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Terrestrial Radiative Transfer

Modeling, Computation, and Data Analysis

  • Harriet H. Natsuyama
  • Sueo Ueno
  • Alan P. Wang
Book

Table of contents

  1. Front Matter
    Pages ii-xxi
  2. Harriet H. Natsuyama, Sueo Ueno, Alan P. Wang
    Pages 1-18
  3. Harriet H. Natsuyama, Sueo Ueno, Alan P. Wang
    Pages 19-71
  4. Harriet H. Natsuyama, Sueo Ueno, Alan P. Wang
    Pages 73-98
  5. Harriet H. Natsuyama, Sueo Ueno, Alan P. Wang
    Pages 99-118
  6. Harriet H. Natsuyama, Sueo Ueno, Alan P. Wang
    Pages 119-133
  7. Harriet H. Natsuyama, Sueo Ueno, Alan P. Wang
    Pages 135-154
  8. Harriet H. Natsuyama, Sueo Ueno, Alan P. Wang
    Pages 155-177
  9. Harriet H. Natsuyama, Sueo Ueno, Alan P. Wang
    Pages 179-186
  10. Harriet H. Natsuyama, Sueo Ueno, Alan P. Wang
    Pages 187-198
  11. Harriet H. Natsuyama, Sueo Ueno, Alan P. Wang
    Pages 199-226
  12. Harriet H. Natsuyama, Sueo Ueno, Alan P. Wang
    Pages 227-233
  13. Back Matter
    Pages 235-279

About this book

Introduction

In this book we share our work with those who are faced with the challenging problem of studying the earth's atmosphere and the interactions between the atmosphere and the earth's surface. While there are some excellent books on this topic written from the physical point of view, those discussing the modeling and computational aspects are few and far between. Our book is intended to bridge this gap so that students as well as investigators will be able to understand and apply practical ways of determining solutions. Radiative transfer theory, on which this book is based, is elegant, and great minds have contributed to its richness. Instead of duplicating the clas­ sical references, we have taken a different approach: We have developed the in­ variant imbedding approach, both analytically and computationally, because of its attractiveness for producing numerical solutions. Having witnessed the transition to the computer age, we know that a new attitude to mathemati­ cal formulation is required. The one that we endorse is a model stated in the form of a Cauchy problem: a system of ordinary differential equations with a complete set of initial conditions. We chose this approach because it is well suited to implementation on digital computers.

Keywords

differential equation geometry invariant matrix modeling modelling ordinary differential equation radiation reflection remote sensing research satellite scattering solution transport

Authors and affiliations

  • Harriet H. Natsuyama
    • 1
  • Sueo Ueno
    • 2
  • Alan P. Wang
    • 3
  1. 1.Yorba LindaUSA
  2. 2.KyotoJapan
  3. 3.TempeUSA

Bibliographic information

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