The objective of this study is to develop a combat robot that can operate in intense combat situations, with the aim of minimizing human casualties. The robot is designed to be voice controlled, hand gesture controlled, and IoT-based, allowing it to be operated remotely using a mobile device or laptop. It has a range of functions including scouting, search and rescue, supply delivery, and firing. The robot is equipped with a wireless camera for remote monitoring of the enemy, and it is armed with firearms that can be controlled by the operator. Additionally, the robot can be armed and disarmed remotely, and it is capable of moving swiftly in challenging terrains. It can be used to supply soldiers with necessary equipment and communicate with them in the battlefield. The robot is powered by solar energy through solar panels and a rechargeable DC power supply battery. It utilizes an ESP32 camera IC with a built-in Wi-Fi module for operation. The combat robot is intended for use in war fields to reduce casualties and handle situations where there is a shortage of manpower.