ROI-based reversible watermarking scheme for ensuring the integrity and authenticity of DICOM MR images

Qasim, Asaad F.; Aspin, Rob; Meziane, Farid; Hogg, Peter

doi:10.1007/s11042-018-7029-7

Cited by 28 publications

(13 citation statements)

References 47 publications

(85 reference statements)

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“…images and related data). DICOM is the backbone of all medical imaging sections, whereby it is most widely used to store and transmit medical images that allow multiple manufacturers to incorporate medical imaging devices like workstations, servers, printer, scanners, network hardware, and PACS systems (12,13).…”

Section: Medical Image Domainmentioning

confidence: 99%

“…Furthermore, clinicians can make decisions and produce patients' reports more easily. Nevertheless, there are no security mechanisms that protect the confidentiality of metadata or image authenticity as it is easy to remove, change, or otherwise disconnect the metadata (12,20). The next section will discuss the most important challenges faced by telemedicine, especially in the field of information security for medical images.…”

Section: Open Accessmentioning

confidence: 99%

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A Comprehensive Review on Medical Image Steganography Based on LSB Technique and Potential Challenges

2021

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The rapid development of telemedicine services and the requirements for exchanging medical information between physicians, consultants, and health institutions have made the protection of patients’ information an important priority for any future e-health system. The protection of medical information, including the cover (i.e. medical image), has a specificity that slightly differs from the requirements for protecting other information. It is necessary to preserve the cover greatly due to its importance on the reception side as medical staff use this information to provide a diagnosis to save a patient's life. If the cover is tampered with, this leads to failure in achieving the goal of telemedicine. Therefore, this work provides an investigation of information security techniques in medical imaging, focusing on security goals. Encrypting a message before hiding them gives an extra layer of security, and thus, will provide an excellent solution to protect the sensitive information of patients during the sharing of medical information. Medical image steganography is a special case of image steganography, while Digital Imaging and Communications in Medicine (DICOM) is the backbone of all medical imaging divisions, whereby it is most broadly used to store and transmit medical images. The main objective of this study is to provide a general idea of what Least Significant Bit-based (LSB) steganography techniques have achieved in medical images.

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Section: Medical Image Domainmentioning

confidence: 99%

Section: Open Accessmentioning

confidence: 99%

A Comprehensive Review on Medical Image Steganography Based on LSB Technique and Potential Challenges

2021

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“…We have proposed a novel reversible watermarking technique to verify the authenticity and integrity of medical images to ensure that manipulations can be revealed and tracked [11]. The exact original images can be retrieved after extracting the watermark successfully.…”

Section: Design and Evaluation Requiremnentsmentioning

confidence: 99%

Integration of Digital Watermarking Technique into Medical Imaging Systems

Qasim

Aspin

Meziane

2019

2019 10th International Conference on Dependable Systems, Services and Technologies (DESSERT)

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This paper presents the process of integrating digital watermarking technique into medical imaging workflow to evaluate, validate and verify its applicability and appropriateness to medical domains. This is significant to ensure the ability of the proposed approach to tackle security threats that may face medical images during routine medical practices. This work considers two key objectives within the aim of defining a secure and practical digital medical imaging system: current medical digital workflows are deeply analyzed to define security limitations in Picture Archiving and Communication Systems (PACS) of medical imaging; the proposed watermarking approach is then theoretically tested and validated in its ability to operate in a real-world scenario (e.g. PACS). These have been undertaken through identified case studies related to manipulations of medical images within PACS workflow during acquisition, viewing, exchanging and archiving. This work assures the achievement of the identified particular requirements of digital watermarking when applied to digital medical images and also provides robust controls within medical imaging pipelines to detect modifications that may be applied to medical images during viewing, storing and transmitting.

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“…Various methods of hiding information such as digital image watermarking, cryptography, steganography are in common practice to resolve the issues of copyright and secrecy of medical images and patients" diagnostic as well as personal information. Among these techniques, digital image watermarking [6][7][8][9][10] has attracted the attention of researchers because it has a lot of characteristics that can help to resolve the issues of copyright protection and security of medical information.…”

Section: Introductionmentioning

confidence: 99%

Blind and Robust Watermarking Scheme in Hybrid Domain for Copyright Protection of Medical Images

Alzahrani

Memon

2021

IEEE Access

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This work presents a robust watermarking technique in hybrid domain for the copyright claim of medical images. The scheme is a fusion of three popular transforms: Discrete Wavelet Transform (DWT), Discrete Cosine Transform (DCT) and Singular Value Decomposition (SVD). The input image is first separated into region of interest (ROI) and region of non-interest (RONI). The DWT is applied on RONI to get low and high frequency bands. The low frequency band is then segmented into 4  4 blocks. The Human Visual System (HVS) is applied to select the potential blocks for implanting watermark content. Each 4  4 selected block is further subdivided into four 2  2 carrier matrices. The SVD is applied to each carrier matrix. Finally, the hidden information is implanted by altering the largest diagonal singular values of four 2  2 matrices. The technique is blind, so host image is not needed for the extraction of hidden information. The proposed scheme achieves higher values of imperceptibility as well as robustness. Experimental results reveal that the proposed technique outperforms the techniques currently reported in the literature by achieving higher values of imperceptibility in the form of PSNR with value of 44.0567 decibels (dB) and SSIM value of 0.9800. At the same time it achieves excellent values of robustness with maximum NCC value of 1.000 and minimum BER with value of 0.000.

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ROI-based reversible watermarking scheme for ensuring the integrity and authenticity of DICOM MR images

Cited by 28 publications

References 47 publications

A Comprehensive Review on Medical Image Steganography Based on LSB Technique and Potential Challenges

A Comprehensive Review on Medical Image Steganography Based on LSB Technique and Potential Challenges

Integration of Digital Watermarking Technique into Medical Imaging Systems

Blind and Robust Watermarking Scheme in Hybrid Domain for Copyright Protection of Medical Images

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