Molecular communication is a paradigm for Nanomachines to exchange information. Due to some of the biological properties, bacteria have been proposed as a carrier for molecular communication, such communication networks are known as bacterial Nanonetworks. The biological property of bacteria is ability to mobilize using chemo-taxis process and carry the information encoded in deoxyribonucleic acid molecules. Bacteria have social characteristic, which provides bacteria to evolve in fluctuating environment using cooperative and non-cooperative behaviour. The reliability in communication can be achieved through optimizing the cooperative and non-cooperative behaviour of bacteria. Bacteria’s are capable of self-motion, through chemo taxis process bacteria will able to reach destination nanomachine. E.coli (Escherichia coli) flagellated bacteria used a carrier. In this, multiple nano-machines are used to operate in multihop process. Thus to achieve efficiency, throughput and reduced delay by utilizing the property of social behaviour bacteria (co-operative). The simulation process is done to analyze the performance of bacterial Nanonetworks for molecular communication.
