Mathematical location and land use theory : an introduction
著者
書誌事項
Mathematical location and land use theory : an introduction
(Advances in spatial science)
Springer, c2003
2nd rev. and enlarged ed
大学図書館所蔵 全19件
  青森
  岩手
  宮城
  秋田
  山形
  福島
  茨城
  栃木
  群馬
  埼玉
  千葉
  東京
  神奈川
  新潟
  富山
  石川
  福井
  山梨
  長野
  岐阜
  静岡
  愛知
  三重
  滋賀
  京都
  大阪
  兵庫
  奈良
  和歌山
  鳥取
  島根
  岡山
  広島
  山口
  徳島
  香川
  愛媛
  高知
  福岡
  佐賀
  長崎
  熊本
  大分
  宮崎
  鹿児島
  沖縄
  韓国
  中国
  タイ
  イギリス
  ドイツ
  スイス
  フランス
  ベルギー
  オランダ
  スウェーデン
  ノルウェー
  アメリカ
注記
Includes bibliographical references and index
内容説明・目次
内容説明
This second edition covers all main topics of spatial economics, plant location, and the theory of nested market areas. The book starts from the classical models of the space economy which are stated in terms of precise mathematical models. Especially, the book offers a lavish supply of computer graphics to make the results easily understandable.
Extracts from reviews to the first edition:
"This book is an excellent introduction to the theory of continuous location of economic activities in two-dimensional space based on differential equations and to their solution by vector calculus methods.
As Puu states "good science is to be easily understood. This book is, indeed, a lucid and easily readable introduction to the fundamental concepts of spatial economic theory and the differential calculus machinery of the continuous transportation model."
K. C. Mosler in "Location Science"
"This book represents an honest attempt at introducing spatial economic theory. The author does not appear to be interested in showing off his obvious mathematical skills. His intention is to summarize the accumulated knowledge in the field and present the main results in a simple manner. He does an admirable job. Of help are the high-quality graphics, the omission of semicooked ideas and messy results, and the author's extensive experience on the subject over a long period of time."
P. S. Kanaroglou in "Environment and Planning"
目次
Prologue.- 1 Location Theory.- 1.1 The Weber Problem.- 1.2 Pick's Construction.- 1.3 Location and Substitution.- 1.4 Non-Euclidean Metrics.- 2 Optimal Routes.- 2.1 Flows and Routes.- 2.2 Parameterized Paths.- 2.3 Shortest Paths and Euler's Equation.- 2.4 A Simpler Case.- 2.5 An Example.- 2.6 Another Example.- 2.7 Fermat's Principle and Snell's Law.- 2.8 Geodesics on Curved Surfaces.- 2.9 Generalizations: Several Functions.- 2.10 Generalizations: Constraints.- 2.11 Coordinate Transformations.- 2.12 The Isoperimetric Problem.- 3 Flows in the Space Economy.- 3.1 Flows in One Dimension.- 3.2 Flows in Two Dimensions.- 3.3 Euler's Equations Revisited.- 3.4 Minimal Surfaces.- 3.5 Generalizations.- 3.6 Beckmann's Flow Model.- 3.7 Uniqueness in the Beckmann Model.- 3.8 Aggregate Values.- 4 Market Areas.- 4.1 From Launhardt to Loesch.- 4.2 Compactness and Stability.- 4.3 Optimality Versus Stability.- 4.4 Nesting of Market Areas.- 4.5 Rank-Size Relations.- 4.6 Price Policies.- 4.7 Mill Pricing.- 4.8 Discriminatory Pricing.- 4.9 Uniform Delivery Price.- 4.10 Oligopoly Theory.- 4.11 Local Oligopoly.- 4.12 Disjoint Monopolies.- 4.13 The Hotelling Case.- 4.14 Equilibrium for Two Identical Firms.- 4.15 Crowding and Price Undercutting.- 4.16 Oligopoly in 2D: Equilibrium.- 4.17 Oligopoly in 2D: Price Cuts.- 4.18 Oligopoly in 2D: Cutting Out Competitors.- 4.19 Oligopoly in 2D: Touching Monopolies.- 4.20 Oligopoly in 2D: Partial Changes of Location.- 4.21 Public Utility Location.- 4.22 Demand: One Dimension.- 4.23 Bifurcations.- 4.24 Nonlinear Demand.- 4.25 Two Dimensions: Circles.- 4.26 Two Dimensions: Polygons.- 5 Land Use.- 5.1 Von Thunen's Model.- 5.2 Generalization: Production.- 5.3 Generalization: Transportation.- 5.4 Beckmann's Flow Model Revisited.- 5.5 Differential Equations in the Plane.- 5.6 Structural Stability Defined.- 5.7 The Square Flow Grid.- 5.8 Triangular/Hexagonal Grids.- 5.9 Changes of Structure.- 5.10 Fractal Rent Landscapes.- 6 Commuting and Migrating.- 6.1 The Gravity Model.- 6.2 Traffic: Linear Routes.- 6.3 Traffic: Spiral Routes.- 6.4 The Entropy Model.- 6.5 Hotelling's Migration Model.- 6.6 Stability of Hotelling's Model.- 6.7 Hotelling's Model with Production.- 6.8 Pure Growth in the Model with Production.- 6.9 Stationary Solutions for the Model with Production.- 6.10 Travelling Waves for the Model with Production.- 7 Cycles, Growth, and Equilibrium.- 7.1 Spatial Growth.- 7.2 Spatial Business Cycles.- 7.3 Equilibrium of the Beckmann Model.- 7.4 Stability.- 8 Transportation Networks.- 8.1 Transportation Cost Metrics.- 8.2 Nested Networks.- 8.3 Detours and Accessibility.- 8.4 Topological Considerations.- 8.5 Networks in Reality.- 8.6 Fractal Networks.- 8.7 Central Networks.- 8.8 The Number of Radials.- 8.9 Approximations.- 8.10 Bifurcations of Radials.- 8.11 Curved Bifurcations.- 8.12 Accessibility.- Epilogue.- List of Figures.- Author Index.- Glossary of Formulas.
「Nielsen BookData」 より