Biomimicry for Materials, Design and Habitats

<p>A Biomimicry Education and Innovation<br>1. Biom*: On becoming a teachable discipline<br>2. Introduction to bioinspired materials: Design, processing and applications<br>3. The Pattern Alphabet: Nature’s Patterns are the Language of Spatial Reasoning and Biomimicry<br>4. Material Culture, Design Studies, and Human Ecology: A Bio-centered Perspective <br>5. Inspiration from Paleomimetics: Fossil does not Equal Failure</p> <p>B Systems Engineering and Computer Applications <br>6. Biomimicry for bone and hybrid composites and the use of machine learning in hierarchical design<br>7. Animal Engineering<br>8. Sample digitization techniques for bio-inspired engineering<br>9. Assessment of an ant-inspired algorithm for path planning</p> <p>C Materials, Innovation and Manufacturing <br>10. Functional synergy of biomimicry and additive manufacturing: Towards a bio-enhanced engineering approach<br>11. Smart Textiles through Bio-Inspired Innovation<br>12. Polymerization in Nature Yields Clues to Innovation in Additive Manufacturing<br>13. Biomimetic self-cleaning surfaces: Synthesis, mechanism and applications<br>14. Biomimicry Launchpad: Bringing Biomimetic Innovation to Market</p> <p>D Architecture and Habitation <br>15. Morphological Differentiation for the Environmental Adaptation of Biomimetic Buildings: Skins, Surfaces, Structures<br>16. Biomimetic roofing: Moisture dissipation from leaf-shape shingles<br>17. Design studies and applications of Mycelium biocomposites in architecture<br>18. Green Harbors Project: Biomimicry in Action</p>