Litcius/Paper detail

Biology for biomimetics I: function as an interdisciplinary bridge in bio-inspired design

Emilie C. Snell‐Rood, Dimitri Smirnoff

2023Bioinspiration & Biomimetics15 citationsDOIOpen Access PDF

Abstract

In bio-inspired design, the concept of 'function' allows engineers and designers to move between biological models and human applications. Abstracting a problem to general functions allows designers to look to traits that perform analogous functions in biological organisms. However, the idea of function can mean different things across fields, presenting challenges for interdisciplinary research. Here we review core ideas in biology that relate to the concept of 'function,' including adaptation, tradeoffs, and fitness, as a companion to bio-inspired design approaches. We align these ideas with a top-down approach in biomimetics, where engineers or designers start with a problem of interest and look to biology for ideas. We review how one can explore a range of biological analogies for a given function by considering function across different parts of an organism's life, such as acquiring nutrients or avoiding disease. Engineers may also draw inspiration from biological traits or systems that exhibit a particular function, but did not necessarily evolve to do so. Such an evolutionary perspective is important to how biodesigners search biological space for ideas. A consideration of the evolution of trait function can also clarify potential trade-offs and biological models that may be more promising for an application. This core set of concepts from evolutionary and organismal biology can aid engineers and designers in their search for biological inspiration.

Topics & Concepts

BiomimeticsFunction (biology)Synthetic biologyAdaptation (eye)Perspective (graphical)OrganismBridge (graph theory)Set (abstract data type)Computer scienceBiological organismManagement scienceCognitive scienceData scienceBiochemical engineeringArtificial intelligenceBiologyEngineeringBiological materialsBioinformaticsPsychologyEvolutionary biologyNeuroscienceAnatomyPaleontologyProgramming languageNeurobiology and Insect Physiology ResearchPlant and Biological Electrophysiology StudiesDesign Education and Practice