Abstract
Quantumization, the process of converting information into quantum (qubit) format, is a key enabler for propelling a new and distinct infrastructure in the pharmaceutical space. Quantum messenger RNA (QmRNA) technology, an indispensable constituent of quantum biotech (QB), is a compelling alternative to conventional vaccine methods because of its capacity for rapid development, high efficacy, and low-cost manufacturing to combat infectious diseases. Internet of Virus Things (IoVT), a biological version of Internet of Things (IoT), comprises applications to fight against pandemics and provides effective vaccine administration. The integration of QB and IoVT constitutes the QBIoVT system to advance the prospect of QmRNA vaccine discovery within a few days. This research disseminates the QBIoVT system paradigm, including architectural aspects, priority areas, challenges, applications, and QmRNA research engine design to accelerate QmRNA vaccines discovery. A comprehensive review of the literature was accomplished, and a context-centered methodology was applied to the QBIoVT paradigm forensic investigations to impel QmRNA vaccine discovery. Based on the above rumination, the principal motive for this study was to develop a novel QBIoVT theoretical framework which has not been produced through earlier theories. The proposed framework shall inspire future QBIoVT system research activities to improve pandemics detection and protection.
Highlights
An imaginative and prescient quantum theory (QT), referred to as quantum mechanics (QM), is part of quantum field theory (QFT) [1] (p. 1877) that expounds the physical properties of nature on an atomic scope and explicates quantum physics as the golden toddler of modern science
Theory on QBIoVT system (disciplines that address quantum biotech, mainly associated with Quantum messenger RNA (QmRNA), quantum operating system (QOS) software solutions, and subjects, philosophy, anthropology, socioeconomic, psychology, and ethical dimensions) domain does not exist within the literature
With the conjunction of messenger RNA (mRNA), Quantum Computing (QC), and Quantum Intelligence (QI), the vision of this study focuses on viruses as an Internet of Things (IoT) device
Summary
An imaginative and prescient quantum theory (QT), referred to as quantum mechanics (QM), is part of quantum field theory (QFT) [1] (p. 1877) that expounds the physical properties of nature on an atomic scope and explicates quantum physics as the golden toddler of modern science. Systems (QIS) [2] represent three foremost areas: quantum computation, quantum control, and quantum communication, and these disciplines are associated with each other based on the concepts of QM. Artificial intelligence (AI), quantum computing (QC), and machine learning (ML) are three technologies that have unimaginable potential. They have integrated together to attain a quantum benefit, in which complex algorithms may be computed inexorably quicker than with the classical supercomputer, giving upward thrust to a game-changer concept called quantum machine learning (QML) [4] There is prevalent concern that the QIS or IS discipline does not bestow applicable theory development. The QIS discipline is not well understood by academia in other
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