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CLC number: TP309.7
On-line Access: 2024-08-27
Received: 2023-10-17
Revision Accepted: 2024-05-08
Crosschecked: 2018-02-15
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Chaotic digital cryptosystem using serial peripheral interface protocol and its dsPIC implementation
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Rodrigo Méndez-Ramírez, Adrian Arellano-Delgado, César Cruz-Hernández, Fausto Abundiz-Pérez, Rigoberto Martínez-Clark. Chaotic digital cryptosystem using serial peripheral interface protocol and its dsPIC implementation[J]. Frontiers of Information Technology & Electronic Engineering, 2018, 19(2): 165-179.
@article{title="Chaotic digital cryptosystem using serial peripheral interface protocol and its dsPIC implementation",
author="Rodrigo Méndez-Ramírez, Adrian Arellano-Delgado, César Cruz-Hernández, Fausto Abundiz-Pérez, Rigoberto Martínez-Clark",
journal="Frontiers of Information Technology & Electronic Engineering",
volume="19",
number="2",
pages="165-179",
year="2018",
publisher="Zhejiang University Press & Springer",
doi="10.1631/FITEE.1601346"
}
%0 Journal Article
%T Chaotic digital cryptosystem using serial peripheral interface protocol and its dsPIC implementation
%A Rodrigo Méndez-Ramírez
%A Adrian Arellano-Delgado
%A César Cruz-Hernández
%A Fausto Abundiz-Pérez
%A Rigoberto Martínez-Clark
%J Frontiers of Information Technology & Electronic Engineering
%V 19
%N 2
%P 165-179
%@ 2095-9184
%D 2018
%I Zhejiang University Press & Springer
%DOI 10.1631/FITEE.1601346
TY - JOUR
T1 - Chaotic digital cryptosystem using serial peripheral interface protocol and its dsPIC implementation
A1 - Rodrigo Méndez-Ramírez
A1 - Adrian Arellano-Delgado
A1 - César Cruz-Hernández
A1 - Fausto Abundiz-Pérez
A1 - Rigoberto Martínez-Clark
J0 - Frontiers of Information Technology & Electronic Engineering
VL - 19
IS - 2
SP - 165
EP - 179
%@ 2095-9184
Y1 - 2018
PB - Zhejiang University Press & Springer
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DOI - 10.1631/FITEE.1601346
Abstract: The current massive use of digital communications demands a secure link by using an embedded system (ES) with data encryption at the protocol level. The serial peripheral interface (SPI) protocol is commonly used by manufacturers of ESs and integrated circuits for applications in areas such as wired and wireless communications. We present the design and experimental implementation of a chaotic encryption and decryption algorithm applied to the SPI communication protocol. The design of the chaotic encryption algorithm along with its counterpart in the decryption is based on the chaotic Hénon map and two methods for blur and permute (in combination with DNA sequences). The SPI protocol is configured in 16 bits to synchronize a transmitter and a receiver considering a symmetric key. Results are experimentally proved using two low-cost dsPIC microcontrollers as ESs. The SPI digital-to-analog converter is used to process, acquire, and reconstruct confidential messages based on its properties for digital signal processing. Finally, security of the cryptogram is proved by a statistical test. The digital processing capacity of the algorithm is validated by dsPIC microcontrollers.
[1]Aguilar-Bustos AY, Cruz-Hernández C, López-Gutiérrez RM, et al., 2010. Hyperchaotic encryption for secure e-mail communication. In: Chbeir R, Badr Y, Abraham A, et al. (Eds.), Emergent Web Intelligence: Advanced Information Retrieval. Springer, London, p.471-486.
[2]Alvarez G, Li SJ, 2006. Some basic cryptographic requirements for chaos-based cryptosystems. Int J Bifurc Chaos, 16(8):2129-2151.
[3]Arellano-Delgado A, López-Gutiérrez RM, Cruz-Hernández C, et al., 2012. Experimental network synchronization via plastic optical fiber. Opt Fiber Technol, 19(12):93-108.
[4]Azzaz MS, Tanougast C, Sadoudi S, et al., 2013. A new auto-switched chaotic system and its FPGA implementation. Commun Nonl Sci Numer Simul, 18(7):1792-1804.
[5]Barr M, Massa A, 2006. Programming Embedded Systems: with C and GNU Development Tools (2nd Ed.). O’Reilly Media, Cambridge, USA, p.18-20, 240-242.
[6]Benson D, Cavanaugh M, Clark K, et al., 2013. GenBank. Nucl Acids Res, 41:D36-D42.
[7]Cornish-Bowden A, 1985. Nomenclature for incompletely specified bases in nucleic acid sequences: recommendations 1984. Nucl Acids Res, 13(9):3021-3030.
[8]Demosthenous A, Pachnis I, Jiang D, et al., 2013. An integrated amplifier with passive neutralization of myoelectric interference from neural recording tripoles. IEEE Sens J, 13(9):3236-3248.
[9]Fúster Sabater A, Hernández Encinas L, Martín Muñoz A, et al., 2012. Criptografía, Protección de Datos Y Aplicaciones: Guía Para Estudiantes Y Profesionales. RA-MA, Madrid, Spain, p.133-157 (in Spanish).
[10]Guglielmi V, Pinel P, Fournier-Prunaret D, et al., 2009. Chaos-based cryptosystem on DSP. Chaos Sol Fract, 42(4):2135-2144.
[11]Hénon M, 1976. A two-dimensional mapping with a strange attractor. Commun Math Phys, 50(1):69-77.
[12]Jasio LD, 2008. Programming 32-Bit Microcontrollers in C: Exploring the PIC32. Newnes, Burlington, USA.
[13]Jyothi M, Chandra LR, Sahithi M, et al., 2012. Implementation of low complex and high secured SPI communication system for multipurpose applications. Int J Comput Sci Inform Technol, 3(1):3214-3219.
[14]Leens F, 2009. An introduction to I2C and SPI protocols. IEEE Instrum Meas Mag, 12(1):8-13.
[15]Li LL, Liu Y, Yao QG, 2014. Robust synchronization of chaotic systems using slidingmode and feedback control. J Zhejiang Univ-Sci C (Comput & Electron), 15(3):211-222.
[16]Liu WH, Sun KH, Zhu CX, 2016. A fast image encryption algorithm based on chaotic map. Opt Lasers Eng, 84:26-36.
[17]Marinkovic SJ, Popovici EM, 2011. Nano-power wireless wake-up receiver with serial peripheral interface. IEEE J Sel Areas Commun, 29(8):1641-1647.
[18]Méndez-Ramírez R, Cruz-Hernández C, Arellano-Delgado A, et al., 2015. Implementación del Circuito Hipercaótico de Chua en un Sistema Embebido de Bajo Costo. http://amca.mx/memorias/amca2015/articulos/0032_MiBT3-04.pdf [Accessed on Nov. 10, 2016] (in Spanish).
[19]Menezes AJ, van Oorschot PC, Vanstone SA, 1996. Handbook of Applied Cryptography. CRC Press, Boca Raton, USA.
[20]Microchip Technology Inc., 1997. IEEE 754 Compliant Floating Point Routines. http://www.microchip.com/ stellent/groups/techpub_sg/documents/appnotes/cn01096 1.pdf [Accessed on Mar. 21, 2018].
[21]Microchip Technology Inc., 2004. dsPIC30F3014, dsPIC30F4013 Data Sheet. http://ww1.microchip.com/ downloads/en/devicedoc/70138c.pdf [Accessed on Nov. 10, 2016].
[22]Microchip Technology Inc., 2006. AN1044 Data Encryption Routines for PIC24 and dsPIC® Devices. http://ww1.microchip.com/downloads/en/AppNotes/AN1044a.pdf [Accessed on Nov. 10, 2016].
[23]Microchip Technology Inc., 2018. Encryption Routines for PIC24, dsPIC, and PIC32. http://www.microchip.com/ SWLibraryWeb/product.aspx?product=Encryption%20R outines [Accessed on Mar. 21, 2018].
[24]Mikroelectronika, 2014. MikroC Pro for dsPIC Manual. http://download.mikroe.com/documents/compilers/mikroc/dspic/mikroc-dspic-manual-v100.pdf [Accessed on Mar. 21, 2018].
[25]Motorola Inc., 2003. SPI Block Guide V03.06. https://opencores.org/usercontent,doc,1499360489 [Accessed on Mar. 21, 2018].
[26]Muhaya FB, Usama M, Khan MK, 2009. Modified AES using chaotic key generator for satellite imagery encryption. In: Huang DS, Jo KH, Lee HH, et al. (Eds.), Emerging Intelligent Computing Technology and Applications. Springer, Berlin Heidelberg, p.1014-1024.
[27]Murillo-Escobar MÁ, Cruz-Hernández C, Abúndiz-Pérez F, et al., 2015a. A RGB image encryption algorithm based on total plain image characteristics and chaos. Signal Process, 109:119-131.
[28]Murillo-Escobar MÁ, Cruz-Hernández C, Abúndiz-Pérez F, et al., 2015b. A robust embedded biometric authentication system based on fingerprint and chaotic encryption. Exp Syst Appl, 42(21):8198-8211.
[29]Nyquist H, 1928. Certain topics in telegraph transmission theory. Trans Am Inst Electr Eng, 47(2):617-644.
[30]Oudjida AK, Berrandjia ML, Tiar R, et al., 2009. FPGA implementation of I2C & SPI protocols: a comparative study. 16th IEEE Int Conf on Electronics, Circuits, and Systems, p.507-510.
[31]Philips Semiconductors, 1995. The I²C-bus and how to use it. http://www.i2cbus.org/fileadmin/ftp/i2c_bus_specification_1995.pdf [Accessed on Nov. 10, 2016].
[32]Philips Semiconductors, 2003. AN10216-01 I²C Manual. http://www.nxp.com/documents/application_note/AN10216.pdf [Accessed on Nov. 10, 2016].
[33]Rhouma R, Belghith S, 2011. Cryptanalysis of a chaos-based cryptosystem on DSP. Commun Nonl Sci Numer Simul, 16(2):876-884.
[34]Shannon CE, 1949. Communication in the presence of noise. Proc IRE, 37(1):10-21.
[35]Siddiqui RA, Grosvenor RI, Prickett PW, 2015. dsPIC-based advanced data acquisition system for monitoring, control and security applications. 12th Int Bhurban Conf on Applied Sciences and Technology, p.293-298.
[36]Sipser M, 2006. Introduction to the Theory of Computation (2nd Ed.). Thomson Course Technology, Boston, USA.
[37]Tumenjargal E, Badarch L, Kwon H, et al., 2013. Embedded software and hardware implementation system for a human machine interface based on ISOAgLib. J Zhejiang Univ-Sci C (Comput & Electron), 14(3):155-166.
[38]Uriz AJ, Agüero PD, Moreira JC, et al., 2016. Flexible pseudorandom number generator for tinnitus treatment implemented on a dsPIC. IEEE Latin Am Trans, 14(1):72-77.
[39]Yalcin ME, Suykens JAK, Vandewalle J, 2004. True random bit generation from a double-scroll attractor. IEEE Trans Circ Syst I, 51(7):1395-1404.
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