In the near future, devices in your home may be able to tell if you haven’t showered in a few days or if your lunch has gone bad. Robots that can taste and smell could also be running around supermarkets making sure our groceries are perfect.
We’re already at the point that artificial intelligence can accurately recognize faces and voices. But how about smell and taste? It seems almost impossible, Smell O Vision never really made it at the movies after all. Jokes aside, artificial intelligence recognizing pixels or sound waves is one thing, to process and identify something like smell or taste takes the perfect combination of engineering, programming, biology, and chemistry.
Aromyx and the EssenceChip
Palo Alto-based Aromyx might be accomplishing the seemingly impossible. Partnered with the robotics-focused venture studio Rewired and working with scientists from Stanford, they have seemingly figured how to reproduce the signals that our organs send to the brain when we smell or taste something. Called the EssenceChip
As far as the process goes, a well plate is exposed to a smell or taste, the bio-assay absorbs the smell or taste molecules and activates a signal cascade exactly the same as in the human nose. To put it simply, Aromyx has put a nose and tongue on a computer chip. For an in-depth overview of how it works check out the Aromyx website.
Robots that Can Taste and Smell?
The purpose of the EssenceChip
“Aromyx is Google Maps for Taste and Scent. It provides the flavor directions to get to any scent or taste.” – Dr. J. Bruce German, Professor, and Chemist, Food Science and Technology Dept., the University of California at Davis
The Next Breakthrough in Robotics and Artificial Intelligence?
The possibilities for something like the EssenceChip
Imagine robots that can taste and smell working in your home. Your fridge could tell you the second your milk goes bad or Alexa can let you know when your baby has soiled his or her diaper.
Along with improving the quality of our food and fragrances, the technology could be used to make the products less harmful to ourselves and the environment without impacting taste and smell. For instance, a popular perfume can be reformulated with less dangerous chemicals without changing the smell. Those french fries you get at McDonald’s could be made healthier and cheaper without sacrificing taste.
“As with the personal computer revolution of the 1980’s, and the birth of the world wide web of the 1990s, the digital taste and smell revolution is set to advance.” – Aromyx
Check out our articles on robots being employed as security guards and the ones that fight fires.