The Human Influence Experiment (Part 2): Guidelines for Improved Mapping of Local Climate Zones Using a Supervised Classification

Verdonck, Marie-Leen; Demuzere, Matthias; Bechtel, Benjamin; Beck, Christoph; Brousse, Oscar; Droste, Arjan; Fenner, Daniel; Leconte, François; Coillie, Frieke Van

doi:10.3390/urbansci3010027

Cited by 12 publications

(17 citation statements)

References 27 publications

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…See Table A1 for more details on all accuracies. This is in line with previous results such as from "The Human Influence Experiment" (HUMINEX) [56,57] and is a limitation of the input feature space that is currently not able to detect height variations (see, e.g., discussion on page 12 of Reference [39]). In Table 3, the area of every LCZ is shown for the different years.…”

Section: Lcz Maps: General Description and Accuracysupporting

confidence: 91%

See 1 more Smart Citation

Revealing Kunming’s (China) Historical Urban Planning Policies Through Local Climate Zones

et al. 2019

Self Cite

View full text Add to dashboard Cite

Over the last decade, Kunming has been subject to a strong urbanisation driven by rapid economic growth and socio-economic, topographical and proximity factors. As this urbanisation is expected to continue in the future, it is important to understand its environmental impacts and the role that spatial planning strategies and urbanisation regulations can play herein. This is addressed by (1) quantifying the cities’ expansion and intra-urban restructuring using Local Climate Zones (LCZs) for three periods in time (2005, 2011 and 2017) based on the World Urban Database and Access Portal Tool (WUDAPT) protocol, and (2) cross-referencing observed land-use and land-cover changes with existing planning regulations. The results of the surveys on urban development show that, between 2005 and 2011, the city showed spatial expansion, whereas between 2011 and 2017, densification mainly occurred within the existing urban extent. Between 2005 and 2017, the fraction of open LCZs increased, with the largest increase taking place between 2011 and 2017. The largest decrease was seen for low the plants (LCZ D) and agricultural greenhouse (LCZ H) categories. As the potential of LCZs as, for example, a heat stress assessment tool has been shown elsewhere, understanding the relation between policy strategies and LCZ changes is important to take rational urban planning strategies toward sustainable city development.

show abstract

Section: Lcz Maps: General Description and Accuracysupporting

confidence: 91%

“…following [34,[55][56][57]. In order to assess the robustness of the different classification methods, standard deviations (SD) on the OA and F1 are provided as well (see Table A1).…”

Section: Classification Procedures and Its Adaptationsmentioning

confidence: 99%

Revealing Kunming’s (China) Historical Urban Planning Policies Through Local Climate Zones

et al. 2019

Self Cite

View full text Add to dashboard Cite

show abstract

“…The match percentage was 100% (n [number of matched polygons] = 8) for the full match approach, 87% (n = 69) for the match by centroid, and 65% (n = 141) for the match by intersection (Supplementary Table S1 ). While differences occur, the degree of consistency is actually higher compared to the results of HUMINEX (HUMan INfluence EXperiment 58 , 59 ), that indicated large discrepancies between training area sets from multiple ‘experts’, nevertheless leading to strong improvements in overall accuracy when used all together. Combining expert and crowd-sourced data are therefore a reasonable approach to diversify training data for developing LCZ classification models.…”

Section: Methodsmentioning

confidence: 89%

“…TA data are generally created by urban experts 31 , a time-demanding procedure, both because of the intrinsic nature of the task (i.e., the extent and heterogeneity of urban areas) and the ability of the urban expert to identify and digitize TAs consistently 58 , 59 . Here, expert TAs are used from nine U.S. cities: Phoenix and Las Vegas 60 , Salt Lake City 61 , Chicago and New York 62 , 63 , Houston, Washington D.C., Philadelphia and Los Angeles.…”

Section: Methodsmentioning

confidence: 99%

Combining expert and crowd-sourced training data to map urban form and functions for the continental US

et al. 2020

Self Cite

View full text Add to dashboard Cite

Although continental urban areas are relatively small, they are major drivers of environmental change at local, regional and global scales. Moreover, they are especially vulnerable to these changes owing to the concentration of population and their exposure to a range of hydro-meteorological hazards, emphasizing the need for spatially detailed information on urbanized landscapes. These data need to be consistent in content and scale and provide a holistic description of urban layouts to address different user needs. Here, we map the continental United States into Local Climate Zone (LCZ) types at a 100 m spatial resolution using expert and crowd-sourced information. There are 10 urban LCZ types, each associated with a set of relevant variables such that the map represents a valuable database of urban properties. These data are benchmarked against continental-wide existing and novel geographic databases on urban form. We anticipate the dataset provided here will be useful for researchers and practitioners to assess how the configuration, size, and shape of cities impact the important human and environmental outcomes.

show abstract

“…To analyze neighborhood-scale effects, we used Google Earth Engine to visually identify representative samples exceeding one square kilometer in size of six different land cover types (see figure 1). We elected to use this domain expert approach to ensure near 100% accuracy, rather than employing a machine learning classification algorithm such as the World Urban Database Access Portal Tools (Verdonck et al 2019) to quickly classify such areas with moderate accuracy (70%-85%). Our approach was similar to that used by the HERCULES model for classifying urban patches (Cadenasso et al 2007).…”

Section: Methodsmentioning

confidence: 99%

Urban heat island behaviors in dryland regions

Dialesandro

Wheeler

2019

Environ. Res. Commun.

View full text Add to dashboard Cite

Urban heat island (UHI) characteristics and mitigation strategies for dryland cities differ from those for wetter urban regions. Whereas the latter typically see daytime surface UHIs, the rapid heating and cooling of deserts surrounding arid cities often produces daytime 'urban cool islands' and nighttime UHIs. Degrees of aridness, extent of vegetation, elevation, latitude, humidity, topography, and typical building types are likely to influence dryland UHI dynamics. This study analyzes variations in thermal effects at multiple scales for 10 dryland urban regions representing varied geographies worldwide with an aim to establish a broader understanding of the spectrum of UHI patterns in dryland cities. We used GIS to assemble daytime and nighttime satellite imagery, determined land surface temperature and vegetation at a 30-meter scale, and analyzed typical neighborhood-scale examples of six land cover types in each region. The 10 regions showed large variation in thermal effects. We found a strong daytime surface UHI in only one. Nighttime heat islands were more pronounced. However, all regions showed strong small-scale variation in temperature, averaging a 12.3°C difference between mean topquintile and bottom-quintile surface temperatures. Samples of urban forest landscapes cooled daytime temperatures an average of 5.6°C compared to metro averages. Irrigated lawn and multistory building land cover samples also had a substantial cooling effect. Xeriscaped landscapes amplified daytime heating. Our results indicate that UHIs for dryland cities are unlikely to be reduced by xeriscape strategies, but that shade-maximizing urban forestry and built form hold promise to reduce heat islands.

show abstract

The Human Influence Experiment (Part 2): Guidelines for Improved Mapping of Local Climate Zones Using a Supervised Classification

Cited by 12 publications

References 27 publications

Revealing Kunming’s (China) Historical Urban Planning Policies Through Local Climate Zones

Revealing Kunming’s (China) Historical Urban Planning Policies Through Local Climate Zones

Combining expert and crowd-sourced training data to map urban form and functions for the continental US

Urban heat island behaviors in dryland regions

Contact Info

Product

Resources

About