Body Sensor Networks are very useful in medical services for theidentification ofhealth concerns.In the human body, heterogeneous sensor nodes are used to measure data such as blood glucose, pulse,ECG, etc.Sensors are placed on patients to continually monitor their health status.Patients' smart gadgets with web access serve as gateways tothe internet of things-based WBANs.With the increasing usage of IoT-based body sensor networks, a large volume of health data traffic will develop, necessitating the need for a high consumption efficiency system for radio resource management.One of the most essential parameters in Energy Efficient Routing Transmission (EERT) design for the Internet of Things is reducing energy usage and longer network lifespan by sensor nodes using ad hoc networks. Data from sensor nodes is sent to a sink node via intermediary nodes. End-users can use the information accessible in the sink node for additional analysis.The remaining energy balances energy usage across nodes, and the distance parameter assures effective delivery of packets to the base station.Depending on the outcomes of data packet queuing up, a technique for arranging data packet transfers for medical applications with delay limits is being considered.