An interactive agent-based framework for materialization-informed architectural design
Authored by Achim Menges, Tobias Schwinn, Abel Groenewolt, Nguyen Long
Date Published: 2018
DOI: 10.1007/s11721-017-0151-8
Sponsors:
German Research Foundation (Deutsche Forschungsgemeinschaft, DFG)
Platforms:
C#
Model Documentation:
Other Narrative
Mathematical description
Model Code URLs:
Model code not found
Abstract
Concepts of swarm intelligence are becoming increasingly relevant in the
field of architectural design. An example is the use of agent-based
modeling and simulation methods, which can help manage the complexity of
building designs that feature many similar, but geometrically unique
elements. Apart from leading to effective solutions and expanding the
architectural design space, agent-based design methods can also be
employed in integrated planning processes, in which the contributions of
various disciplines take place in an integrated loop instead of being
executed consecutively. We propose a computational framework for
architectural design, in which agents represent building elements and/or
joints between building elements. Behavior parameters, behavior
weighting, and the environment can be modified in real-time while the
agent system is running. Additionally, the designer can interact with
individual agents directly, while slowing down or pausing agent movement
if so desired. In the resulting design approach, the designer can
globally adjust behavior parameters, while retaining local control over
details where needed. To facilitate an integrative design process,
domain-specific data and the results of external analysis can be
included, either directly as input for agent behaviors, or by modifying
the environment. We illustrate the potential of this computational
framework using the example of the design of plate structures and show
how this method can lead to quantifiable results while also attaining
aesthetic goals. Furthermore, we provide an outlook toward possible
further extensions of agent-based design methods in architecture.
Tags
Multi-agent systems
emergence
Optimization
Computation
Building design
Agent-based design
Polyhedral plate structures