Vendor stalls at festivals and events are often plagued by their single-use design that usually doesn't get reused, so the 'Plexus' parametric pavilion has been created to offer a more customizable alternative.
Designed by the Studio Symbiosis, the pavilion is achieved using just two components consisting of nodes and connectors that can be interconnected to create 1,000 different stall variations. This would allow vendors to create a customized stall that suits their needs, while also enabling them to collapse it upon completion of the event to be used against when required.
The 'Plexus' parametric pavilion was explained further by Founding Partners of Studio Symbiosis Britta Knobel Gupta and Amit Gupta who said, "It is designed as an intricate network, whereby a series of simple components, based on aggregation principles, can result in a new design of the display booth for every exhibition, and also a new brand image. Designed as a universal model, this system can adapt to nonstandard stall sizes and to a differentiated product range."
Customizable Festival Vendor Pavilions
The 'Plexus' Parametric Pavilion Reduces Festival Waste
Trend Themes
1. Customizable Festival Vendor Stalls - Customizable festival vendor stalls provide a more sustainable and personalized alternative to single-use vendor stalls.
2. Modular Event Structures - Modular event structures offer the potential for versatile and eco-friendly event spaces.
3. Parametric Design - Parametric design allows for the creation of highly customizable, yet replicable structures for various use cases.
Industry Implications
1. Event Planning - Event planning companies can utilize customizable and modular structures to create unique and sustainable event spaces for clients.
2. Trade Shows and Exhibitions - Trade shows and exhibitions can benefit from customizable and modular structures for vendors to showcase their products and services.
3. Construction and Architecture - Construction and architecture industries can explore the use of parametric design to create sustainable and efficient structures for a variety of purposes.