#Bio Mimicry | Development
#Fireflies | Insect scale robots emitting light when flying enabling motion tracking and communication | MIT
#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
#Hatching
#Bio Technology
#Silk Fiber
#BioMedical Device
#BioMedical App
#Spider Silk
#Silk Engineering
#Silk Based Tech
#Silk Fibroin Protein
#Replacement Knee Building
#Dissolvable Bone Skrew
#Material Science
#Laryngology
#Silk Voice
#Biocompability
#Special Catherer
#Fix4WoodWaste
#Silkworm Silk
#Silkworm Farming
#Biological Code
#Genetic Machinery
#Performance Outwear
#EelInspired Robot
#Bird Egg Information
#Egg Shell
#Hatching Time
#Atomic Force Microscope
#Hatching Chick
#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