Hasan, Hafizullah Md.2024-06-112024-06-112024-06http://dspace.iiuc.ac.bd/handle/123456789/8246This internship report is submitted in partial fulfillment of the requirements for the degree of Bachelor of Science in B.Sc. Engineering 2024 Cataloged from the PDF version of the internship report.This thesis presents a meticulously designed microstrip patch antenna optimized for V2V communication at 5.851 GHz, enhancing the efficiency and reliability of intelligent transportation systems. The study addresses the need for efficient antenna systems in intelligent transportation by designing a microstrip patch antenna through extensive simulations, achieving low S11 values and high gain for optimal V2V communication. The optimized antenna demonstrates enhanced impedance matching with an S11 value of -19.513 dB and achieves a high gain of 8.104, ensuring reliable signal transmission and communication efficiency in challenging V2V scenarios. This indicates enhanced impedance matching and reduced signal reflection, contributing to the antenna's effectiveness in real-world V2V scenarios. The antenna's gain, a crucial metric for communication systems, has been carefully optimized to reach a value of 8.104. This high gain not only ensures reliable signal transmission over significant distances but also enhances the overall communication efficiency within the V2V network. The results demonstrate the antenna's robustness and stability, reinforcing its suitability for challenging V2V communication scenarios. This research contributes to the advancement of intelligent transportation systems by presenting a meticulously designed microstrip patch antenna with notable performance metrics. The antenna's capabilities make it a promising candidate for reliable and efficient V2V communication, addressing the evolving needs of modern vehicular networks.enThesis