Method for dynamically simulating land future use scenario

A dynamic simulation and land technology, applied in the field of geographic information science, can solve the problems of the influence of simulation results, the reduction of model accuracy, and the meaningless meaning of iteration factors, so as to achieve reliable simulation results, less data generation, and avoid simulation accuracy. reduced effect

Active Publication Date: 2016-03-30
SUN YAT SEN UNIV
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Problems solved by technology

The CLUE-S model has high accuracy for the simulation of regional land use change at the county scale, but when the scale is further reduced, the accuracy of the model will be significantly reduced
The CLUE-S model is subject to its artificially set parameters, and the uncertain parameters will lead to a certain degree of influence on the simulation results
In addition, the significance of the iteration factor of the CLUE-S model has no practical significance in the model

Method used

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  • Method for dynamically simulating land future use scenario
  • Method for dynamically simulating land future use scenario
  • Method for dynamically simulating land future use scenario

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Embodiment 1

[0063] The research object in the present invention is Dongguan City located in the south of Guangdong Province. The total area of ​​the city is about 2465 square kilometers, and it is the fourth largest city in Guangdong Province. The test data used in this research area is: the land use data of Dongguan City in 2001 is used as the initial data of the simulation, which is interpreted from TM images. The land use change data interpreted from the TM image in Dongguan in 2006 was used as the verification data. The land use change data in Dongguan in 2001 and the data in 2006 have the same land use classification system. All regional data files must be unified into raster images of the same scale to facilitate homogeneous analysis at the pixel scale. Based on the research experience of land use change simulation and the historical data and existing data of Dongguan City, a total of eight driving factors of land use / land cover change were selected for this example. The driving fo...

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Abstract

The present invention proposes and discloses a method for dynamically simulating a land future use scenario. The method integrates a capability that a cellular automaton (CA) simulates a complex systematic space-time evolution process and an advantage that a CLUE-S model simulates multiple types of land use type competitions; and the method overcomes certain inherent defects of a traditional CA or a pure CLUE-S model through advantage integration; in addition, intelligent computation of a distributional probability is realized by adopting an artificial neural network (ANN) algorithm; synchronous simulation of multiple land use changes is realized by introducing a competition mechanism of a roulette, so that the new method is more suitable for multiple types of land use data; and moreover, compared with a traditional model, the method has the practical advantages of higher precision, suitability for multiple scales, low data demand, few parameters, simple and convenient operation, high speed and the like. According to the method for dynamically simulating the land future use scenario, the intelligent algorithm (ANN) and the uncertainty model (the roulette) are effectively combined; and the method is applied to the prediction of the land future use scenario.

Description

technical field [0001] The invention belongs to the field of geographic information science and technology, and specifically relates to a method for dynamically simulating future land use scenarios by introducing a neural network model and a roulette competition model. The method is suitable for multi-scale, multi-region, multi-factor and multi-category land competition Geodynamic simulation. Background technique [0002] In the simulation of urban land use change, cellular automaton (CA) model and CLUE-S model are the mainstream models in the study of land use change simulation. Cellular automata is a space-time discrete dynamic model with strong space computing ability, which plays an important role in complexity science. Often used in self-organizing analysis processes. Cellular automata focuses on the microcosm, bottom-up, and fully embodies the idea that the individual and local behaviors of complex systems will produce a global and orderly pattern. Cellular automata...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06F17/50
CPCG06F30/367
Inventor 刘小平梁迅黎夏陈逸敏姚尧许晓聪李丹
Owner SUN YAT SEN UNIV
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