Print Email Facebook Twitter Algal Bloom Forecasting using Remote Sensing Title Algal Bloom Forecasting using Remote Sensing: Discovering the most predictive data modalities for Algal Bloom Forecasting Author Gökçe, Tolga (TU Delft Electrical Engineering, Mathematics and Computer Science; TU Delft Pattern Recognition and Bioinformatics) Contributor Lengyel, A. (mentor) Bruintjes, R. (mentor) van Gemert, J.C. (mentor) Langendoen, K.G. (graduation committee) Degree granting institution Delft University of Technology Programme Computer Science and Engineering Project CSE3000 Research Project Date 2023-02-03 Abstract An algal bloom is defined as a rapid increase in common algae (phytoplankton) abundance in water bodies and it can occur when a group of certain environmental factors is combined. If the algae populations grow out of control, such algal blooms become problematic and cause damage to the ecosystem, such phenomena are called harmful algal blooms. For this reason, it is important to detect and forecast these phenomena to be able to take action beforehand. Remote sensing is measuring and monitoring the characteristics of an area at a distance and it is typically done by satellites. Remote sensed data containing various environmental measurements can be used as the input for a machine learning system to estimate chlorophyll-a concentrations which is the main indicator used for detecting algal blooms. The main question this research aims to answer is: Which input modality is the most predictive for estimating chlorophyll-a concentrations for water bodies in Uruguay? This research presents the step-by-step construction of a system to pre-process the environmental data collected through remote sensing and use this data to train and test a machine learning system to assess and compare 11 different environmental factors or so-called data modalities individually against each other to find out the most predictive one. Carrying out the machine learning experiments brings the results into the open that radiation mean and turbidity of water are the two most predictive data modalities for algal bloom forecasting with accuracy scores of approximately 34%, while radiation mean is performing slightly better. Subject Algal bloomRemote sensingData modalitiesMachine learning To reference this document use: http://resolver.tudelft.nl/uuid:22dfe743-8c33-437b-9106-6a5b533a79c4 Part of collection Student theses Document type bachelor thesis Rights © 2023 Tolga Gökçe Files PDF CSE3000_Final_Paper.pdf 532.21 KB Close viewer /islandora/object/uuid:22dfe743-8c33-437b-9106-6a5b533a79c4/datastream/OBJ/view