International Journal of Research

WBAN nodes which have blocked RF links because of body shadowing forward their data with the BCC connect to a node that functions like a relay and it has an energetic RF connection. With this architecture we design a network layer protocol that manages the 2 communication technologies and accounts for relay selection and knowledge forwarding. To resolve this issue we present a brand new WBAN architecture that utilizes two communication technologies. One network is created between on-body nodes, and it is recognized with capacitive body-combined communication (BCC), while an IEEE 802.15.4 RF (RF) network can be used for forwarding data towards the gateway. Within this paper we're worried about the issue of information forwarding from the wireless body area network (WBAN) to some gateway when body shadowing affects ale WBAN nodes to talk with the gateway. Next, we develop analytical performance types of the medium access control (MAC) methods of these two independent communication links to become employed for driving the choices from the previous calculations. Finally, the analytical models can be used for further optimizing energy and delay efficiency. We test our bodies under different designs first by carrying out simulations and then by utilizing real RF traces.