Öz
Günümüzde teknolojinin hızlı gelişmesi ile renkli
lazer yazıcı, tarayıcı ve görüntüleme cihazları günlük kullanımımızda çokça
rastlanılan cihazlar haline gelmiştir. Dağıtık sistem mimarileri ve mantığı
giderek yaygınlaşmaktadır. Ortak kullanım alanımızda bulunan yazıcılar,
tarayıcılar ve benzeri cihazlar vasıtasıyla aldığımız ürünlerin en temelinde
illegal aktivitelerin takip edilmesi amacı ile fiziksel steganografi yöntemi
ile işaretleme yapılmaktadır. Bu işaretlemeler toplumun çoğu tarafından
bilinmemektedir. Sarı noktalar olarak işlenen bu veri gizleme yöntemi
çalışmamızda ele alınmış ve konu ile ilgili bilgiler paylaşılmıştır.
Anahtar Kelimeler
Sarı Nokta Analizi; Sahtecilik Koruma Sistemi; Makina Kimlik Kodu; Yazıcı Steganografisi;
Kaynakça
- Ali, G.N., Mikkilineni, A. K., Chiang, P. J., Allebach, J. P., Chiu, G. T. ve Delp E. J. (2003). Intrinsic and Ectrinsic Signatures for Information Hiding and Secure Printing with Electrophotographic Devices. Conference: NIP19: International Conference on Digital Printing Technologies.
- Beusekom, J., Schreyer, M. ve Breuel T. M. (2010). Automatic counterfeit protection system code classification, Proc. SPIE 7541, Media Forensics and Security II, 75410F (27 January 2010); doi: 10.1117/12.840253; https://doi.org/10.1117/12.840253
- Beusekom J., Shafait F. ve Breuel T. M. (2013). Automatic Authentication of Color Laser Print-Outs Using Machine Identification Codes. Pattern Analysis and Applications, November 2013, Volume 16, Issue 4, pp 663–678.
- Buck, P. (2018). Reverse Engineering the Machine Identification Code. 10.13140/RG.2.2.28980.76169.
- Jiang, W., Ho, A. T. S., Treharne, H. ve Shi. Y. Q. (2010) A novel multi-size block benford’s law scheme for printer identification. PCM'10 Proceedings of the 11th Pacific Rim conference on Advances in multimedia information processing: Part I Pages 643-652 Shanghai, China September 21 - 24, 2010
- Khanna, N., Mikkilineni, A. K., Chiu, G. T. C., Allebach, J. P. ve Delp, E. J. (2008). Survey of Scanner and Printer Forensics at Purdue University. IWCF 2008 LNCS 5158 pp.22-34.
- Mikkilineni, A. K., Chiang, P. J., Ali, G. N., Chiu, G. T. C., Allebach, J. P. ve Delp III, E. J. (2005). Printer identification based on graylevel co-occurrence features for security and forensic applications, Proc. SPIE 5681, Security, Steganography, and Watermarking of Multimedia Contents VII, (21 March 2005)
- Otsu, N. (1979). A threshold selection method from gray-level histograms. IEEE Trans. Sys., Man., Cyber. 9 (1): 62–66. doi:10.1109/TSMC.1979.4310076.
- Sauvola, J. ve Pietikainen, M. (2000). Adaptive document image binarization. Pattern Recognition 33(2), 225–236.
- Schreyer, M. (2009). Intelligent printing technique recognition and photocopy detection for Forensic document examination. In Proc. of Informatiktage 2009, volume S-8, pages 39-42,
- Schulze, C., Schreyer, M., Stahl, A. ve Breuel, T. M. (2008). Evaluation of graylevel-features for printing technique classification in high throughput document management systems. In Proc. of the 2nd Int. Workshop on Computational Forensics, volume 5158 of Lecture Notes in Computer Science, pages 35-46, Washington, DC, USA, August 2008.
- Schulze, C., Schreyer, M., Stahl, A. ve Breuel T. M. (2009). Using DCT features for printing technique and copy detection. In Proc. of the 5thInt. Conf. on Digital Forensics, pages 95-106, Orlando, FL, USA, January 2009
- Sönmez, F., Kaynar, O. ve Takaoğlu F. (2018). İdeal Steganografi Senaryosu: Taşıyıcı Resimlerin Kapasitelerinin Hesaplanması, Frekans Tabanlı Steganografide OPA Yöntemi. [Ideal Steganography Scenario: Calculation of Capacities of Carrier Images, OPA Method in Frequency-Based Steganography] ACTA INFOLOGICA, 2018; 2(1): 12-21.
- Takaoğlu, F. (2016). DWT ve DCT Steganografide Performans Analizi [Performance Analysis in DWT and DCT Steganography](Yüksek Lisans Tezi).
Öz
Nowadays, with the rapid development of technology,
color laser printers, scanner, and imaging devices have become ubiquitous
devices in our daily use. Distributed system architectures and logic are
becoming increasingly popular. The products that we buy through printers,
scanners, and similar devices in our common use area are marked by physical
steganography method to follow the illegal activities. These markings are not
known by most of society. This data hiding method, which was processed as
yellow dots, was discussed in our study, and information about the subject was
shared.
Anahtar Kelimeler
Yellow Dot Analysis; Counterfeit Protection System; Machine Identification Code; Printer Steganography;
Kaynakça
- Ali, G.N., Mikkilineni, A. K., Chiang, P. J., Allebach, J. P., Chiu, G. T. ve Delp E. J. (2003). Intrinsic and Ectrinsic Signatures for Information Hiding and Secure Printing with Electrophotographic Devices. Conference: NIP19: International Conference on Digital Printing Technologies.
- Beusekom, J., Schreyer, M. ve Breuel T. M. (2010). Automatic counterfeit protection system code classification, Proc. SPIE 7541, Media Forensics and Security II, 75410F (27 January 2010); doi: 10.1117/12.840253; https://doi.org/10.1117/12.840253
- Beusekom J., Shafait F. ve Breuel T. M. (2013). Automatic Authentication of Color Laser Print-Outs Using Machine Identification Codes. Pattern Analysis and Applications, November 2013, Volume 16, Issue 4, pp 663–678.
- Buck, P. (2018). Reverse Engineering the Machine Identification Code. 10.13140/RG.2.2.28980.76169.
- Jiang, W., Ho, A. T. S., Treharne, H. ve Shi. Y. Q. (2010) A novel multi-size block benford’s law scheme for printer identification. PCM'10 Proceedings of the 11th Pacific Rim conference on Advances in multimedia information processing: Part I Pages 643-652 Shanghai, China September 21 - 24, 2010
- Khanna, N., Mikkilineni, A. K., Chiu, G. T. C., Allebach, J. P. ve Delp, E. J. (2008). Survey of Scanner and Printer Forensics at Purdue University. IWCF 2008 LNCS 5158 pp.22-34.
- Mikkilineni, A. K., Chiang, P. J., Ali, G. N., Chiu, G. T. C., Allebach, J. P. ve Delp III, E. J. (2005). Printer identification based on graylevel co-occurrence features for security and forensic applications, Proc. SPIE 5681, Security, Steganography, and Watermarking of Multimedia Contents VII, (21 March 2005)
- Otsu, N. (1979). A threshold selection method from gray-level histograms. IEEE Trans. Sys., Man., Cyber. 9 (1): 62–66. doi:10.1109/TSMC.1979.4310076.
- Sauvola, J. ve Pietikainen, M. (2000). Adaptive document image binarization. Pattern Recognition 33(2), 225–236.
- Schreyer, M. (2009). Intelligent printing technique recognition and photocopy detection for Forensic document examination. In Proc. of Informatiktage 2009, volume S-8, pages 39-42,
- Schulze, C., Schreyer, M., Stahl, A. ve Breuel, T. M. (2008). Evaluation of graylevel-features for printing technique classification in high throughput document management systems. In Proc. of the 2nd Int. Workshop on Computational Forensics, volume 5158 of Lecture Notes in Computer Science, pages 35-46, Washington, DC, USA, August 2008.
- Schulze, C., Schreyer, M., Stahl, A. ve Breuel T. M. (2009). Using DCT features for printing technique and copy detection. In Proc. of the 5thInt. Conf. on Digital Forensics, pages 95-106, Orlando, FL, USA, January 2009
- Sönmez, F., Kaynar, O. ve Takaoğlu F. (2018). İdeal Steganografi Senaryosu: Taşıyıcı Resimlerin Kapasitelerinin Hesaplanması, Frekans Tabanlı Steganografide OPA Yöntemi. [Ideal Steganography Scenario: Calculation of Capacities of Carrier Images, OPA Method in Frequency-Based Steganography] ACTA INFOLOGICA, 2018; 2(1): 12-21.
- Takaoğlu, F. (2016). DWT ve DCT Steganografide Performans Analizi [Performance Analysis in DWT and DCT Steganography](Yüksek Lisans Tezi).
Ayrıntılar
| Birincil Dil | Türkçe |
|---|---|
| Konular | Yazılım Testi, Doğrulama ve Validasyon |
| Bölüm | Derlemeler |
| Yazarlar | |
| Yayımlanma Tarihi | 28 Haziran 2019 |
| Yayımlandığı Sayı | Yıl 2019 Cilt: 1 Sayı: 1 |