Dr. Soamdeep Singha is an Assistant Professor in the Department of Computer Science at Vidyasagar University, West Bengal, India. He specializes in Quantum Computing, Cyber Security, Cloud Security, and Artificial Intelligence–driven security systems. His research focuses on next-generation computational paradigms, particularly quantum-enhanced cryptography, post-quantum security frameworks, and AI-based threat detection mechanisms for cloud environments. Dr. Singha obtained his doctoral degree in Computer Science with research contributions in advanced security architectures and emerging computational models. His academic work bridges theoretical foundations and practical implementations, emphasizing secure system design for modern distributed and quantum-enabled infrastructures. He has published research papers in reputed national and international journals and conferences in the domains of information security, quantum algorithms, and intelligent security systems. His ongoing research investigates quantum-resistant cryptographic protocols, hybrid classical–quantum architectures, and AI-assisted anomaly detection models for large-scale cloud platforms. Beyond research, Dr. Singha is actively involved in curriculum development, workshop organization, and academic mentoring. He has organized technical workshops and academic events on Quantum Computing and Cyber Security to promote research awareness among students and scholars. He also contributes to patent-oriented research initiatives, focusing on AI-based cloud security detection devices and innovative cyber-security frameworks. Dr. Singha’s academic vision centers on integrating quantum technologies with cyber-security to address emerging threats in the post-quantum era. His interdisciplinary approach combines theoretical computer science, cryptography, machine learning, and secure systems engineering to develop scalable, future-ready security solutions. He is committed to fostering research collaboration, innovation, and academic excellence through teaching, research supervision, and institutional development initiatives.

My academic and research interests lie at the intersection of Quantum Computing, Cyber Security, Artificial Intelligence, and Cloud Computing Security. I am particularly focused on developing next-generation security frameworks capable of addressing emerging computational and cryptographic challenges in the post-quantum era. A major thrust of my research involves quantum-enhanced cryptographic systems and post-quantum cryptography. I explore quantum algorithms, quantum key distribution models, and hybrid classical–quantum architectures to design secure communication mechanisms resistant to quantum attacks. My work also investigates the impact of quantum supremacy on current public-key infrastructures and aims to propose quantum-resilient security protocols suitable for large-scale digital ecosystems. In the domain of Cyber Security, my interests include AI-driven intrusion detection systems, anomaly detection in cloud environments, secure distributed architectures, and intelligent threat modeling. I focus on leveraging machine learning and deep learning techniques to design adaptive security systems capable of real-time threat identification and mitigation. I aim to build intelligent security monitoring frameworks that integrate behavioral analytics, predictive modeling, and automated response mechanisms to protect large-scale cloud infrastructures. My research also explores secure multi-cloud architectures, data privacy preservation, and trust management in distributed systems. Additionally, I am interested in interdisciplinary research integrating theoretical computer science, cryptography, machine learning, and secure systems engineering. I emphasize bridging theoretical foundations with practical implementations to create scalable, efficient, and future-ready security solutions. Through my research, I seek to contribute to the development of robust quantum-secure digital infrastructures and intelligent cyber security frameworks that can withstand evolving global cyber threats. My long-term objective is to establish a research ecosystem that advances quantum-enabled security technologies and fosters academic collaboration at national and international levels.