement response. A new linearly coupled equivalent linearization method is proposed and compared with the widely used traditional equivalent linearization method. The new method is proven to yield closer predictions to the numerical simulation results of the nonlinear beam vibration. A systematical investigation of the nonlinear random vibration of composite plates is conducted in which effects of nonlinearity, choices of different plate theories (the first order shear deformation plate theory and the classical plate theory), and temperature gradient on the plate statistical transverse response are addressed. Attention is paid to calculate the R.M.S. values of stress components since they directly affect the fatigue life of the structure. A statistical data reconstruction technique named ARMA modeling and its applications in random vibration data analysis are discussed. The model is applied to the simulation data of nonlinear beams. It is shown that good estimations of both the nonlinear frequencies and the power spectral densities are given by the technique. / Ph. D.

power spectral density

nonlinear

higher-order beam

root mean square

ARMA model

modal interaction

Adaptive Control Methods for Non-Linear Self-Excited Systems

Vaudrey, Michael Allen

10 September 2001

Self-excited systems are open loop unstable plants having a nonlinearity that prevents an exponentially increasing time response. The resulting limit cycle is induced by any slight disturbance that causes the response of the system to grow to the saturation level of the nonlinearity. Because there is no external disturbance, control of these self-excited systems requires that the open loop system dynamics are altered so that any unstable open loop poles are stabilized in the closed loop. This work examines a variety of adaptive control approaches for controlling a thermoacoustic instability, a physical self-excited system. Initially, a static feedback controller loopshaping design and associated system identification method is presented. This design approach is shown to effectively stabilize an unstable Rijke tube combustor while preventing the creation of additional controller induced instabilities. The loopshaping design method is then used in conjunction with a trained artificial neural network to demonstrate stabilizing control in the presence of changing plant dynamics over a wide variety of operating conditions. However, because the ANN is designed specifically for a single combustor/actuator arrangement, its limited portability is a distinct disadvantage. Filtered-X least mean squares (LMS) adaptive feedback control approaches are examined when applied to both stable and unstable plants. An identification method for approximating the relevant plant dynamics to be modeled is proposed and shown to effectively stabilize the self-excited system in simulations and experiments. The adaptive feedback controller is further analyzed for robust performance when applied to the stable, disturbance rejection control problem. It is shown that robust stability cannot be guaranteed because arbitrarily small errors in the plant model can generate gradient divergence and unstable feedback loops. Finally, a time-averaged-gradient (TAG) algorithm is investigated for use in controlling self-excited systems such as the thermoacoustic instability. The TAG algorithm is shown to be very effective in stabilizing the unstable dynamics using a variety of controller parameterizations, without the need for plant estimation information from the system to be controlled. / Ph. D.

combustion control

thermoacoustic instability

time averaged gradient

least mean square algorithms

neural network

adaptive feedback

Energy Absorption of Metal-FRP Hybrid Square Tubes

Kalhor, Roozbeh

07 February 2017

Lower-cost manufacturing methods have increased the anticipation for economical mass production of vehicles manufactured from composite materials. One of the potential applications of composite materials in vehicles is in energy-absorbing components such as hollow shells and struts (these components may be in the form of circular cylindrical shells, square and rectangular tubes, conical shells, and frusta). However, constructions which result in brittle fracture of the composite tubes in the form of circumferential or longitudinal corner crack propagation may lead to unstable collapse failure mode and concomitant very low energy absorption. As a result, metal-composite hollow tubes have been developed that combine the benefits of stable ductile collapse of the metal (which can absorb crushing energy in a controlled manner) and the high strength-to-weight ratio of the composites. The relative and absolute thicknesses of metal or FRP section has a substantial effect on energy absorption of the hybrid tubes. In particular, likelihood of delamination occurrence raises with increase in FRP thickness. This can reduce the energy absorption capability of the metal-FRP hybrid tubes. Additionally, adding a very thick FRP section may result in a global buckling failure mode (rather than local folding). Until now, there are no studies specifically addressing the effect of FRP thickness on energy absorption of hybrid tubes. In this study, the effects of fiber orientation and FRP thickness (the number of layers) on the energy absorption of S2-glass/epoxy-304 stainless steel square tubes were experimentally investigated. In addition, a new geometrical trigger was demonstrated which has positive effects on the collapse modes, delamination in the FRP, and the crush load efficiency of the hybrid tube. To complete this study, a new methodology including the combination of experimental results, numerical modeling, and a multi-objective optimization process was introduced to obtain the best combination of design variables for hybrid metal-composite tubes for crashworthiness applications. The experimental results for the S2 glass/epoxy-304 stainless steel square tubes with different configurations tested under quasi-static compression loading were used to validate numerical models implemented in LS-DYNA software. The models were able to capture progressive failure mechanisms of the hybrid tubes. In addition, the effects of the design variables on the energy absorption and failure modes of the hybrid tubes were explained. Subsequently, the results from the numerical models were used to obtain optimum crashworthiness functions. The load efficiency factor (the ratio of mean crushing load to maximum load) and ratio between the difference of mean crushing load of hybrid and metal tube and thickness of the FRP section were introduced as objective functions. To connect the variables and the functions, back-propagation artificial neural networks (ANN) were used. The Non-dominated Sorting Genetic Algorithm–II (NSGAII) was applied to the constructed ANNs to obtain optimal results. The results were presented in the form of Pareto frontiers to help designers choose optimized configurations based on their manufacturing limitations. Such restrictions may include, but are not limited to, cost (related to the number of layers), laminate architecture (fiber orientation and stacking sequence) which can be constrained by the manufacturing techniques (i.e. filament winding) and thickness (as an example of physical constraints). / Ph. D.

Energy absorption

Axial crushing

Metal-composite square hybrid tubes

Neural networks

Multi-objective optimization

Civic Space: An Architectural Framework for Urban Invention

Linnstaedt, Andrew John

02 November 2010

This project represents the search for an architecture within the physical, historical, and political situation that an existing city presents. Set within the physical bounds of Savannah, it builds upon an understanding of the city as a series of Utopian propositions existing subliminally and often incongruously. As such, the project concerns the making of public space--space to relieve the culturally disjointed condition of modern urban life by acting as a sort of stage for creative expression and collective improvisation. This also involves the making of characteristic places, which by energetically acknowledging, confronting, challenging, or amplifying the cityâ s conceptions of itself, have the potential to generate both physical and metaphysical transformations. Furthermore, in response to urban development paradigms that are either senselessly uncoordinated or mechanistically authoritarian, the project proposes an alternative: the structured interweaving of a â civic layerâ of these generative urban centers, each serving a different part of the city. The centers must function architecturally as the symbols and containers of civic life, providing space and programmatic flexibility to allow for open cultural engagement while aesthetically enlivening the urban fabric and serving collectively as an index to the city at large. / Master of Architecture

reticulum

node

square

forum

frame

field

garden

grid

LD5655.V855 2010.L566

The Modeling of Partial Discharge under Fast, Repetitive Voltage Pulses Using Finite-Element Analysis

Razavi Borghei, Seyyed Moein

04 1900

By 2030, it is expected that 80% of all electric power will flow through power electronics systems. Wide bandgap power modules that can tolerate higher voltages and currents than silicon-based modules are the most promising solution to reducing the size and weight of power electronics systems. These wide-bandgap power modules constitute powerful building blocks for power electronics systems, and wide bandgap-based converter/power electronics building blocks are envisaged to be widely used in power grids in low- and medium-voltage applications and possibly in high-voltage applications for high-voltage direct current and flexible alternating current transmission systems. One of the merits of wide bandgap devices is that their slew rates and switching frequencies are much higher than silicon-based devices. However, from the insulation side, frequency and slew rate are two of the most critical factors of a voltage pulse, influencing the level of degradation of the insulation systems that are exposed to such voltage pulses. The shorter the rise time, the shorter the lifetime. Furthermore, lifetime dramatically decreases with increasing frequency. Thus, although wide bandgap devices are revolutionizing power electronics, electrical insulating systems are not prepared for such a revolution; without addressing insulation issues, the electronic power revolution will fail due to dramatically increased failure rates of electrification components. In this regard, internal partial discharges (PDs) have the most effect on insulation degradation. Internal PDs which occur in air-filled cavities or voids are localized electrical discharges that only partially bridge the insulation between conductors. Voids in solid or gel dielectrics are challenging to eliminate entirely and may result simply during manufacturing process. The objective of this study is to develop a Finite-Element Analysis (FEA) PD model under fast, repetitive voltage pulses, which has been done for the first time. The model is coded and implemented in COMSOL Multiphysics linked with MATLAB, and its simulation results are validated with experimental tests. Using the model, the influence of different parameters including void shape, void size, and void air pressure on PD parameters are studied. / M.S. / To decarbonize and reduce energy consumption for commercial aviation, the development of lightweight and ultra-efficient all-electric powertrain including electric motors, drives, and associated thermal management systems has been targeted. Using wide bandgap (WBG) power modules that can tolerate high voltages and currents can reduce the size and weight of the drive. However, the operation of WBG-based power converter can endanger the reliability of the electrified systems, most importantly, the insulation system. In this study, it is attempted to model the impact of such threats to the insulation system using numerical models.

Finite element analysis

Partial discharge modeling

High frequency

Fast-rise square wave voltages

Insulation systems

Reintroducing the Existential Dimension of the Public Square: An attempt to design a place in relation to its natural environment

Mili, Judith E.

31 July 2006

A public square provides for a social cultural life to take place. The square ought to be located in the part of the city where human activities are the most intense. The edges of the square consist of the buildings that define its space. The architectural style of these buildings shapes the character of the square and embodies the social cultural circumstances of a society. The experience of a public square goes beyond its structured aspects. In fact, each man-made place is located within a natural landscape that changes its appearances during the rhythm of the day and the seasons. It is the combination of the natural phenomena and the architecture that creates the atmosphere of a place. A total integration between these two elements constitutes the "spirit of place" or genius loci. According to Heidegger, human settlement has an enclosure and any enclosure has a boundary. This is also true for the square, the boundary of which is formed by its surrounding buildings. However, this boundary is not continuous, as it is interrupted by pedestrian paths and streets that lead to the square. The quality of a square’s enclosure is related to the characteristic of the openings. The aim of this design thesis is to conceive a public square for today’s social-cultural environment; a public square that is located within a cultural center at Shirlington, Arlington County, Virginia. The buildings of the center form an architectural unity that sets the stage for community events to take place. The articulation and the form of the buildings related to the natural environment make people feel that they were designed for them. This means a place where people can experience a strong feeling of location. / Master of Landscape Architecture

phenomenology of place

concrete space

genius loci

public square

urban morphology

Shirlington

Forecasting the term structure of volatility of crude oil price changes

Balaban, E., Lu, Shan

2016 February 1922

Yes / This is a pioneering effort to test the comparative performance of two competing models for out-of-sample forecasting the term structure of volatility of crude oil price changes employing both symmetric and asymmetric evaluation criteria. Under symmetric error statistics, our empirical model using the estimated growth factor of volatility through time is overall superior, and it beats in most cases the benchmark model of the square-root-of-time for holding periods between one and 250 days. Under asymmetric error statistics, if over-prediction (under-prediction) of volatility is undesirable, the empirical (benchmark) model is consistently superior. Relative performance of the empirical model is much higher for holding periods up to fifty days.

Volatility term structure

Square-root-of-time rule

Forecasting

Forecast evaluation

Oil prices

The square array revisited : a lightweight multisensor platform form vulnerable soil environments.

Parkyn, Andrew K., Gaffney, Christopher F., Schmidt, Armin R., Walker, R.

January 2009

No / The square array was initially tested in the UK during the 1960s by Anthony Clark. However, since the development of the twin probe system, the square array has been seldom used in the UK, although greater use has been reported elsewhere, especially in France (Panissod et al., 1998). In the last few years, re-investigation of the square array¿s potential in an archaeological context has reignited interest and led to the development of a hand-pulled cart system by Dr. Roger Walker (Geoscan Research). This cart system incorporates earth resistance and gradiometer instruments to allow simultaneous surveys with a lightweight device. The main objective of the project is to test the application of the MSP40 on a variety of sites and to encourage the use of appropriate geophysical survey equipment to minimize the impact and therefore protect even the most vulnerable of archaeological sites.

Multisensor

Vulnerable soil environments

Square array

MSP40

Cart

Vulnerable soils

Light weight

Archaeological sites