Abstract
Sharing of personal digital health information is an arising idea of changing health statistics for research and different functions. Confidentiality, besides for legal users, and access auditability are sturdy safety requirements for health statistics. This paper will examine those requirements and advise a review for healthcare companies as a good way to assist in securely storing and sharing of affected persons’ statistics they host. It should additionally allow the best legitimate users to get entry to portions of the facts’ statistics they are permitted to. The recognition can be on these precise protection troubles of modern-day encryption techniques utilized in health care and the way encryption can help in addressing healthcare regulatory necessities. This paper provides an overview of encryption and decryption procedures, highlighting their security foundations, implementation regions, and strengths and limitations in the early stages of operation. Finally, the study pinpoints the existing gap based on the findings of the analysis, with a focus on a set of rules that are most acceptable for commercial use, given current cryptography trends that are moving closer to quantum computing. The focus of this study then shifts to the genuine need for a set of rules that offers no trade-off between encryption and decryption speeds, has low computation overhead, and is resilient to quantum method attacks.
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References
Hacigümüş H, Iyer B, Li C, Mehrotra S (2002) Executing SQL over encrypted data in the database-service-provider model. In: Proceedings of the 2002 ACM SIGMOD international conference on management of data, pp 216–227
Wang ZF, Dai J, Wang W, Shi BL (2004) Fast query over encrypted character data in the database. In: International conference on computational and information science. Springer, Berlin, Heidelberg, pp 1027–1033
Overbey J, Traves W, Wojdylo J (2005) On the keyspace of the Hill cipher. Cryptologia 29(1):59–72
Karri R, Wu K, Mishra P, Kim Y (2002) Concurrent error detection schemes for fault-based side-channel cryptanalysis of symmetric block ciphers. IEEE Trans Comput Aided Des Integr Circuits Syst 21(12):1509–1517
Amador JJ, Green RW (2005) Symmetric-key block cipher for image and text cryptography. Int J Imaging Syst Technol 15(3):178–188
Bellare M, Desai A, Jokipii E, Rogaway P (1997) A concrete security treatment of symmetric encryption. In: Proceedings 38th annual symposium on foundations of computer science. IEEE, pp 394–403
Potdar V, Chang E (2004) Disguising text cryptography using image cryptography. In: Proceedings of the fourth international network conference 2004 (INC2004). Lulu.com, p 361
Scripcariu L, Frunză MD (2005) A new character encryption algorithm
Bose R (2005) Novel public key encryption technique based on multiple chaotic systems. Phys Rev Lett 95(9):098702
Matsui M (1997) New block encryption algorithm MISTY. In: International workshop on fast software encryption. Springer, Berlin, Heidelberg, pp 54–68
Kocarev L, Tasev Z (2003) Public-key encryption based on Chebyshev maps. In: Proceedings of the 2003 international symposium on circuits and systems, 2003. ISCAS’03. vol 3. IEEE, pp III–III
Mathur N, Bansode R (2016) AES based text encryption using 12 rounds with dynamic key selection. Proc Comput Sci 79:1036–1043
Makris G, Antoniou I (2012) Cryptography with chaos. In: Proceedings of the 5th chaotic modeling and simulation international conference. Athens, Greece, pp 12–15
Pise S (2014) Security of personal health records through attribute based encryption in cloud computing. Int J Eng Res Technol 03(01):1952–1954
Zibideh WY, Matalgah MM (2015) Modified data encryption standard encryption algorithm with improved error performance and enhanced security in wireless fading channels. Secur Commun Netw 8(4):565–573
Gurav YB, Deshmukh M (2014) Scalable and secure sharing of personal health records in cloud computing using attribute-based encryption. Int J Comput Sci Mobile Comput IJCSMC 3(2):617–625
Zhou X, Tang X (2011) Research and implementation of RSA algorithm for encryption and decryption. In: Proceedings of 2011 6th international forum on strategic technology, vol 2. IEEE, pp 1118–1121
Dasari K, Srikanth V, Veramallu B, Kumar SS, Srinivasulu K (2014) A novelty approach of symmetric encryption algorithm. In: International conference on information communication and embedded systems (ICICES2014). IEEE, pp 1–4
Riman C, Abi-Char PE (2015) Comparative analysis of block cipher-based encryption algorithms: a survey. Inf Secur Comput Fraud 3(1):1–7
Preetha M, Nithya M (2013) A study and performance analysis of RSA algorithm. Int J Comput Sci Mob Comput 2(6):126–139
Prajapati KS, Buddhdev BV (2014) Overview of improvements and modifications in RSA algorithm
Pan JL, Li SP, Zhang DY (2010) A study of two algorithms based on feistel cipher in wireless medical sensor networks (in Chinese). Chin J Sens Actuators 23:1030–1036
Pan J, Li S, Xu Z (2012) Security mechanism for a wireless-sensor-network-based healthcare monitoring system. IEEE Commun 6(18):3274–3280
Liu D, Ning P, Li R (2005) Establishing pair-wise keys in distributed sensor networks. ACM Trans Inf Syst Secur 8(2005):41–77
Eschenauer L, Gligor VD (2002) A key-management scheme for distributed sensor networks. In: Proceedings of the 9th ACM conference on computer and communication security. Washington, DC, USA
Balfanz D, Smetters D, Stewart P, Wong H (2002) Talking to strangers: authentication in ad-hoc wireless networks. In: Proceeding of network and distributed system security symposium. San Diego, CA, USA
Jiang C, Li B, Xu H (2007) An efficient scheme for user authentication in wireless sensor networks. In: Proceedings of the 21st international conference on advanced information networking and applications workshops. Niagara Falls, Canada
Malasri K, Wang P (2007) Addressing security in medical sensor networks. In: First ACM SIGMOBILE international workshop systems and networking support for healthcare and assisted living environments. San Juan, Puerto Rico, pp 7–12
Wang H, Sheng B, Li Q (2005) TelosB implementation of elliptic curve cryptography over primary field. Technical Report WM-CS-2005-12. Williamsburg, VA, USA
Bhushan B, Sharma N (2021) Transaction privacy preservations for blockchain technology. In: International conference on innovative computing and communications. Springer, Singapore, pp 377–393
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Narula, G., Gandhi, B., Sharma, H., Gupta, S., Saini, D., Nagrath, P. (2023). A Novel Review on Healthcare Data Encryption Techniques. In: Gupta, D., Khanna, A., Hassanien, A.E., Anand, S., Jaiswal, A. (eds) International Conference on Innovative Computing and Communications. Lecture Notes in Networks and Systems, vol 492. Springer, Singapore. https://doi.org/10.1007/978-981-19-3679-1_40
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