Dr. Chris M. Roelfsema Profile

Dr. Chris M. Roelfsema

at Univ of Queensland

SPIE Involvement:

Editor | Author | Instructor

SPIE Journal Paper | 4 July 2022

Modeling forest cover dynamics in Bangladesh using multilayer perceptron neural network with Markov chain

Mohammad Redowan, Stuart Phinn, Chris Roelfsema, Ammar Abdul Aziz

JARS, Vol. 16, Issue 03, 034502, (July 2022) https://doi.org/10.1117/12.10.1117/1.JRS.16.034502

KEYWORDS: Neural networks, Data modeling, Image classification, Statistical modeling, Earth observing sensors, Landsat, Roads, Raster graphics, Systems modeling, Geographic information systems

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Raghunandan Hills Reserve is an important protected area in Bangladesh that supports some remnant patches of natural forest and is the habitat of several globally threatened primates including Western Hoolock Gibbon, Northern Pig-tailed Macaque, and Capped Langur. However, deforestation and forest degradation due to anthropogenic factors, such as illegal logging and fuelwood collection are age-old problems at Raghunandan. The areas of the reserve vulnerable to future conversions due to the possible proximate or underlaying causes were unknown. This study analyzed the historical trend of forest and land-use/landcover transitions at Raghunandan Hills Reserve from 1995 until 2015 at a 10-year interval using Monte Carlo spectral unmixing and knowledge-based classification approaches to Landsat satellite images in Claslite and ArcGIS software. Based on the past trend, it then predicted the future trend of forest land-use/landcover transitions for 2025 and 2035 using an artificial multi-layer perceptron neural network with Markov Chain machine learning algorithm integrated into the land change modeler module of IDRISI/TerrSet software. Results indicated that ∼30 % to 35% of the total area of the reserve was covered by forest, which included patches of natural forest and plantations, whereas the remaining area was occupied by non-forest categories like scattered degraded forests, grasses, and shrubs. Forest cover declined during 1995–2005, and then increased slightly during 2005–2015 due to afforestation activities. This trend is likely to continue in the future with forest cover occupying nearly 40% of the reserve by 2025 and 2035. Along with identifying the areas where the forest is likely to be expanded, the areas of the reserve vulnerable to deforestation (hotspots) were also highlighted and quantified in the form of maps and statistics. The findings have useful implications for any forest conservation initiatives including the global climate change mitigation program reducing emissions from deforestation and forest degradation+, which requires identifying at-risk areas of planned and unplanned deforestation.

SPIE Journal Paper | 1 March 2021

Satellite estimation of emission factors and emissions of biomass-carbon due to deforestation and forest degradation in Bangladesh for a REDD+ program

Mohammad Redowan, Stuart Phinn, Chris Roelfsema, Ammar Abdul Aziz

JARS, Vol. 15, Issue 01, 014510, (March 2021) https://doi.org/10.1117/12.10.1117/1.JRS.15.014510

KEYWORDS: Carbon, Biological research, Satellites, Factor analysis, Earth observing sensors, Landsat, Vegetation, Remote sensing, Data modeling, Image classification

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SPIE Journal Paper | 8 April 2020

CLASlite unmixing of Landsat images to estimate REDD+ activity data for deforestation in a Bangladesh forest

Mohammad Redowan, Stuart Phinn, Chris Roelfsema, Ammar Abdul Aziz

JARS, Vol. 14, Issue 02, 024505, (April 2020) https://doi.org/10.1117/12.10.1117/1.JRS.14.024505

KEYWORDS: Earth observing sensors, Landsat, Error analysis, Data analysis, Image analysis, Clouds, Image classification, Image processing, Accuracy assessment, Climate change

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SPIE Journal Paper | 11 December 2019

REDD+ project design study for quantifying activity data for historic forest degradation in a Bangladesh forest using Landsat data

Mohammad Redowan, Stuart Phinn, Chris Roelfsema, Ammar Abdul Aziz

JARS, Vol. 13, Issue 04, 046518, (December 2019) https://doi.org/10.1117/12.10.1117/1.JRS.13.046518

KEYWORDS: Earth observing sensors, Landsat, Image classification, Remote sensing, Carbon, Climate change, Vegetation, Accuracy assessment, Error analysis, Matrices

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SPIE Journal Paper | 1 April 2010

Integrating field data with high spatial resolution multispectral satellite imagery for calibration and validation of coral reef benthic community maps

Chris Roelfsema, Stuart Phinn

JARS, Vol. 4, Issue 01, 043527, (April 2010) https://doi.org/10.1117/12.10.1117/1.3430107

KEYWORDS: Calibration, Associative arrays, Earth observing sensors, Satellites, Spatial resolution, Satellite imaging, Accuracy assessment, Global Positioning System, Image classification, Satellite communications

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Proceedings Article | 19 December 2008 Paper

Evaluating eight field and remote sensing approaches for mapping the benthos of three different coral reef environments in Fiji

Chris Roelfsema, Stuart Phinn

Proceedings Volume 7150, 71500F (2008) https://doi.org/10.1117/12.804806

KEYWORDS: Associative arrays, Image classification, Atmospheric corrections, Remote sensing, Landsat, Water, Ocean optics, Visualization, Spatial resolution, Earth observing sensors

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Showing 5 of 6 publications

SPIE Conference Volume | 29 January 2024

Eighth Geoinformation Science Symposium 2023: Geoinformation Science for Sustainable Planet

Conference Committee Involvement (1)

8th Geoinformation Science Symposium 2023: Geoinformation Science for Sustainable Planet

28 August 2023 | Yogyakarta, Indonesia

Course Instructor

SC925: Applied Remote Sensing for Coral Reefs and Seagrass Mapping and Conservation

This course provides attendees with: 1) a complete review on the current status of coral reef and seagrass remote sensing, 2) a step-by-step procedure to collect field data to be used for image-based mapping in both benthic environments, and 3) an introduction to the mathematics needed for optimization of MPA networks, and an example of how to use maps to design such networks. Many practical and useful examples from case studies are included throughout.

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