Hogeschool van Amsterdam

Centre of Applied Research Technology

Exploring the Application of (Eye)tracking Technology: Assessing urban design principles for streetscapes in high-density built environments

Abstract

The accelerated densification of Western European cities driven by economic growth has major spatial implications for the liveability of the city. Amsterdam, for example, is challenged to accommodate 50,000 to 90,000 new homes in the next five to ten years. That is equivalent to 10% of the city’s current total housing stock. Moreover, the new homes have to be built within the existing urban fabric, calling for high densities and the construction of new 'unDutch' typologies of extreme high-rise housing. However, the impact on the (visual) experience of the built environment in streetscapes at eye-level remains unpredictable. This calls for a deeper understanding of the relationship between current dominant design solutions and the conditions they ought to provide for the users of streetscapes.

In the field of Urban Design, many scholars have proposed theories regarding the composition of streetscapes and their physical and programmatic affordances for shaping the conditions of the social fabric (e.g. Alexander et.al. 1977; Jacobs 1961; Jacobs 1993; Banerjee and Southworth 1990; Sennett 2018). The observed interplay between the physical and social fabrics are captured in theoretical, rhetorically powerful narratives. In turn, they are used as common design principles such as active ground floors, tactile surfaces and mixed uses. The question arises as to whether these concepts work as intended, and more pressing, how streetscapes can be created in the planned high-rise neighbourhoods that retain a human scale for their users.

Reference Suurenbroek, F., & Spanjar, G. (2019). Exploring the Application of (Eye)tracking Technology: Assessing urban design principles for streetscapes in high-density built environments. Abstract from 1st International Conference on Urban Experience and Design, Medford and Somerville , United States.
Published by  Centre for Applied Research Technology 26 April 2019

Publication date

Apr 2019

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