Abstract
This paper compares the information-theoretic aspects of different communication signals in plants. To be specific, we consider two signals responsible for the inter-cellular communication in plants: electro-chemical and mechanosensitive signals. There is a need for a comprehensive comparison of the communication properties of these different signals in plants for different configurations of receiver cells. In this work we address this research problem using molecular communication theory. We compare the mutual information and the information propagation speed for these communication signals. In addition we compare the impact of refractory period on the mutual information and information propagation speed for these signals in plants. The key result of this paper is that, based on the propagation mechanism, better communication performance can be achieved by electro-chemical signals as compared to mechanosensitive signals. We further find that a short refractory period leads to higher mutual information and propagation speeds.
Highlights
Plants use many different types of signals for inter-cellular information transfer
This paper makes the following two specific contributions: (a) We present a fair comparison of the communication properties of different types of communication signal models in plants. (b) We compare the impact of refractory period on the communication system performance for each of these signal type models
AND DISCUSSIONS we present the numerical results for the system considered in this paper
Summary
Plants use many different types of signals for inter-cellular information transfer These different types of plant signals can play a significant role in various functionalities of plants. These signals enable the plant to adapt to changes in the environment, i.e., to grow and develop in accordance with its surroundings. Examples of such signals include electro-chemical Action potential (AP) signals and mechanosensitive activation signals [1], [2]. As a result of generation of both AP and mechanosensitive activation
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