I am an AI researcher, inventor, and technology innovator dedicated to advancing interdisciplinary solutions at the intersection of artificial intelligence, cybersecurity, and healthcare. My work focuses on developing intelligent systems that address complex real-world challenges while ensuring responsible and ethical technological progress.
In cybersecurity, I investigate AI-driven approaches for threat detection, risk assessment, and the design of resilient security architectures that enhance the protection of digital ecosystems. In healthcare, I leverage machine learning, deep learning, and advanced data analytics to support early disease detection, personalized medicine, AI-assisted diagnostics, and targeted therapies. My research includes breast cancer diagnosis using process mining and optimization algorithms, as well as nanoparticle-based approaches for lung cancer treatment.
My broader research interests span trustworthy and ethical AI, quantum computing and quantum error correction, natural language processing, computer vision, robotics, big data analytics, recommendation systems, and intelligent decision-support technologies. By integrating emerging technologies with practical applications, I aim to create innovative solutions that generate meaningful societal impact.
My research contributions have resulted in multiple international patents, peer-reviewed publications in leading scientific journals, and recognition through awards and medals in prestigious global invention competitions. Through interdisciplinary collaboration and innovation, I strive to advance technological security, improve healthcare outcomes, and contribute to a safer, healthier, and more intelligent future.