Abstract

Stacked optical code (OC) label and its en/decoder based on fiber Bragg gratings (FBG) are proposed and experimentally demonstrated. This kind of label can carry several nodes’ address information simultaneously in optical packet switching networks, so it can be employed in optical multicasting and simplify the node’s structure a lot. The en/decoder is fabricated with high precision by our FBG techniques, and the experiment results show that the stacked OC label can support optical multicasting very well.

©2009 Optical Society of America

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References

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  1. K. Kitayama and N. Wada, “Photonic IP routing,” IEEE Photon. Technol. Lett.  11, 1689–1691 (1999).
    [Crossref]
  2. P. Seddighian, S. Ayotte, J. B. Rosas-Fernändez, J. Penon, L. A. Rusch, and S. LaRochelle, “Label stacking in photonic packet-switched networks with spectral amplitude code labels,” J. Lightwave. Technol.  25, 463–471 (2007)
    [Crossref]
  3. H. Tamai, M. Sarashina, K. Sasaki, and M. Kashima, “First demonstration of clockless serial optical code label switching with SSFBGs label recognizer,” presented at Opt. Fiber Commun.(OFC 2007), Anaheim, USA, paper JThA7
  4. F. Moritsuka, N. Wada, T. Sakamoto, T. Kawanishi, Y. Komai, S. Anzai, M. Izutsu, and K. Kodate, “Multiple optical code-label processing using multi-wavelength frequency comb generator and multi-port optical spectrum synthesizer,” Opt. Express.  15, 7515–7521 (2007).
    [Crossref] [PubMed]
  5. X. Wang and N. Wada, “Experimental demonstration of OCDMA traffic over optical packet switching network with hybrid PLC and SSFBG en/decoders,” J. Lightwave. Technol.  24, 3012–3020 (2006).
    [Crossref]
  6. G. Cincotti, N. Wada, S. Yoshima, N. Kataoka, and K. Kitayama, “200Gchip/s, 16-label simultaneous multiple-optical encoded decoder and its application to optical packet switching,” presented at Opt. Fiber Commun.(OFC 2005), Anaheim, USA, paper PDP37.
  7. J. B. Rosas-Fernändez, M. Presi, W. Mathlouthi, S. LaRochelle, L. A. Rusch, and I. H. White, “All optical recognition of 36 SAC-labels with 12.5 GHz minimum bin separation using a single correlator for optical label switching,” in Proc. 33th Eur. Conf. Optical Communication (ECOC), paper 3.2.4, Berline, Germany, Sep. 2007.
  8. S. J. Ben Yoo, “Optical packet and burst switching technologies for the future photonic internet,” J. Lightwave. Technol.  24, 4468–4492 (2006).
    [Crossref]
  9. S. Yoshima, K. Onohara, N. Wada, F. Kubota, and K. Kitayama, “Multicast-capable optical code label switching and its experimental demonstration,” J. Lightwave. Technol.  24, 713–722 (2006).
    [Crossref]
  10. N. Kataoka, N. Wada, G. Cincotti, K. Kitayama, and T. Miyazaki, “A novel multiplexed optical code label processing with huge number of address entry for scalable optical packet switched network,” in Proc. 33th Eur. Conf. Optical Communication (ECOC), paper 3.2.3, Berlin, Germany, Sep. 2007.
  11. Y. Dai, X. Chen, J. Sun, Y. Yao, and S. Xie, “High-performance, high-chip-count optical code division multiple access encoders-decoders based on a reconstruction equivalent-chirp technique,” Opt. Lett.  31, 1618–1620 (2006).
    [Crossref] [PubMed]
  12. P. C. Teh, P. Petropoulos, M. Ibsen, and D. J. Richardson, “A comparative study of the performance of seven and 63-chip optical code division multiple-access encoders and decoders based on superstructured fiber Bragg gratings,” J. Lightwave. Technol.  19, 1352–1365 (2001).
    [Crossref]
  13. W. D’Oosterlinck, J. Buron, F. Öhman, G. Morthier, and R. Baets, “All-optical flip-flop based on an SOA/DFB-laser diode optical feedback scheme,” IEEE Photon. Technol. Lett.  19, 489–491 (2007).
    [Crossref]

2007 (5)

J. B. Rosas-Fernändez, M. Presi, W. Mathlouthi, S. LaRochelle, L. A. Rusch, and I. H. White, “All optical recognition of 36 SAC-labels with 12.5 GHz minimum bin separation using a single correlator for optical label switching,” in Proc. 33th Eur. Conf. Optical Communication (ECOC), paper 3.2.4, Berline, Germany, Sep. 2007.

P. Seddighian, S. Ayotte, J. B. Rosas-Fernändez, J. Penon, L. A. Rusch, and S. LaRochelle, “Label stacking in photonic packet-switched networks with spectral amplitude code labels,” J. Lightwave. Technol.  25, 463–471 (2007)
[Crossref]

H. Tamai, M. Sarashina, K. Sasaki, and M. Kashima, “First demonstration of clockless serial optical code label switching with SSFBGs label recognizer,” presented at Opt. Fiber Commun.(OFC 2007), Anaheim, USA, paper JThA7

W. D’Oosterlinck, J. Buron, F. Öhman, G. Morthier, and R. Baets, “All-optical flip-flop based on an SOA/DFB-laser diode optical feedback scheme,” IEEE Photon. Technol. Lett.  19, 489–491 (2007).
[Crossref]

F. Moritsuka, N. Wada, T. Sakamoto, T. Kawanishi, Y. Komai, S. Anzai, M. Izutsu, and K. Kodate, “Multiple optical code-label processing using multi-wavelength frequency comb generator and multi-port optical spectrum synthesizer,” Opt. Express.  15, 7515–7521 (2007).
[Crossref] [PubMed]

2006 (4)

X. Wang and N. Wada, “Experimental demonstration of OCDMA traffic over optical packet switching network with hybrid PLC and SSFBG en/decoders,” J. Lightwave. Technol.  24, 3012–3020 (2006).
[Crossref]

S. J. Ben Yoo, “Optical packet and burst switching technologies for the future photonic internet,” J. Lightwave. Technol.  24, 4468–4492 (2006).
[Crossref]

S. Yoshima, K. Onohara, N. Wada, F. Kubota, and K. Kitayama, “Multicast-capable optical code label switching and its experimental demonstration,” J. Lightwave. Technol.  24, 713–722 (2006).
[Crossref]

Y. Dai, X. Chen, J. Sun, Y. Yao, and S. Xie, “High-performance, high-chip-count optical code division multiple access encoders-decoders based on a reconstruction equivalent-chirp technique,” Opt. Lett.  31, 1618–1620 (2006).
[Crossref] [PubMed]

2001 (1)

P. C. Teh, P. Petropoulos, M. Ibsen, and D. J. Richardson, “A comparative study of the performance of seven and 63-chip optical code division multiple-access encoders and decoders based on superstructured fiber Bragg gratings,” J. Lightwave. Technol.  19, 1352–1365 (2001).
[Crossref]

1999 (1)

K. Kitayama and N. Wada, “Photonic IP routing,” IEEE Photon. Technol. Lett.  11, 1689–1691 (1999).
[Crossref]

Anzai, S.

Ayotte, S.

P. Seddighian, S. Ayotte, J. B. Rosas-Fernändez, J. Penon, L. A. Rusch, and S. LaRochelle, “Label stacking in photonic packet-switched networks with spectral amplitude code labels,” J. Lightwave. Technol.  25, 463–471 (2007)
[Crossref]

Baets, R.

W. D’Oosterlinck, J. Buron, F. Öhman, G. Morthier, and R. Baets, “All-optical flip-flop based on an SOA/DFB-laser diode optical feedback scheme,” IEEE Photon. Technol. Lett.  19, 489–491 (2007).
[Crossref]

Ben Yoo, S. J.

S. J. Ben Yoo, “Optical packet and burst switching technologies for the future photonic internet,” J. Lightwave. Technol.  24, 4468–4492 (2006).
[Crossref]

Buron, J.

W. D’Oosterlinck, J. Buron, F. Öhman, G. Morthier, and R. Baets, “All-optical flip-flop based on an SOA/DFB-laser diode optical feedback scheme,” IEEE Photon. Technol. Lett.  19, 489–491 (2007).
[Crossref]

Chen, X.

Y. Dai, X. Chen, J. Sun, Y. Yao, and S. Xie, “High-performance, high-chip-count optical code division multiple access encoders-decoders based on a reconstruction equivalent-chirp technique,” Opt. Lett.  31, 1618–1620 (2006).
[Crossref] [PubMed]

Cincotti, G.

N. Kataoka, N. Wada, G. Cincotti, K. Kitayama, and T. Miyazaki, “A novel multiplexed optical code label processing with huge number of address entry for scalable optical packet switched network,” in Proc. 33th Eur. Conf. Optical Communication (ECOC), paper 3.2.3, Berlin, Germany, Sep. 2007.

G. Cincotti, N. Wada, S. Yoshima, N. Kataoka, and K. Kitayama, “200Gchip/s, 16-label simultaneous multiple-optical encoded decoder and its application to optical packet switching,” presented at Opt. Fiber Commun.(OFC 2005), Anaheim, USA, paper PDP37.

D’Oosterlinck, W.

W. D’Oosterlinck, J. Buron, F. Öhman, G. Morthier, and R. Baets, “All-optical flip-flop based on an SOA/DFB-laser diode optical feedback scheme,” IEEE Photon. Technol. Lett.  19, 489–491 (2007).
[Crossref]

Dai, Y.

Y. Dai, X. Chen, J. Sun, Y. Yao, and S. Xie, “High-performance, high-chip-count optical code division multiple access encoders-decoders based on a reconstruction equivalent-chirp technique,” Opt. Lett.  31, 1618–1620 (2006).
[Crossref] [PubMed]

Ibsen, M.

P. C. Teh, P. Petropoulos, M. Ibsen, and D. J. Richardson, “A comparative study of the performance of seven and 63-chip optical code division multiple-access encoders and decoders based on superstructured fiber Bragg gratings,” J. Lightwave. Technol.  19, 1352–1365 (2001).
[Crossref]

Izutsu, M.

Kashima, M.

H. Tamai, M. Sarashina, K. Sasaki, and M. Kashima, “First demonstration of clockless serial optical code label switching with SSFBGs label recognizer,” presented at Opt. Fiber Commun.(OFC 2007), Anaheim, USA, paper JThA7

Kataoka, N.

N. Kataoka, N. Wada, G. Cincotti, K. Kitayama, and T. Miyazaki, “A novel multiplexed optical code label processing with huge number of address entry for scalable optical packet switched network,” in Proc. 33th Eur. Conf. Optical Communication (ECOC), paper 3.2.3, Berlin, Germany, Sep. 2007.

G. Cincotti, N. Wada, S. Yoshima, N. Kataoka, and K. Kitayama, “200Gchip/s, 16-label simultaneous multiple-optical encoded decoder and its application to optical packet switching,” presented at Opt. Fiber Commun.(OFC 2005), Anaheim, USA, paper PDP37.

Kawanishi, T.

Kitayama, K.

S. Yoshima, K. Onohara, N. Wada, F. Kubota, and K. Kitayama, “Multicast-capable optical code label switching and its experimental demonstration,” J. Lightwave. Technol.  24, 713–722 (2006).
[Crossref]

K. Kitayama and N. Wada, “Photonic IP routing,” IEEE Photon. Technol. Lett.  11, 1689–1691 (1999).
[Crossref]

G. Cincotti, N. Wada, S. Yoshima, N. Kataoka, and K. Kitayama, “200Gchip/s, 16-label simultaneous multiple-optical encoded decoder and its application to optical packet switching,” presented at Opt. Fiber Commun.(OFC 2005), Anaheim, USA, paper PDP37.

N. Kataoka, N. Wada, G. Cincotti, K. Kitayama, and T. Miyazaki, “A novel multiplexed optical code label processing with huge number of address entry for scalable optical packet switched network,” in Proc. 33th Eur. Conf. Optical Communication (ECOC), paper 3.2.3, Berlin, Germany, Sep. 2007.

Kodate, K.

Komai, Y.

Kubota, F.

S. Yoshima, K. Onohara, N. Wada, F. Kubota, and K. Kitayama, “Multicast-capable optical code label switching and its experimental demonstration,” J. Lightwave. Technol.  24, 713–722 (2006).
[Crossref]

LaRochelle, S.

J. B. Rosas-Fernändez, M. Presi, W. Mathlouthi, S. LaRochelle, L. A. Rusch, and I. H. White, “All optical recognition of 36 SAC-labels with 12.5 GHz minimum bin separation using a single correlator for optical label switching,” in Proc. 33th Eur. Conf. Optical Communication (ECOC), paper 3.2.4, Berline, Germany, Sep. 2007.

P. Seddighian, S. Ayotte, J. B. Rosas-Fernändez, J. Penon, L. A. Rusch, and S. LaRochelle, “Label stacking in photonic packet-switched networks with spectral amplitude code labels,” J. Lightwave. Technol.  25, 463–471 (2007)
[Crossref]

Mathlouthi, W.

J. B. Rosas-Fernändez, M. Presi, W. Mathlouthi, S. LaRochelle, L. A. Rusch, and I. H. White, “All optical recognition of 36 SAC-labels with 12.5 GHz minimum bin separation using a single correlator for optical label switching,” in Proc. 33th Eur. Conf. Optical Communication (ECOC), paper 3.2.4, Berline, Germany, Sep. 2007.

Miyazaki, T.

N. Kataoka, N. Wada, G. Cincotti, K. Kitayama, and T. Miyazaki, “A novel multiplexed optical code label processing with huge number of address entry for scalable optical packet switched network,” in Proc. 33th Eur. Conf. Optical Communication (ECOC), paper 3.2.3, Berlin, Germany, Sep. 2007.

Moritsuka, F.

Morthier, G.

W. D’Oosterlinck, J. Buron, F. Öhman, G. Morthier, and R. Baets, “All-optical flip-flop based on an SOA/DFB-laser diode optical feedback scheme,” IEEE Photon. Technol. Lett.  19, 489–491 (2007).
[Crossref]

Öhman, F.

W. D’Oosterlinck, J. Buron, F. Öhman, G. Morthier, and R. Baets, “All-optical flip-flop based on an SOA/DFB-laser diode optical feedback scheme,” IEEE Photon. Technol. Lett.  19, 489–491 (2007).
[Crossref]

Onohara, K.

S. Yoshima, K. Onohara, N. Wada, F. Kubota, and K. Kitayama, “Multicast-capable optical code label switching and its experimental demonstration,” J. Lightwave. Technol.  24, 713–722 (2006).
[Crossref]

Penon, J.

P. Seddighian, S. Ayotte, J. B. Rosas-Fernändez, J. Penon, L. A. Rusch, and S. LaRochelle, “Label stacking in photonic packet-switched networks with spectral amplitude code labels,” J. Lightwave. Technol.  25, 463–471 (2007)
[Crossref]

Petropoulos, P.

P. C. Teh, P. Petropoulos, M. Ibsen, and D. J. Richardson, “A comparative study of the performance of seven and 63-chip optical code division multiple-access encoders and decoders based on superstructured fiber Bragg gratings,” J. Lightwave. Technol.  19, 1352–1365 (2001).
[Crossref]

Presi, M.

J. B. Rosas-Fernändez, M. Presi, W. Mathlouthi, S. LaRochelle, L. A. Rusch, and I. H. White, “All optical recognition of 36 SAC-labels with 12.5 GHz minimum bin separation using a single correlator for optical label switching,” in Proc. 33th Eur. Conf. Optical Communication (ECOC), paper 3.2.4, Berline, Germany, Sep. 2007.

Richardson, D. J.

P. C. Teh, P. Petropoulos, M. Ibsen, and D. J. Richardson, “A comparative study of the performance of seven and 63-chip optical code division multiple-access encoders and decoders based on superstructured fiber Bragg gratings,” J. Lightwave. Technol.  19, 1352–1365 (2001).
[Crossref]

Rosas-Fernändez, J. B.

J. B. Rosas-Fernändez, M. Presi, W. Mathlouthi, S. LaRochelle, L. A. Rusch, and I. H. White, “All optical recognition of 36 SAC-labels with 12.5 GHz minimum bin separation using a single correlator for optical label switching,” in Proc. 33th Eur. Conf. Optical Communication (ECOC), paper 3.2.4, Berline, Germany, Sep. 2007.

P. Seddighian, S. Ayotte, J. B. Rosas-Fernändez, J. Penon, L. A. Rusch, and S. LaRochelle, “Label stacking in photonic packet-switched networks with spectral amplitude code labels,” J. Lightwave. Technol.  25, 463–471 (2007)
[Crossref]

Rusch, L. A.

P. Seddighian, S. Ayotte, J. B. Rosas-Fernändez, J. Penon, L. A. Rusch, and S. LaRochelle, “Label stacking in photonic packet-switched networks with spectral amplitude code labels,” J. Lightwave. Technol.  25, 463–471 (2007)
[Crossref]

J. B. Rosas-Fernändez, M. Presi, W. Mathlouthi, S. LaRochelle, L. A. Rusch, and I. H. White, “All optical recognition of 36 SAC-labels with 12.5 GHz minimum bin separation using a single correlator for optical label switching,” in Proc. 33th Eur. Conf. Optical Communication (ECOC), paper 3.2.4, Berline, Germany, Sep. 2007.

Sakamoto, T.

Sarashina, M.

H. Tamai, M. Sarashina, K. Sasaki, and M. Kashima, “First demonstration of clockless serial optical code label switching with SSFBGs label recognizer,” presented at Opt. Fiber Commun.(OFC 2007), Anaheim, USA, paper JThA7

Sasaki, K.

H. Tamai, M. Sarashina, K. Sasaki, and M. Kashima, “First demonstration of clockless serial optical code label switching with SSFBGs label recognizer,” presented at Opt. Fiber Commun.(OFC 2007), Anaheim, USA, paper JThA7

Seddighian, P.

P. Seddighian, S. Ayotte, J. B. Rosas-Fernändez, J. Penon, L. A. Rusch, and S. LaRochelle, “Label stacking in photonic packet-switched networks with spectral amplitude code labels,” J. Lightwave. Technol.  25, 463–471 (2007)
[Crossref]

Sun, J.

Y. Dai, X. Chen, J. Sun, Y. Yao, and S. Xie, “High-performance, high-chip-count optical code division multiple access encoders-decoders based on a reconstruction equivalent-chirp technique,” Opt. Lett.  31, 1618–1620 (2006).
[Crossref] [PubMed]

Tamai, H.

H. Tamai, M. Sarashina, K. Sasaki, and M. Kashima, “First demonstration of clockless serial optical code label switching with SSFBGs label recognizer,” presented at Opt. Fiber Commun.(OFC 2007), Anaheim, USA, paper JThA7

Teh, P. C.

P. C. Teh, P. Petropoulos, M. Ibsen, and D. J. Richardson, “A comparative study of the performance of seven and 63-chip optical code division multiple-access encoders and decoders based on superstructured fiber Bragg gratings,” J. Lightwave. Technol.  19, 1352–1365 (2001).
[Crossref]

Wada, N.

F. Moritsuka, N. Wada, T. Sakamoto, T. Kawanishi, Y. Komai, S. Anzai, M. Izutsu, and K. Kodate, “Multiple optical code-label processing using multi-wavelength frequency comb generator and multi-port optical spectrum synthesizer,” Opt. Express.  15, 7515–7521 (2007).
[Crossref] [PubMed]

S. Yoshima, K. Onohara, N. Wada, F. Kubota, and K. Kitayama, “Multicast-capable optical code label switching and its experimental demonstration,” J. Lightwave. Technol.  24, 713–722 (2006).
[Crossref]

X. Wang and N. Wada, “Experimental demonstration of OCDMA traffic over optical packet switching network with hybrid PLC and SSFBG en/decoders,” J. Lightwave. Technol.  24, 3012–3020 (2006).
[Crossref]

K. Kitayama and N. Wada, “Photonic IP routing,” IEEE Photon. Technol. Lett.  11, 1689–1691 (1999).
[Crossref]

G. Cincotti, N. Wada, S. Yoshima, N. Kataoka, and K. Kitayama, “200Gchip/s, 16-label simultaneous multiple-optical encoded decoder and its application to optical packet switching,” presented at Opt. Fiber Commun.(OFC 2005), Anaheim, USA, paper PDP37.

N. Kataoka, N. Wada, G. Cincotti, K. Kitayama, and T. Miyazaki, “A novel multiplexed optical code label processing with huge number of address entry for scalable optical packet switched network,” in Proc. 33th Eur. Conf. Optical Communication (ECOC), paper 3.2.3, Berlin, Germany, Sep. 2007.

Wang, X.

X. Wang and N. Wada, “Experimental demonstration of OCDMA traffic over optical packet switching network with hybrid PLC and SSFBG en/decoders,” J. Lightwave. Technol.  24, 3012–3020 (2006).
[Crossref]

White, I. H.

J. B. Rosas-Fernändez, M. Presi, W. Mathlouthi, S. LaRochelle, L. A. Rusch, and I. H. White, “All optical recognition of 36 SAC-labels with 12.5 GHz minimum bin separation using a single correlator for optical label switching,” in Proc. 33th Eur. Conf. Optical Communication (ECOC), paper 3.2.4, Berline, Germany, Sep. 2007.

Xie, S.

Y. Dai, X. Chen, J. Sun, Y. Yao, and S. Xie, “High-performance, high-chip-count optical code division multiple access encoders-decoders based on a reconstruction equivalent-chirp technique,” Opt. Lett.  31, 1618–1620 (2006).
[Crossref] [PubMed]

Yao, Y.

Y. Dai, X. Chen, J. Sun, Y. Yao, and S. Xie, “High-performance, high-chip-count optical code division multiple access encoders-decoders based on a reconstruction equivalent-chirp technique,” Opt. Lett.  31, 1618–1620 (2006).
[Crossref] [PubMed]

Yoshima, S.

S. Yoshima, K. Onohara, N. Wada, F. Kubota, and K. Kitayama, “Multicast-capable optical code label switching and its experimental demonstration,” J. Lightwave. Technol.  24, 713–722 (2006).
[Crossref]

G. Cincotti, N. Wada, S. Yoshima, N. Kataoka, and K. Kitayama, “200Gchip/s, 16-label simultaneous multiple-optical encoded decoder and its application to optical packet switching,” presented at Opt. Fiber Commun.(OFC 2005), Anaheim, USA, paper PDP37.

IEEE Photon. Technol. Lett (2)

K. Kitayama and N. Wada, “Photonic IP routing,” IEEE Photon. Technol. Lett.  11, 1689–1691 (1999).
[Crossref]

W. D’Oosterlinck, J. Buron, F. Öhman, G. Morthier, and R. Baets, “All-optical flip-flop based on an SOA/DFB-laser diode optical feedback scheme,” IEEE Photon. Technol. Lett.  19, 489–491 (2007).
[Crossref]

J. Lightwave. Technol (5)

P. C. Teh, P. Petropoulos, M. Ibsen, and D. J. Richardson, “A comparative study of the performance of seven and 63-chip optical code division multiple-access encoders and decoders based on superstructured fiber Bragg gratings,” J. Lightwave. Technol.  19, 1352–1365 (2001).
[Crossref]

P. Seddighian, S. Ayotte, J. B. Rosas-Fernändez, J. Penon, L. A. Rusch, and S. LaRochelle, “Label stacking in photonic packet-switched networks with spectral amplitude code labels,” J. Lightwave. Technol.  25, 463–471 (2007)
[Crossref]

X. Wang and N. Wada, “Experimental demonstration of OCDMA traffic over optical packet switching network with hybrid PLC and SSFBG en/decoders,” J. Lightwave. Technol.  24, 3012–3020 (2006).
[Crossref]

S. J. Ben Yoo, “Optical packet and burst switching technologies for the future photonic internet,” J. Lightwave. Technol.  24, 4468–4492 (2006).
[Crossref]

S. Yoshima, K. Onohara, N. Wada, F. Kubota, and K. Kitayama, “Multicast-capable optical code label switching and its experimental demonstration,” J. Lightwave. Technol.  24, 713–722 (2006).
[Crossref]

Opt. Express (1)

Opt. Lett (1)

Y. Dai, X. Chen, J. Sun, Y. Yao, and S. Xie, “High-performance, high-chip-count optical code division multiple access encoders-decoders based on a reconstruction equivalent-chirp technique,” Opt. Lett.  31, 1618–1620 (2006).
[Crossref] [PubMed]

Other (4)

N. Kataoka, N. Wada, G. Cincotti, K. Kitayama, and T. Miyazaki, “A novel multiplexed optical code label processing with huge number of address entry for scalable optical packet switched network,” in Proc. 33th Eur. Conf. Optical Communication (ECOC), paper 3.2.3, Berlin, Germany, Sep. 2007.

G. Cincotti, N. Wada, S. Yoshima, N. Kataoka, and K. Kitayama, “200Gchip/s, 16-label simultaneous multiple-optical encoded decoder and its application to optical packet switching,” presented at Opt. Fiber Commun.(OFC 2005), Anaheim, USA, paper PDP37.

J. B. Rosas-Fernändez, M. Presi, W. Mathlouthi, S. LaRochelle, L. A. Rusch, and I. H. White, “All optical recognition of 36 SAC-labels with 12.5 GHz minimum bin separation using a single correlator for optical label switching,” in Proc. 33th Eur. Conf. Optical Communication (ECOC), paper 3.2.4, Berline, Germany, Sep. 2007.

H. Tamai, M. Sarashina, K. Sasaki, and M. Kashima, “First demonstration of clockless serial optical code label switching with SSFBGs label recognizer,” presented at Opt. Fiber Commun.(OFC 2007), Anaheim, USA, paper JThA7

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Figures (3)

Fig. 1.
Fig. 1. Measured and calculated reflection spectrum of the stacked encoder OC-A+B+C
Fig. 2.
Fig. 2. The experimental setup for evaluating the stacked OC label’s performance in a multicast network
Fig. 3.
Fig. 3. The LRP’s output results at the destination nodes (50 ps/div)

Equations (9)

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max C i * C j * { = N ( i = j ) λ ( i j ) i , j = 1,2 , M
C s = C k Φ S C k
max C s * C i * { ( N ( m 1 ) λ ) , C i Φ s , C i Φ s
n ˜ ( z ) = n = 0 N 1 A ( z n Z 0 ) c n + 1 exp ( j 2 π Λ z ) + c . c .
h ( t ) = K n ˜ ( c 2 n e t )
y ( t ) = x ( t ) * h e ( t ) * h d ( t ) = K 2 [ n = 0 2 N 2 B ( t n 2 n e c Z 0 ) d n + 1 cos ( 2 c Λ n e t ) ]
max t y ( t ) = max { max t { K 2 B ( t n 2 n e c Z 0 ) d n + 1 cos ( 2 c Λ n e t ) } n = 0,1 , 2 N 2 }
= max { Y max d n + 1 n = 0,1 , 2 N 2 }
max t y ( t ) { ( N ( m 1 ) λ ) Y max , C i Φ s Y max , C i Φ s

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