Paper Title
Energy Harvested Sender-Initiated MAC Protocol for Misson Critical Applications

Abstract
Implementing an Energy Harvested MAC protocol in mission-critical applications poses several challenges that must be addressed to ensure reliable and efficient communication. These challenges include achieving high throughput, high energy efficiency, low end-to-end delay and a 100% packet delivery ratio. Recent research has focused on the Receiver-Initiated MAC protocol but has struggled to meet all these objectives. In the proposed work, the Energy Harvested Sender-Initiated Protocol (EH-SIMAC) was introduced. This protocol utilizes the XMAC protocol as its core and incorporates energy harvesting with random sensing features. Through this approach, the proposed work achieved an end-to-end delay of 112ms, a throughput of 130 packets per second, and a 100% packet delivery ratio, all while enhancing the network's lifetime. Keywords - Energy Harvesting, End-To-End Delay, Medium Access Protocol, Packet Delivery Ratio, Throughput.