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Olfaction-inspired MCs: Molecule Mixture Shift Keying and Cross-Reactive Receptor Arrays
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  • Vahid Jamali ,
  • Helene M. Loos ,
  • Andrea Buettner ,
  • Robert Schober ,
  • H. Vincent Poor
Vahid Jamali
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Helene M. Loos
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Andrea Buettner
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Robert Schober
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H. Vincent Poor
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In this paper, we propose a novel concept for engineered molecular communication (MC) systems inspired by animal olfaction. We focus on a multi-user scenario where several transmitters wish to communicate with a central receiver. We assume that each transmitter employs a unique mixture of different types of signaling molecules to represent its message and the receiver is equipped with an array comprising R different types of receptors in order to detect the emitted molecule mixtures. The design of an MC system based on \textit{orthogonal} molecule-receptor pairs implies that the hardware complexity of the receiver linearly scales with the number of signaling molecule types Q (i.e., R=Q). Natural olfaction systems avoid such high complexity by employing arrays of \textit{cross-reactive} receptors, where each type of molecule activates multiple types of receptors and each type of receptor is predominantly activated by multiple types of molecules albeit with different activation strengths. Motivated by this observation, we first develop an end-to-end MC channel model that accounts for the key properties of olfaction.
Apr 2023Published in IEEE Transactions on Communications volume 71 issue 4 on pages 1894-1911. 10.1109/TCOMM.2023.3242379