An Iterative Nonlinear Mapping Method for the Relaxation Time Distribution
スポンサーリンク
概要
- 論文の詳細を見る
We propose a simple numerical method to calculate the relaxation time distribution, which is not based on the regularization method. This method is as precise as the nonlinear regularization method developed by Honerkamp and Weese4), and is simpler in mathematical aspects. Our method is an iterative nonlinear mapping that maps any initial distribution to the set of distribution functions whose element H(n)(τ) generates moduli very close to those generated by the exact distribution, and is smooth whenever the initial distribution is smooth. By the mapping, the initial distribution becomes close to the exact distribution within less than 10 iterations. This implies that the iterative nonlinear mapping itself contains the role as the regularization term used in the existing regularization methods, while the mapping is not formulated by constructing a counterpart of the regularization term. In other words, this method is free from parameters such as regularization parameter used in the previous regularization methods. Furthermore, our method needs no constraint to keep the distribution non-negative.
- 一般社団法人 日本レオロジー学会の論文
- 2004-06-15
著者
-
Lee Seung
School Of Advanced Materials Engineering Chonbuk National University
-
Ahn Kyung
School Of Chemical Engineering Seoul National University
-
Cho Kwang
School of Chemical Engineering, Seoul National University
-
Ahn Kyung
School Of Chemical And Biological Engineering Seoul National University
-
Cho Kwang
School Of Chemical Engineering Seoul National University
-
Lee Seung
School Of Chemical Engineering Seoul National University
関連論文
- Rubbing Angle Effect on Response Time of the Fringe-Field Switching Nematic Liquid Crystal Display
- Wide-Viewing-Angle Hybrid Aligned Nematic Liquid Crystal Cell Controlled by Complex Electric Field
- Dual Domain Effects on a Homogeneously Aligned Nematic Liquid Crystal Cell Driven by a Fringe-Field
- Antimutagenic Constituents from the Thorns of Gleditsia sinensis
- ナノ構造炭化ケイ素セラミックスの機械的特性と接触損傷
- A Simple Service Discovery and Delivery Protocol for Ubiquitous Environments (日韓合同ワークショップ 1st Korea-Japan Joint Workshop on Ubiquitous Computing and Networking Systems (ubiCNS 2005))
- A FIELD REPORT ON THE IMPACT OF THE 2004 SUMATRA TSUNAMI ALONG THE SOUTHEAST COAST OF INDIA
- Synthesis and Characterization of Hybrid Poly(phenylenemethylene) Having Functionalized Silsesquioxanes (POSS)
- Organic-Inorganic Polymer Hybrids of Polystyrene with Ladderlike Polyphenylsilsesquioxanes
- A Single Gap Transflective Display with Single Gamma Curve in the Fringe Field Switching Mode
- Variant Selection in Mechanically-induced Martensitic Transformation of Metastable Austenitic Steel
- A Development of Computer Model for Simulating the Transport Phenomena in COREX Melter-gasifier
- Mossbauer studies of melt-spun Nd-Fe-Ti-Mo-N alloy
- Dual Domain Effect on a Rubbing Mura in Liquid Crystal Displays Associated with In-Plane Rotation of LC Director
- Color Tracking Analysis of the Fringe-Field-Switching Cell Using a Liquid Crystal with Negative Dielectric Anisotropy
- Study on Reverse Twist Depending on Rubbing Direction for Fringe-Field Switching Mode
- Color Shift Free Newly Two-Domain Fringe-Field Switching Mode
- Dynamic Stability of Disclination Lines in Fringe-Field Switching Mode with a Wedge-Shaped Common Electrode
- Effect of Horizontal Electric Field Generated by Data Signal on Disclination Lines near Pixel Edge in Fringe Field Switching Mode
- Analysis of Reflective Part with Wide-Band Property in Single Gap Transflective Fringe-Field Switching Mode
- A Novel Fringe Field Switching Mode with 3-partition Pixel Slit
- Time-Weissenberg Number Superposition in 4:1 Planar Contraction Flow of a Viscoelastic Fluid
- Time Evolution of Rubber Particle Size Distribution in Bulk Polymerization of High Impact Polystyrene
- An Iterative Nonlinear Mapping Method for the Relaxation Time Distribution
- Dynamic Stability of the Fringe-Field Switching Liquid Crystal Cell Depending on Dielectric Anisotropy of a Liquid Crystal
- Rubbing Angle Effect on Response Time of the Fringe-Field Switching Nematic Liquid Crystal Display
- Dual Domain Effects on a Homogeneously Aligned Nematic Liquid Crystal Cell Driven by a Fringe-Field
- Time-Weissenberg Number Superposition in 4:1 Planar Contraction Flow of a Viscoelastic Fluid
- An Iterative Nonlinear Mapping Method for the Relaxation Time Distribution
- Multiple Representation of Linear Dielectric Response
- Contrast Ratio in Homogeneously Aligned Nematic Liquid Crystal Display Depending on Angle between Polarizer Axis and Optic Axis of a Liquid Crystal
- Origin of Device Performance Degradation in InGaZnO Thin-Film Transistors after Crystallization
- Effects of Heating Time and Intermediate Heating on Sol--Gel-Processed ZrO2 Thin Films
- Cell Gap-Dependent Transmittance Characteristic in a Fringe Field-Driven Homogeneously Aligned Liquid Crystal Cell with Positive Dielectric Anisotropy
- Viewing Angle Characteristics of Transflective Display in a Homogeneously Aligned Liquid Crystal Cell Driven by Fringe-Field
- Electrooptic Characteristics of a Fringe-Field Driven Hybrid Aligned Nematic Liquid Crystal Cell using a Liquid Crystal with Positive Dielectric Anisotropy
- Optimized Pixel Design to Remove Disclination Lines in a Homogeneously Aligned Liquid Crystal Microdisplay Driven by a Fringe-Electric Field
- Single Gap Transflective Liquid Crystal Display with Dual Orientation of Liquid Crystal
- Transflective Liquid Crystal Display with Single Cell Gap and Single Gamma Curve
- Wide-Viewing-Angle Transflective Display Associated with a Fringe-Field Driven Homogeneously Aligned Nematic Liquid Crystal Display
- Analysis of Optimal Phase Retardation of a Fringe Field-Driven Homogeneously Aligned Nematic Liquid Crystal Cell
- Tilt Angle Generation for Nematic Liquid Crystal on Blended Homeotropic Polyimide Layer Containing Trifluoromethyl Moieties
- Creation of a Voltage Controllable Micro-Liquid Crystal Domain Using the Atomic Force Microscope Rubbing for Surface Modification