Abstract
The goal of this paper is to investigate the maximum level of semantic resolution that can be achieved in an automated land use change detection process based on mono-temporal, multi-spectral, high-resolution aerial image data. For this purpose, we perform a step-wise refinement of the land use classes that follows the hierarchical structure of most object catalogues for land use databases. The investigation is based on our previous work for the simultaneous contextual classification of aerial imagery to determine land cover and land use. Land cover is determined at the level of small image segments. Land use classification is applied to objects from the geospatial database. Experiments are carried out on two test areas with different characteristics and are intended to evaluate the step-wise refinement of the land use classes empirically. The experiments show that a semantic resolution of ten classes still delivers acceptable results, where the accuracy of the results depends on the characteristics of the test areas used. Furthermore, we confirm that the incorporation of contextual knowledge, especially in the form of contextual features, is beneficial for land use classification.
Highlights
Land use describes the socio-economic function of a piece of land
The goal of this paper is to investigate the maximum level of semantic resolution that can be achieved in an automated classification process based on mono-temporal, multi-spectral, high-resolution aerial image data
In our empirical analysis we examine three different aspects related to the overall goal of determining the maximum level of semantic resolution
Summary
Land use describes the socio-economic function of a piece of land This information, typically collected in geospatial databases, is of high relevance for many applications. Increasing the level of detail leads to a higher effort for data base verification and update. This observation motivates the development of an automatic update process for large-scale land use databases. Such a process can be based on current remote sensing data and typically involves an automated classification of land use To maintain a high level of detail, a high semantic resolution of the land use classification result is required
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
