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Criptografia ?ptica mediante controle anal?gico da amplitude e do atraso de fatias espectrais: an?lise para sinais NRZ e DQPSK / Optical cryptography through analog control of amplitude and delay of spectral slices: anlysis for NRZ and DQPSK signals

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Previous issue date: 2012-11-23 / This work investigates a technique to encrypt the optical signal for Transparent Optical Network, TON, in order to safeguard the confidentiality and guarantee the security of informations that are transmitted through the Telecommunications Network. The technique is assessed on the physical layer of the reference model for open systems interconnection, OSI, and consists of slicing spectrally optical signal and to apply various attenuations and delays to each of the slices spectral considered. These slices are multiplexed and the resulting signal, which will be propagated by an optical network transparent, it will be ideally unintelligible to eavesdropper who try to steals it. At this point is possible to evaluate the quality of the encryption used by measuring the output of the encoder the bit error rate, BER, the encrypted signal, BERC. In principle, as highest BERC,it will be lowest the probability of an eavesdropper decode the signal. To get to your destination, the signal is received in the decoder circuit, which has the same physical structure of the circuit which encoded the original signal. The application of the factors of attenuation and delay in this distorted signal is adjusted for the reconstruction of optical signal generated by the transmitter. On the output of decoder, performs the measurement of BER of signal decoded, the BERD. Ideally, BERD must be the lowest possible. For technique evaluation, it was simulated, with the version 8.7 of the software VPITransmissionMaker, of company VPIPhotonics Inc, the operation of the devices of cryptography, propagation and the elements of decoded signal. All simulations considered that the spectral slicing was carried out by means of filters with ideal profile. The results indicates that the BERC may reach up to 42% and 24%, to encrypted signals with modulation on-off Keying non return to zero (NRZ-OOK) and differential quadrature phase shift keying (DQPSK) respectively, and that both are free of errors (BERD< 10-15 for the signal NRZ-OOK and BERD< 10-6 for DQPSK modulation) when decoded. / Este trabalho aborda uma t?cnica para criptografar o sinal ?ptico em redes ?pticas transparentes (Transparent Optical Network, TON), de modo a salvaguardar o sigilo e garantir a seguran?a das informa??es que s?o transmitidas atrav?s da Rede de Telecomunica??es. A t?cnica avaliada ? relativa ? camada f?sica do modelo de refer?ncia para interconex?o de sistemas abertos (open systems interconnection, OSI) e consiste em dividir espectralmente um sinal ?ptico e em aplicar diferentes atenua??es e atrasos a cada uma das fatias espectrais consideradas. A seguir essas fatias s?o multiplexadas e o sinal resultante, que ser? propagado por uma rede ?ptica transparente, estar? idealmente inintelig?vel para intrusos que tentem furt?-lo. Nesse ponto ? poss?vel avaliar a qualidade da criptografia utilizada, medindo-se na sa?da do codificador a taxa de erro de bit (bit error rate, BER) do sinal criptografado, BERC. Em princ?pio, quanto maior BERC, menor a probabilidade de um intruso decodificar o sinal. Ao chegar ao seu destino, o sinal ? recebido no circuito decodificador, que possui a mesma estrutura f?sica do circuito que codificou o sinal original. A aplica??o dos fatores de atenua??o e atraso neste sinal distorcido ? ajustada para a reconstru??o do sinal ?ptico gerado pelo transmissor. Na sa?da do decodificador, efetua-se a medi??o da BER do sinal decodificado, BERD. Idealmente, BERD deve ser a menor poss?vel. Para avalia??o da t?cnica, simulou-se, com a vers?o 8.7 do software VPITransmissionMaker, da empresa VPIPhotonics Inc, a opera??o dos dispositivos de criptografia, da propaga??o e dos elementos de decriptografia do sinal. Todas as simula??es consideraram que o fatiamento espectral foi realizado por meio de filtros com perfil ideal. Os resultados indicam que a BERC pode atingir at? 42% e 24%, para sinais codificados com modula??o n?o retorno ao zero com chaveamento on-off (non return to zero on-off keying, NRZ-OOK) e por deslocamento de fase diferencial em quadratura (differential quadrature phase shift keying, DQPSK) respectivamente, e que ambos n?o apresentam erros (BERD< 10-15 para o sinal NRZ-OOK e BERD< 10-6 para a modula??o DQPSK) quando decodificados.

Identiferoai:union.ndltd.org:IBICT/oai:tede.bibliotecadigital.puc-campinas.edu.br:tede/528
Date23 November 2012
CreatorsFossaluzza Junior, Luiz Antonio
ContributorsAbbade, Marcelo Lu?s Francisco, Marconi, Jorge Diego, Fagotto, Eric Alberto de Mello
PublisherPontif?cia Universidade Cat?lica de Campinas, Programa de P?s-Gradua??o em Engenharia El?trica, PUC-Campinas, BR, CEATEC ? Centro de Ci?ncias Exatas, Ambientais e de Tecnologias
Source SetsIBICT Brazilian ETDs
LanguagePortuguese
Detected LanguageEnglish
Typeinfo:eu-repo/semantics/publishedVersion, info:eu-repo/semantics/masterThesis
Formatapplication/pdf
Sourcereponame:Biblioteca Digital de Teses e Dissertações da PUC_CAMPINAS, instname:Pontifícia Universidade Católica de Campinas, instacron:PUC_CAMP
Rightsinfo:eu-repo/semantics/openAccess

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