Research Experience

Undergraduate Thesis

"Security in Multicasting Employing Generalized Receiver with MRC Diversity and Opportunistic Relaying Techniques"

The research showcases my proficiency in utilizing advanced techniques such as MRC diversity and opportunistic relaying to enhance the security and performance of multicast communications.

The thesis focuses on enhancing the security aspects of multicasting in wireless communication systems. The study addresses the challenges associated with secure data transmission to multiple receivers simultaneously.

The research proposes a novel approach by employing a generalized receiver with maximal ratio combining (MRC) diversity and opportunistic relaying techniques. This approach aims to improve the reliability, secrecy, and efficiency of multicasting. By utilizing MRC diversity, the system can effectively combat channel fading, reducing the risk of information loss during transmission.

Furthermore, the integration of opportunistic relaying techniques enables the system to intelligently select the most secure and reliable relays for data forwarding, thereby enhancing the overall security of the multicast communication.

The research involves theoretical analysis, system design, and performance evaluation using simulation or practical implementation. The results obtained from the study are expected to demonstrate the effectiveness of the proposed techniques in enhancing the security and reliability of multicasting in wireless communication systems, thereby contributing to the advancement of secure multicast protocols.