Abstract
Land cover change processes are accelerating at the regional to global level. The remote sensing community has developed reliable and robust methods for wall-to-wall mapping of land cover changes; however, land cover changes often occur at rates below the mapping errors. In the current publication, we propose a cost-effective approach to complement wall-to-wall land cover change maps with a sampling approach, which is used for accuracy assessment and accurate estimation of areas undergoing land cover changes, including provision of confidence intervals. We propose a two-stage sampling approach in order to keep accuracy, efficiency, and effort of the estimations in balance. Stratification is applied in both stages in order to gain control over the sample size allocated to rare land cover change classes on the one hand and the cost constraints for very high resolution reference imagery on the other. Bootstrapping is used to complement the accuracy measures and the area estimates with confidence intervals. The area estimates and verification estimations rely on a high quality visual interpretation of the sampling units based on time series of satellite imagery. To demonstrate the cost-effective operational applicability of the approach we applied it for assessment of deforestation in an area characterized by frequent cloud cover and very low change rate in the Republic of Congo, which makes accurate deforestation monitoring particularly challenging.
Highlights
IntroductionAssessment of change processes is urgently required in order to provide accurate and up-to-date information on past and current developments
Land cover change processes are accelerating from regional to global levels
The monitoring approach is based on wall-to-wall land cover change mapping, which is complemented with a sampling approach for accuracy assessment, area estimation of land changes, and provision of confidence intervals
Summary
Assessment of change processes is urgently required in order to provide accurate and up-to-date information on past and current developments. The remote sensing community has developed increasingly reliable, consistent, and robust approaches for wall-to-wall mapping of land cover changes. Overall accuracy of the wall-to-wall maps is often in the range of 80% to 95%, depending on the source data, the change processes to be monitored, the biogeographic region, and the monitoring approach applied. Good overviews on methods for wall-to-wall land cover change monitoring are provided by [1,2]. A main requirement for operational applications, e.g., in the frame of international reporting for REDD (The United Nations Collaborative Programme on Reducing Emissions from Deforestation and Forest Degradation in Developing Countries), is that the wall-to-wall land cover change maps are complemented with accurate estimates of the area undergoing land cover changes [3]
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
