Abstract
Land use and land cover (LULC) mapping is often undertaken by national mapping agencies, where these LULC products are used for different types of monitoring and reporting applications. Updating of LULC databases is often done on a multi-year cycle due to the high costs involved, so changes are only detected when mapping exercises are repeated. Consequently, the information on LULC can quickly become outdated and hence may be incorrect in some areas. In the current era of big data and Earth observation, change detection algorithms can be used to identify changes in urban areas, which can then be used to automatically update LULC databases on a more continuous basis. However, the change detection algorithm must be validated before the changes can be committed to authoritative databases such as those produced by national mapping agencies. This paper outlines a change detection algorithm for identifying construction sites, which represent ongoing changes in LU, developed in the framework of the LandSense project. We then use volunteered geographic information (VGI) captured through the use of mapathons from a range of different groups of contributors to validate these changes. In total, 105 contributors were involved in the mapathons, producing a total of 2778 observations. The 105 contributors were grouped according to six different user-profiles and were analyzed to understand the impact of the experience of the users on the accuracy assessment. Overall, the results show that the change detection algorithm is able to identify changes in residential land use to an adequate level of accuracy (85%) but changes in infrastructure and industrial sites had lower accuracies (57% and 75 %, respectively), requiring further improvements. In terms of user profiles, the experts in LULC from local authorities, researchers in LULC at the French national mapping agency (IGN), and first-year students with a basic knowledge of geographic information systems had the highest overall accuracies (86.2%, 93.2%, and 85.2%, respectively). Differences in how the users approach the task also emerged, e.g., local authorities used knowledge and context to try to identify types of change while those with no knowledge of LULC (i.e., normal citizens) were quicker to choose ‘Unknown’ when the visual interpretation of a class was more difficult.
Highlights
Land cover, which is the biophysical surface cover of the Earth, and land use, which is the way in which the land is used by humans, are important variables to monitor over time; land cover, in particular, is one of the Essential Climate Variables used for monitoring the climate system [1]
land use land cover (LULC) maps are, for example, used as inputs to the Sustainable Development Goals and the Convention on Biological Diversity which was initiated by the United Nations Environment Programme (UNEP), and the UN Convention to Combat Desertification, among others
Validation was undertaken with the aid of two online tools: LACO-Wiki [33], which is a generic land cover validation tool, and PAYSAGES [34], which is a tool for collecting volunteered geographic information (VGI) to improve the LULC product of the French national mapping agency, IGN
Summary
Land cover, which is the biophysical surface cover of the Earth, and land use, which is the way in which the land is used by humans, are important variables to monitor over time; land cover, in particular, is one of the Essential Climate Variables used for monitoring the climate system [1]. Gaps in OSM data coverage may be filled by using LULC predictions obtained from the classification of remotely sensing imagery [20] Another area of ongoing research related to LULC change mapping is in the development of automated methods for LULC change detection [21,22,23], which represents a more top-down approach to that of citizen-based VGI. Validation was undertaken with the aid of two online tools: LACO-Wiki [33], which is a generic land cover validation tool, and PAYSAGES [34], which is a tool for collecting VGI to improve the LULC product of the French national mapping agency, IGN They are used in a complementary way in this study. We consider the limitations of the study as well as recommendations for further research
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