BIG proposed leaning the facades of the building outwards until the inclination reaches the average angle of the sun, the facades dodge the sun rays and rest in the shade of the building itself. Due to the relatively high average position of the sun on the sky the total sun exposure can be reduced dramatically at relatively small inclinations. The resulting building volume is a sort of inverted pyramid with the apex buried deep in the desert sand.
To ensure an efficient, robust and healthy work environment for Suitsupply’s staff, the building hosts a sequence of terraces in gradual setbacks on the upper-level floors, allowing for relaxing moments during the work day. Dense tree and bush plantings on the lowest terrace floors offer wind protection, while grass and shrubs on the highest terrace floors resist the elements and allow for higher sun exposure.
The equilateral triangular footprint creates a building with no ends, only three faces perceived as free standing two-dimensional surfaces. The conference center and lobby is sunken into the landscape, leaving the hotel building in a small oasis of Swedish forest in an airport city of parking lots and infrastructure. In the center of the building a series of executive meeting rooms hang inside a hexagonal atrium, creating a kaleidoscopic view from the lobby to the sky.
Oslo Science City aspires to be a good example of a holistic approach to planning, where efficient land use and densification go hand in hand with increasing the amount of biomass in the area. Environmentally friendly buildings, climate adaptation with the help of nature-based solutions, incl. a new green and densely vegetated corridor through OSC, extensive tree planting throughout the entire neighborhood, emission-free mobility, energy efficiency and circular principles will characterize all development in Oslo Science City.
The m site is positioned next to the existing urban fabric in the future development zones of the Yongsan masterplan. BIG’s design includes two elegant towers with a height of and m. To meet the height requirements of the site, the exceeding building mass is transformed into an upper and lower horizontal bar, which bridge the two towers at m and m height. The two towers are additionally connected through the arrival bar at the ground level and a courtyard below ground.