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NTIS 바로가기정보과학회논문지 = Journal of KIISE, v.43 no.11, 2016년, pp.1245 - 1258
김민우 (연세대학교 정보대학원) , 권태경 (연세대학교 정보대학원)
Cryptographic technologies providing confidentiality and integrity such as encryption algorithms and message authentication codes (MACs) are necessary for preventing security threats in the Internet of Things (IoT) where various kinds of devices are interconnected. As a number of encryption schemes ...
A.J. Menezed, P.C. van Oorschot, and S.A. Vanstone, "Handbook of Applied Cryptography," CRC Press, Boca Raton, USA, 1996.
C. Kolias, A. Stavrou, and J. Voas, "Securely Making, "Things Right," Computer, Vol. 48, No. 9, pp. 84-88, Sept. 2015.
R. Beaulieu, D. Shors, J. Smith, S. Treatman-Clark, B. Weeks, and L. Wingers, "The SIMON and SPECK Families of Lightweight Block Ciphers," IACR Cryptology ePrint Archive 2013-404, Jun. 2013.
D. Hong, JK. Lee, DC. Kim, D. Kwon, KH. Ryu, and DG. LEE, "LEA: A 128-bit block cipher for fast encryption on common processors," WISA 2013, LNCS 8267, pp. 3-27, Aug. 2014.
B. Alomair and R. Poovendran, "Efficient authentication for mobile and pervasive computing," IEEE Transactions on Mobile Computing, Vol. 13, Iss. 3, pp. 469-481, Dec. 2014.
T. Dierks and E. Rescorla, "The Transport Layer Security (TLS) Protocol Version 1.2," IETF RFC 5246, Aug. 2008.
P. Calhoun, M. Montemurro, and D. Stanley, "Control and provisioning of wireless access points (CAPWAP) protocol binding for IEEE 802.11," RFC 5416, Mar. 2009.
S. Farahani, "ZigBee wireless networks and transceivers," Newton, MA: Newnes, 2008.
B. Foulad and, S. Ghanoun, "Security evaluation of the Z-Wave wireless protocol," Black Hat conference, Las Vegas, NV, Jul. 2013.
W. Trappe, R. Howard, and RS. Moore, "Low-Energy Security: Limits and Opportunities in the Internet of Things," IEEE Security & Privacy, Vol. 13, No. 1, pp. 14-21, Jan.-Feb. 2015.
M. Cazorla, S. Gourgeon, K. Marquet, and M. Minier, "Survey and benchmark of lightweight block ciphers for wireless sensor networks," Security and Cryptography( SECRYPT), 2013 International Conference on IEEE, pp. 1-6, Jul. 2013.
DJ. Bernstein and T. Lange (editors), "eBACS: ECRYPT Benchmarking of Cryptographic Systems," Available: http://bench.cr.yp.to, accessed 7 Mar. 2015.
C. Wenzel-Benner, and J. Graf, "XBX: eXternal Benchmarking eXtension for the SUPERCOPcrypto benchmarking framework," Cryptographic Hardware and Embedded Systems, CHES 2010. LNCS 6225, pp. 294-305, Aug. 2010.
K. Gaj, J.P. Kaps, V. Amirineni, M. Rogawski, E. Homsirikamoi, and B.Y. Brewster, "Athena-automated tool for hardware evaluatioN: Toward fair and comprehensive benchmarking of cryptographic hardware using FPGAs," Field Programmable Logic and Applications (FPL), 2010 International Conference on. IEEE, pp. 414-421, Sept. 2010.
J. Balasch, B. Ege, T. Eisenbarth, B. Gerard, Z. Gong, T. Gijneyse, S. Heyse, S. Kerckhof, F. Koeune, T. Plos, T. Poppelmann, F. Regazzoni, F. Standaert, G.V. Assche, R.V. Keer, L.O. Oldeneel, and I. Maurich, "Compact implementation and performance evaluation of hash functions in attiny devices," CARDIS 2012, LNCS 7771, pp. 158-172, 2013.
D. Dinu, Y.L. Corre, D. Khovratovich, J. GroBschadl, L. Perrin, and A. Biryukov, "Triathlon of Lightweight Block Ciphers for the Internet of Things," IACR Cryptology ePrint Archive 2015-209, Jul. 2015.
YW. Law, J. Doumen, and P. Hartel, "Survey and benchmark of block ciphers for wireless sensor networks," ACM Transactions on Sensor Networks (TOSN), Vol. 2, No. 1, pp. 65-93, Feb. 2006.
S. Bakhtiari, R. Safavi-Naini, and J. Pieprzyk, "Cryptographic hash functions: A survey," Technical Report 95-02, Centre for Computer Security Research, Department of Computer Science, University of Wollongong, Australie, 1995.
L. Carter and M. Wegman, "Universal classes of ahsh functions," Proc. of the ninth annual ACM symposium on Theory of computing (STOC '77), ACM, New York, NY, USA, pp. 106-112. 1977.
FIPS, NIST, "113: Data Authentication," National Institute of Standards and Technology, Federal Information Processing Standards, 1985.
M. Dworkin, "NIST special publication 800-38B," NIST special publication, 800(38B), 38B, Mar. 2005.
J. Black and P. Rogaway, "A block cipher mode of operation for parallelizable message authentication," EUROCRYPT 2012, LNCS 2332, pp. 384-397, Apr. 2002.
G. Tsudik, "Message authentication with one-way hash functions," ACM SIGCOMM Computer Communication Review, Vol. 22, iss. 5, pp. 29-38, 1992.
B. Preneel and PC.Van Oorschot, "MDx-MAC and Building Fast MACs from Hash Functions," CRYPTO '95, LNCS 963, pp. 1-14, Aug. 1995.
M. Bellare, R. Canetti, and H. Krawczyk, "Keying Hash Functions for Message Authentication," CRYPTO '96, LNCS 1109, pp. 1-15, Aug. 1996.
J. Black, S. Halevi, H. Krawczyk, T. Krovetz, and P. Rogaway, "UMAC: Fast and Secure Message Authentication," CRYPTO '99, LNCS 1666, pp. 216-233, Aug. 1999.
D. Bernstein, "The Poly1305-AES Message-Authentication Code," FSE 2005, LNCS 3557, pp. 32-49, Feb. 2005.
ISO/IEC 9797-1:1999 Standard, Information Technology - Security Techniques - Message Authentication Codes (MACs) - Part 1: Mechanisms Using a Block Cipher, ISO/IEC, 1999.
M. Bellare, R. Guerin, and P. Rogaway, "XOR MACs: New Methods for Message Authentication Using Finite Pseudorandom Functions," CRYPTO '95, LNCS 963, pp. 15-28, Aug. 1995.
J.Black and P. Rogaway, "CBC MACs for Arbitrary Length Messages: The Three-Key Constructions," Crypto 2000, LNCS 1880, pp. 197-215, Aug. 2000.
T. Iwata and K. Kurosawa, "OMAC: One-Key CBC MAC," FSE 2003, LNCS 2887, pp.129-153, Feb. 2003.
P. Rogaway, "Efficient instantiations of tweakable blockciphers and refinements to modes OCB and PMAC," ASIACRYPT 2004, LNCs 3329, pp. 16-31, Dec. 2004.
MJ. Dworkin, "SP 800-38D. Recommendation for block cipher modes of operation: Galois/Conter Mode (GCM) and GMAC," Technical Report. NIST, Gaithersburg, MD, United States, 2007.
M. Simplicio, P. Barbuda, P. Barreto, T. Carvalho, and C. Margi, "The Marvin message authentication code and the LetterSoup authenticated encryption scheme," Security and Communication Networks, Vol. 2, No. 2, pp. 165-180, Mar. 2009.
P. Sarkar, "Pseudo-random functions and parallelizable modes of operations of a block cipher," IEEE Transactions on Information Theory, Vol. 56, No. 8, pp. 4025-4037, Aug. 2010.
K. Yasuda, "A new variant of PMAC: beyond the birthday bound," CRYPTO 2011, LNCS 6841, pp. 596-609, Aug. 2011.
N. Mouha, B. Mennick, A. V. Herrewege, D. Watanabe, B. Preneel, and I. Verbauwhede, "Chaskey: An Efficient MAC Algorithm for 32-bit Microcontrollers," SAC 2014, LNCS 8781, pp. 306-323, Mar. 2014.
DW. Davies, DO. Claydon, "The message authenticator algorithm (MAA) and its implementation," NPL Report DITC 109/88, Feb. 1988.
FIPS, NIST, "198: The Keyed-Hash Message Authentication Code (HMAC)," National Institute of Standards and Technology, Federal Information Processing Standards, 2002.
S. Patel "An efficient MAC for short messages," SAC 2002, LNCS 2595, pp. 353-368, Mar. 2003.
M. Najjar, and F. Najjar, "d-HMAC Dynamic HMAC function," 2006 International Conference on Dependability of Computer Systems, Szklarska Poreba, pp. 119-126, May. 2006.
K. Yasuda, "Multilane HMAC-Security beyond the birthday limit," Indocrypt 2007, LNCS 4859, pp. 18-32, Dec. 2007.
K. Yasuda, "HMAC without the "Second" Key," ISC 2009, LNCS 5735, pp. 443-458, Sept. 2009.
S. Halevi and H. Krawczyk, "MMH: Software message authentication in the Gbit/second rates," FSE '97, LNCS 1267, pp. 172-189, Jan. 1997.
M. Etzel, S. Patel, and Z. Ramzan, "Square hash: Fast message authentication via optimized universal hash functions," CRYPTO'99, LNCS 1666, pp. 234-251, Aug. 1999.
Y. Nir and A. Langley, "ChaCha20 and Poly1305 for IETF Protocols," RFC 7539, May. 2015.
JP Kaps, K. Yuksel, and B. Sunar, "Energy scalable universal hashing." IEEE Transactions on Computers, Vol. 54, No. 12, pp. 1484-1495, Dec. 2005.
J. Song, R. Poovendran, J. Lee, and T. Iwata, "The AES-CMAC Algorithm," RFC 4493, Jun. 2006.
H. Krawczyk, R. Canetti. Informational, and M. Bellare, "HMAC: Keyed-Hashing for Message Authentication," IETF REC 2104, Feb. 1997.
J. Guo, T. Peyrin, A. Poschmann, "The PHOTON family of lightweight hash functions," CRYPTO 2011, LNCS 6841, pp. 222-239, Aug. 2011.
A. bogdanov, M. Knezevic, G. Leander, D. Toz, K. Varici, and I. Verbauwhede, "SPONGENT: A lightweight hash function," CHES 2011, LNCS 6917, pp. 312-325, Sept. 2011.
Z. Gong, PH. Hartel, SI. Nikova, SH. Tang, and B. Zhu, "TuLP: A Family of Secure and Practical Message Authentication Codes for Body Sensor Networks," Journal of computer science and technology, Vol. 29, No. 1, pp. 53-68, Jan. 2014.
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