Some linear preserver problems in system theory

馮漢國, Fung, Hon-kwok.

January 1995

published_or_final_version / Mathematics / Master / Master of Philosophy

Differential equations, Nonlinear.

System theory.

Generalization of the Lindstedt-Poincaré method for analysis of non-linear vibrations

陳樹輝, Ch‘en, Shuhui.

January 1990

published_or_final_version / Civil and Structural Engineering / Doctoral / Doctor of Philosophy

Vibration - Mathematical models.

Nonlinear theories.

Nonlinear analysis of reinforced concrete structures

黃玉平, Huang, Yuping.

January 1993

published_or_final_version / Civil and Structural Engineering / Doctoral / Doctor of Philosophy

Reinforced concrete construction.

Nonlinear theories.

INTERACTIVE NONLINEAR PROGRAMMING (OPTIMIZATION, NLP, DARE/INTERACTIVE, DEVELOPMENT SYSTEM)

Tsao, Lu-Ping, 1959-

January 1986

No description available.

Nonlinear programming.

Interactive computer systems.

Nonlinear continuous feedback controllers

Sitharaman, Sai Ganesh

30 September 2004

Packet-switched communication networks such as today's Internet are built with several interconnected core and distribution packet forwarding routers and several sender and sink transport agents. In order to maintain stability and avoid congestion collapse in the network, the sources control their rate behavior and voluntarily adjust their sending rates to accommodate other sources in the network. In this thesis, we study one class of sender rate control that is modeled using continuous first-order differential equation of the sending rates. In order to adjust the rates appropriately, the network sends continuous packet-loss feedback to the sources. We study a form of closed-loop feedback congestion controllers whose rate adjustments exhibit a nonlinear form. There are three dimensions to our work in this thesis. First, we study the network optimization problem in which sources choose utilities to maximize their underlying throughput. Each sender maximizes its utility proportional to the throughput achieved. In our model, sources choose a utility function to define their level of satisfaction of the underlying resource usages. The objective of this direction is to establish the properties of source utility functions using inequality constrained bounded sets and study the functional forms of utilities against a chosen rate differential equation. Second, stability of the network and tolerance to perturbation are two essential factors that keep communication networks operational around the equilibrium point. Our objective in this part of the thesis is to analytically understand the existence of local asymptotic stability of delayed-feedback systems under homogeneous network delays. Third, we propose a novel tangential controller for a generic maximization function and study its properties using nonlinear optimization techniques. We develop the necessary theoretical background and the properties of our controller to prove that it is a better rate adaptation algorithm for logarithmic utilities compared to the well-studied proportional controllers. We establish the asymptotic local stability of our controller with upper bounds on the increase / decrease gain parameters.

Nonlinear control theory

Optimization theory

Classical and quantum nonlinear optics in confined photonic structures

Ghafari Banaee, Mohamadreza

05 1900

Nonlinear optical phenomena associated with high-order soliton breakup in photonic crystal fibres and squeezed state generation in three dimensional photonic crystal microcavities are investigated. In both cases, the properties of periodically patterned, high-index contrast dielectric structures are engineered to control the dispersion and local field enhancements of the electromagnetic field. Ultra-short pulse propagation in a polarization-maintaining microstructured fibre (with 1 um core diameter and 1.1 m length) is investigated experimentally and theoretically. For an 80 MHz train of 130 fs pulses with average propagating powers in the fibre up to 13.8 mW, the output spectra consist of multiple discrete solitons that shift continuously to lower energies as they propagate in the lowest transverse mode of the fibre. The number of solitons and the amount that they shift both increase with the launched power. All of the data is quantitatively consistent with solutions of the nonlinear Schrodinger equation, but only when the Raman nonlinearity is treated without approximation, and self-steepening is included. The feasibility of using a parametric down-conversion process to generate squeezed electromagnetic states in 3D photonic crystal microcavity structures is investigated for the first time. The spectrum of the squeezed light is theoretically calculated by using an open cavity quantum mechanical formalism. The cavity communicates with two main channels, which model vertical radiation losses and coupling into a single-mode waveguide respectively. The amount of squeezing is determined by the correlation functions relating the field quadratures of light coupled into the waveguide. All of the relevant model parameters are realistically estimated using 3D finite-difference time-domain (FDTD) simulations. Squeezing up to ~20% below the shot noise level is predicted for reasonable optical excitation levels. To preserve the squeezed nature of the light generated in the microcavity, a unidirectional coupling geometry from the microcavity to a ridge waveguide in a slab photonic crystal structure is studied. The structure was successfully fabricated in a silicon membrane, and experimental measurements of the efficiency for the signal coupled out of the structure are in good agreement with the result of FDTD simulations. The coupling efficiency of the cavity mode to the output channel is ~60%.

Nonlinear optics

photonic crystal

dielectric

On Blowup of Nonlinear Heat Equation in One Dimension

Zou, Xiangqun

08 March 2011

We study blowup of solutions of one-dimensional nonlinear heat equations (NLH). We consider two cases: a power nonlinearity and initial conditions having two equal absolute maxima and a polynomial nonlinearity and initial conditions having a single global maximum. We show in both cases that for a certain open set of initial conditions solutions of the NLH blow up in finite time and we find asymptotical behavior of blowup frofiles. In the first case the blowup occurs at two points while in the second case, at one point.

Blowup

Nonlinear heat equation

0405

On Blowup of Nonlinear Heat Equation in One Dimension

Zou, Xiangqun

08 March 2011

We study blowup of solutions of one-dimensional nonlinear heat equations (NLH). We consider two cases: a power nonlinearity and initial conditions having two equal absolute maxima and a polynomial nonlinearity and initial conditions having a single global maximum. We show in both cases that for a certain open set of initial conditions solutions of the NLH blow up in finite time and we find asymptotical behavior of blowup frofiles. In the first case the blowup occurs at two points while in the second case, at one point.

Blowup

Nonlinear heat equation

0405

Netiesinė difuzija sužadintuose silicio kristaluose / The nonlinear diffusion in excited crystalline silicon

Budzinskas, Rolandas

08 June 2005

This work analyses the phenomenon of diffusion in crystalline Si. Basic diffusion mechanisms and equations are described in the basic diffusion characteristics (diffusion coefficient, electrical conductivity and the concentration of vacancies) are analyzed by means of vacancies, what are generated by the beams of x – rays. The obtained facts suggest the makings of diffusion in crystalline Si at room temperature.

Physics

Nonlinear diffusion

Netiesinė difuzija

Barrier function algorithms for linear and convex quadratic programming

Ben Daya, Mohamed

12 1900

No description available.

Algorithms

Quadratic programming

Nonlinear programming