Mitigating Quantum Decoherence Risk for Scalable Communication
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Authors
Alwehaibi, Abdulaziz
Dr. Elleithy, Khaled
Issue Date
2025-04-04
Type
Other
Language
en_US
Keywords
Quantum decoherence mitigation , Fiber optic communication , Smart connected health
Alternative Title
Abstract
Quantum communication leverages qubits’ superposition and entanglement to enable unprecedented security; however, environmental interactions often collapse qubits into classical bits through decoherence, severely limiting transmission distances. This work proposes a dual framework that integrates low-attenuation fiber optic channels with automated cloud backups to reduce data loss from qubit corruption. By evaluating qubit integrity over extended fiber links and using cloud backups as a repeater-like redundancy mechanism, the framework enhances scalability and reliability. Simulation and experimental analyses in a multi-hospital Smart Connected Health scenario demonstrate reduced decoherence impact, stable throughput under heavy traffic, and improved continuity for real-time telemedicine and remote patient monitoring, enabling secure and resilient quantum-safe healthcare data transmission.
Description
UB Rise 2025
Engineering & Technology Department