Designing from the Cross-Section

The Subsurface as a Building Block for the Future-Proof City

The approach to urban transformation tasks is undergoing a major overhaul. After all, there is insufficient space to accommodate today’s major challenges – in the areas of climate, energy, circular economy, mobility and housing. It is high time we learned to look at our cities through three-dimensional glasses and to view the public space and buildings in relation to the subsurface. By tackling tasks from the cross-section (instead of the plan view), new and surprising solutions are brought to the table, which not only lead to an improvement of the living environment but also encourage multifunctional use of space.

Urban design, architecture, and landscape architecture student teams within the City of the Future Lab, and multidisciplinary design teams from practice have set to work in Amsterdam, Leuven, Maastricht, Mechelen, Ostend and Rotterdam. Together with academic and municipal experts, they have developed design propositions and exemplary solutions for city making in times of major transitions, and they have reflected on the importance of the subsurface and designing from the cross-section.

This design research resulted in a publication in Dutch. ‘Ontwerpen vanuit de Doorsnede’is the result of a collaboration between TU Delft, the COB Platform of Subsurface Construction, the Environmental Department of the Flemish Government, and the Delta Metropolis Association.

Title:
Ontwerpen vanuit de Doorsnede
De Ondergrond als Bouwsteen voor de Toekomstbestendige Stad

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Partners:
Centrum voor Ondergronds Bouwen / COB Platform of Subsurface Construction
Departement Omgeving Vlaanderen / Environmental Department of the Flemish Government
Deltametropolis Association / Vereniging Deltametropool

Public Health + Public Space

Health is an important societal topic in the Netherlands. In one of the most densely populated countries in the world, healthy living environments reduce diseases, deaths, healthcare costs, and shifts focus from prevention and medicalising on the individual levels to taking care of communities. Still, for example, the air quality in the Netherlands is considered moderately unsafe, resulting in the highest rate of asthmatic children worldwide. The same goes for recordings of diseases related to polluting substances on land and in water. This makes public spaces social determinants of public health. We see similar correlations when it comes to the presence of infectious microbes and parasites, and environmental stress. Especially in world port-cities like Rotterdam unhealthy conditions coincide with unequal socio-spatial patterns. Here the impact on individual health is largely untraceable. Understanding the impact of inherent industrial and human activities on urban areas at the neighbourhood level and crossing it with heterogeneous data sets help us understand the socio-spatial impact of pollution-related and vector-borne diseases on cities. Measuring environmental pollution in public spaces can tell us e.g. more about the impact of air quality on citizens as a group. Statistical time series and cross-sectional data analyses can be applied to generate valid correlations if they are made geo-specific. By using machine learning and AI technologies we cross data on environmental pollution with other heterogenous socio-spatial and temporal data sets. The use of mapping, spatial statistics, and urban narratives including historical data can lead to a better understanding of the lived experience at the local level. Through workshops at the local level and notably in the public spaces of the city, we engage the general public and local decision-makers in discussions on public health using advanced computer models for visualisation. The Rotterdam case study provides insights applicable in other cities internationally.

See: Dutch Research Agenda (NWA) initiative on Public Health and Public Space