Quantum Information Processing, Sensing, and Communications: Their Myths, Realities, and Futures

Lajos Hanzo; Zunaira Babar; Zhenyu Cai; Daryus Chandra; Ivan B. Djordjevic; Balint Koczor; Soon N.G. Xin; Mohsen Razavi; Osvaldo Simeone

doi:10.1109/JPROC.2024.3510394

Quantum Information Processing, Sensing, and Communications: Their Myths, Realities, and Futures

Lajos Hanzo, Zunaira Babar, Zhenyu Cai, Daryus Chandra, Ivan B. Djordjevic, Balint Koczor, Soon N.G. Xin, Mohsen Razavi, Osvaldo Simeone

Research output: Contribution to journal › Article › peer-review

Abstract

The recent advances in quantum information processing, sensing, and communications are surveyed with the objective of identifying the associated knowledge gaps and formulating a roadmap for their future evolution. Since the operation of quantum systems is prone to the deleterious effects of decoherence, which manifests itself in terms of bit-flips, phase-flips, or both, the pivotal subject of quantum error mitigation is reviewed both in the presence and absence of quantum coding. The state of the art, knowledge gaps, and future evolution of quantum machine learning (QML) are also discussed, followed by a discourse on quantum radar systems and briefly hypothesizing about the feasibility of integrated sensing and communications (ISAC) in the quantum domain (QD). Finally, we conclude with a set of promising future research ideas in the field of ultimately secure quantum communications with the objective of harnessing ideas from the classical communications field.

Original language	English (US)
Journal	Proceedings of the IEEE
DOIs	https://doi.org/10.1109/JPROC.2024.3510394
State	Accepted/In press - 2025

Keywords

Quantum communications
quantum computing
quantum error correction coding
quantum error mitigation
quantum key distribution (QKD)
quantum machine learning
quantum sensing
quantum-secured direct communications (QSDC)

ASJC Scopus subject areas

General Computer Science
Electrical and Electronic Engineering

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10.1109/JPROC.2024.3510394

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title = "Quantum Information Processing, Sensing, and Communications: Their Myths, Realities, and Futures",

abstract = "The recent advances in quantum information processing, sensing, and communications are surveyed with the objective of identifying the associated knowledge gaps and formulating a roadmap for their future evolution. Since the operation of quantum systems is prone to the deleterious effects of decoherence, which manifests itself in terms of bit-flips, phase-flips, or both, the pivotal subject of quantum error mitigation is reviewed both in the presence and absence of quantum coding. The state of the art, knowledge gaps, and future evolution of quantum machine learning (QML) are also discussed, followed by a discourse on quantum radar systems and briefly hypothesizing about the feasibility of integrated sensing and communications (ISAC) in the quantum domain (QD). Finally, we conclude with a set of promising future research ideas in the field of ultimately secure quantum communications with the objective of harnessing ideas from the classical communications field.",

keywords = "Quantum communications, quantum computing, quantum error correction coding, quantum error mitigation, quantum key distribution (QKD), quantum machine learning, quantum sensing, quantum-secured direct communications (QSDC)",

author = "Lajos Hanzo and Zunaira Babar and Zhenyu Cai and Daryus Chandra and Djordjevic, {Ivan B.} and Balint Koczor and Xin, {Soon N.G.} and Mohsen Razavi and Osvaldo Simeone",

note = "Publisher Copyright: {\textcopyright} 1963-2012 IEEE.",

year = "2025",

doi = "10.1109/JPROC.2024.3510394",

language = "English (US)",

journal = "Proceedings of the IEEE",

issn = "0018-9219",

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AU - Hanzo, Lajos

AU - Babar, Zunaira

AU - Cai, Zhenyu

AU - Chandra, Daryus

AU - Djordjevic, Ivan B.

AU - Koczor, Balint

AU - Xin, Soon N.G.

AU - Razavi, Mohsen

AU - Simeone, Osvaldo

PY - 2025

Y1 - 2025

N2 - The recent advances in quantum information processing, sensing, and communications are surveyed with the objective of identifying the associated knowledge gaps and formulating a roadmap for their future evolution. Since the operation of quantum systems is prone to the deleterious effects of decoherence, which manifests itself in terms of bit-flips, phase-flips, or both, the pivotal subject of quantum error mitigation is reviewed both in the presence and absence of quantum coding. The state of the art, knowledge gaps, and future evolution of quantum machine learning (QML) are also discussed, followed by a discourse on quantum radar systems and briefly hypothesizing about the feasibility of integrated sensing and communications (ISAC) in the quantum domain (QD). Finally, we conclude with a set of promising future research ideas in the field of ultimately secure quantum communications with the objective of harnessing ideas from the classical communications field.

AB - The recent advances in quantum information processing, sensing, and communications are surveyed with the objective of identifying the associated knowledge gaps and formulating a roadmap for their future evolution. Since the operation of quantum systems is prone to the deleterious effects of decoherence, which manifests itself in terms of bit-flips, phase-flips, or both, the pivotal subject of quantum error mitigation is reviewed both in the presence and absence of quantum coding. The state of the art, knowledge gaps, and future evolution of quantum machine learning (QML) are also discussed, followed by a discourse on quantum radar systems and briefly hypothesizing about the feasibility of integrated sensing and communications (ISAC) in the quantum domain (QD). Finally, we conclude with a set of promising future research ideas in the field of ultimately secure quantum communications with the objective of harnessing ideas from the classical communications field.

KW - Quantum communications

KW - quantum computing

KW - quantum error correction coding

KW - quantum error mitigation

KW - quantum key distribution (QKD)

KW - quantum machine learning

KW - quantum sensing

KW - quantum-secured direct communications (QSDC)

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Quantum Information Processing, Sensing, and Communications: Their Myths, Realities, and Futures

Abstract

Keywords

ASJC Scopus subject areas

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