Android Application Simulation For Prototyping Wireless NanoNetworks Communication

Nanonetwork is a novel field exponentially acquiring attention from the research community in the recent years. We believe that nanonetworks are not a simple extension of traditional communication networks at the nanoscale. They are a complete new communication paradigm which composed of a number of interconnected nanomachines (e.g., biological molecules, artificial devices) with molecular communication mechanisms that enables nanomachines deployed over different distances to cooperate and share information with each other.Since, Long-range communication in nanonetworks scenario (referred to as the communication process in which the distance between transmitter and receiver nanomachines ranges from millimeters up to kilometers) is an unexplored research area, capable of providing unique features for several applications in biomedical, industrial and Telecommunications fields. And Light transduction scheme (converting molecular signal into optical information) can be mainly realized as the most promising technique for the wireless molecular communication in the long-range Nano-domain. Also, there is none simulation tool for nano-networks up to now.So, in this article the design of a molecular communication system in terms of a high level architecture based on the aforementioned exciting method is improved for a better understanding of nanonetworks scenarios then; simulation of that system is implemented on our Android application (Yazhraa) which is tested with Android SDK to take the advantages of Java language. Worth noting that Android is an open source that Android is an open source (mostly) platform for mobile devices, tablets, and netbooks that includes an operating system, middleware and key applications along with a set of API libraries. Every Android application runs in its own process, with its own instance of the Dalvik virtual machine so that a device can run multiple VMs efficiently.Moreover, we introduce architecture of the intrabody nanonetworks for remote healthcare as a biomedical application which can use light transduction scheme to motivate the communication needs between the nanomachines. Also, prototyping of intrabody nanonetworks with Yazhraa simulation have done. Finally, the app proposed here simulates one method of the long range communication options. Hence, software tool to contain all these methods should be designed.