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Updated: Aug 27, 2025

Automated Robotic Liquid Handling Assembly of Modular DNA Devices
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Computational design logics for bio-based design.

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  • 1CITA Centre for IT and Architecture, Royal Danish Academy, Architecture, Design and Conservation, Copenhagen, Denmark.

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Summary
This summary is machine-generated.

Computational design advances sustainability by enabling architects to engage with renewable, regenerative, and restorative bio-based materials. This approach bridges digital fabrication and living material systems for a sustainable future.

Keywords:
Adaptive fabricationArchitectural intelligenceBio designComputational designFunctional gradingIntegrated sensing

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Area of Science:

  • Architecture and Material Science
  • Computational Design and Sustainability

Background:

  • The field of computational design offers key advancements for sustainable architecture.
  • There is a growing need to integrate renewable, regenerative, and restorative material systems.

Purpose of the Study:

  • To explore how computational design contributions can facilitate engagement with sustainable material systems.
  • To investigate the transferability of computational design methodologies to bio-based material paradigms.
  • To identify new instrumentation methods for bio-based materials.

Main Methods:

  • Conceptualizing an extended digital chain for material-scale fabrication in architecture.
  • Analyzing central contributions of computational design: advanced information modeling, functional grading, and integrated sensing.
  • Extending these contributions to address the characteristics of bio-based materials.

Main Results:

  • Computational design provides steppingstones towards an age of sustainability.
  • Methodological innovations can be transferred from digital fabrication to bio-based material systems.
  • Advanced information modeling, functional grading, and integrated sensing offer new instrumentation for heterogeneous, behaving, and living bio-based materials.

Conclusions:

  • Computational design is pivotal for advancing sustainable architecture and material systems.
  • The integration of digital tools with bio-based materials opens new avenues for innovation.
  • Future architectural practices can leverage computational design for regenerative and restorative material applications.