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Explore a keynote speech from the 3rd International Conference on Applied Physics and Mathematical Modeling (CONF-APMM 2025) where Dr. Anil Fernando from the University of Strathclyde presents groundbreaking research on multi-qubit quantum communication systems specifically designed for image transmission over error-prone channels. Discover how quantum communication principles can be applied to overcome the challenges of transmitting visual data through unreliable communication channels, examining the theoretical foundations and practical implementations of multi-qubit systems. Learn about the innovative approaches to error correction and mitigation strategies that enable robust image transmission in quantum communication networks. Gain insights into the intersection of quantum physics, communication theory, and digital image processing, understanding how quantum entanglement and superposition properties can be leveraged to enhance data transmission reliability. Examine the mathematical modeling techniques used to analyze and optimize quantum communication protocols for image data, including error probability calculations and channel capacity considerations. Understand the current limitations and future potential of quantum communication systems in practical applications, particularly in scenarios where traditional communication methods face significant interference or security concerns.
