Simulating Urban Landscape Transformation

Download or read book Simulating Urban Landscape Transformation written by Opeyemi A. Zubair and published by . This book was released on 2016 with total page 198 pages. Available in PDF, EPUB and Kindle. Book excerpt: Urban landscape change simulation has received increasing attention in recent times. As a result, many studies have focused on various aspects of land change simulation, ranging from uncertainty of input data to model accuracy. While efforts have been put into improving many of the existing urban land change models and developing new ones, not so much has been done in understanding the significance of methods of classifying the satellite images often used as input maps in many of these models. In addition, few studies have been done to assess the impact of modeled landscapes on surrounding natural ecosystems such as urban wetlands, which have served as sensitive indicator of both human impacts and climate variation. In this study, the aim was to simulate the change in Kansas City landscape, and to assess the impact of the change on wetlands at various spatial scales within the study area. To achieve this, the study was divided into three parts. The first part examined how significant the impacts of classification methods of input land cover maps are on the overall accuracy of the urban land change prediction used in this study. This was done by classifying the historical SPOT satellite images of Kansas City using multi-layer perceptron neural network and maximum likelihood classification techniques. The impact of these two classification methods on the overall accuracy of land change prediction was assessed. The study made use of the classified map of a known year and other historical high-resolution satellite data of the study area from Google Earth to validate results from both predictions. The result from this first part shows that the methods selected in classifying satellite images often used as input in many land change models can significantly affect land change prediction. In the second and third parts, two model methods (Similarity Weighted Instance-based Machine Learning - SimWeight and Multi-layer Perceptron Neural Network - MLP) were compared to determine which is most appropriate for use in this study. To achieve this, the study utilized an integrated approach that combined Similarity Weighted Instance-based Machine Learning and Markov model in one approach and Multi-layer Perceptron Neural Network and Markov chain in a second approach. These two methods were used in simulating the landscape change of three major watersheds in the Kansas City area into a known year. The model that performed best was used in simulating into the future and the impact of change was assessed on wetlands at different scales. In order to achieve this, classified SPOT satellite data covering the three major watersheds were used to generate the historical land cover data series between 1992 and 2010. In addition, the study identified several land change variables associated with the historical change process in the study area. These variables together with the result of the historical land change between 1992 and 2010 were used in modeling urban landscape transformation into an end date of 2014 for both model methods assessed. A Markov model was applied to perform these predictions. The prediction results were verified with a more accurate map that was derived from independently classifying a 2014 SPOT image of the study area. Accuracy assessments for the 2014 predicted maps and the independently classified map of 2014 were compared. Based on a higher accuracy result obtained for the SimWeight approach, prediction into an end date of 2028 was made. The historical impact of human-induced landscape change on wetlands between 1992 & 2010 and the potential impact by 2028 were assessed for the study area. This integrated modeling approach in combination with land change driving variables provided valuable insights about how the landscape of the three major watersheds may develop in the future, and how this development may affect urban wetlands in the study area.