Medical Data Encryption based on a Modified Sinusoidal 1D Chaotic Map and Its Microcontroller Implementation

2021 10th International Conference on Modern Circuits and Systems Technologies (MOCAST) Pub Date : 2021-07-05 DOI:10.1109/MOCAST52088.2021.9493422
Apostolos Iatropoulos, L. Moysis, A. Giakoumis, C. Volos, A. Ouannas, S. Goudos
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引用次数: 1

Abstract

This work considers a modification of the map proposed in Wang et al. (2020), by replacing its fixed term by a squared hyperbolic tangent term. The modified map is studied and is shown to have a plethora of chaos related phenomena, like period doubling route to chaos, crisis, antimonotonicity, and an infinite number of equilibrium points inside a bounded domain. Then, a pseudo-random bit generator is designed from the given map and it is applied to the encryption of medical data. Specifically, an electrophysiological signal is considered. The resulting design is finally implemented on a 32 bit microcontroller.
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基于改进正弦一维混沌映射的医疗数据加密及其单片机实现
这项工作考虑了Wang等人(2020)提出的地图的修改,将其固定项替换为平方双曲正切项。对改进后的映射进行了研究,并证明了该映射具有大量混沌相关现象,如周期加倍路径、危机、反单调性和有界域内无限数量的平衡点。然后,根据给定的映射设计了伪随机比特发生器,并将其应用于医疗数据的加密。具体地说,考虑了电生理信号。最后在一个32位微控制器上实现了设计结果。
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2021 10th International Conference on Modern Circuits and Systems Technologies (MOCAST)
2021 10th International Conference on Modern Circuits and Systems Technologies (MOCAST)
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