A Wireless Physically Secure Key Distribution System | Barbosa | Journal of Information Security and Cryptography (Enigma)

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Geraldo Barbosa

PhD (Physics) / University of Southern California, 1974. Areas of work: Quantum Optics and Condensed Matter (Theory and Experiment), Physical Cryptography. Full Professor, Universidade Federal de Minas Gerais / MG / Brazil (up to 1995) / Northwestern University (2000-2012), and CEO, QuantaSec Consultoria e Projetos em Criptografia F´ısica Ltda /Brazil.

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A Wireless Physically Secure Key Distribution System

Geraldo Barbosa

Abstract

A fast and secure key distribution system is shown that operates in classical channels but with a dynamic protection given by the shot noise of light. The binary signals in the communication channel are protected by coding in random bases and by addition of physical noise that was recorded and added bit by bit to the signals. While the resulting signals are classical they carry the uncontrollable randomness information in the signal sent. The legitimate users start with a shared secret between them creating a measuring advantage over the adversary. This way the introduced noise does not affect the users but frustrates the attacker.

Keywords

Random; Physical Processes; Cryptography; Privacy Amplification

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References

F. Grosshans and P. Grangier, Continuous Variable Quantum Cryptography

Using Coherent States, Phys. Rev. Lett. 88, 057902 (2002).

G. A. Barbosa, Fast and secure key distribution using mesoscopic coherent

states of light, Physical Review A 68, 052307 (2003).

G. A. Barbosa and J. van de Graaf, Untappable Key Distribution System: a

One-Time-Pad Booster, Enigma - Brazilian Journal of Information Security

and Cryptography, Vol. 1, No. 2, 16 (2015)

G. A. Barbosa, arXiv:quant-ph/0510011 v2 16 Nov 2005 and arXiv:quantph/0705.2243

v2 17 May 2007.

G. A. Barbosa, Harnessing Natures Randomness: Physical Random Number

Generator, Enigma - Brazilian Journal of Information Security and

Cryptography, Vol. 1, No. 1, 47 (2014).

C. H. Bennett, G. Brassard, C. Crepeau, U. M. Maurer, Generalized privacy

amplification, IEEE Transactions on Information Theory 41, 1915 (1995)

Jeroen van de Graaf, Decentralized management of One-Time Pad key material

for a group, XIV Simposio Brasileiro em Segurana da Informação e de Sistemas Computacionais SBSeg 2014 - Brazil.

The PhRBG implementation was carried out by a team from Universidade

Federal de Minas Gerais and QuantaSEC Consulting, Projects and

Research in Physical Cryptography Ltd. with support from Ministerio da

Ciencia, Tecnologia e Inovação (MCTI)-Finep(0276/12)-Fundep(19658)- Comando do Exercito(DCT)-RENASIC. ´

RENASIC Reports: KeyBITS Report 3 (Universidade Federal de Minas

Gerais and QuantaSEC).

DOI: https://doi.org/10.17648/enig.v3i1.56

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