Segmentation based encryption method for medical images

The increasing need for telemedicine in healthcare industry created a great necessity to secure the transmitted data among medical centers. Medical image encryption (MIE) is an important technique to achieve security for medical images. Many researchers use advanced encryption standard (AES) to ensure the security of medical images. Applying AES encryption method for medical images directly leads to a long processing time; also it results in obvious background regions, which are considered flaws. In this paper we apply information theory (IT) to identify the two regions of a medical image: the region of interest (ROI) and the region of background (ROB). In order to reduce the processing time needed to protect a medical image using AES with a higher level of security, we propose a hybrid encryption, where AES is applied for ROI and a coding method such as Gold code (GC) is applied for the ROB after improvement. The proposed method has a shorter processing time than applying AES for the whole medical image. In addition, it has better security as seen in the related entropy and correlation calculations.

[1]  Parmida Moradi Birgani,et al.  Chaos-Based Medical Image Encryption Using Symmetric Cryptography , 2008, 2008 3rd International Conference on Information and Communication Technologies: From Theory to Applications.

[2]  Shahram Etemadi Borujeni,et al.  Chaotic Image Encryption Design Using Tompkins-Paige Algorithm , 2009 .

[3]  João Manuel R. S. Tavares,et al.  A Review on the Current Segmentation Algorithms for Medical Images , 2009, IMAGAPP.

[4]  M. K. Kholladi,et al.  Selective encryption techniques of JPEG2000 codestream for medical images transmission , 2008 .

[5]  Oleg S. Pianykh,et al.  Digital Imaging and Communications in Medicine (DICOM) , 2017, Radiopaedia.org.

[6]  Chul Sur,et al.  Region-Based Selective Encryption for Medical Imaging , 2007, FAW.

[7]  Jrg J. Buchholz Advanced Encryption Standard , 2001 .

[8]  Andreas Uhl,et al.  Confidential storage and transmission of medical image data , 2003, Comput. Biol. Medicine.

[9]  Christophe De Vleeschouwer,et al.  Overview on Selective Encryption of Image and Video: Challenges and Perspectives , 2008, EURASIP J. Inf. Secur..

[10]  M. I. Youssef,et al.  Image encryption using pseudo random number and chaotic sequence generators , 2009, 2009 National Radio Science Conference.

[11]  Yicong Zhou,et al.  A lossless encryption method for medical images using edge maps , 2009, 2009 Annual International Conference of the IEEE Engineering in Medicine and Biology Society.

[12]  Ahmed B. Mahmood,et al.  Analysis and Design of a Novell VPN Switch , 2005 .

[13]  Kwok-Wo Wong,et al.  Image Encryption Using Chaotic Maps , 2009, Intelligent Computing Based on Chaos.