Self-configuring asynchronous sleeping in heterogeneous networks

Nowadays, the heterogeneous wireless nano-network topology becomes a need for diverse applications based on networks composed of regions different node densities. In Wireless Nano-networks (WNNs), nodes are nano-metric size and can be potentially dense in terms neighbouring nodes. Nano-nodes have limited resources processing, energy memory capabilities. nano-network(s), even communication range to tens centimeters, thousands neighbours found. We proposed fine-grained duty-cycling method (sleeping mechanism), appropriate nanonodes, which aims reduce number receptions seen by during data packet routing. The present study reveals usefulness implementing sleeping mechanism networks, as well configuring dynamic awaken duration density estimation algorithm. also an algorithm that helps increasing reliability received destination node.