MIT's Tangible Media Lab is currently working on a type of synthetic cilia that can mimic the way real hair detects vibrations. Cilia are miscroscopic hairs that help humans do everything from hear to eat. Now scientists are trying to replicate these hairs in order to give humans a better physical way to interact with technology.
The synthetic cilia are called 'Cilllia' and they are the brainchild of PhD candidate Jifei Ou. Ou and his peers developed the cilia by creating a new software for modeling hair. This allows researchers to print strands of individual pixels instead of working with a complex 3D model of every single piece of hair. After printing the cilia with an Ember printer, the hairs can be used as super-accurate sensors that translate human gestures into commands processed by computers.
While Ou and his team are still working on the technology, the cilia-like interfaces could soon change the way we interact with technology.
3D-Printed Hair Structures
These Synthetic Cilia Mimic the Way Real Hair Detects Vibrations
Trend Themes
1. Synthetic Cilia Interfaces - Synthetic cilia interfaces have the potential to revolutionize human-computer interaction.
2. 3D Printing Hair Structures - The use of 3D printing technology to create hair structures opens up opportunities for innovative applications in various industries.
3. Gesture-controlled Computing - The translation of human gestures into computer commands through super-accurate sensor cilia has the potential to disrupt traditional input methods.
Industry Implications
1. Consumer Electronics - The development of synthetic cilia interfaces can lead to the creation of novel, intuitive user interfaces for consumer electronic devices.
2. Healthcare - Synthetic cilia interfaces can have applications in healthcare for non-invasive monitoring and diagnostic purposes.
3. Automotive - Gesture-controlled computing using synthetic cilia interfaces can enhance the driver's experience and safety in vehicles.