Sending an SMS Using Evaporating Vodka
Published on: 20th Dec 2013
Researchers at Canada's York University have successfully used evaporated vodka to send a text message.
The say that their technique has practical applications -- such as using chemical signals for transmitting data inside tunnels, pipelines or deep underground structures.
"For example, the recent massive clog in the London sewer system could have been detected earlier on, and without all the mess workers had to deal with by sending robots equipped with a molecular communication system," says Professor Andrew Eckford. The experiment was conducted in his lab in the Department of Electrical Engineering and Computer Science located in Lassonde School of Engineering at York University.
The chemical signal, using the alcohol found in vodka, was sent four metres across the lab with the aid of a tabletop fan. It was then demodulated by a receiver that measured the rate of change in concentration of the alcohol molecules, picking up whether the concentration was increasing or decreasing.
"We believe we have sent the world's first text message to be transmitted entirely with molecular communication, controlling concentration levels of the alcohol molecules to encode the alphabet, with single spray representing bits and no spray representing the bit zero," says York University doctoral candidate Nariman Farsad, who led the experiment.
Though use of chemical signals is a new method in human communication technology, the bio-compatible method is very common in the animal kingdom. Bees, for example, use chemicals in pheromones when there is a threat to the hive, and so does the Canadian lnyx when marking its territory.
In the article "Tabletop Molecular Communication: Text Messages Through Chemical Signals" in the peer-reviewed journal PLOS ONE, the researchers say their system also fills a major gap in the molecular communication literature by providing an inexpensive platform for testing theoretical models. This allows researchers to gain real-world experience with molecular communication cheaply and easily.