Electromagnetic-Induced Calcium Signal with Network Coding for Molecular Communications

Molecular communication (MC) has become a new communication technology between nano-scale devices due to its biocompatibility and low energy consumption. Calcium signaling gradually becomes a hot research topic as a typical case of molecular communication in biological cells, but the system performance of(\hbox {Ca}^{2+})signal-based molecular communication is low because the intracellular(\hbox {Ca}^{2+})concentration decays with time and space. In this work, we firstly introduce a hybrid communication scheme based on electromagnetic and molecular communication to investigate the mechanism of action of cytoplasmic calcium ions induced by alternating fields. Secondly, the(\hbox {Ca}^{2+})signal is analyzed in a multimodal analysis using an external electromagnetic device that emits electromagnetic waves as a control wave to drive the transmitter. In addition, we propose a network coding scheme based on(\hbox {Ca}^{2+})signal frequency and a high-efficiency communication system with XOR logic gates. The proposed network coding communication system reduces the number of information exchanges and has a higher communication efficiency compared to conventional communication.