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Neutralization Method of Ransomware Detection Technology Using Format Preserving Encryption.

Jaehyuk Lee1, Sun-Young Lee2, Kangbin Yim2

  • 1Interdisciplinary Program of Information & Protection, Mokpo National University, Muan 58554, Republic of Korea.

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Summary
This summary is machine-generated.

This study introduces a novel ransomware neutralization method that bypasses entropy-based detection by using format-preserving encryption. The new technique improves ransomware detection accuracy by 96% for PPTX files, offering a more sophisticated defense against malware.

Keywords:
entropyformat preserving encryptionneutralizationransomware

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Area of Science:

  • Cybersecurity
  • Malware Analysis
  • Information Security

Background:

  • Ransomware employs file encryption to extort victims, posing a significant threat.
  • Existing detection methods, including entropy measurement, have limitations and can be bypassed.
  • Ransomware neutralization techniques using encoding, like base64, are vulnerable to detection after decoding.

Purpose of the Study:

  • To develop an advanced ransomware detection-neutralization method resilient to current bypass techniques.
  • To propose neutralization requirements from an attacker's perspective for enhanced efficacy.
  • To introduce format-preserving encryption as a superior alternative to encoding for ransomware neutralization.

Main Methods:

  • Derived three attacker-centric requirements for sophisticated neutralization: no decoding, secret information support, and ciphertext entropy similar to plaintext.
  • Utilized format-preserving encryption (FPE) to manipulate ciphertext entropy and bypass detection.
  • Evaluated Byte Split, BinaryToASCII, and Radix Conversion methods for FPE application, identifying Radix Conversion as optimal.

Main Results:

  • The proposed method using Radix Conversion with FPE satisfies the derived requirements, enabling encryption without decoding.
  • Achieved a 96% neutralization accuracy for PPTX files at an entropy threshold of 0.5, significantly outperforming existing methods.
  • Demonstrated the effectiveness of FPE in controlling ciphertext entropy for advanced ransomware neutralization.

Conclusions:

  • Format-preserving encryption offers a robust solution for ransomware neutralization, overcoming limitations of encoding-based methods.
  • The Radix Conversion method, combined with FPE, provides a highly effective strategy for evading entropy-based ransomware detection.
  • This research offers critical insights for developing future countermeasures against sophisticated ransomware neutralization tactics.