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Researchers tout potential of molecular communication

23 Dec 2013

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Researchers at the University of Warwick in the United Kingdom and at York University in Canada have developed a molecular communications system for the transmission of messages and data in environments where electromagnetic waves cannot be employed, such as tunnels, pipelines, and underwater settings. The technique also has potential applications in nanomedicine, such as in designing drugs that can precisely target cancer cells.

Molecular signalling is a common feature of the plant and animal kingdom – insects for example use pheromones for long-range signalling—but to date, continuous data have not been transmitted.

The researchers have developed the capability to transform any generic message into binary signals, which in turn is "programmed" into evaporated alcohol molecules to demonstrate the potential of molecular communications.

The first demonstration signal was performed in Canada and was 'O Canada,' from the Canadian national anthem. It was sent several metres across open space before it was decoded by a receiver. The hardware is made from off-the-shelf electronics and costs around $100.

"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 alphabets with single spray representing bit 1 and no spray representing the bit 0," says York U doctoral candidate Nariman Farsad, who led the experiment.

Dr Weisi Guo from the School of Engineering at the University of Warwick said: "Imagine sending a detailed message using perfume – it sounds like something from a spy thriller novel, but in reality it is an incredibly simple way to communicate.

"Of course people have achieved short-ranged signalling using chemicals, but we have gone to the next level and successfully communicated continuous and generic messages over several metres.

"Signalling or cues are something we see all the time in the natural world—bees for example use chemicals in pheromones to signal to others when there is a threat to the hive.

"In the modern human world, our method won't replace electromagnetic waves which transmit the bulk of our data, but there are some areas where conventional communications systems are not particularly well-adapted.

"For example, inside tunnels, pipelines or deep underground structures, chemical signals can offer a more efficient way of transmitting sensor data, such as those collected to monitor the health of structures and processes.

"Potential targeted applications include wireless monitoring of sewage works and oil rigs. This could prevent future disasters such as the bus-sized fatberg found blocking the London sewage networks in 2013, and the Deepwater Horizon oil spill in 2010."

"They can also be used to communicate on the nano scale. For example in medicine where recent advances mean it's possible to embed sensors into the organs of the body or create miniature robots to carry out a specific task such as targeting drugs to cancer cells.

"On these tiny scales and in special structural environments, there are constraints with electromagnetic signals, such as the ratio of antenna size to the wavelength of the signal, which chemical communication does not have.

"Molecular communication signals are also biocompatible and require very little energy to generate and propagate."

The team plans to set up a company that will aim to bring a range of academic and industrial products to the market.




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