Using Genetic Algorithms and Support Vector Machines in Forest Mapping
Project Information
big-data, compiling, data-management, machine-learning, matlab, neural-networks, openstack, parallelization, programming, workflowProject Status: Complete
Project Region: Northeast
Submitted By: Kasey Legaard
Project Email: kasey.legaard@maine.edu
Project Institution: University of Maine
Anchor Institution: NE-University of Maine
Project Address: 244 Neville Hall
University of Maine
Orono, Maine. 04469
Mentors: Chris Wilson, Larry Whitsel
Students: Noah Howard
Project Description
Satellite-derived maps of forest conditions play diverse roles in research and resource management. Maps provide a basis for planning and executing field studies, developing and calibrating models, quantifying ecosystem processes or services, and evaluating environmental change. Natural resource managers use maps to characterize resource conditions, project changes, and direct management actions. However, inferences and decisions must be made within the context of map error, and methods used to produce maps generally result in patterns of error that are potentially detrimental. The researcher has developed machine learning techniques that effectively reduce undesirable systematic error when mapping forest attributes from satellite imagery and geospatial data. The approach is based on support vector machines using a multi-objective genetic algorithm (GA) designed to simultaneously minimize both total and systematic error. Using this approach, we have mapped tree species abundance and forest disturbance across northern Maine, obtaining outcomes that compare well against other approaches previously applied either regionally or nationally. Our algorithms are, however, computationally demanding, and large-scale applications will require more effective use of computing resources. The purpose of this project is to develop software that enables statewide and regional application of our algorithms through enhanced parallelization and new approaches to coordinate and accelerate the convergence of GAs operating across multiple, geographically distributed problem sets defined by input spatial data. We will specifically develop techniques for sharing prospective solutions between GAs executing on adjacent spatial data tiles, mimicking migration of individuals between locally adaptive subpopulations. Algorithm improvements will be coupled with more efficient and more automated methods for input and output data handling. The primary project outcome will be software that supports locally adaptive mapping of forest resources and environmental conditions across large spatial scales through innovative algorithms and efficient use of available cyberinfrastructure.Project Information
big-data, compiling, data-management, machine-learning, matlab, neural-networks, openstack, parallelization, programming, workflowProject Status: Complete
Project Region: Northeast
Submitted By: Kasey Legaard
Project Email: kasey.legaard@maine.edu
Project Institution: University of Maine
Anchor Institution: NE-University of Maine
Project Address: 244 Neville Hall
University of Maine
Orono, Maine. 04469
Mentors: Chris Wilson, Larry Whitsel
Students: Noah Howard