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Structural digital signature for image authentication: an incidental distortion resistant scheme
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Source International Multimedia Conference archive
Proceedings of the 2000 ACM workshops on Multimedia table of contents
Los Angeles, California, United States
Pages: 115 - 118  
Year of Publication: 2000
ISBN:1-58113-311-1
Authors
Chun-Shien Lu  Institute of Information Science, Academia Sinica, Taipei, Taiwan
Hong-Yuan Mark Liao  Institute of Information Science, Academia Sinica, Taipei, Taiwan
Sponsors
SIGOPS: ACM Special Interest Group on Operating Systems
SIGGRAPH: ACM Special Interest Group on Computer Graphics and Interactive Techniques
SIGMIS: ACM Special Interest Group on Management Information Systems
SIGCHI: ACM Special Interest Group on Computer-Human Interaction
SIGCOMM: ACM Special Interest Group on Data Communication
SIGIR: ACM Special Interest Group on Information Retrieval
SIGMULTIMEDIA: ACM Special Interest Group on Multimedia
Publisher
ACM  New York, NY, USA
Bibliometrics
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ABSTRACT

The existing digital data authentication methods are able to detect tampered regions, but are too fragile to resist incidental distortions. This paper will present a new digital signature scheme for image authentication by making use of image content (in the wavelet domain). Based on this concept, a structural digital signature (SDS) is constructed. SDS is a signature that can be used to judge whether an incoming modification is incidental or malicious. When the structure of an SDS is maintained near-complete, we classify the incoming modification as incidental; otherwise, it is malicious. Many incidental manipulations, which cannot be tolerated in previous digital signature or fragile watermarking methods, can now survive under the proposed scheme.


REFERENCES

Note: OCR errors may be found in this Reference List extracted from the full text article. ACM has opted to expose the complete List rather than only correct and linked references.

 
1
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2
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8
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9
Chun-Shien Lu , Hong-Yuan Mark Liao , Shih-Kun Huang , Chwen-Jye Sze, Cocktail Watermarking on Images, Proceedings of the Third International Workshop on Information Hiding, p.333-347, September 29-October 01, 1999
 
10
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G. J. Yu, C. S. Lu, H. Y. Mark Liao, and J. P. Sheu. Mean quantization blind watermarking for image authentication. In Proc. IEEE Int. Conf. on Image Processing, September 2000.
 
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CITED BY  7
 
Gerold Laimer , Andreas Uhl, Key-dependent JPEG2000-based robust hashing for secure image authentication, EURASIP Journal on Information Security, v.8 n.1, p.1-19, January 2008
Chih-Hsuan Tzeng , Wen-Hsiang Tsai, A new technique for authentication of image/video for multimedia applications, Proceedings of the 2001 workshop on Multimedia and security: new challenges, October 05-05, 2001, Ottawa, Ontario, Canada
 
Chin-Chen Chang , Yi-Hsuan Fan , Wei-Liang Tai, Four-scanning attack on hierarchical digital watermarking method for image tamper detection and recovery, Pattern Recognition, v.41 n.2, p.654-661, February, 2008
Albert Meixner , Andreas Uhl, Robustness and security of a wavelet-based CBIR hashing algorithm, Proceeding of the 8th workshop on Multimedia and security, September 26-27, 2006, Geneva, Switzerland
 
Ching-Te Wang , Tung-Shou Chen , Shao-Hau He, Detecting and restoring the tampered images based on iteration-free fractal compression, Journal of Systems and Software, v.67 n.2, p.131-140, 15 August 2003
 
Samia Boucherkha , Mohamed Benmohamed, Textural features extraction for image integrity verification, International Journal of Electronic Security and Digital Forensics, v.1 n.3, p.268-280, October 2008
 
Adil Haouzia , Rita Noumeir, Methods for image authentication: a survey, Multimedia Tools and Applications, v.39 n.1, p.1-46, August 2008

INDEX TERMS

Primary Classification:
  K. Computing Milieux
  K.6 MANAGEMENT OF COMPUTING AND INFORMATION SYSTEMS

Additional Classification:
  G. Mathematics of Computing
  G.1 NUMERICAL ANALYSIS
      G.1.2 Approximation
          Subjects: Wavelets and fractals

  H. Information Systems
  H.5 INFORMATION INTERFACES AND PRESENTATION (I.7)

  I. Computing Methodologies
  I.4 IMAGE PROCESSING AND COMPUTER VISION
      I.4.5 Reconstruction
          Subjects: Transform methods


General Terms:
Design, Experimentation, Management, Measurement, Performance, Reliability, Security, Theory, Verification


Keywords:
authentication, digital signature, fragility, robustness, wavelet transform

Collaborative Colleagues:
Chun-Shien Lu: colleagues
Hong-Yuan Mark Liao: colleagues

Peer to Peer - Readers of this Article have also read:

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