ICCSA 2010, March   23-26 Kyushu Sangyo University,   Fukuoka Design of a Dynamic Land-Use Change Probability Model Using ...
Table of Contents <ul><li>Motivation </li></ul><ul><li>Objective </li></ul><ul><li>Markov Transition Model </li></ul><ul><...
Motivation <ul><li>The  theoretical models  on  primary factors for change of urban area  have not sufficiently showed.  <...
Motivation <ul><li>In order to  predict   land use change ,  </li></ul><ul><ul><li>models  represented in terms of  space-...
Objective <ul><li>Purpose of our study is to  </li></ul><ul><ul><li>examine  characteristics of land use transitions  thro...
Objective <ul><li>In this paper, we thus improved previous model into a more practical land-use model engrossed in urban s...
Markov Transition Model <ul><li>Analysis of Markov Chain ,  </li></ul><ul><ul><li>a statistical method  was used for predi...
Limitation of Previous Markov Model <ul><li>Assumptions   </li></ul><ul><ul><li>Even though time passes along,  transition...
Design of Land-use change Model  <ul><li>We thus improved previous model into a more practical land-use model engrossed in...
Components of the model <ul><li>a grid space, local states, neighborhoods and a transition rule .  </li></ul><ul><ul><li>T...
Transition rule <ul><li>As the process of this algorithm,  transition matrix  is calculated by using  time-periodic transi...
Transition rule
GIS databases for the model  Land Cover Map
Transition Matrix Configuration  <ul><li>In order to  configure transition matrix  with change type by time, we combined e...
Validation methods <ul><li>Time series experiments of land-use change were performed through  simulations  and  validation...
Macro Simulation and Result
Micro Simulation and Result
Conclusions  <ul><li>this study aimed to  analyze land use patterns in the past using time-series satellite images of Seou...
Question & Answer <ul><li>Thank you for your attentions!! </li></ul>
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Design of a Dynamic Land-Use Change Probability - Yongjin Joo, Chulmin Jun, Soohong Park

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Design of a Dynamic Land-Use Change Probability - Yongjin Joo, Chulmin Jun, Soohong Park - Institute of Urban Sciences
University of Seoul, Korea

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Design of a Dynamic Land-Use Change Probability - Yongjin Joo, Chulmin Jun, Soohong Park

  1. 1. ICCSA 2010, March   23-26 Kyushu Sangyo University,   Fukuoka Design of a Dynamic Land-Use Change Probability Model Using Spatio-Temporal Transition Matrix Yongjin Joo , Chulmin Jun, Soohong Park Institute of Urban Sciences University of Seoul, Korea
  2. 2. Table of Contents <ul><li>Motivation </li></ul><ul><li>Objective </li></ul><ul><li>Markov Transition Model </li></ul><ul><ul><li>Limitation of Previous Markov Model </li></ul></ul><ul><ul><li>Design of Land-use change Model </li></ul></ul><ul><ul><li>Components of the model </li></ul></ul><ul><ul><li>GIS databases for the model </li></ul></ul><ul><ul><li>Transition Matrix Configuration </li></ul></ul><ul><li>Validation methods </li></ul><ul><li>Macro Simulation and Result </li></ul><ul><li>Conclusions </li></ul>
  3. 3. Motivation <ul><li>The theoretical models on primary factors for change of urban area have not sufficiently showed. </li></ul><ul><ul><li>aspect of urbanization is different from countries to counties and varies with time. </li></ul></ul><ul><ul><li>process of urbanization is so complicated that proposing theoretical suitability is difficult through feasible verification (Park, 2002). </li></ul></ul><ul><li>Detecting an urban spatial structure and predicting changing trend </li></ul><ul><ul><li>is very important information for establishing the efficient urban policies . </li></ul></ul><ul><ul><li>there have been minimal research regarding analysis and prediction for dynamic changes of land use . </li></ul></ul>
  4. 4. Motivation <ul><li>In order to predict land use change , </li></ul><ul><ul><li>models represented in terms of space-time are required </li></ul></ul><ul><ul><li>a number of variables and data supporting the model are also needed </li></ul></ul><ul><ul><li>Due to insufficient time-series data, the previous models have limitations : </li></ul></ul><ul><ul><ul><li>in incorporating the past tendencies of urbanization </li></ul></ul></ul><ul><ul><ul><li>in explaining the past land use changes </li></ul></ul></ul><ul><li>Seoul Metropolitan Area (SMA), which shows fast population growth and development, </li></ul><ul><ul><li>detecting the land-use variations happened in the past is very difficult </li></ul></ul><ul><ul><li>Utilizing remote sensing data is a practical method for monitoring visible change of urban </li></ul></ul>
  5. 5. Objective <ul><li>Purpose of our study is to </li></ul><ul><ul><li>examine characteristics of land use transitions through the time-series images </li></ul></ul><ul><ul><li>develop a prediction model for land-use change based on Markov chain methods </li></ul></ul><ul><ul><li>apply it to the simulation of the land-use transition processes . </li></ul></ul><ul><ul><li>examine the validity of prediction result using the actual data of1984, 1992. </li></ul></ul><ul><li>land-use changes (topography and social phenomenon) and land cover data are developed in order to establish the prediction model. </li></ul>
  6. 6. Objective <ul><li>In this paper, we thus improved previous model into a more practical land-use model engrossed in urban structural change, which can incorporate the concept of multi-dimensional spatial filte r . </li></ul><ul><li>In other words, political factor of land use regulation (green-belt policy) is considered to prevent urbanized cells in green area and greenbelts from spreading. </li></ul><ul><li>More importantly, we developed the methodology for dynamic probabilities of transition matrix with the help of practical multi-temporal satellite images accumulated for long periods. </li></ul>
  7. 7. Markov Transition Model <ul><li>Analysis of Markov Chain , </li></ul><ul><ul><li>a statistical method was used for predicting how topographical and social variations affect on the land use changes in the future </li></ul></ul><ul><ul><li>Is based on the process of probability (called Markov Chain), which assumes that present state is determined only by the immediate previous state . </li></ul></ul><ul><ul><li>Is composed of the system state and transition probability . </li></ul></ul><ul><li>The changes of states are called transitions , and the probabilities associated with various state-changes are called transition probabilities . </li></ul><ul><ul><li>the transition probability. </li></ul></ul><ul><ul><li>The transition matrix of Pij </li></ul></ul>
  8. 8. Limitation of Previous Markov Model <ul><li>Assumptions </li></ul><ul><ul><li>Even though time passes along, transition matrix is always constant and applied equally to all locations </li></ul></ul><ul><li>Advantages of Markov model </li></ul><ul><ul><li>It is easily computed by using digital image or raster-based GIS data </li></ul></ul><ul><ul><li>and has an advantage to effectively reflect transition tendency of current land use . </li></ul></ul><ul><li>Problems of Models </li></ul><ul><ul><li>actual land use doesn’t change exactly according to the assumption of Markov </li></ul></ul><ul><ul><li>obtaining the transition probability through independent measurement is difficult. </li></ul></ul>
  9. 9. Design of Land-use change Model <ul><li>We thus improved previous model into a more practical land-use model engrossed in urban structural change, </li></ul><ul><ul><li>which can incorporate the concept of multi-dimensional spatial filter. </li></ul></ul><ul><ul><li>political factor of land use regulation (green-belt policy) is considered to prevent urbanized cells in green area and green-belts from spreading. </li></ul></ul><ul><li>We developed the methodology </li></ul><ul><ul><li>for dynamic probabilities of transition matrix </li></ul></ul><ul><ul><li>with the help of practical multi-temporal satellite images accumulated for long periods </li></ul></ul><ul><li>Land-use change model that we suggest is </li></ul><ul><ul><li>based on Cellular automata (CA ), </li></ul></ul><ul><ul><li>which are both a body of knowledge and set of techniques for solving complex dynamic-systems problems . </li></ul></ul>
  10. 10. Components of the model <ul><li>a grid space, local states, neighborhoods and a transition rule . </li></ul><ul><ul><li>The value of each cell is determined by a geometrical configuration of neighbor cells, and is specified in the transition rule . </li></ul></ul><ul><ul><li>Updated values of individual cells then become the inputs for the next iteration. </li></ul></ul><ul><li>GIS data such as land cover data of time series built from satellite images , digital elevation models (DEM), and green-belt data are considered as input variables. </li></ul>
  11. 11. Transition rule <ul><li>As the process of this algorithm, transition matrix is calculated by using time-periodic transition probability </li></ul><ul><ul><li>Transition index is calculated through examining the state of the focus cell and the adjacent state of 8 cells representing land use. </li></ul></ul><ul><ul><li>The transition index is the maximum value j of Nj × Pij (where Nj is the number of land use elements in the current window size and Pij is the element in the transition matrix from i to j ). </li></ul></ul><ul><ul><li>If the returned value of transition index is urban, then model checks for such constraints as green-belt and slope . </li></ul></ul><ul><ul><li>In case agricultural cell in green-belt is changed into urban, then its state is maintained. </li></ul></ul><ul><ul><li>Lastly, transition index is assigned to the cell and move on to next cell . </li></ul></ul>
  12. 12. Transition rule
  13. 13. GIS databases for the model Land Cover Map
  14. 14. Transition Matrix Configuration <ul><li>In order to configure transition matrix with change type by time, we combined each result of classification into 1972~1984, 1984~1992 respectively. </li></ul><ul><ul><li>So each mixing type becomes 42(16) different types for each has 4 categories of 2 periods. </li></ul></ul><ul><ul><li>The elements of transition matrix are also of 16 and composed of probabilities of land-use change </li></ul></ul>Configuration of transition matrix using time-series land-cover map
  15. 15. Validation methods <ul><li>Time series experiments of land-use change were performed through simulations and validation methods . </li></ul><ul><ul><li>In order to evaluate the validity of the mode l and reliability of predicted land-use change. </li></ul></ul><ul><li>Lee-Sallee Index </li></ul><ul><ul><li>shows how correctly the results of modeling match the spatial shape of the actual urban area </li></ul></ul><ul><ul><li>was used for the calibration of models , </li></ul></ul><ul><ul><li>was estimated by using the number of matching cells between images of urbanized areas and those of from the simulation at a standard point of time . </li></ul></ul>Lee-Sallee Index = No. of urban cells in simulation / No. of urban cells in actual data
  16. 16. Macro Simulation and Result
  17. 17. Micro Simulation and Result
  18. 18. Conclusions <ul><li>this study aimed to analyze land use patterns in the past using time-series satellite images of Seoul metropolitan area for the past 30 years, </li></ul><ul><li>To accomplish this, </li></ul><ul><ul><li>we constructed input data with regard to constraints (slop, green-belt) and spatio-temporal land cover maps from satellite images, which help categorize dynamic land-use change pattern s. </li></ul></ul><ul><ul><li>spatio-temporal transition matrices were constructed from the classified images and they were applied to a Markov Chain-based model </li></ul></ul><ul><ul><li>We evaluated our model through a validation method called Lee-Sally index and simulation experiments to predict 1984, 1992 by using 1972 and 1984 data. </li></ul></ul><ul><li>We expect that our proposed model, by integrating with existing urban growth models, can be effectively applied in predicting land-use changes in non-urban areas. </li></ul>
  19. 19. Question & Answer <ul><li>Thank you for your attentions!! </li></ul>
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