31 |
Simulation of self tuning regulators黃耀光, Wong, Yiu-kwong. January 1989 (has links)
published_or_final_version / Statistics / Master / Master of Social Sciences
|
32 |
Auto-retuning of power system stabilizers for dynamic stability improvement張旭健, Cheung, Yuk-kin. January 1995 (has links)
published_or_final_version / Electrical and Electronic Engineering / Master / Master of Philosophy
|
33 |
Automatic tuning for linearly tunable filterHuang, Sung-Ling 30 September 2004 (has links)
A new tuning scheme for linearly tunable high-Q filters is proposed. The tuning method is based on using the phase information for both frequency and Q factor tuning. There is no need to find out the relationship between a filter's passband magnitude and Q. A gm-C biquadratic filter is designed to demonstrate the proposed tuning circuitry. The project includes a phase locked loop (PLL) based frequency tuning loop, reference clock generator, and differential difference amplifier (DDA) for dealing with frequency and Q factor tuning loop and linearly tunable second order gm-C bandpass filter. Simulation results for a 10 MHz prototype filter using AMI 0.5μm process is presented. The chip testing results show that the automatic frequency tuning error is 2.5% for the 10 MHz case.
|
34 |
Self-tuning predictive control / by Maciej W. RogozinskiRogozinski, Maciej W. January 1987 (has links)
Bibliography: leaves 329-348 / xxi, 348 leaves : ill ; 30 cm. / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / Thesis (Ph.D.)--University of Adelaide, Dept. of Electrical and Electronic Engineering, 1987
|
35 |
Auto-retuning of power system stabilizers for dynamic stability improvement /Cheung, Yuk-kin. January 1995 (has links)
Thesis (M. Phil.)--University of Hong Kong, 1995. / Includes bibliographical references (leaves 108-111).
|
36 |
Timing of fuzzy membership functions from dataFrantti, T. (Tapio) 20 June 2001 (has links)
Abstract
In this dissertation the generation and tuning of fuzzy membership function parameters are considered as a part of the
fuzzy model development process. The automatic generation and tuning of fuzzy membership function parameters are needed for the fast adaptation and tuning of fuzzy
models of various nonlinear dynamical systems. The developed methods are especially useful in automatic fuzzy membership function generation and tuning
when dynamic of application area is fast enough to exclude manual tuning. The fuzzy model development process and development methods, modelling
environment and nature of application area as well as algorithm development parameters are extensively discussed, because each of them sets their own
restrictions on the design parts and parameters used in the modelling. The developed methods have been applied in different kinds of applications (in forecasting
the demand of signal transmission products, power control and code tracking of cellular phone system, fuzzy reasoning in radio resource functions of
cellular phone systems), where other approaches are either very difficult or too time consuming to implement. The professional areas of the thesis are fuzzy
modelling and control in telecommunications.
|
37 |
Modern Api Design and Physical Computing Techniques in Just Intonation Performance PracticeSonnabaum, Mark 05 1900 (has links)
approached previously by both Harry Partch and Ben Johnston, and proposes the decoupling of interface and sound production as a way forward. The design and implementation of a software instrument and a hardware prototype are described, both using a simple API for variable tuning instruments. The hardware prototype uses physical computing techniques to control the tuning of a string with a servo motor, while the software instrument exists entirely in a web browser. Finally, potential algorithms for clients of the API are presented, and the effectiveness of the hardware prototype is evaluated by measuring its pitch accuracy.
|
38 |
The Problem of Tuning Metaheuristics as seen from a Machine Learning PerspectiveBirattari, Mauro 20 December 2004 (has links)
<p>A metaheuristic is a generic algorithmic template that, once properly instantiated, can be used for finding high quality solutions of combinatorial optimization problems.
For obtaining a fully functioning algorithm, a metaheuristic needs to be configured: typically some modules need to be instantiated and some parameters need to be tuned. For the sake of precision, we use the expression <em>parametric tuning</em> for referring to the tuning of numerical parameters, either continuous or discrete but in any case ordinal.
On the other hand, we use the expression <em>structural tuning</em> for referring to the problem of defining which modules should be included and, in general, to the problem of tuning parameters that are either boolean or categorical. Finally, with <em>tuning</em> we refer to the composite <em>structural and parametric tuning</em>.</p>
<p>Tuning metaheuristics is a very sensitive issue both in practical applications and in academic studies. Nevertheless, a precise definition of the tuning problem is missing in the literature. In this thesis, we argue that the problem of tuning a metaheuristic can be profitably described and solved as a machine learning problem.</p>
<p>Indeed, looking at the problem of tuning metaheuristics from a machine learning perspective, we are in the position of giving a formal statement of the tuning problem and to propose an algorithm, called F-Race, for tackling the problem itself. Moreover, always from this standpoint, we are able to highlight and discuss some catches and faults in the current research methodology in the metaheuristics field, and to propose some guidelines.</p>
<p>The thesis contains experimental results on the use of F-Race and some examples of practical applications. Among others, we present a feasibility study carried out by the German-based software company <em>SAP</em>, that concerned the possible use of F-Race for tuning a commercial computer program for vehicle routing and scheduling problems. Moreover, we discuss the successful use of F-Race for tuning the best performing algorithm submitted to the <em>International Timetabling Competition</em> organized in 2003 by the <em>Metaheuristics Network</em> and sponsored by <em>PATAT</em>, the international series of conferences on the <em>Practice and Theory of Automated Timetabling</em>.</p>
|
39 |
A weighting sequence approach to the analysis and design of multivariable control systemsCloud, D. J. January 1987 (has links)
No description available.
|
40 |
Natural frequency based damage identification of beams using piezoelectric materialsZhao, Shengjie 24 December 2015 (has links)
Following the studies of natural frequency based damage detection methods, an advanced technique for damage detection and localization in beam-type structures using a vibration characteristic tuning procedure is developed by an optimal design of piezoelectric materials. Piezoelectric sensors and actuators are mounted on the surface of the host beam to generate excitations for the tuning via a feedback process. The excitations induced by the piezoelectric effect are used to magnify the effect of the damage on the change of the natural frequencies of the damaged structure to realize the high detection sensitivity. Based on the vibration characteristic tuning procedure, a scan-tuning methodology for damage detection and localization is proposed. From analytical simulations, both crack and delamination damage in the beams are detected and located with over 20% change in the natural frequencies. Finite element method (FEM) simulations are conducted to verify the effectiveness of the proposed methodology. / October 2016
|
Page generated in 0.0404 seconds