Abstract

The project requires integration of cutting-edge technologies such as sensor integration, trajectory planning, control system, and safety measures to ensure safe and exact landing. The research presents a development and application of intelligent control system for autonomous re-entry and landing that is specifically created for reusable rocket. The primary goal of our research is to develop an intelligent control system that can autonomously guide reusable rocket through the challenging process of re-entering the atmosphere and landing. Advance sensor integration is essential for gathering real-time data from various sensors and enabling the control system to make decisions during crucial descent stages. In order to lessen risk to the rocket and its payload, it also covers trajectory planning, which optimizes the flight route to assure precision upon landing. Safety is the first priority throughout the project, with strong safety measures being implemented to reduce potential risk and assure protection. An intelligent control system that has been designed and built can autonomously direct a reusable rocket through the difficult re-entry and landing process. This work offers a reliable and efficient method for the autonomous re-entry and landing of reusable rockets, making a substantial addition to the field of rocketry. By running efficiently and sustainably, the intelligent control system created here has the potential to revolutionize the space sector.

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