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Hauptverfasser: Ayanara, Dominica, Hillingworth, Atticus, Casselbury, Jonathan, Montague, Dominic
Format: Preprint
Veröffentlicht: 2025
Schlagworte:
Online-Zugang:https://arxiv.org/abs/2502.01275
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author Ayanara, Dominica
Hillingworth, Atticus
Casselbury, Jonathan
Montague, Dominic
author_facet Ayanara, Dominica
Hillingworth, Atticus
Casselbury, Jonathan
Montague, Dominic
contents Malicious encryption techniques continue to evolve, bypassing conventional detection mechanisms that rely on static signatures or predefined behavioral rules. Spectral analysis presents an alternative approach that transforms system activity data into the frequency domain, enabling the identification of anomalous waveform signatures that are difficult to obfuscate through traditional evasion techniques. The proposed Spectral Entanglement Fingerprinting (SEF) framework leverages power spectral densities, coherence functions, and entropy-based metrics to extract hidden patterns indicative of unauthorized encryption activities. Detection accuracy evaluations demonstrate that frequency-domain transformations achieve superior performance in distinguishing malicious from benign processes, particularly in the presence of polymorphic and metamorphic modifications. Comparative analyses with established methods reveal that frequency-based detection minimizes false positive and false negative rates, ensuring operational efficiency without excessive computational overhead. Experimental results indicate that entropy variations in encrypted data streams provide meaningful classification insights, allowing the differentiation of distinct ransomware families based on spectral characteristics alone. The latency assessment confirms that SEF operates within a time window that enables proactive intervention, mitigating encryption-induced damage before data integrity is compromised. Scalability evaluations suggest that the framework remains effective even under concurrent execution of multiple ransomware instances, supporting its suitability for high-throughput environments.
format Preprint
id arxiv_https___arxiv_org_abs_2502_01275
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Spectral Entanglement Fingerprinting: A Novel Framework for Ransomware Detection Using Cross-Frequency Anomalous Waveform Signatures
Ayanara, Dominica
Hillingworth, Atticus
Casselbury, Jonathan
Montague, Dominic
Cryptography and Security
Malicious encryption techniques continue to evolve, bypassing conventional detection mechanisms that rely on static signatures or predefined behavioral rules. Spectral analysis presents an alternative approach that transforms system activity data into the frequency domain, enabling the identification of anomalous waveform signatures that are difficult to obfuscate through traditional evasion techniques. The proposed Spectral Entanglement Fingerprinting (SEF) framework leverages power spectral densities, coherence functions, and entropy-based metrics to extract hidden patterns indicative of unauthorized encryption activities. Detection accuracy evaluations demonstrate that frequency-domain transformations achieve superior performance in distinguishing malicious from benign processes, particularly in the presence of polymorphic and metamorphic modifications. Comparative analyses with established methods reveal that frequency-based detection minimizes false positive and false negative rates, ensuring operational efficiency without excessive computational overhead. Experimental results indicate that entropy variations in encrypted data streams provide meaningful classification insights, allowing the differentiation of distinct ransomware families based on spectral characteristics alone. The latency assessment confirms that SEF operates within a time window that enables proactive intervention, mitigating encryption-induced damage before data integrity is compromised. Scalability evaluations suggest that the framework remains effective even under concurrent execution of multiple ransomware instances, supporting its suitability for high-throughput environments.
title Spectral Entanglement Fingerprinting: A Novel Framework for Ransomware Detection Using Cross-Frequency Anomalous Waveform Signatures
topic Cryptography and Security
url https://arxiv.org/abs/2502.01275