#Bio Mimicry | Applications

#Reversible Super Glue | Saving eyes | Snails mucous | Epiphragm | Glue applicable to both flat and rough target surfaces | Shu Yang, University of Pennsylvania | Anand Jagota, Lehigh University

#Mimicing biological tissue | Man Machine Interaction | Water resistant and amphibious robotic design | Electronic waste reduction | Electronic devices made from intelligent materials to perform self repair functions | Jellyfish inspired robot skin | National University of Singapore

#Artificial leaf | Leaves enclosed by a capsule filled with water | University of Illinois Chicago

#Self flying glider | Machine learning | Navigating rising air currents | Gaining height without needing to flap wings | Glider teaches itself | Receiving a reward for every correct decision resulting in increased altitude | University of California San Diego

#Centaur Pod | Creating knowledge from the behaviour | Knowledge translating into the space to change| Machine Learning | Artificial Intelligence | Digital fabrication | Robot fabrication | Augmented Reality | Virtual Reality | University of New South Wales in Australia

#Structural color | Chameleon like, color shifting materials | Stretching a piece of film to reveal a hidden message | Checking an arm band color to gauge muscle mass | Sporting a swimsuit that changes hue as one does laps | Elastic materials that when stretched can transform their color | Printed films revealing the imprint of objects | Structural color arising as a consequence of a material microscopic structure | Robotic skin that has a human like sense of touch | Devices for things like virtual augmented reality or medical training | University of Cambridge | The Gillian Reny Stepping Strong Center for Trauma Innovation at the Brigham | Women Hospital | National Science Foundation | MIT Deshpande Center for Technological Innovation | Samsung | MIT ME MathWorks seed fund | MIT

#Lotus Flower

#Dragonfly Hatching


#Ant Columns Movement

#King Fisher Beak

#Sun Flower Pattern

#Down Feathers

#Nordic Biomimicry

#Box Fish

#Water Collecting Beetles

#Bird Safe Glass

#Dragonfly Wing

#Unmanned Micro Size Air Vehicle

#VShaped Flight Technique By Migrating Geese

#Flying Biological Organism

#Nanocomposite Film

#Shark Skin

#Active Flight Control

#General AirTraffic Regulating Transatlantic Airspace

#Air Navigation Service


#Bird Of Prey



#Intel | Neuromorphic computing | Biological neural computation | New algorithmic approaches | Emulating human brain interactions | Spiking neural networks (SNNs) | Simulating natural learning | Dynamically remapping neural networks | Making decisions in response to learned patterns over time | Powering autonomous AI solutions | Supporting energy efficiency and continuous learning | Sensing | Robotics | Healthcare | Large scale AI applications