• Title/Summary/Keyword: Random Phase Mask

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Key Phase Mask Updating Scheme with Spatial Light Modulator for Secure Double Random Phase Encryption

  • Kwon, Seok-Chul;Lee, In-Ho
    • Journal of information and communication convergence engineering
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    • v.13 no.4
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    • pp.280-285
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    • 2015
  • Double random phase encryption (DRPE) is one of the well-known optical encryption techniques, and many techniques with DRPE have been developed for information security. However, most of these techniques may not solve the fundamental security problem caused by using fixed phase masks for DRPE. Therefore, in this paper, we propose a key phase mask updating scheme for DRPE to improve its security, where a spatial light modulator (SLM) is used to implement key phase mask updating. In the proposed scheme, updated key data are obtained by using previous image data and the first phase mask used in encryption. The SLM with the updated key is used as the second phase mask for encryption. We provide a detailed description of the method of encryption and decryption for a DRPE system using the proposed key updating scheme, and simulation results are also shown to verify that the proposed key updating scheme can enhance the security of the original DRPE.

Double Encryption of Binary Image using a Random Phase Mask and Two-step Phase-shifting Digital Holography (랜덤 위상 마스크와 2-단계 위상 천이 디지털 홀로그래피를 이용한 이진 영상 이중 암호화)

  • Kim, Cheolsu
    • Journal of Korea Multimedia Society
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    • v.19 no.6
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    • pp.1043-1051
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    • 2016
  • In this paper, double encryption technique of binary image using random phase mask and 2-step phase-shifting digital holography is proposed. After phase modulating of binary image, firstly, random phase mask to be used as key image is generated through the XOR operation with the binary phase image. And the first encrypted image is encrypted again through the fresnel transform and 2-step phase-shifting digital holography. In the decryption, simple arithmetic operation and inverse Fresnel transform are used to get the first decryption image, and second decryption image is generated through XOR operation between first decryption image and key image. Finally, the original binary image is recovered through phase modulation.

Holographic storage of binary amplitude data patterns via their random phase modulation (이진진폭데이타 영상의 랜덤위상변조를 통한 홀로그래픽 저장)

  • 오용석;신동학;장주석
    • Proceedings of the Optical Society of Korea Conference
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    • 2001.02a
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    • pp.62-63
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    • 2001
  • We studied a method to use a variable discrete random phase mask in 2-D binary data representation for efficient holographic data storage. The variable phase mask is realized by use of a liquid crystal display.

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Characteristics of encryption in optical memory using random phase mask (랜덤 위상 마스크를 이용한 광 메모리에서의 암호화 특성)

  • Choi, Jin-San;Yang, Byung-Choon;Lee, Byoung-Ho
    • Proceedings of the KIEE Conference
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    • 1999.11d
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    • pp.1128-1130
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    • 1999
  • Optical encoding method of images using random-phase encoding in both input and Fourier Planes was proposed by Javidi and his group, and the method was realized experimentally by Singh and his group with use of a photorefractive crystal and a phase conjugate wave.[1-2] Recently various techniques have been proposed theorically and experimentally. These include the method using one random-phase mask in the Fourier plane or two random-phase masks in the input and the Fresnel planes.[3] We demonstrate the difference and the problem of the methods using one or two random-phase masks in the Fourier or Fresnel plane. We perform the encoding and decoding in $LiNbO_3$ crystal using degenerate four-wave mixing.

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Optical image encryption by use of double random phase mask and analysis of its encryption level (이중 임의 위상판을 이용한 광학상의 암호화 및 암호화 수준 분석)

  • 김병철;차성도;신승호
    • Korean Journal of Optics and Photonics
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    • v.13 no.1
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    • pp.79-83
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    • 2002
  • We present a method to improve encryption level by use of a rotational term in the double random-phase-mask(RPM) encryption system. Encrypted optical images are recorded in a photorefractive LiNbO$_3$:Fe crystal and reconstructed by using a phase conjugated reading beam. The encryption level for the analog image is analyzed by use of visibility function.

Holographic s forage of random-phase-modulation-added binary amplitude data (랜덤 위상변조가 가미된 이진 진폭 데이터 영상의 홀로그래픽 저장)

  • 오용석;신동학;장주석
    • Proceedings of the Korean Institute of Information and Commucation Sciences Conference
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    • 2001.05a
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    • pp.489-492
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    • 2001
  • We studied a method to use a variable discrete random phase mask in 2-D binary data representation for efficient holographic data storage. The variable phase mask is realized by use of a twisted nematic liquid crystal display.

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Image Security and Personal Identification using CGH and Phase Mask (CGH와 위상 마스크를 이용한 영상 보안 및 개인 인증)

  • 김종윤;박세준;김종찬;김철수;조웅호;김수중
    • Proceedings of the IEEK Conference
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    • 1999.06a
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    • pp.958-961
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    • 1999
  • A new image encoding and identification scheme is proposed for security verification by using CGH(computer generated hologram), random phase mask, and correlation technique. The encrypted image, which is attached to the security product, is made by multiplying QPH(quadratic phase hologram) using SA(simulated annealing) algorithm with a random phase function. The random phase function plays a role of key when the encrypted image is decrypted. The encrypted image could be optically recovered by 2-f system and automatically verified for personal identification. Simulation results show the proposed method cand be used for the reconstruction and the recognition of the encrypted. Image.

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The analysis of optical image encryption using random phase mask (임의 위상판에 의한 광학상 암호화의 분석)

  • 김병철;차성도;신승호
    • Proceedings of the Optical Society of Korea Conference
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    • 2001.02a
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    • pp.72-73
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    • 2001
  • 대용량 정보의 보안이 매우 중요해짐에 따라 활발히 진행 중인 광정보의 보안에 대한 연구 중에서 광학적 위상암호화는 많은 양의 정보를 한린에 암호화하고 해독할 수 있다(·:). 특히 Javidi 등이 제안한 Fresnal 영역 임의 위상판(random phase mask; RPM)을 이용한 암호화 방법은 3차원 위치 정보를 암호화 키로 사용한다. 이와 같은 암호화 방법에 회전에 의한 위상변화를 추가하면 암호화 수준을 높일 수 있다. (중략)

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Digital Holographic Security Identification System (디지털 홀로그래픽 보안 인증 시스템)

  • Kim, Jung-Hoi;Kim, Nam;Jeon, Seok-Hee
    • Journal of the Institute of Electronics Engineers of Korea SP
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    • v.41 no.2
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    • pp.89-98
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    • 2004
  • In this paper, we implement a digital holographic security card system that combines digital holographic memory using random phase encoded reference beams with electrical biometrics. Digitally encoded data including a document, a picture of face, and a fingerprint are recorded by multiplexing of holographic memory. A random phase mask encoding reference beams are used as a decoded key to protect illegal counterfeit. As a result, we can achieve a raw BER of 3.6${\times}$10-4 and shift selectivity of 4${\mu}{\textrm}{m}$ using the 2D random phase mask. Also, we develop a recording pattern and image processing which are suitable for a low cost reader without a position sensing photo-detector for real time data extraction and remove danger of fraud from unauthorized person by comparing the reconstructed holographic data with the live fingerprint data.

Optical Encryption using a Random Phase Image and Shift Position in Joint Transform Correlation Plane (결합 변환 상관 평면의 이동 변위와 무작위 위상 영상을 이용한 광 암호화 시스템)

  • Shin, Chang-Mok;Lee, Woo-Hyuk;Cho, Kyu-Bo;Kim, Soo-Joong;Seo, Dong-Hoan;Lee, Sung-Geun
    • Korean Journal of Optics and Photonics
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    • v.17 no.3
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    • pp.248-255
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    • 2006
  • Most optical security systems use a 4-f correlator, Mach-Zehnder interferometer, or a joint transform correlator(JTC). Of them, the JTC does not require an accurate optical alignment and has a good potential for real-time processing. In this paper, we propose an image encryption system using a position shift property of the JTC in the Fourier domain and a random phase image. Our encryption system uses two keys: one key is a random phase mask and the other key is a position shift factor. By using two keys, the proposed method can increase the security level of the encryption system. An encrypted image is produced by the Fourier transform for the multiplication image, which resulted from adding position shift functions to an original image, with a random phase mask. The random phase mask and position shift value are used as keys in decryption, simultaneously. For the decryption, both the encrypted image and the key image should be correctly located on the JTC. If the incorrect position shift value or the incorrect key image is used in decryption, the original information can not be obtained. To demonstrate the efficiency of the proposed system, computer simulation is performed. By analyzing the simulation results in the case of blocking of the encrypted image and affecting of the phase noise, we confirmed that the proposed method has a good tolerance to data loss. These results show that our system is very useful for the optical certification system.