22Dec 2025 by Post

Year in Review: Demonstrating the Power of the Intelligent Design Framework in Biology

anatomy, biologists, biology, biomimicry, blood flow, brain, CELS, Conference on Engineering in Living Systems, design reuse, Emily Reeves, Engineering, Engineering Research Group, engineers, genetic profiles, genetic variation, genome architecture, Gerald Fudge, glycolysis, Intelligent Design, James Clayton Prize, James Johansen, living systems, Macroevolution, Michael Egnor, Microevolution, modularity, optimality, pathology, physicians, physiology, Research, robustness, Stuart Burgess, systems engineering, Texas A&M, theory of biological design, Windkessel
Our scientists and engineers have further laid the foundation for a comprehensive and actionable theory of biological design. Source
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01Apr 2025 by Post

Emily Reeves: How to Study Biology with Systems Engineering Principles

ATP synthase, bacterial flagellar motor, biological systems, biologists, biology, cancer, Emily Reeves, engineered systems, engineers, glycolysis, ID The Future, Intelligent Design, Life Sciences, living systems, methodology, nanotechnology, Photosystem I, Podcast, Research, scientific literature, systems engineering, Warburg effect
Traditional methods in biology have proven insufficient for understanding and accurately predicting complex biological systems. Why? Source
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20Dec 2022 by Post

A Physician’s Fantastic Voyage through Your Designed Body

biology, bodily functions, Complexity, Darwinism, evolutionary theory, gradualism, hearing, Howard Glicksman, human body, Intelligent Design, interdependent systems, just-so stories, Medicine, Pat Flynn, Philosophy for the People, physicians, Steve Laufmann, systems engineering, vision, Your Designed Body
Begin by piling up the layers of complexity in the human body — the layer upon layer of complex interdependent systems. Source
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