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Citation notice #80 · 2026-07-11 03:18:48.034710+00:00

Future-Proofing Cloud Security Against Quantum Attacks: Risk, Transition, and Mitigation Strategies

Withdrawal Crossref Open

cites Framework for Im- proving Critical Infrastructure Cybersecurity (CSF 2.0),, which carries a withdrawal notice dated 2022-10-24. One-hop deterministic notice: the citation edge exists in the Pith bibliography graph; no model judged whether the citation was load-bearing.

This is not a judgment on the citing paper.

Citing paper Event page Original DOI Notice DOI File a formal challenge All reference changes

01Evidence

Raw extraction · citation context · bibliography index 24

This study employs a structured risk assessment methodol- ogy, adhering to the principles delineated in National Institute of Standards and Technology (NIST) Special Publication 800- 30 [23], to systematically evaluate the security risks associated with CC transitions to quantum-safe systems. To enhance cybersecurity resilience, this research also integrates the NIST Cybersecurity Framework [24], ensuring alignment with in- dustry best practices for risk-based security management. A similar NIST-aligned methodology has been applied in other contributions, demonstrating its applicability across different quantum-era security domains [25], [26]. The risk assessment process itself is a four-phase approach, encompassing prepara- tion, conduct, communication, and maintenance.

Parser render (TeX stripped for reading; raw above is the evidence)

This study employs a structured risk assessment methodol- ogy, adhering to the principles delineated in National Institute of Standards and Technology (NIST) Special Publication 800- 30 [23], to systematically evaluate the security risks associated with CC transitions to quantum-safe systems. To enhance cybersecurity resilience, this research also integrates the NIST Cybersecurity Framework [24], ensuring alignment with in- dustry best practices for risk-based security management. A similar NIST-aligned methodology has been applied in other contributions, demonstrating its applicability across different quantum-era security domains [25], [26]. The risk assessment process itself is a four-phase approach, encompassing prepara- tion, conduct, communication, and maintenance

02Event

Type
Withdrawal
Source
Crossref
Original DOI
10.6028/nist.cswp.27
Notice DOI
10.6028/nist.cswp.27
Date
2022-10-24
Title
Cybersecurity Framework Profile for Hybrid Satellite Networks (HSN) Final Annotated Outline NIST Cybersecurity White Paper NIST CSWP 27 Final Annotated Outline
Reasons
['Withdrawal']
Work
Framework for Im- proving Critical Infrastructure Cybersecurity (CSF 2.0), (2024)

Schema constants (for re-runners): withdrawal · crossref

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