Robust Watermarking(强大的水印)研究综述
Robust Watermarking 强大的水印 - This work presents a robust watermarking technique in hybrid domain for the copyright claim of medical images. [1] This paper proposes a joint encryption and screen-cam robust watermarking scheme. [2] The robust watermarking method embeds the information in the image to protect the copyright. [3] Motivated by importance of such critical issue, we propose a robust watermarking method in the DWT-SVD-optimization domain. [4] In general terms, robust watermarking conceals a small signal called a “watermark” in a host image in a form imperceptible to human vision. [5] In this paper, we present a robust watermarking scheme for embedding textual information such as GPS coordinates in images shared via social media either in default mode or as the owner intends. [6] Robust watermarking schemes are popularly applied techniques to solve these problems. [7] In order to realize the copyright protection and proof of ownership of the digital multimedia products, this paper proposes an adaptive robust watermarking algorithm based on DCT and SVD in Curvelet domain. [8] Cover-lossless robust watermarking is a new research issue in the information hiding community, which can restore the cover image completely in case of no attacks. [9] The main objective of this paper is to maintain perceptivity of digital video and design a robust watermarking algorithm and maintaining the tradeoff between robustness and perceptivity. [10] In this paper, we propose an optimized and robust watermarking algorithm coupled with a 4D hyperchaotic system, and its performance is analyzed by extending and differentiating the existing work. [11] This paper presents key paradigms of research in robust watermarking techniques for copyright protection, copy protection, and authentication of digital multimedia. [12] In this paper, an efficient solution for robust watermarking against geometrical attacks with medical images is proposed. [13] In this paper, we propose a lossless robust watermarking method by using the polar harmonic transform with reversible and robust watermarking techniques. [14] This paper presents a watermarking scheme for grayscale images, in which lifting wavelet transform and singular value decomposition are exploited based on multi-objective artificial bee colony optimization to produce a robust watermarking method. [15] This paper proposes a robust watermarking algorithm based on dual watermarking and robust affine transformation. [16] Secondly in RONI, Robust watermarking is done, so that it can withstand various intentional and unintentional attacks. [17] This paper presents an invisible and robust watermarking method and its hardware implementation. [18] In order to contribute to the security of medical image, we present in this paper a blind and robust watermarking technique that allows the integration of the electronic patient’s record into retinal images. [19] This paper proposes a dual security robust watermarking (DSRW) method based on a hybrid optimization algorithm for image protection in the DWT domain used in the IoT perceptive layer. [20] To overcome this problem, a robust watermarking technique using a chaotic kbest gravitational search algorithm (CKGSA) in DCT and SVD domain is proposed. [21] To maximize the GPCET utilization in robust watermarking, this paper proposes a secondary grid-division (SGD)-based moment calculation method that divides each grid corresponding to one pixel into nonoverlapping subgrids and increases the number of sampling points. [22] In this context, we invite researchers to contribute original research articles as well as highly review articles that will seek the continuing efforts to understand the concept of digital image watermarking techniques that lead to future improvements for providing reliable secure robust watermarking protocol. [23] , resizing and compression, conducted by OSN platforms impose great challenges for designing a robust watermarking scheme over OSN shared images. [24] In this paper, we propose KeyNet, a novel watermarking framework that satisfies the main requirements for an effective and robust watermarking. [25] This paper represents the robust watermarking approach using Paillier homomorphic cryptosystem with Arnold transformation. [26] In order to contribute to the security of medical image, we present in this paper a blind and robust watermarking technique that allows the integration of the electronic patient’s record into a computerized tomography scan. [27] Robust watermarking is a valuable methodology used in protecting the copyright and securing digital images. [28] There is a need for a deep investigation of the robust watermarking based normalization technique to guarantee achieving the robustness against geometric attacks while conserving the image quality. [29] After experiencing possible attacks, the QR codes may fail to be accessed, and we propose the scheme to conceal the first QR code for robust watermarking. [30] We propose a robust watermarking for protecting the copyright of video game artwork. [31] This paper presents a novel robust watermarking method founded on Curvelet Transform to recover the ROI in medical image in case it is altered. [32] In addition, the robust watermarking capacity in SVD is doubled by inserting two robust watermark bits into each selected blocks and the robust watermark can be extracted blindly. [33] Later chapters focus specifically on hardware-assisted IP security in consumer electronics, with coverage including essential topics such as hardware Trojan security, robust watermarking, fingerprinting, structural and functional obfuscation, encryption, IoT security, forensic engineering based protection, JPEG obfuscation design, hardware assisted media protection, PUF and side-channel attack resistance. [34] The primary purpose of the proposed system is to introduce a cost-effective and robust watermarking scheme that can survive under various image processing attacks and protect the digital content embedded with it. [35] The proposed schemes can be used to carry out robust watermarking for intellectual property protection as well as fragile watermarking for tamper detection and signal recovery. [36] This paper advances the game-theoretic approaches to design a robust watermarking scheme for embedding watermark in an image in discrete wavelet transform (DWT) domain. [37] Besides, the method outperforms the recent robust watermarking methods notably for recapturing and post-processed with signal processing operations and de-synchronization attacks. [38] This research paper focuses on developing a robust watermarking scheme. [39] In this paper, a simple and robust watermarking algorithm is presented by using the first, second, third and the fourth Least Significant Bits (LSBs). [40] A robust watermarking method depending on Quaternion Hadamard Transform (QHT) and QR decomposition is proposed. [41] For authentication and copyright protection of handwritten document images, a dual watermarking algorithm that connects the robust watermarking algorithm based on Krawtchouk moments with a fragile watermarking algorithm based on MD5 hash function is presented. [42] In this context, the watermarking is addressing broadly into two application areas such as copyright protection using robust watermarking and to detect illegal content manipulation through fragile watermarking approach. [43] The robust watermarking scheme has very broad application scenarios. [44] This paper presents a block-based secure and robust watermarking technique for color images based on multi-resolution decomposition and de-correlation. [45] Hence, it is a robust watermarking algorithm for embedding secret logos into 3D objects with better visual quality and higher resilience against translation and uniform scaling attacks. [46] In this paper a robust watermarking method operating in the wavelet domain for grayscale digital images is developed. [47] A robust watermarking technique using Singular Value Decomposition (SVD) for embedding the secret logo in the transform domain coefficients is presented. [48] In this work, both robust watermarking and Fragile Steganography were combined with image search features to design a medical image retrieval system that incorporates ROI integrity verification. [49] This paper presents lifting wavelet transform (LWT) and discrete cosine transform (DCT) based robust watermarking approach for tele-health applications. [50]这项工作为医学图像的版权主张提出了一种混合域中的强大水印技术。 [1] 本文提出了一种联合加密和screen-cam鲁棒水印方案。 [2] 鲁棒水印方法将信息嵌入图像中以保护版权。 [3] 受此类关键问题重要性的启发,我们在 DWT-SVD 优化领域提出了一种鲁棒的水印方法。 [4] 一般而言,鲁棒水印以人类视觉无法察觉的形式在宿主图像中隐藏称为“水印”的小信号。 [5] 在本文中,我们提出了一种强大的水印方案,用于在默认模式下或所有者想要的方式下将文本信息(例如 GPS 坐标)嵌入通过社交媒体共享的图像中。 [6] 鲁棒水印方案是解决这些问题的常用技术。 [7] 为实现数字多媒体产品的版权保护和权属证明,提出一种基于DCT和SVD的Curvelet域自适应鲁棒水印算法。 [8] Cover-lossless鲁棒水印是信息隐藏界的一个新研究课题,它可以在不受攻击的情况下完全恢复封面图像。 [9] 本文的主要目的是保持数字视频的感知能力,设计一种鲁棒的水印算法,并保持鲁棒性和感知能力之间的权衡。 [10] 在本文中,我们提出了一种与 4D 超混沌系统相结合的优化且鲁棒的水印算法,并通过扩展和区分现有工作来分析其性能。 [11] 本文介绍了用于版权保护、复制保护和数字多媒体认证的稳健水印技术研究的关键范例。 [12] 在本文中,提出了一种针对医学图像几何攻击的鲁棒水印的有效解决方案。 [13] 在本文中,我们提出了一种无损鲁棒水印方法,该方法使用极性谐波变换和可逆和鲁棒水印技术。 [14] 本文提出了一种灰度图像水印方案,在多目标人工蜂群优化的基础上,利用提升小波变换和奇异值分解来产生一种鲁棒的水印方法。 [15] 本文提出了一种基于双重水印和鲁棒仿射变换的鲁棒水印算法。 [16] 其次在RONI中,做了Robust watermarking,使其能够抵御各种有意无意的攻击。 [17] 本文提出了一种不可见且鲁棒的水印方法及其硬件实现。 [18] 为了提高医学图像的安全性,我们在本文中提出了一种盲目且强大的水印技术,该技术允许将电子患者的记录集成到视网膜图像中。 [19] 本文提出了一种基于混合优化算法的双重安全鲁棒水印(DSRW)方法,用于物联网感知层中使用的DWT域中的图像保护。 [20] 为了克服这个问题,提出了一种在DCT和SVD域中使用混沌kbest重力搜索算法(CKGSA)的鲁棒水印技术。 [21] 为了最大化 GPCET 在鲁棒水印中的利用,本文提出了一种基于二次网格划分 (SGD) 的矩计算方法,该方法将每个像素对应的网格划分为不重叠的子网格并增加采样点的数量。 [22] 在这种情况下,我们邀请研究人员提供原创研究文章和高度评论文章,这些文章将寻求继续努力理解数字图像水印技术的概念,从而在未来改进以提供可靠、安全、健壮的水印协议。 [23] ,由 OSN 平台进行的调整大小和压缩对在 OSN 共享图像上设计稳健的水印方案提出了巨大挑战。 [24] 在本文中,我们提出了 KeyNet,这是一种新颖的水印框架,可满足有效且稳健的水印的主要要求。 [25] 本文介绍了使用具有 Arnold 变换的 Paillier 同态密码系统的鲁棒水印方法。 [26] 为了提高医学图像的安全性,我们在本文中提出了一种盲目且强大的水印技术,该技术允许将电子患者的记录集成到计算机断层扫描中。 [27] 强大的水印是一种用于保护版权和保护数字图像的有价值的方法。 [28] 需要对基于鲁棒水印的归一化技术进行深入研究,以保证在保持图像质量的同时实现对几何攻击的鲁棒性。 [29] 在经历可能的攻击后,二维码可能无法访问,我们提出了隐藏第一个二维码的方案,以实现鲁棒水印。 [30] 我们提出了一种强大的水印来保护视频游戏艺术品的版权。 [31] 本文提出了一种基于 Curvelet 变换的新型鲁棒水印方法,用于在医学图像中的 ROI 被改变的情况下恢复它。 [32] 此外,通过在每个选定的块中插入两个鲁棒水印位,SVD中的鲁棒水印容量加倍,并且可以盲目地提取鲁棒水印。 [33] nan [34] nan [35] nan [36] nan [37] nan [38] nan [39] nan [40] nan [41] nan [42] nan [43] nan [44] nan [45] nan [46] nan [47] nan [48] nan [49] nan [50]
Lossles Robust Watermarking
Cover-lossless robust watermarking is a new research issue in the information hiding community, which can restore the cover image completely in case of no attacks. [1] In this paper, we propose a lossless robust watermarking method by using the polar harmonic transform with reversible and robust watermarking techniques. [2]Cover-lossless鲁棒水印是信息隐藏界的一个新研究课题,它可以在不受攻击的情况下完全恢复封面图像。 [1] 在本文中,我们提出了一种无损鲁棒水印方法,该方法使用极性谐波变换和可逆和鲁棒水印技术。 [2]
robust watermarking scheme
This paper proposes a joint encryption and screen-cam robust watermarking scheme. [1] In this paper, we present a robust watermarking scheme for embedding textual information such as GPS coordinates in images shared via social media either in default mode or as the owner intends. [2] Robust watermarking schemes are popularly applied techniques to solve these problems. [3] , resizing and compression, conducted by OSN platforms impose great challenges for designing a robust watermarking scheme over OSN shared images. [4] The primary purpose of the proposed system is to introduce a cost-effective and robust watermarking scheme that can survive under various image processing attacks and protect the digital content embedded with it. [5] This paper advances the game-theoretic approaches to design a robust watermarking scheme for embedding watermark in an image in discrete wavelet transform (DWT) domain. [6] This research paper focuses on developing a robust watermarking scheme. [7] The robust watermarking scheme has very broad application scenarios. [8] To simultaneously provide image content protection and copyright protection, in this paper, we provide a robust watermarking scheme for encrypted JPEG bitstreams. [9] Main idea of this work is the proposition of a robust watermarking scheme applied in the medical domain. [10] To protect the ownership, a blind and robust watermarking scheme is devised by the coefficients of the discrete cosine transform. [11]本文提出了一种联合加密和screen-cam鲁棒水印方案。 [1] 在本文中,我们提出了一种强大的水印方案,用于在默认模式下或所有者想要的方式下将文本信息(例如 GPS 坐标)嵌入通过社交媒体共享的图像中。 [2] 鲁棒水印方案是解决这些问题的常用技术。 [3] ,由 OSN 平台进行的调整大小和压缩对在 OSN 共享图像上设计稳健的水印方案提出了巨大挑战。 [4] nan [5] nan [6] nan [7] nan [8] nan [9] nan [10] nan [11]
robust watermarking method
The robust watermarking method embeds the information in the image to protect the copyright. [1] Motivated by importance of such critical issue, we propose a robust watermarking method in the DWT-SVD-optimization domain. [2] In this paper, we propose a lossless robust watermarking method by using the polar harmonic transform with reversible and robust watermarking techniques. [3] This paper presents a watermarking scheme for grayscale images, in which lifting wavelet transform and singular value decomposition are exploited based on multi-objective artificial bee colony optimization to produce a robust watermarking method. [4] This paper presents an invisible and robust watermarking method and its hardware implementation. [5] This paper presents a novel robust watermarking method founded on Curvelet Transform to recover the ROI in medical image in case it is altered. [6] Besides, the method outperforms the recent robust watermarking methods notably for recapturing and post-processed with signal processing operations and de-synchronization attacks. [7] A robust watermarking method depending on Quaternion Hadamard Transform (QHT) and QR decomposition is proposed. [8] In this paper a robust watermarking method operating in the wavelet domain for grayscale digital images is developed. [9] In this paper, an invisible and robust watermarking method dedicated to anaglyph 3D videos is proposed. [10]鲁棒水印方法将信息嵌入图像中以保护版权。 [1] 受此类关键问题重要性的启发,我们在 DWT-SVD 优化领域提出了一种鲁棒的水印方法。 [2] 在本文中,我们提出了一种无损鲁棒水印方法,该方法使用极性谐波变换和可逆和鲁棒水印技术。 [3] 本文提出了一种灰度图像水印方案,在多目标人工蜂群优化的基础上,利用提升小波变换和奇异值分解来产生一种鲁棒的水印方法。 [4] 本文提出了一种不可见且鲁棒的水印方法及其硬件实现。 [5] 本文提出了一种基于 Curvelet 变换的新型鲁棒水印方法,用于在医学图像中的 ROI 被改变的情况下恢复它。 [6] nan [7] nan [8] nan [9] nan [10]
robust watermarking algorithm
In order to realize the copyright protection and proof of ownership of the digital multimedia products, this paper proposes an adaptive robust watermarking algorithm based on DCT and SVD in Curvelet domain. [1] The main objective of this paper is to maintain perceptivity of digital video and design a robust watermarking algorithm and maintaining the tradeoff between robustness and perceptivity. [2] In this paper, we propose an optimized and robust watermarking algorithm coupled with a 4D hyperchaotic system, and its performance is analyzed by extending and differentiating the existing work. [3] This paper proposes a robust watermarking algorithm based on dual watermarking and robust affine transformation. [4] In this paper, a simple and robust watermarking algorithm is presented by using the first, second, third and the fourth Least Significant Bits (LSBs). [5] For authentication and copyright protection of handwritten document images, a dual watermarking algorithm that connects the robust watermarking algorithm based on Krawtchouk moments with a fragile watermarking algorithm based on MD5 hash function is presented. [6] Hence, it is a robust watermarking algorithm for embedding secret logos into 3D objects with better visual quality and higher resilience against translation and uniform scaling attacks. [7] transmitted on the Internet, a robust watermarking algorithm for medical images based on fast discrete curvelet transform (FDCT) and perceptual hash is proposed. [8]为实现数字多媒体产品的版权保护和权属证明,提出一种基于DCT和SVD的Curvelet域自适应鲁棒水印算法。 [1] 本文的主要目的是保持数字视频的感知能力,设计一种鲁棒的水印算法,并保持鲁棒性和感知能力之间的权衡。 [2] 在本文中,我们提出了一种与 4D 超混沌系统相结合的优化且鲁棒的水印算法,并通过扩展和区分现有工作来分析其性能。 [3] 本文提出了一种基于双重水印和鲁棒仿射变换的鲁棒水印算法。 [4] nan [5] nan [6] nan [7] nan [8]
robust watermarking technique
This work presents a robust watermarking technique in hybrid domain for the copyright claim of medical images. [1] This paper presents key paradigms of research in robust watermarking techniques for copyright protection, copy protection, and authentication of digital multimedia. [2] In order to contribute to the security of medical image, we present in this paper a blind and robust watermarking technique that allows the integration of the electronic patient’s record into retinal images. [3] To overcome this problem, a robust watermarking technique using a chaotic kbest gravitational search algorithm (CKGSA) in DCT and SVD domain is proposed. [4] In order to contribute to the security of medical image, we present in this paper a blind and robust watermarking technique that allows the integration of the electronic patient’s record into a computerized tomography scan. [5] This paper presents a block-based secure and robust watermarking technique for color images based on multi-resolution decomposition and de-correlation. [6] A robust watermarking technique using Singular Value Decomposition (SVD) for embedding the secret logo in the transform domain coefficients is presented. [7] The prime objective of this manuscript is to reveal the research problem and the efficient requirement to implement robust watermarking technique after analyzing the progress of watermarking schemes and current research trend. [8]这项工作为医学图像的版权主张提出了一种混合域中的强大水印技术。 [1] 本文介绍了用于版权保护、复制保护和数字多媒体认证的稳健水印技术研究的关键范例。 [2] 为了提高医学图像的安全性,我们在本文中提出了一种盲目且强大的水印技术,该技术允许将电子患者的记录集成到视网膜图像中。 [3] 为了克服这个问题,提出了一种在DCT和SVD域中使用混沌kbest重力搜索算法(CKGSA)的鲁棒水印技术。 [4] 为了提高医学图像的安全性,我们在本文中提出了一种盲目且强大的水印技术,该技术允许将电子患者的记录集成到计算机断层扫描中。 [5] nan [6] nan [7] nan [8]
robust watermarking approach
This paper represents the robust watermarking approach using Paillier homomorphic cryptosystem with Arnold transformation. [1] This paper presents lifting wavelet transform (LWT) and discrete cosine transform (DCT) based robust watermarking approach for tele-health applications. [2] Robust watermarking approach is helpful for proving the intellectual ownership property rights. [3] Besides, by comparing with other DWT-SVD robust watermarking approaches, proposed scheme significantly outperforms in robustness against JPEG2000 compression. [4]本文介绍了使用具有 Arnold 变换的 Paillier 同态密码系统的鲁棒水印方法。 [1] nan [2] nan [3] nan [4]