Details zur Publikation

Kategorie Textpublikation
Referenztyp Zeitschriften
DOI 10.3390/smartcities9070107
Lizenz creative commons licence
Titel (primär) Monitoring urban land use intensity with remote sensing and urban traits: A review
Autor Lausch, A. ORCID logo ; Bumberger, J. ORCID logo ; Dong, X.; Haase, D.; Jung, A.; Pause, M.; Selsam, P.; Wellmann, T.; Trabert, T.; Banzhaf, E.
Quelle Smart Cities
Erscheinungsjahr 2026
Department CLE; SUSOZ; MET
Band/Volume 9
Heft 7
Seite von art. 107
Sprache englisch
Topic T5 Future Landscapes
Keywords urban land use intensity; urban intensification; remote sensing; in situ; urban traits; genesis; structure; taxonomy; functional; socio-economic indicators; policy; planning
Abstract Urban land use intensity (U-LUI) is a widely used term for describing urban development processes, yet its conceptualisation and measurement remain inconsistent. Existing approaches focus on isolated dimensions, such as structural density, functional activity, and socio-economic indicators, resulting in limited comparability and weak integration across scales and data sources. This paper reviews and synthesises current approaches to U-LUI with a focus on remote sensing (RS), in situ data and emerging urban data sources. It analyses definitions, related concepts of urban intensity and existing monitoring frameworks at national, European and global levels, and compares methodological approaches for observing U-LUI. Based on this synthesis, U-LUI is defined as a continuous, multidimensional and spatio-temporally dynamic property of urban systems that reflects the intensity of anthropogenic use. To operationalise this concept, the paper develops an integrative, trait-based framework comprising six indicator families: traits, genesis, structure, taxonomy, function and socio-economics. The proposed framework is illustrated and supported through the synthesis of existing RS approaches, urban monitoring concepts and representative examples from the literature, demonstrating its potential for consistent and scalable U-LUI assessment. These dimensions link physically observable characteristics with functional and contextual aspects of urban systems and provide a basis for more consistent quantification and comparison. The results highlight key challenges for U-LUI monitoring, including limited conceptual harmonisation, incomplete integration of dimensions and the need for improved data integration. The proposed framework supports more coherent and scalable assessments of U-LUI in research, monitoring and planning contexts.
Lausch, A., Bumberger, J., Dong, X., Haase, D., Jung, A., Pause, M., Selsam, P., Wellmann, T., Trabert, T., Banzhaf, E. (2026):
Monitoring urban land use intensity with remote sensing and urban traits: A review
Smart Cities 9 (7), art. 107
10.3390/smartcities9070107