Media Modulation in Molecular Communications

TL;DR

This paper introduces media modulation in molecular communications, enabling external transmitters to encode information by controlling the states of signaling molecules, thus avoiding the need for a transmitter inside the channel.

Contribution

It proposes a novel media modulation approach using signaling molecules with switchable states, and develops a statistical model to analyze its performance in molecular communication systems.

Findings

Media modulation enables reliable information transmission.

The model predicts BER performance based on molecule distribution and control reliability.

External control of molecules can replace traditional transmitters in MC systems.

Abstract

In conventional molecular communication (MC) systems, the signaling molecules used for information transmission are stored, released, and then replenished by a transmitter (TX). However, the replenishment of signaling molecules at the TX is challenging in practice. Furthermore, in most envisioned MC applications, e.g., in the medical field, it is not desirable to insert the TX into the MC system, as this might impair natural biological processes. In this paper, we propose the concept of media modulation based MC where the TX is placed outside the channel and utilizes signaling molecules already existing inside the system. We consider signaling molecules that can be in different states which can be switched by external stimuli. Hence, in media modulation based MC, for information transmission, the TX stimulates the signaling molecules to encode information into their state. In particular, we elaborate media modulation for the group of photochromic molecules, which undergo light-induced reversible transformations, and study the usage of these molecules for information transmission in a three-dimensional duct system. We develop a statistical model for the received signal which depends on the distribution of the signaling molecules in the system, the reliability of the state control mechanism, and the randomness of molecule propagation. Furthermore, we analyze the performance of media modulation based MC in terms of the bit error rate (BER). We show that media modulation enables reliable information transmission, which renders a TX inside the channel unnecessary.