附註:"This is the second edition of the book first published in 1985 by University of Tokyo Press."--Page xv.
Rev. translation of: Kōwan kōzobutsu no taiha sekkei, 1990.
Includes bibliographical references and index.
Intro; Contents; Preface; Preface to the First Edition; Part I Random Sea Waves and Engineering Applications; Chapter 1 Introduction; 1.1 Waves in the Sea; 1.2 Outline of Design Procedures against Random Sea Waves; 1.2.1 Wave Transformation; 1.2.2 Methods of Dealing with Random Sea Waves; References; Chapter 2 Statistical Properties and Spectra of Sea Waves; 2.1 Random Wave Profiles and Definitions of Representative Waves; 2.1.1 Spatial Surface Forms of Sea Waves; 2.1.2 Definition of Representative Wave Parameters; 2.2 Distributions of Individual Wave Heights and Periods
2.2.1 Wave Height Distribution2.2.2 Relations between Representative Wave Heights; 2.2.3 Distribution of Wave Period; 2.3 Spectra of Sea Waves; 2.3.1 Frequency Spectra; 2.3.2 Directional Wave Spectra; 2.4 Relationship between Wave Spectra and Characteristic Wave Dimensions; 2.4.1 Relationship between Wave Spectra and Wave Heights; 2.4.2 Relationship between Wave Spectra and Wave Periods; References; Chapter 3 Transformation and Deformation of Random Sea Waves; 3.1 Wave Refraction; 3.1.1 Introduction; 3.1.2 Refraction Coefficient of Random Sea Waves
3.1.3 Computation of Random Wave Refraction by Means of the Energy Flux Equation3.1.4 Wave Refraction on a Coast with Straight, Parallel Depth-Contours; 3.2 Wave Diffraction; 3.2.1 Principle of Random Wave Diffraction Analysis; 3.2.2 Diffraction Diagrams of Random Sea Waves; 3.2.3 Random Wave Diffraction of Oblique Incidence; 3.2.4 Approximate Estimation of Diffracted Height by the Angular Spreading Method; 3.2.5 Applicability of Regular Wave Diffraction Diagrams; 3.3 Equivalent Deepwater Wave; 3.4 Wave Shoaling; 3.5 Wave Deformation Due to Random Breaking
3.5.1 Limiting Wave Height of Regular Waves by Breaking3.5.2 Computational Model of Random Wave Breaking; 3.5.3 Computation of the Change in Wave Height Distribution Due to Random Wave Breaking; 3.5.4 Diagrams for the Estimation of Wave Height in the Surf Zone; 3.5.5 Formulas for Wave Height Estimation Within the Surf Zone; 3.5.6 Wave Setup at Shoreline by Random Wave Breaking; 3.5.7 Other Models of Random Wave Breaking; 3.6 Wave Reflection and Dissipation; 3.6.1 Coefficient of Wave Reflection; 3.6.2 Propagation of Reflected Waves; 3.6.3 Superposition of Incident and Reflected Waves
3.7 Spatial Variation of Wave Height Along Reflective Structures3.7.1 Wave Height Variation near the Tip of a Semi-infinite Structure; 3.7.2 Wave Height Variation at an Inward Corner of Reflective Structures; 3.7.3 Wave Height Variation along an Island Breakwater; 3.8 Wave Transmission over Breakwaters; 3.8.1 Wave Transmission Coefficient; 3.8.2 Propagation of Transmitted Waves in a Harbor; 3.9 Longshore Currents by Random Waves on Planar Beach; 3.9.1 Longshore Currents by Unidirectional Irregular Waves; 3.9.2 Longshore Currents by Directional Random Waves; References
