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題名 利用小波轉換及向量化編碼法之影像隱藏技術
作者 歐陽彥杰
黃育銓
關鍵詞 Data Hiding Vector Quantization Discrete Wavelet Transform Least Significant Bit
日期 2005
上傳時間 17-十月-2017 17:06:40 (UTC+8)
摘要 本文主要探討三種大小相同之灰階影像,機密影像(Secret Image)、掩護影像(Cover-Image)、及偽裝影像(Stego-Image)。本文主要目的是希望能夠將一張機密影像隱藏至一張掩護影像後產生一張所謂偽裝影像,偽裝影像與掩護影像幾近相同,因此機密影像於網路上傳遞將不易被察覺甚至破壞。即使,一旦掩護影像被有心人士竄改、壓縮、或裁切破壞等,依據本文之技術仍可以取出機密影像。在我們所提出之資料隱藏(Data-hiding)技術裏,首先為了提高隱藏的資料量,機密影像會先經過PNN、LBG、及編碼簿(Codebook)排序等向量編碼(Vector Quantization)方法做資料壓縮。接者,為了增強抗壓縮之強韌性,掩護影像會先經過三階之離散小波轉換(Discrete Wavelet Transform)後,再將索引值隱藏在小波係數裏。最後,再經由反離散小波轉換(Inverse Discrete Wavelet Transform)後產生一張具有強韌性的偽裝影像。我們所重建的機密影像當JPEG壓縮品質在百分之十五以下的壓縮率,其影像品質完全不受影響,甚至在百分之五十的壓縮率,其影像仍可清晰辨識。
This work primarily explores three grey-level images of the same size 256×256 pixels, the secret image, the cover-image, and the stego-image. We embed a secret image into a cover-image to constitute a so-called stego-image such that the stego-image is visually indistinguishable from the original cover-image. Hence, the interceptors will not notice the existence of secret data in the stego-image. Furthermore, through our proposed data hiding scheme, the secret image still can be extracted from the stego-image even when the stego-image was attached or modified by popular image processing techniques, such as cropping and image compression.
In our proposed scheme, first, in order to increase the hiding capacity, the secret image was compressed by those techniques of vector quantization. To enhance the robust property JPEG against compression attack , the indices were embedded into the lower band through three-level discrete wavelet transform. Finally, a robust stego-image can be retrieved through the processing of inverse discrete wavelet transform. The experimental results. Show that the reconstructed secret image can keep its original quality against JPEG compression at the compression ratio of 11% and is still be recognizable at the compression ratio of 50%.
全文: 01
關聯 TANET 2005 台灣網際網路研討會論文集
資訊安全技術
資料類型 conference
dc.creator (作者) 歐陽彥杰zh_TW
dc.creator (作者) 黃育銓zh_TW
dc.date (日期) 2005
dc.date.accessioned 17-十月-2017 17:06:40 (UTC+8)-
dc.date.available 17-十月-2017 17:06:40 (UTC+8)-
dc.date.issued (上傳時間) 17-十月-2017 17:06:40 (UTC+8)-
dc.identifier.uri (URI) http://nccur.lib.nccu.edu.tw/handle/140.119/113742-
dc.description.abstract (摘要) 本文主要探討三種大小相同之灰階影像,機密影像(Secret Image)、掩護影像(Cover-Image)、及偽裝影像(Stego-Image)。本文主要目的是希望能夠將一張機密影像隱藏至一張掩護影像後產生一張所謂偽裝影像,偽裝影像與掩護影像幾近相同,因此機密影像於網路上傳遞將不易被察覺甚至破壞。即使,一旦掩護影像被有心人士竄改、壓縮、或裁切破壞等,依據本文之技術仍可以取出機密影像。在我們所提出之資料隱藏(Data-hiding)技術裏,首先為了提高隱藏的資料量,機密影像會先經過PNN、LBG、及編碼簿(Codebook)排序等向量編碼(Vector Quantization)方法做資料壓縮。接者,為了增強抗壓縮之強韌性,掩護影像會先經過三階之離散小波轉換(Discrete Wavelet Transform)後,再將索引值隱藏在小波係數裏。最後,再經由反離散小波轉換(Inverse Discrete Wavelet Transform)後產生一張具有強韌性的偽裝影像。我們所重建的機密影像當JPEG壓縮品質在百分之十五以下的壓縮率,其影像品質完全不受影響,甚至在百分之五十的壓縮率,其影像仍可清晰辨識。
dc.description.abstract (摘要) This work primarily explores three grey-level images of the same size 256×256 pixels, the secret image, the cover-image, and the stego-image. We embed a secret image into a cover-image to constitute a so-called stego-image such that the stego-image is visually indistinguishable from the original cover-image. Hence, the interceptors will not notice the existence of secret data in the stego-image. Furthermore, through our proposed data hiding scheme, the secret image still can be extracted from the stego-image even when the stego-image was attached or modified by popular image processing techniques, such as cropping and image compression.
In our proposed scheme, first, in order to increase the hiding capacity, the secret image was compressed by those techniques of vector quantization. To enhance the robust property JPEG against compression attack , the indices were embedded into the lower band through three-level discrete wavelet transform. Finally, a robust stego-image can be retrieved through the processing of inverse discrete wavelet transform. The experimental results. Show that the reconstructed secret image can keep its original quality against JPEG compression at the compression ratio of 11% and is still be recognizable at the compression ratio of 50%.
全文: 01
dc.format.extent 1410344 bytes-
dc.format.mimetype application/pdf-
dc.relation (關聯) TANET 2005 台灣網際網路研討會論文集zh_TW
dc.relation (關聯) 資訊安全技術zh_TW
dc.subject (關鍵詞) Data Hiding Vector Quantization Discrete Wavelet Transform Least Significant Biten_US
dc.title (題名) 利用小波轉換及向量化編碼法之影像隱藏技術zh-TW
dc.type (資料類型) conference