国立大学法人 香川大学 工学部 電子・情報工学科 神野 正彦研究室国立大学法人 香川大学 工学部 電子・情報工学科 神野 正彦研究室

  • Japanese
  • English
神野 正彦 (Masahiko Jinno)
教授, 博士(工学), IEEEフェロー,IEICEフェロー
Tel: 087-864-2242
Fax: 087-864-2262
Email:
Address: 〒761-0396 高松市林町2217-20

職歴・研究歴

2012年10月から現在 香川大学工学部電子・情報工学科 教授

「光ネットワークの研究と教育」

IEEE Fellow
IEICE Fellow
日本学術振興会科学研究費(科研費)「基盤研究(S)」研究分担者(2014年度から5年間), 「挑戦的萌芽研究」研究代表者(2013年度から2年間)
情報通信研究機構 高度通信・放送研究開発委託研究(2013年度から4年間)

2005 年4月から2012年9月 日本電信電話株式会社 未来ねっと研究所 主幹研究員/グループリーダ

「エラスティック光ネットワークの研究」

IEEE ComSoc/APB Outstanding Paper Award, IEICE ComSoc Best Paper Award, IEICE ComSoc Best Tutorial Paper Award, ITU-T Kaleidoscope 2010 Best Paper Award, NTT総研所長表彰

「アプリケーションアウェア光ネットワークの研究」

OECC 2007 Best Paper Award

2003年4月2005年3月 西日本電信電話株式会社 研究開発センタ 担当部長

「波長多重光伝送システムと光アクセスシステムの開発」

1994年9月から2003年3月 日本電信電話株式会社 光ネットワーク研究所 主任研究員/主幹研究員/担当部長

「超広帯域波長多重光伝送システムとROADM光リングシステムの研究」

OECC 1998 Best Paper Award, OECC 1997 Best Paper Award, NTT社長表彰, NTT特許表彰

1993年9月から1994年8月 米国商務省標準技術研究所(National Institute of Standards and Technology ) 客員研究員

「超高速光サンプリング計測の研究」

1986 年4月から1993年8月 日本電信電話株式会社 伝送システム研究所

「超高速光信号処理の研究」

電子情報通信学会学術奨励賞、NTT研究開発本部長表彰

学歴

1995年9月 大阪大学 博士(工学) 
学位論文「光ファイバ中の非線形光学効果に基づく超高速光伝送処理技術の研究
1986年3月 金沢大学大学院修士課程(電子工学専攻)修了
1984年3月 金沢大学工学部電子工学科 卒業

所属学会

  • IEICE フェロー
  • IEEE シニア会員
  • OSA 会員

(Source: Google Scholar 7/15/2014) Click HERE for latest citations

  1. 468 Citations. Spectrum-Efficient and Scalable Elastic Optical Path Network: Architecture, Benefits, and Enabling Technologies. M. Jinno, H. Takara, B. Kozicki, Y. Tsukishima, Y. Sone, and S. Matsuoka, IEEE Commun. Mag., 47, I66-73 (2009).
  2. 265 Citations. Distance-Adaptive Spectrum Resource Allocation in Spectrum-Sliced Elastic Optical Path Network (SLICE). M. Jinno, B. Kozicki, H. Takara, A. Watanabe, Y. Sone, T. Tanaka, and A. Hirano, IEEE Commun. Mag., 48, 138-145 (2010).
  3. 222 Citations. Elastic Optical Networking: a new dawn for the optical layer. O. Gerstel, M. Jinno, A. Lord, S. J. B. Yoo, IEEE Commun. Mag., 50, S12-S20 (2012).
  4. 136 Citations. Nonlinear Sagnac interferometer switch and its applications. M. Jinno and T. Matsumoto, IEEE J. Quantum Electron., 28, 875-882 (1992).
  5. 126 Citations. Optical tank circuits used for all-optical timing recovery. M. Jinno and T. Matsumoto, IEEE J. Quantum Electron., 28, 895-900 (1992).
  6. 119 Citations. Ultrafast all-optical logic operations in a nonlinear Sagnac intereferometer with two control beams. M. Jinno and T. Matsumoto, Opt. Lett., 16, 220-222 (1991).
  7. 91 Citations. G-lambda: Coordination of a Grid Scheduler and Lambda Path Service over GMPLS, A. Takefusa, M. Hayashi, N. Nagatsu, H. Nakada, T. Kudoh, T. Miyamoto, T. Otani, H. Tanaka, M. Suzuki, Y. Sameshima, W. Imajuku, M. Jinno, Y. Takigawa, S. Okamoto, Y. Tanaka, and S. Sekiguchi, Future Generation Computer Systems, 22, 868-875 (2006).
  8. 80 Citations. First demonstration of 1580 nm wavelength band WDM transmission for doubling usable bandwidth and suppressing FWM in DSF. M. Jinno, T. Sakamoto, J. Kani, S. Aisawa, K. Oda, M. Fukui, H. Ono, and K. Oguch, Electron. Lett., 33,  882-883 (1997).
  9. 76 Citations. All-optical timing extraction using a 1.5 μm self-pulsating multielectrode DFB LD. M. Jinno and T. Matsumoto, Electron. Lett., 24, 1426-1427 (1988).
  10. 59 Citations. Effects of group velocity dispersion on self/cross phase modulation in a nonlinear Sagnac interferometer switch. M. Jinno, J. Lightwave Technol., 10, 1167-1178 (1992).
  11. 56 Citations. All-optical signal regularizing/regeneration using a nonlinear fiber Sagnac interferometer switch that employs signal-clock walk-off. M. Jinno, J. Lightwave Technol., 12, 1648-1659 (1994).
  12. 53 Citations. Wideband and flat-gain optical amplification from 1460 to 1510 nm by serial combination of a thulium-doped fluoride fibre amplifier and fibre Raman amplifier. J. Kani and M. Jinno, Electron. Lett., 35, 1004-1006 (1999).
  13. 49 Citations. Correlated and uncorrelated timing jitter in gain-switched laser diode.      M. Jinno, IEEE Photon. Technol. Lett., 5, 1140-1143, (1993).
  14. 48 Citations. Multi-Flow Optical Transponder for Efficient Multi-layer Optical Networking, M. Jinno, H. Takara, Y. Sone, K. Yonenaga, and A. Hirano, IEEE Commun. Mag. 50, 56-65 (2012).
  15. 42 Citations. Fibre Raman amplifier for 1520 nm band WDM transmission. J. Kani, M. Jinno, and K. Oguchi, Electron. Lett., 34, 1745-1747 (1998).
  16. 42 Citations. Wide wavelength band (1535-1560 nm and 1574-1600 nm), 28× 10 Gbit/s WDM transmission over 320 km dispersion-shifted fibre. T. Sakamoto, J. Kani, M. Jinno, S. Aisawa, M. Fukui, M. Yamada, and K. Oguchi, Electron. Lett., 34, 392-394 (1998).
  17. 40 Citations. Triple-wavelength-band WDM transmission over cascaded dispersion-shifted fibers. J. Kani, K. Hattori, M. Jinno, T. Kanamori, and K. Oguch, IEEE Photon. Technol. Lett., 11, 1506 -1508 (1999).
  18. 39 Citations. Ultra-wideband, long distance WDM demonstration of 1 Tbit/s (50×20 Gbit/s), 600 km transmission using 1550 and 1580 nm wavelength bands. S. Aisawa, T. Sakamoto, M. Fukui, J. Kani, M. Jinno, and K. Oguch, Electron. Lett., 34, 1127 -1129 (1998).
  19. 35 Citations. Trinal wavelength band WDM transmission over dispersion-shifted fibre. J. Kani, K. Hattori, M. Jinno, S. Aisawa, T. Sakamoto, and K. Oguchi, Electron. Lett., 35, 321-322 (1999).
  20. 35 Citations. Signal improvement effect in O/E-E/O conversion using an electro-absorption (EA) modulator. K. Inoue and M. Jinno, IEEE Photon. Technol. Lett. 9, 109-111 (1997).
  21. 34 Citations. Effects of crosstalk and timing jitter on all-optical time-division demultiplexing using a nonlinear fiber Sagnac interferometer switch. M. Jinno, IEEE J. Quantum Electron., 30, 2842-2853 (1994).
  22. 30 Citations. 1580-nm band, equally spaced 8×10 Gb/s WDM channel transmission over 360 km (3×120 km) of dispersion-shifted fiber avoiding FWM impairment. M. Jinno, T. Sakamoto, J. Kani, S. Aisawa, K. Oda, M. Fukui, H. Ono, M. Yamada, and K. Oguchi, IEEE Photon. Technol. Lett., 10, 454-456 (1998).
  23. 30 Citations. Bidirectional transmission to suppress interwavelength-band nonlinear interactions in ultrawide-band WDM transmission systems. J. Kani, M. Jinno, T. Sakamoto, K. Hattori, and K. Oguchi, IEEE Photon. Technol. Lett., 11, 376-378 (1999).
  24. 28 Citations. Optical retiming regenerator using 1.5 μm wavelength multielectrode DFB LDs. M. Jinno and T. Matsumoto, Electron. Lett., 25, 1332-1333 (1989).
  25. 28 Citations. Nonlinear Operations of 1.55 μm wavelength multielectrode distributed-feedback laser diodes and their applications for optical signal processing. M. Jinno and T. Matsumoto, J. Lightwave Technol., 10, 448-457 (1992).
  26. 27 Citations. Bandwidth Squeezed Restoration in Spectrum-Sliced Elastic Optical Path Networks (SLICE). Y. Sone, A. Watanabe, W. Imajuku, Y. Tsukishima, B. Kozicki, H. Takara, and M. Jinno, J. Opt. Commun. Netw., 3,  223- 233 (2011).
  27. 27 Citations. Experimental Demonstration of Spectrum-Sliced Elastic Optical Path Network (SLICE). B. Kozicki, H. Takara, Y. Tsukishima, T. Yoshimatsu, T. Kobayashi, K. Yonenaga, M. Jinno, Optics Express, 18, 22105-22118 (2010).
  28. 25 Citations. 1470 nm band wavelength division multiplexing transmission. J. Kani, T. Sakamoto, M. Jinno, T. Kanamori, M. Yamada, and K. Oguchi, Electron. Lett., 34, 1118-1119 (1998).
  29. 25 Citations. (Invited) Networks: Optical Transport Networks in 2015. M. Jinno, Y. Miyamoto, and Y. Hibino, Nature Photonics, 1, 157-158 (2007).
  30. 24 Citations. A 1580-nm band WDM transmission technology employing optical duobinary coding. S. Aisawa, J. Kani, M. Fukui, T. Sakamoto, M. Jinno, S. Norimatsu, M. Yamada, H. Ono, and K. Oguchi, J. Lightwave Technol., 17, 191-199 (1999).
  31. 23 Citations. PLC-based optical add/drop switch with automatic level control. K. Hattori, M. Fukui, M. Jinno, M. Oguma, and K. Oguchi, J. Lightwave Technol., 17, 2562-2571 (1999).
  32. 22 Citations. Optical sampling using nondegenerated four-wave mixing in a semiconductor laser amplifier. M. Jinno, J. B. Schlager, and D. L. Franzen, Electron. Lett., 30, 1489-1490 (1994).
  33. 22 Citations. All-optical timing extraction using an optical tank circuit. M. Jinno, T. Matsumoto, and M. Koga, IEEE Photon. Technol. Lett., 3, 2003-2004 (1990).
  34. 20 Citations. Interwavelength-band nonlinear interactions and their suppression in multiwavelength-band WDM transmission systems. J. Kani, M. Jinno, T. Sakamoto, S. Aisawa, M. Fukui, K. Hattori, and K. Oguchi, J. Lightwave Technol., 17, 2249 -2260 (1999).
  35. 15 Citations. Flat-gain operation of 1580 nm-band EDFA with gain variation of 0.2 dB over 1579-1592 nm. T. Sakamoto, K. Hattori, J. Kani, M. Fukutoku, M. Fukui, M. Jinno, and K. Oguch , Electron. Lett., 34, 1959 -1961 (1998).
  36. 15 Citations. Demonstration of laser-diode-pumped ultrafast all-optical switching in a nonlinear Sagnac interferometer. M. Jinno and T. Matsumoto, Electron. Lett., 27, 75-76 (1991).
  37. 14 Citations. Effect of timing jitter on an optically-controlled picosecond optical switch. M. Jinno, Opt. Lett., 18, 1409-1411 (1993).
  38. 14 Citations. Ultrafast time-division demultiplexer based on electro-optic on/off gates. M. Jinno, J. Lightwave Technol., 10, 1458-1465 (1992).
  39. 12 Citations. The first functional demonstration of optical virtual concatenation as a technique for achieving Terabit networking. A. Hirano, L. Renambot, B.l Jeong, J. Leigh, A. Verlo, V. Vishwanath, R. Singh, J. Aguilera, A. Johnson, T. A. DeFanti, L. Long, N. Schwarz, M. Brown, N. Nagatsu, Y. Tsukishima, M. Tomizawa, Y. Miyamoto, M. Jinno, Y. Takigawa and O. Ishida, Future Generation Computer Systems, 22, 876-883 (2006).
  40. 12 Citations. Elastic and Adaptive Optical Networks: Possible Adoption Scenarios and Future Standardization Aspects. M. Jinno, T. Ohara, Y. Sone, A. Hirano, O. Ishida, and M. Tomizawa, IEEE Commun. Mag.  49, 164 – 172 (2011).
  41. 11 Citations. 49.6 Gb/s electrooptic demultiplexing using cascaded on/off gates. M. Jinno, IEEE Photon. Technol. Lett., 4, 641-643 (1992).
  42. 10 Citations. Optical Path Aggregation for 1 Tb/s System in Spectrum-Sliced Elastic Optical Path Network. B. Kozicki, H. Takara, Y. Tsukishima, T. Yoshimatsu, T. Kobayashi, K. Yonenaga, and M. Jinno, Photon. Technol. Lett. 22, 1315-1317 (2010).
  43. 9 Citations. Optical tristability including spectral bistability using an inhomogeneously excited multielectrode DFB LD. M. Jinno, M. Koga, and T. Matsumoto, Electron. Lett., 24, 1030-1031, (1988).
  44. 7 Citations. Diode-pumped nonlinear fibre sagnac interferometer switch with integrated silica-based planar lightwave circuit. M. Jinno, T. Matsumoto, T. Kominato, and Y. Hibino, Electron. Lett., 28, 278-279 (1992).
  45. 6 Citations. (Invited) WDM transmission technologies for dispersion-shifted fibers. M. Jinno, M. Fukui, T. Sakamoto, S. Aisawa, J. Kani, and K. Oguchi, IEICE Trans., E81-C, 1264-1275 (1998).
  46. 6 Citations. Recirculating loop experiment for 1580-nm-band large-scale WDM network using dispersion-shifted fiber. T. Sakamoto, M. Fukui, M. Jinno, J. Kani, S. Aisawa, H. Ono, M. Yamada, and K. Oguchi, IEEE Photon. Technol. Lett., 10, 618-620 (1998).
  47. 6 Citations. Virtualized Optical Network (VON) for Future Internet and Applications. M. Jinno, Y. Tsukishima, H. Takara, B. Kozicki, Y. Sone, and T. Sakano, IEICE Trans., E93-B, 470-477 (2010).
  48. 6 Citations. GMPLS Based Survivable Photonic Network Architecture. W. Imajuku, T. Ohara, Y. Sone, I. Shake, Y. Sameshima, and M. Jinno, IEICE Trans., E90-B, 1952-1959 (2007).
  49. 5 Citations. Pump-induced frequency shifting of switched pulses in an interferometric all-optical switch. M. Jinno, Opt. Lett., 8, 726-728 (1993).
  1. Outstanding Paper Award from the Institute of Electrical and Electronics Engineers (IEEE) Communication Society Asia-Pacific Board in 2013
  2. Fellow, the Institute of Electronics, Information and Communication Engineers (IEICE) in 2013
  3. Senior Member, the Institute of Electrical and Electronics Engineers (IEEE) in 2012.
  4. Best Paper Award from the Institute of Electronics, Information and Communication Engineers (IEICE) Communications Society in 2012
  5. Nippon Telegraph and Telephone Corporation (NTT) Patent Award in 2012
  6. Senior Member, IEICE in 2011.
  7. Best Tutorial Paper Award from the IEICE Communications Society in 2011
  8. Best Paper Award from the 2010 ITU-T Kaleidoscope Academic Conference
  9. Best Paper Award from the Optoelectronics and Communications Conferences (OECC) 2007
  10. NTT President Award in 2000
  11. Best Paper Award from the OECC 1998
  12. Best Paper Award from the OECC 1997
  13. Young Engineer's Award from the IEICE in 1993
  14. NTT R&D Award in 1991
  1. (Invited) Recent Advances in Elastic Optical Networks. M. Jinno, Proc. OptoElectronics and Communications Conference and Photonics in Switching 2013, MQ2_1 (2013) (Kyoto, Japan).
  2. (Invited) Toward Deeply Virtualized Elastic Optical Networks, M. Jinno and A. Hirano, Proc. Optical Fiber Communication Conference and Exposition and National Fiber Optic Engineers Conference 2013 (2013) (Anaheim, USA).
  3. (Invited) Elastic optical networking, spectrum flexible optical transport networks. M. Jinno, H. Takara, and K. Yonenaga, Proc. Photonics in Switching Conference 2012 (2012) (Ajaccio, Corsica).(2012.9)
  4. (Invited) Virtualization in Optical Networks: From Elastic Networking Level to Sliceable Equipment Level. M. Jinno, Proc. International Conference on Optical Internet 2012 (2012) (Yokohama, Japan).
  5. (Post Deadline Paper) Demonstration of Translucent Elastic Optical Network Based on Virtualized Elastic Regenerator. M. Jinno, K. Yonenaga, H. Takara,  K. Shibahara, S. Yamanaka, T. Ono, T. Kawai, M. Tomizawa, and Y. Miyamoto, Proc. Optical Fiber Communication Conference and Exposition and National Fiber Optic Engineers Conference 2012 (2012) (Los Angeles, USA).
  6. (Invited) Spectrally-Efficient Elastic Optical Path Network toward 1 Tb/s Era. H. Takara, K. Yonenaga, and M. Jinno, Proc. Optical Fiber Communication Conference and Exposition and National Fiber Optic Engineers Conference 2012 (2012) (Los Angeles, USA).
  7. (Invited) Concept and Enabling Technologies of Spectrum-Sliced Elastic Optical Path Network (SLICE), M. Jinno, H. Takara, and B. Kozicki, Proc. Asia Communications and Photonics Conference 2009 (2009) (Shanghai, China).
  8. (Invited) Overcoming the looming capacity crunch -Elastic and adaptive optical networking as a network level solution-. M. Jinno, Proc. Asia Communications and Photonics Conference 2011 (2011) (Shanghai, China).
  9. (Invited) Experimental Demonstration of 400 Gbps Multi-Flow, Multi-Reach Optical Transmitter for Efficient Elastic Spectral Routing. H. Takara, T. Goh, K. Shibahara, K. Yonenaga, S. Kawai, and M. Jinno, Proc. European Conference on Optical Communications 2011 (2011) (Geneva, Switzerland).
  10. (Invited) Why do we need elastic optical networking in the 1 Tbps era? M. Jinno, H. Takara, and k. Yonenaga, Proc. The Pacific Rim Conference on Lasers and Electro-Optics 2011 (2011) (Sydney, Australia).
  11. (Invited) Elastic Optical Path Networking: Enhancing Network Capacity and Disaster Survivability toward 1 Tbps Era. M. Jinno, H. Takara, and Y. Sone, Proc. Optoelectronics and Communications Conference 2011 (2011) (Kaohsiung, Taiwan).
  12. (Invited) Efficient elastic optical path network for transmission beyond 100G. B. Kozicki, H. Takara, K. Yonenaga, and M. Jinno, Proc. SPIE Photonics West 2011 (2011).
  13. (Invited) Experimental demonstrations of Adaptive Spectrum Allocation in SLICE. B. Kozicki, H. Takara, and M. Jinno, Proc. Asia Communications and Photonics Conference 2010, (2010) (Shanghai, China).
  14. (Invited) Spectrum-Sliced Elastic Optical Path Network (SLICE). M. Jinno, H. Takara, and B. Kozicki, Proc. Asia Pacific Communications Conference 2010 (2010) (Auckland, New Zealand).
  15. (Invited) Spectrum Sliced Elastic Optical Path Network (SLICE). H. Takara, B. Kozicki, and M. Jinno, Proc. Optoelectronics and Communications Conference 2010 (2010) (Sapporo, Japan).
  16. (Invited) Dynamic Mesh Networking: Drivers, Challenges, and Solutions for the Future, M. Jinno, H. Takara, and B. Kozicki, Proc. European Conference on Optical Communications 2009, 7.7.4, (2009) (Vienna, Austria).
  17. (Invited) 1 Tb/s Optical Link Aggregation with Spectrum-Sliced Elastic Optical Path Network SLICE. B. Kozicki, H. Takara, Y. Tsukishima, T. Yoshimatsu, K. Yonenaga, and M. Jinno, Proc. European Conference on Optical Communications 2009, 8.3.4. (2009) (Vienna, Austria)
  18. (Invited) Virtualized Optical Network (VON) for Agile Cloud Computing Environment. M. Jinno and Y. Tsukishima, Proc. Optical Fiber Communication Conference and Exposition and National Fiber Optic Engineers Conference 2009, OMG1 (2009) (San Diego, USA).
  19. (Invited) Optical transport networks: current challenges and solutions for the future. M. Jinno, Proc. World Telecommunication Congress 2008 (2008).
  20. (Invited) Emerging Advanced Optical Transmission Technologies: Their Impact on Optical Transport Networks and Optical Packet Switching. M. Jinno, Proc. International Topical Meeting on Photonic in Switching 2008, S-06-3 (2008).
  21. (Invited) Recent advances on node technologies in photonic networks. Y. Hibino and M. Jinno, Proc. International Topical Meeting on Photonic in Switching 2007, TuA2.6 (2007).
  22. (Invited) Network as a resource: G-lambda project and its architecture. T. Kudoh, S. Okamoto, Y. Tsukishima, H. Tanaka, M. Jinno, M. Hayashi, A. Takefusa, T. Otani, A. Taniguchi, A. Hirano, T. Miyamoto, H. Nakada, Y. Sameshima, Proc. International conference on Networks for grid applications, Article 18 (2007).
  23. (Invited) Advanced optical transmission and switching technologies for next generation wavelength-abundant IP/Optical networks. M. Jinno, T. Ohara, J. Yamawaku, and M. Tomizawa, Proc. TERENA Networking Conference 2005 (2005) (Poznan, Poland).
  24. (Invited) Ultra-wide band WDM networks and supporting technologies. K. Oguchi, M. Jinno, and T. Kitagawa, Proc. The Pacific Rim Conference on Lasers and Electro-Optics 1999, FT2, 1277-1278 (1999).
  25. (Invited) Ultra-wide-band WDM networks and supporting technologies. M. Jinno, J. Kani, and K. Oguchi, Proc. European Conference on Networks and Optical Communications 1999, 2 (Core Networks and Network Management), 90-97 (1999).
  26. (Invited) Ultra-wide band WDM transmission: Issues and enabling technologies. M. Jinno, T. Sakamoto, M. Fukui, S. Aisawa, J. Kani, and K. Oguchi, Proc. Optoelectronics and Communications Conference 1998 (1998).

著書

  1. (Book Chapter) “Cross-layer Design in Optical Networks” Editors: S. Subramaniam, et al..(Springer) Chapter 15, “Cross-Layer Network Design and Control Testbeds” Authors: M. Jinno and Y. Tsukishima
  2. (Book Chapter) “Optical Fiber Telecommunications VI ,” Editors: Ivan P. Kaminow, Tingye Li, and Alan E. Willner, (Elsevier)  Chapter 14, “Elastic Optical Networking” Authors: O. Gerstraland M. Jinno
  3. (Book Chapter)「超高速ネットワーク技術」(電気通信協会)2000年11月         河内正夫監修、藤井伸朗・山林由明編著、神野正彦 他22名

論文(査読つき)

  1. New method for polarisation alignment of birefringent fibre with laser diode. Y. Ida, K. Hayashi, M. Jinno, T. Horii, and K. Arai, Electron. Lett. 21, 18-20 (1985).
  2. All-Fibre Temperature Sensing System. Y. Ida, K. Hayashi, K. Arai, and M. Jinno, IEICE Trans., E68-E , 512-514 (1985).
  3. Polarization alignment of polarization maintaining fiber by using frequency-swept LD. K. Hayashi, K. Arai, Y. Ida,  and M. Jinno, IEICE Trans., J68-C, 311-312 (1985).
  4. All-fiber thermo-sensing system using birefringent optical fibers. K. Hayashi, K. Arai, Y. Ida, and M. Jinno, IEICE Trans., J70-C, 1083-1091 (1987).
  5. Optical tristability including spectral bistability using an inhomogeneously excited multielectrode DFB LD. M. Jinno, M. Koga, and T. Matsumoto, Electron. Lett., 24, 1030-1031, (1988).
  6. All-optical timing extraction using a 1.5 μm self-pulsating multielectrode DFB LD. M. Jinno and T. Matsumoto, Electron. Lett., 24, 1426-1427 (1988).
  7. Optical retiming regenerator using 1.5 μm wavelength multielectrode DFB LDs. M. Jinno and T. Matsumoto, Electron. Lett., 25, 1332-1333 (1989).
  8. Ultrafast, low power, and highly stable all-optical switching in an all-polarization-maintaining fiber Sagnac interferometer. M. Jinno and T. Matsumoto, IEEE Photon. Technol. Lett., 2, 349-351 (1990).
  9. All-optical timing extraction using an optical tank circuit. M. Jinno, T. Matsumoto, and M. Koga, IEEE Photon. Technol. Lett., 3, 2003-2004 (1990).
  10. Ultrafast all-optical logic operations in a nonlinear Sagnac intereferometer with two control beams. M. Jinno and T. Matsumoto, Opt. Lett., 16, 220-222 (1991).
  11. Demonstration of laser-diode-pumped ultrafast all-optical switching in a nonlinear Sagnac interferometer. M. Jinno and T. Matsumoto, Electron. Lett., 27, 75-76 (1991).
  12. 49.6 Gb/s electrooptic demultiplexing using cascaded on/off gates. M. Jinno, IEEE Photon. Technol. Lett., 4, 641-643 (1992).
  13. Diode-pumped nonlinear fibre sagnac interferometer switch with integrated silica-based planar lightwave circuit. M. Jinno, T. Matsumoto, T. Kominato, and Y. Hibino, Electron. Lett., 28, 278-279 (1992).
  14. All-optical regenerator based on a nonlinear fiber Sagnac interferometer. M. Jinno and M. Abe, Electron. Lett., 28, 1350-1351 (1992).
  15. Nonlinear Sagnac interferometer switch and its applications. M. Jinno and T. Matsumoto, IEEE J. Quantum Electron., 28, 875-882 (1992).
  16. Optical tank circuits used for all-optical timing recovery. M. Jinno and T. Matsumoto, IEEE J. Quantum Electron., 28, 895-900 (1992).
  17. Nonlinear Operations of 1.55 μm wavelength multielectrode distributed-feedback laser diodes and their applications for optical signal processing. M. Jinno and T. Matsumoto, J. Lightwave Technol., 10, 448-457 (1992).
  18. Ultrafast time-division demultiplexer based on electro-optic on/off gates. M. Jinno, J. Lightwave Technol., 10, 1458-1465 (1992).
  19. Effects of group velocity dispersion on self/cross phase modulation in a nonlinear Sagnac interferometer switch. M. Jinno, J. Lightwave Technol., 10, 1167-1178 (1992).
  20. Pump-induced frequency shifting of switched pulses in an interferometric all-optical switch. M. Jinno, Opt. Lett., 8, 726-728 (1993).
  21. Correlated and uncorrelated timing jitter in gain-switched laser diode.         M. Jinno, IEEE Photon. Technol. Lett., 5, 1140-1143, (1993).
  22. Effect of timing jitter on an optically-controlled picosecond optical switch. M. Jinno, Opt. Lett., 18, 1409-1411 (1993).
  23. All-optical signal regularizing/regeneration using a nonlinear fiber Sagnac interferometer switch that employs signal-clock walk-off. M. Jinno, J. Lightwave Technol., 12, 1648-1659 (1994).
  24. Effects of crosstalk and timing jitter on all-optical time-division demultiplexing using a nonlinear fiber Sagnac interferometer switch. M. Jinno, IEEE J. Quantum Electron., 30, 2842-2853 (1994).
  25. Optical sampling using nondegenerated four-wave mixing in a semiconductor laser amplifier. M. Jinno, J. B. Schlager, and D. L. Franzen, Electron. Lett., 30, 1489-1490 (1994).
  26. Millimeter-resolution optical time-domain reflectometry using a four-wave mixing sampling gate. J. B. Schlager, M. Jinno, and D. L. Franzen, Photon. Technol. Lett., 7, 206-208 (1995).
  27. Signal improvement effect in O/E-E/O conversion using an electro-absorption (EA) modulator. K. Inoue and M. Jinno, IEEE Photon. Technol. Lett. 9, 109-111 (1997).
  28. First demonstration of 1580 nm wavelength band WDM transmission for doubling usable bandwidth and suppressing FWM in DSF. M. Jinno, T. Sakamoto, J. Kani, S. Aisawa, K. Oda, M. Fukui, H. Ono, and K. Oguch, Electron. Lett., 33,  882-883 (1997).
  29. Wide-bandwidth, high sensitivity, optically pre-amplified receiver for 1580 nm band 10 Gbit/s WDM signals. S. Aisawa, T. Sakamoto, J. Kani, M. Jinno, H. Ono, M. Yamada, and K. Oguchi, Electron. Lett., 33, 2071-2073 (1997).
  30. Flat-gain operation of 1580 nm-band EDFA with gain variation of 0.2 dB over 1579-1592 nm. T. Sakamoto, K. Hattori, J. Kani, M. Fukutoku, M. Fukui, M. Jinno, and K. Oguch  , Electron. Lett., 34, 1959 -1961 (1998).
  31. Ultra-wideband, long distance WDM demonstration of 1 Tbit/s (50×20 Gbit/s), 600 km transmission using 1550 and 1580 nm wavelength bands. S. Aisawa, T. Sakamoto, M. Fukui, J. Kani, M. Jinno, and K. Oguch, Electron. Lett., 34, 1127 -1129 (1998).
  32. Fibre Raman amplifier for 1520 nm band WDM transmission. J. Kani, M. Jinno, and K. Oguchi, Electron. Lett., 34, 1745-1747 (1998).
  33. 1470 nm band wavelength division multiplexing transmission. J. Kani, T. Sakamoto, M. Jinno, T. Kanamori, M. Yamada, and K. Oguchi, Electron. Lett., 34, 1118-1119 (1998).
  34. Recirculating loop experiment for 1580-nm-band large-scale WDM network using dispersion-shifted fiber. T. Sakamoto, M. Fukui, M. Jinno, J. Kani, S. Aisawa, H. Ono, M. Yamada, and K. Oguchi, IEEE Photon. Technol. Lett., 10, 618-620 (1998).
  35. 1580-nm band, equally spaced 8×10 Gb/s WDM channel transmission over 360 km (3×120 km) of dispersion-shifted fiber avoiding FWM impairment. M. Jinno, T. Sakamoto, J. Kani, S. Aisawa, K. Oda, M. Fukui, H. Ono, M. Yamada, and K. Oguchi, IEEE Photon. Technol. Lett., 10, 454-456 (1998).
  36. Dispersion-compensation-free 16 x 10 Gbit/s WDM transmission in 1580 nm band over 640 km of dispersion-shifted fibre by employing optical duobinary coding. S. Aisawa, J. Kani, M. Fukui, T. Sakamoto, M. Jinno, S. Norimatsu, H. Ono, and K. Oguchi, Electron. Lett., 34, 480 -481 (1998).
  37. Wide wavelength band (1535-1560 nm and 1574-1600 nm), 28× 10 Gbit/s WDM transmission over 320 km dispersion-shifted fibre. T. Sakamoto, J. Kani, M. Jinno, S. Aisawa, M. Fukui, M. Yamada, and K. Oguchi, Electron. Lett., 34, 392-394 (1998).
  38. (Invited) WDM transmission technologies for dispersion-shifted fibers. M. Jinno, M. Fukui, T. Sakamoto, S. Aisawa, J. Kani, and K. Oguchi, IEICE Trans., E81-C, 1264-1275 (1998).
  39. Triple-wavelength-band WDM transmission over cascaded dispersion-shifted fibers  . J. Kani, K. Hattori, M. Jinno, T. Kanamori, and K. Oguch, IEEE Photon. Technol. Lett., 11,  1506 -1508 (1999).
  40. Wideband and flat-gain optical amplification from 1460 to 1510 nm by serial combination of a thulium-doped fluoride fibre amplifier and fibre Raman amplifier. J. Kani and M. Jinno, Electron. Lett., 35, 1004-1006 (1999).
  41. Bidirectional transmission to suppress interwavelength-band nonlinear interactions in ultrawide-band WDM transmission systems. J. Kani, M. Jinno, T. Sakamoto, K. Hattori, and K. Oguchi, IEEE Photon. Technol. Lett., 11, 376-378 (1999).
  42. Trinal wavelength band WDM transmission over dispersion-shifted fibre. J. Kani, K. Hattori, M. Jinno, S. Aisawa, T. Sakamoto, and K. Oguchi, Electron. Lett., 35, 321-322 (1999).
  43. Interwavelength-band nonlinear interactions and their suppression in multiwavelength-band WDM transmission systems. J. Kani, M. Jinno, T. Sakamoto, S. Aisawa, M. Fukui, K. Hattori, and K. Oguchi, J. Lightwave Technol., 17, 2249 -2260 (1999).
  44. (Invited) Novel 1470-nm-band WDM transmission and its application to ultra-wide-band WDM transmission. J. Kani, T. Sakamoto, M. Jinno, K. Hattori, M. Yamada, T. Kanamori, and K. Oguchi, IEICE Trans., E82-B, 1131-1140 (1999).
  45. A 1580-nm band WDM transmission technology employing optical duobinary coding. S. Aisawa, J. Kani, M. Fukui, T. Sakamoto, M. Jinno, S. Norimatsu, M. Yamada, H. Ono, and K. Oguchi, J. Lightwave Technol., 17, 191-199 (1999).
  46. PLC-based optical add/drop switch with automatic level control. K. Hattori, M. Fukui, M. Jinno, M. Oguma, and K. Oguchi, J. Lightwave Technol., 17, 2562-2571 (1999).
  47. Studies on Optical Digital Cross-Connect Systems for Very-High-Speed Optical Communications Networks. T. Matsumoto, K. Kimura, K. Noguchi, and M. Jinno , IEICE Trans., E83-B, 30-37 (2000).
  48. G-lambda: Coordination of a Grid Scheduler and Lambda Path Service over GMPLS.   A. Takefusa, M. Hayashi, N. Nagatsu, H. Nakada, T. Kudoh, T. Miyamoto, T. Otani, H. Tanaka, M. Suzuki, Y. Sameshima, W. Imajuku, M. Jinno, Y. Takigawa, S. Okamoto, Y. Tanaka, and S. Sekiguchi, Future Generation Computer Systems, 22, 868-875 (2006).
  49. The first functional demonstration of optical virtual concatenation as a technique for achieving Terabit networking. A. Hirano, L. Renambot, B.l Jeong, J. Leigh, A. Verlo, V. Vishwanath, R. Singh, J. Aguilera, A. Johnson, T. A. DeFanti, L. Long, N. Schwarz, M. Brown, N. Nagatsu, Y. Tsukishima, M. Tomizawa, Y. Miyamoto, M. Jinno, Y. Takigawa and O. Ishida, Future Generation Computer Systems, 22, 876-883 (2006).
  50. (Invited) Optical Transport Networks in 2015. M. Jinno, Y. Miyamoto, and Y. Hibino, Nature Photonics, 1, 157-158 (2007).
  51. GMPLS Based Survivable Photonic Network Architecture. W. Imajuku, T. Ohara, Y. Sone, I. Shake, Y. Sameshima, and M. Jinno, IEICE Trans., E90-B, 1952-1959 (2007).
  52. GMPLS-Based Multiple Failure Recovery Employing Restoration Scheme Escalation in Optical Path Networks. Y. Sone, W. Imajuku, N. Nagatsu, and M. Jinno, IEICE Trans., E92-B, 46-58 (2009).
  53. Multi-layer Lambda Grid with Exact Bandwidth Provisioning Over Converged IP and Optical Networks. Y. Tsukishima, Y. Sameshima, A. Hirano, M. Jinno, T. Kudoh, and F. Okazaki, J. Lightwave Technol., 27, 1776-1784 (2009).
  54. Spectrum-Efficient and Scalable Elastic Optical Path Network: Architecture, Benefits, and Enabling Technologies. M. Jinno, H. Takara, B. Kozicki, Y. Tsukishima, Y. Sone, and S. Matsuoka, IEEE Commun. Mag., 47, I66-73 (2009).
  55. Influence of Intra-channel Crosstalk with Frequency Dependence on Signal Degradation in Optical Switch Network. S. Yamamoto, T. Yoshimatsu, H. Takara, T. Komukai, Y. Hashizume, H. Kubota, H. Masuda, M. Jinno, and A. Takada, J. Lightwave Technol., 27, 5716-5722 (2009).
  56. (Invited) , (Best Tutorial Paper Award)ダイナミックで帯域スケーラブルな光ネットワークアーキテクチャとその実現技術. 神野正彦, 高良 秀彦, and バルトロメル コシッツキ, 電子情報通信学会論文誌, J93-B,  403-411 (2010).
  57. Virtualized Optical Network (VON) for Future Internet and Applications. M. Jinno, Y. Tsukishima, H. Takara, B. Kozicki, Y. Sone, and T. Sakano, IEICE Trans., E93-B, 470-477 (2010).
  58. Distance-Adaptive Spectrum Resource Allocation in Spectrum-Sliced Elastic Optical Path Network (SLICE). M. Jinno, B. Kozicki, H. Takara, A. Watanabe, Y. Sone, T. Tanaka, and A. Hirano, IEEE Commun. Mag., 48, 138-145 (2010).
  59. Optical Path Aggregation for 1 Tb/s System in Spectrum-Sliced Elastic Optical Path Network. B. Kozicki, H. Takara, Y. Tsukishima, T. Yoshimatsu, T. Kobayashi, K. Yonenaga, and M. Jinno, Photon. Tecnol. Lett. 22, 1315-1317 (2010).
  60. Grid Network Service - Web Services Interface Version 2 Achieving Scalable Reservation of Network Resources Across Multiple Network Domains. Y. Tsukishima, M. Hayashi, T. Kudoh, A. Hirano, T. Miyamoto, A. Takefusa, A. Taniguchi, S. Okamoto, H. Nakada, Y. Sameshima, H. Tanaka, F. Okazaki, and M. Jinno, IEICE Trans., E93-B, 2696-2705 (2010).
  61. Experimental Demonstration of Spectrum-Sliced Elastic Optical Path Network (SLICE). B. Kozicki, H. Takara, Y. Tsukishima, T. Yoshimatsu, T. Kobayashi, K. Yonenaga, M. Jinno, Optics Express, 18, 22105-22118 (2010).
  62. Bandwidth Squeezed Restoration in Spectrum-Sliced Elastic Optical Path Networks (SLICE). Y. Sone, A. Watanabe, W. Imajuku, Y. Tsukishima, B. Kozicki, H. Takara, and M. Jinno, J. Opt. Commun. Netw., 3,  223- 233 (2011).
  63. Multi-layer Hypercube Photonic Network Architecture for Intra-Datacenter Network. T. Sakano, A. Kadohata, Y. Sone, A. Watanabe, and M. Jinno, IEICE Trans., E94-B, 910-917 (2011).
  64. (Best Paper Award) Distance-adaptive path allocation in elastic optical path networks. B. Kozicki, H. Takara, T. Tanaka, Y. Sone, A. Hirano, K. Yonenaga, and M. Jinno, IEICE Trans., E94-B, 1823-1830 (2011).
  65. Elastic and Adaptive Optical Networks: Possible Adoption Scenarios and Future Standardization Aspects. M. Jinno, T. Ohara, Y. Sone, A. Hirano, O. Ishida, and M. Tomizawa, IEEE Commun. Mag., 49, 164 – 172 (2011).
  66. (Invited) Elastic Optical Path Network Architecture: Framework for Spectrally-Efficient and Scalable Future Optical Networks. M. Jinno, H. Takara, Y. Sone, K. Yonenaga, and A. Hirano, IEICE Trans., E95-3, 706-713 (2012).
  67. (Invited) Elastic Optical Networking: a new dawn for the optical layer. O. Gerstel, M. Jinno, A. Lord, S. J. B. Yoo, IEEE Commun. Mag., 50, S12-S20 (2012).
  68. Multi-Flow Optical Transponder for Efficient Multi-layer Optical Networking, M. Jinno, H. Takara, Y. Sone, K. Yonenaga, and A. Hirano, IEEE Commun. Mag. 50, 56-65 (2012).
  69. Impact of Elastic Optical Paths That Adopt Distance Adaptive Modulation to Create Efficient Networks, T Takagi, H Hasegawa, K Sato, S Yoshiaki, A Hirano, and M. Jinno, IEICE Transactions on Communications 95, 3793-3801 (2012).
  70. Impact of Transponder Architecture on the Scalability of Optical Nodes in Elastic Optical Networks, T Tanaka, A Hirano, and M. Jinno, IEEE Communications Letters 17, 1846-1848 (2013).
  71. (Invited) Virtualization in Optical Networks from Network Level to Hardware Level, M. Jinno, H Takara, K Yonenaga, and A Hirano, Journal of Optical Communications and Networking 5, A46-A56 (2013).
  72. Advantages of IP over elastic optical networks using multi-flow transponders from cost and equipment count aspects, T Tanaka, A Hirano, and M. Jinno, Optics express 22, 62-70 (2014).
  73. (Invited) Recent Advances in Elastic Optical Networking, T. Tanaka and M. Jinno, IEICE Transactions on Communications 97, 1252-1258 (2014).

国際会議(査読つき)

  1. All-optical timing extraction using optical tank circuit. M. Jinno and T. matsumoto, Proc. International Conference on Integrated Optics and Optical Fiber Communication 1989, (1989) (Kobe, Japan).
  2. Optical retiming regenerator using 1.5 micron wavelength multielectrode DFB LDs. M. Jinno and T. matsumoto, Proc. European Conference on Optical Communications 1989, (1989)(Gothenburg, Sweden).
  3. Ultrafast, low power, and highly stable all-optical switching in an all polarization maintaining fiber Sagnac interferometer. M. Jinno and T. Matsumoto, Proc. International Topical Meeting on Photonic Switching 1990, 130-133, (1990) (Kobe, Japan).
  4. Ultrafast all-optical logic operations in a nonlinear Sagnac interferometer with two pump beams. M. Jinno and T. matsumoto, Proc. Conference on Optical Fiber Communication 1991, (1991).
  5. Ultrafast all-optical cell expander for photonic asynchronous transfer mode networks. M. Jinno, T. Morioka, T. Matsumoto, M. Saruwatari, Proc. Conference on Optical Fiber Communication 1991, (1991).
  6. Demultiplexing of a 40-Gb/s optical signal to 2.5 Gb/s using a nonlinear fiber loop mirror driven by amplified, gain-switched laser diode pulses. A. Takada, K. Aida, and M. Jinno, Proc. Conference on Optical Fiber Communication 1991, TuN3, (1991).
  7. Diode-pumped nonlinear fiber Sagnac interferometer switch with integrated silica-based planar lightwave circuit. M. Jinno, T. Matsumoto, T. Kominato, and Y. Hibino. Proc. Conference on Optical Fiber Communication 1992, (1992).
  8. Optical sampling using nondegenerate four-wave mixing in a semiconductor laser amplifier M. Jinno, J. B. Schlager, and D. L. Franzen, Proc. Topical Meeting on Optical Amplifier and Their Applications 1994, (1994).
  9. Optical digital cross-connect system for high-bit rate data networks that uses a liquid-crystal multichannel optical switch. K. Noguchi, K. Kimura, M. Jinno, and T. Matsumoto, Proc. Conference on Optical Fiber Communication 1994, ThI5, 222-223, (1994).
  10. Studies on optical digital cross-connect systems for very-high-speed optical communications networks. T. Matsumoto, M. Jinno, K. Kimura, and K. Noguchi, Proc. IEEE International Conference on Communications 1994, 1060-1065, (1994).
  11. (Best Paper Award) First demonstration of 1580nm wavelength band WDM transmission for doubling usable bandwidth and suppressing FWM in DSF. M. Jinno, T. Sakamoto, J. Kani, S. Aisawa, K. Oda, M. Fukui, H. Ono, and K. Oguchi, Proc. Optoelectronics and Communications Conference 1997, 406-407 (1997).
  12. Wavelength-related channel administration and wavelength dilation in photonic networks. K. Oguchi, M. Jinno, K. Shimano, and K. Noguchi, Proc. Optoelectronics and Communications Conference 1997, 432-433 (1997).
  13. 1580nm band, equally-spaced 8x10Gbps WDM channel transmission over 360km (3x120km) of dispersion-shifted fiber avoiding FWM impairment. M. Jinno, T. Sakamoto, J. Kani, S. Aisawa, K. Oda, M. Fukui, H. Ono, M. Yamada, and K. Oguchi, Proc. Topical Meeting on Optical Amplifier and Their Applications 1997, 21-23 (1997).
  14. First demonstration of 1580 nm-band large scale WDM ring network over dispersion-shifted fiber employing optical add-drop multiplexers. T. Sakamoto, M. Fukui, M. Jinno, J. Kani, S. Aisawa, H. Ono, M. Yamada, and K. Oguchi, Proc. European Conference on Optical Communications 1997,  5-8 (1997).
  15. Wide-bandwidth, high-sensitivity optically pre-amplified receiver for 1580nm band 10 Gb/s WDM signals. S. Aisawa, T. Sakamoto, J. Kani, M. Jinno, H. Ono, M. Yamada, and K. Oguchi, Proc. European Conference on Optical Communications 1997, 150-153 (1997).
  16. Equally-spaced 8x10 Gbps optical duobinary WDM transmission in 1580-nm band over 500 km of dispersion-shifted fiber without dispersion. S. Aisawa, T. Sakamoto, J. Kani, M. Jinno, S. Norimatsu, M. Yamada, and K. Oguchi, Proc. Conference on Optical Fiber Communication 1998, 411-413 (1998).
  17. (Post Deadline Paper) Ultra-wide band, long distance WDM transmission demonstration: 1 Tb/s (50 x 20 Gb/s), 600 km transmission using 1550 and 1580 nm wavelength bands. S. Aisawa, T. Sakamoto, M. Fukui, J. Kani, M. Jinno, and K. Oguch, Proc. Conference on Optical Fiber Communication 1998, PD11 (1998).
  18. (Best Paper Award) Design of ultra-wide band (1450-4650 nm) WDM transmission systems considering intra- and inter-wavelength-band nonlinear interactions. M. Jinno, J. Kani, and K. Oguchi, Proc. European Conference on Networks and Optical Communications 1998, 3, 1, 205-208 (1998).
  19. Pump Power Reduction of Optical Feedback Controlled EDFA Using Electrical Feed forward Control. M. Fukutoku and M. Jinno, Proc. Topical Meeting on Optical Amplifier and Their Applications 1998, AA6, 32 (1998).
  20. Properties of Gain-shifted EDFA (1580 nm-band EDFA) Cascades in WDM Transmission Systems. T. Sakamoto, K. Hattori, M. Fukutoku, M. Fukui, M. Jinno, and K. Oguchi, Proc. Topical Meeting on Optical Amplifier and Their Applications 1998, CA10 (1998).
  21. (Invited) Ultra-wide band WDM transmission: Issues and enabling technologies. M. Jinno, T. Sakamoto, M. Fukui, S. Aisawa, J. Kani, and K. Oguchi, Proc. Optoelectronics and Communications Conference 1998 (1998).
  22. Bi-directional transmission to suppress inter-wavelength-band nonlinear interactions in ultra-wide band WDM transmission systems. J. Kani, M. Jinno, T. Sakamoto, K. Hattori, and K. Oguchi, Proc. Optoelectronics and Communications Conference 1998, 412-413 (1998).
  23. (Best Paper Award) Novel 1470 nm band wavelength division multiplexing transmission. J. Kani, T. Sakamoto, M. Jinno, T. Kanamori, M. Yamada, and K. Oguchi, Proc. Optoelectronics and Communications Conference 1998, 406-407 (1998).
  24. All-PLC-based optical ADM with high isolation and polarization-independent level equalizer. K. Hattori, M. Fukui, M. Jinno, M. Oguma, and K. Oguchi, Proc. European Conference on Optical Communications 1998, 327-328 (1998).
  25. 1580 nm band all-optical ADM node prototype equipped with automatic level control. M. Fukui, T. Sakamoto, M. Jinno, S. Aisawa, M. Fukutoku, H. Ono, and K. Oguchi, Proc. European Conference on Optical Communications 1998, 571-572 (1998).
  26. Future fully wavelength furnished optical network and supporting technologies . K. Oguchi, M. Jinno, S. Norimatsu and T. Kitagawa, Proc. SPIE International Conference on Applications of Photonic Technology III 1998, 3491, 639-644 (1998).
  27. (Invited) Ultra-wide-band WDM networks and supporting technologies. M. Jinno, J. Kani, and K. Oguchi, Proc. European Conference on Networks and Optical Communications 1999, 2 (Core Networks and Network Management), 90-97 (1999).
  28. OA&M functions of optical channel based protection ring. K Shimano, S Aisawai, M Jinno, H Ono, M. Fukutoku, K. Hattori, S. Kuwano, and K. Oguchi, Proc. European Conference on Networks and Optical Communications 1999, 2 (Core Networks and Network Management), 60-67 (1999).
  29. Eight-channel arrayed optical add/drop module with BER measurement and drop/continue functions. K. Hattori, K. Shimano, M. Oguma, T. Goh, and M. Jinno, Proc. Asia Pacific Communications Conference and Optoelectronics and Communications Conference 1999, 2, 667-1668 (1999).
  30. Trinal-wavelength-band WDM transmission over dispersion-shifted fiber. J. Kani, K. Hattori, M. Jinno, S. Aisawa, T. Sakamoto, and K. Oguch, Proc. Conference on Optical Fiber Communication 1999, 2, 159-161 (1999).
  31. Triple-wavelength-band WDM transmission over cascaded dispersion-shifted fibers. J. Kani, K. Hattori, M. Jinno, T. Kanamori, and K. Oguchi, Proc. Topical Meeting on Optical Amplifier and Their Applications 1999, WC2, 26-29 (1999).
  32. Automatic Gain Control in Silica-Based EDFA with over 50-nm Flat Gain Bandwidth using an All Optical Feedback Loop. H. Ono, M. Fukutoku, and M. Jinno, Proc. Topical Meeting on Optical Amplifier and Their Applications 1999, ThA4, (1999).
  33. (Invited) Ultra-wide band WDM networks and supporting technologies. K. Oguchi, M. Jinno, and T. Kitagawa, Proc. The Pacific Rim Conference on Lasers and Electro-Optics 1999, FT2, 1277-1278 (1999).
  34. Multi channel ultra wide band WDM networks and its supporting technologies. K. Oguchi, M. Jinno, J. Kani, K. Tanaka, and T. Kitagawa, Proc. SPIE International Conference on the Applications of Photonic Technology, NA-II.2 (SPIE Proceedings Vol.4087), 124-129 (2000) (Quebec City, Canada).
  35. (Invited) Advanced optical transmission and switching technologies for next generation wavelength-abundant IP/Optical networks. M. Jinno, T. Ohara, J. Yamawaku, and M. Tomizawa, Proc. TERENA Networking Conference 2005 (2005) (Poznan, Poland).
  36. Demonstration of automatic multi-reliability service class LSP provisioning via coordination of GMPLS and OIF-O-UNI. T. Ohara, W. Imajuku, M. Fukutoku, and M. Jinno, Proc. Conference on Optical Fiber Communication 2006, OWQ5 (2006).
  37. Traffic-Driven Distributed LSP control for MPLS/GMPLS Multi-layer Networks. A. Taniguchi, Y. Tsukishima, Y. Sameshima, W. Imajuku, and M. Jinno, Proc. Optoelectronics and Communications Conference, 5E4-6 (2006).
  38. Optical Path Restoration Scheme Escalation Achieving Operationability Enhancement and High Survivability under Multiple Failure Scenarios. Y. Sone, N. Nagatsu, W. Imajuku, M. Jinno, and Y. Takigawa, Proc. World Telecommunication Congress 2006 (2006).
  39. (Post Deadline Paper) The First Application-driven Lambda-on-Demand Field Trial over a US Nationwide Network. Y. Tsukishima, A. Hirano, N. Nagatsu, T.a Ohara, W. Imajuku, M. Jinno, Y. Takigawa, K. Hagimoto, L. Renambot, B. Jeong, J. Leigh, T. DeFanti, A. Verlo, and L. Winkler, Proc. Conference on Optical Fiber Communication 2006, PDP48 (2006).
  40. Stable IP-Routing Link Restoration: GUNI Restoration for Data Link Failure between Routers in a Nationwide Photonic Network. Y. Tsukishima, A. Hirano, N. Nagatsu, T.a Ohara, W. Imajuku, M. Jinno, Y. Takigawa, K. Hagimoto, L. Renambot, B. Jeong, J. Leigh, T. DeFanti, A. Verlo, and L. Winkler, Proc. European Conference on Optical Communications 2006, We4.1.4 (2006).
  41. (Post Deadline Paper) Field Trial of MPLS/GMPLS Interworking Based on Traffic-Driven Distributed LSP Control over JGN Ⅱ testbed. Y. Sameshima, A. Taniguchi, W. Imajuku, Y. Tsukishima, and M. Jinno, Proc. Optoelectronics and Communications Conference 2006, PD (2006).
  42. Multiple-failure recovery of optical path by GMPLS based restoration scheme escalation. Y. Sone, W. Imajuku, and M. Jinno, Proc. Conference on Optical Fiber Communication 2007, JThA68 (2007).
  43. (Invited) Recent advances on node technologies in photonic networks. Y. Hibino and M. Jinno, Proc. International Topical Meeting on Photonic in Switching 2007, TuA2.6 (2007).
  44. (Best Paper Award) The First Optically-Virtual-Concatenated Lambdas over Multiple-Domains in Chicago Metro Area Network Achieved through Inter-working of Network Resource Managers. Y. Tsukishima, A. Hirano, A. Taniguchi, W. Imajuku, M. Jinno, Y. Hibino, Y. Takigawa, K. Hagimoto, X. Wang, L. Renambot, B. Jeong, R. Jagodic, S. Nam, J. Leigh, T. DeFanti, and A. Verlo, Proc. Optoelectronics and Communications Conference 2007 12A2-5 (2007).
  45. Lambda Sharing Demonstration via Traffic-Driven Lambda-on-Demand. Y. Tsukishima, A. Hirano, N. Nagatsu, W. Imajuku, M. Jinno, Y. Hibino, Y. Takigawa, K. Hagimoto, X. Wang, L. Renambot, B. Jeong, J. Leigh, T. DeFanti, and A. Verlo, Proc. European Conference on Optical Communications 2007, 06.5.3 (2007).
  46. G-lambda and EnLIGHTened: Wrapped In Middleware Co-allocating Compute and Network Resources Across Japan and the US Network architectures and technologies for Grids. S. R. Thorpe,  L. Battestilli,  G. Karmous-Edwards,  A. Hutanu,  J. MacLaren,  J. Mambretti,  J. H. Moore , K. S. Sundar,  Y. Xin, A. Takefusa, M. Hayashi, A. Hirano, S. Okamoto, T. Kudoh, T. Miyamoto, Y. Tsukishima, T. Otani, H.o Nakada, H. Tanaka, A. Taniguchi, Y. Sameshima, M. Jinno, Proc. International conference on Networks for grid applications, Article 5 (2007).
  47. (Invited) Network as a resource: G-lambda project and its architecture. T. Kudoh, S. Okamoto, Y. Tsukishima, H. Tanaka, M. Jinno, M. Hayashi, A. Takefusa, T. Otani, A. Taniguchi, A. Hirano, T. Miyamoto, H. Nakada, Y. Sameshima, Proc. International conference on Networks for grid applications, Article 18 (2007).
  48. (Invited) Emerging Advanced Optical Transmission Technologies: Their Impact on Optical Transport Networks and Optical Packet Switching. M. Jinno, Proc. International Topical Meeting on Photonic in Switching 2008, S-06-3 (2008).
  49. Comparison of 44.6-Gbit/s NRZ- and RZ-DQPSK format in 50-GHz-spacing ROADM system. T. Yoshimatsu, Y. Hashizume, S. Yamamoto, H. Takara, H. Kubota, E. Yoshida, Y. Miyamoto, A. Takada, M. Jinno, T. Itoh, Proc. Optoelectronics and Communications Conference and Australian conference on optical fibre technology 2008. 1–2 (2008).
  50. Multi-layer Lambda Grid Properly Using Lambdas and Sub-lambdas. Y. Tsukishima, Y. Sameshima, A. Hirano, M. Jinno, T. Kudoh and F. Okazaki, Proc. European Conference on Optical Communications 2008, Tu1C2 (2008).
  51. Optical Multicast Tree Construction Algorithm Considering SNR Constraint and 3R Regeneration. Y. Morita, H. Hasegawa, K. Sato, Y. Sone, K. Yamada, and M. Jinno, Proc. European Conference on Optical Communications 2008 (2008).
  52. (Post Deadline Paper) Demonstration of Novel Spectrum-Efficient Elastic Optical Path Network with Per-Channel Variable Capacity of 40 Gb/s to over 400 Gb/s. M. Jinno, H. Takara, B. Kozicki, Y. Tsukishima, T. Yoshimatsu, T. Kobayashi, Y. Miyamoto, K. Yonenaga, A. Takada, O. Ishida, and S. Matsuoka, Proc. European Conference on Optical Communications 2008, Th3F6 (2008).
  53. Coordinated Network Management and Control System for Reservation and Real-time Light Path Provisioning. K. Yamada, Y. Tsukishima, K. Matsuda, and M. Jinno, Proc. Networks 2008 (2008).
  54. (Invited) Optical transport networks : current challenges and solutions for the future. M. Jinno, Proc. World Telecommunication Congress 2008 (2008).
  55. Suppression of impairment due to intra-channel crosstalk using wavelength selective filter with broadband channel isolation. S. Yamamoto, T. Yoshimatsu, H. Takara, T. Komukai, Y. Hashizume,H. Kubota, H. Masuda, M. Jinno, and A. Takada, Proc. Annual Meeting of the IEEE Lasers and Electro-Optics Society 2008, 204–205 (2008).
  56. Empirical Design Technique for Management and GMPLS-Signaling Communication Networks. A. Taniguchi, Y. Tsukishima, W. Imajuku, K. Shimizu, R. Hayashi, I. Inoue, K. Noguchi, M. JInno, and S. Urushidani, Proc. Asia Pacific Communications Conference 2008 (2008).
  57. (Invited) Virtualized Optical Network (VON) for Agile Cloud Computing Environment. M. Jinno and Y. Tsukishima, Proc. Optical Fiber Communication Conference and Exposition and National Fiber Optic Engineers Conference 2009, OMG1 (2009) (San Diego, USA).
  58. Highly Survivable Restoration Scheme Employing Optical Bandwidth Squeezing in Spectrum-Sliced Elastic Optical Path (SLICE) Network. Y. Sone, A. Watanabe, W. Imajuku, Y. Tsukishima, B. Kozicki, H. Takara, and M. Jinno, Proc. Optical Fiber Communication Conference and Exposition and National Fiber Optic Engineers Conference 2009, OThT2 (2009) (San Diego, USA).
  59. Filtering Characteristics of Highly-Spectrum Efficient Spectrum-Sliced Elastic Optical Path (SLICE) Network. B. Kozicki, H. Takara, T. Yoshimatsu, K. Yonenaga, M. Jinno, Proc. Optical Fiber Communication Conference and Exposition and National Fiber Optic Engineers Conference 2009, JWA43 (2009).
  60. Bit-Rate-Flexible All-Optical OFDM Transceiver Using Variable Multi-Carrier Source and DQPSK/DPSK Mixed Multiplexing. K. Yonenaga, F. Inuzuka, S. Yamamoto, H. Takara, B. Kozicki, T. Yoshimatsu, A. Takada, and M. Jinno, Proc. Optical Fiber Communication Conference and Exposition and National Fiber Optic Engineers Conference 2009, OWM1 (2009) (San Diego, USA).
  61. Management and Control Issues in Spectrum-Sliced Elastic Optical Path Network (SLICE). M. Jinno, H. Takara, B. Kozicki, Y. Tsukishima, Y.i Sone, and S. Matsuoka, Proc. IP + Optical Network 2009 (2009) (Tokyo, Japan).
  62. Management and Control Scheme Employing Wavelength-Grouped Transmission-Guaranteed Link for Highly-Manageable and Cost-Efficient Transparent Optical Mesh Networks. Y. Sone, A. Kadohata, A. Watanabe, W. Imajuku, K. Matsuda, M. Jinno, A. Sahara, T. Takahashi, S. Matsuoka, A. Suzuki, H. Tokuda, Proc. European Conference on Optical Communications 2009 (2009) (Vienna, Austria).
  63. (Invited) 1 Tb/s Optical Link Aggregation with Spectrum-Sliced Elastic Optical Path Network SLICE. B. Kozicki, H. Takara, Y. Tsukishima, T. Yoshimatsu, K. Yonenaga, and M. Jinno, Proc. European Conference on Optical Communications 2009, 8.3.4. (2009) (Vienna, Austria)..
  64. (Invited) Dynamic Mesh Networking: Drivers, Challenges, and Solutions for the Future, M. Jinno, H. Takara, and B. Kozicki, Proc. European Conference on Optical Communications 2009, 7.7.4, (2009) (Vienna, Austria)..
  65. (Invited) Concept and Enabling Technologies of Spectrum-Sliced Elastic Optical Path Network (SLICE), M. Jinno, H. Takara, and B. Kozicki, Proc. Asia Communications and Photonics Conference 2009 (2009) (Shanghai, China)..
  66. Power-Efficient Multi-layer Networking: Design and Evaluation. W. Shen, Y. Tsukishima, K. Yamada, and M. Jinno, Proc. Optical Network Design and Modeling 2010 (2010) (Kyoto, Japan).
  67. Fast and Flexible Optical Path Accommodation Design Based on Pre-planning and Reconfiguration in Transparent Optical Mesh Networks. A. Kadohata, A. Watanabe, Y. Sone, W. Imajuku, and M. Jinno, Proc. Optical Network Design and Modeling 2010 (2010) (Kyoto, Japan).
  68. Distance-Adaptive Spectrum Allocation in Elastic Optical Path Network (SLICE) with Bit per Symbol Adjustment. B. Kozicki, H. Takara, Y. Sone, A. Watanabe, and M. Jinno, Proc. Optical Fiber Communication Conference and Exposition and National Fiber Optic Engineers Conference 2010, OMU3 (2010) (San Diego, USA).
  69. Routing and Spectrum Assignment in Spectrum-Sliced Elastic Optical Path Network. Y. Sone, T. Tanaka, H. Hirano, A. Watanabe, B. Kozicki, H. Takara and M. JInno, Proc. IP + Optical Network 2010 (2010) (Tokyo, Japan).
  70. Distance-Adaptive Spectrum Allocation in SLICE Considering Filter Narrowing Effect. B. Kozicki, H. Takara, Y. Sone, T. Tanaka, H. Hirano, A. Watanabe, and M. Jinno, Proc. Optoelectronics and Communications Conference 2010 (2010)  (Sapporo, Japan).
  71. A Study on the Significance of TDM-XCs in Power-Efficient Multilayer Networks. W. Shen, Y. Tsukishima, N. Takahashi, and M. Jinno, Proc. Optoelectronics and Communications Conference 2010 (2010) (Sapporo, Japan).
  72. Link Capacity Requirements for a ROADM-based Hypercube Photonic Network. T. Sakano, A. Kadohata, Y. Sone, A. Watanabe, and M. Jinno, Proc. Optoelectronics and Communications Conference 2010 (2010) (Sapporo, Japan).
  73. (Invited) Spectrum Sliced Elastic Optical Path Network (SLICE). H. Takara, B. Kozicki, and M. Jinno, Proc. Optoelectronics and Communications Conference 2010 (2010) (Sapporo, Japan).
  74. Algorithms for Maximizing Spectrum Efficiency in Elastic Optical Path networks that Adopt Distance Adaptive Modulation. T. Takagi, H. Hasegawa, K. Sato, T. Tanaka, B. Kozichi, Y. Sone, T. Takara, A. Watanabe, A. Hirano, and M. Jinno, Proc. European Conference on Optical Communications 2010 (2010) (Torino, Italy).
  75. Distance-Adaptive Super-wavelength Routing in Elastic Optical Path Network (SLICE) with Optical OFDM. H. Takara, B. Kozicki, T. Tanaka, Y. Sone, A. Watanabe, A. Hirano, K. Yonenaga,and M. Jinno, Proc. European Conference on Optical Communications 2010 (2010) (Torino, Italy).
  76. (Invited) Spectrum-Sliced Elastic Optical Path Network (SLICE). M. Jinno, H. Takara, and B. Kozicki, Proc. Asia Pacific Communications Conference 2010 (2010) (Auckland, New Zealand).
  77. (Invited) Experimental demonstrations of Adaptive Spectrum Allocation in SLICE. B. Kozicki, H. Takara, and M. Jinno, Proc. Asia Communications and Photonics Conference 2010, (2010) (Shanghai, China).
  78. (Best Paper Award) Introducing Elasticity and Adaptation into the Optical Domain toward More Efficient and Scalable Optical Transport Networks. M. Jinno, T. Ohara, Y. Sone, A. Hirano, O. Ishida, and M. Tomizawa, Proc. ITU-T Kaleidoscope Academic Conference 2010 (2010) (Pune, India).
  79. (Invited) Efficient elastic optical path network for transmission beyond 100G. B. Kozicki, H. Takara, K. Yonenaga, and M. Jinno, Proc. SPIE Photonics West 2011 (2011).
  80. Dynamic Routing and Frequency Slot Assignment for Elastic Optical Path Networks that Adopt Distance Adaptive Modulation. T. Takagi, H. Hasegawa, K. Sato, Y. Sone, B. Kozicki, A. Hirano, and M. Jinno, Proc. Optical Fiber Communication Conference and Exposition and National Fiber Optic Engineers Conference 2011 (2011) (Los Angeles, USA).
  81. Joint Storage-Network Resource Management for Super High-Definition Video Delivery Service. K. Yamada, Y. Tsukishima, K. Matsuda, M. Jinno, Y. Tanimura, T. Kudoh, A. Takefusa, R. Takano, and T. Shimizu, Proc. Optical Fiber Communication Conference and Exposition and National Fiber Optic Engineers Conference 2011 (2011) (Los Angeles, USA).
  82. (Invited) Elastic Optical Path Networking: Enhancing Network Capacity and Disaster Survivability Toward 1 Tbps Era. M. Jinno, H. Takara, and Y. Sone, Proc. Optoelectronics and Communications Conference 2011 (2011) (Kaohsiung, Taiwan).
  83. (Invited) Why do we need elastic optical networking in the 1 Tbps era? M. Jinno, H. Takara, and k. Yonenaga, Proc. The Pacific Rim Conference on Lasers and Electro-Optics 2011 (2011)  (Sydney, Australia).
  84. (Invited) Experimental Demonstration of 400 Gbps Multi-Flow, Multi-Reach Optical Transmitter for Efficient Elastic Spectral Routing. H. Takara, T. Goh, K. Shibahara, K. Yonenaga, S. Kawai, and M. Jinno, Proc. European Conference on Optical Communications 2011 (2011) (Geneva, Switzerland).
  85. IP Traffic Offloading to Elastic Optical Layer by Using Multi-flow Optical Transponder. M. Jinno, Y. Sone, H. Takara, A. Hirano, K. Yonenaga, and S. Kawai, Proc. European Conference on Optical Communications 2011 (2011) (Geneva, Switzerland).
  86. Disruption Minimized Spectrum Defragmentation in Elastic Optical Path Networks that Adopt Distance Adaptive Modulation. T. Takagi, H. Hasegawa, K. Sato, Y. Sone, A. Hirano, and M. Jinno, Proc. European Conference on Optical Communications 2011 (2011).
  87. Routing and Spectrum Assignment Algorithm Maximizes Spectrum Utilization in Optical Networks. Y. Sone, A. Hirano, A. Kadohata, M. Jinno, and O. Ishida, Proc. European Conference on Optical Communications 2011 (2011) (Geneva, Switzerland).
  88. (Invited) Overcoming the looming capacity crunch -Elastic and adaptive optical networking as a network level solution-. M. Jinno, Proc. Asia Communications and Photonics Conference 2011 (2011) (Shanghai, China).
  89. OTN Technology for Multi-flow Optical Transponder in Elastic 400G/1T Transmission Era. T. Ohara, M. Teshima, S. Aisawa and M. Jinno, Proc. Optical Fiber Communication Conference and Exposition and National Fiber Optic Engineers Conference 2012 (2012) (Los Angeles, USA).
  90. (Invited) Spectrally-Efficient Elastic Optical Path Network Toward 1 Tb/s Era. H. Takara, K. Yonenaga, and M. Jinno, Proc. Optical Fiber Communication Conference and Exposition and National Fiber Optic Engineers Conference 2012 (2012) (Los Angeles, USA).
  91. (Post Deadline Paper) Demonstration of Translucent Elastic Optical Network Based on Virtualized Elastic Regenerator. M. Jinno, K. Yonenaga, H. Takara,  K. Shibahara, S. Yamanaka, T. Ono, T. Kawai, M. Tomizawa, and Y. Miyamoto, Proc. Optical Fiber Communication Conference and Exposition and National Fiber Optic Engineers Conference 2012 (2012) (Los Angeles, USA).
  92. (Invited) Virtualization in Optical Networks: From Elastic Networking Level to Sliceable Equipment Level. M. Jinno, Proc. International Conference on Optical Internet 2012 (2012) (Yokohama, Japan).
  93. Comparative Study of Optical Networks with Grid Flexibility and Traffic Grooming. T. Tanaka, A. Hirano, and M. Jinno, Proc. International Conference on Optical Internet 2012 (2012) (Yokohama, Japan).
  94. (Invited) Elastic optical networking, spectrum flexible optical transport networks. M. Jinno, H. Takara, and K. Yonenaga, Proc. Photonics in Switching Conference 2012 (2012) (Ajaccio, Corsica).
  95. Shared protected elastic optical path network design that applies iterative re-optimization based on resource utilization efficiency measures, S Kosaka, H Hasegawa, K Sato, T Tanaka, A Hirano, and M. Jinno, Proc. European Conference and Exhibition on Optical Communication 2012, Tu.4.D.5 (2012) (Amsterdam, Netherlands).
  96. Performance evaluation of elastic optical networks with multi-flow optical transponders, T Tanaka, A Hirano, M. Jinno, Proc. European Conference and Exhibition on Optical Communication 2012, Tu.3.D.2 (2012) (Amsterdam, Netherlands).
  97. (Invited) Toward deeply virtualized elastic optical networks. M. Jinno and A. Hirano, Proc. Optical Fiber Communication Conference and Exposition and National Fiber Optic Engineers Conference 2013, NM2E.2 (2013) (Anaheim, USA).
  98. (Invited) Recent Advances in Elastic Optical Networks. M. Jinno, Proc. OptoElectronics and Communications Conference and Photonics in Switching 2013, MQ2_1 (2013) (Kyoto, Japan).
  99. Impact of multi-flow transponder on equipment requirements in IP over elastic optical networks, T Tanaka, A Hirano, M. Jinno, Proc. European Conference and Exhibition on Optical Communication 2013 (2013) (London, UK).
  100. Photonic network vision 2020—Smart photonic networking, synthetic transport platform, and scale-free photonics, K Kitayama, M Fukui, N Yamanaka, M Jinno, A Hiramatsu, T Tsuritani, S. Okamoto, and M. Koga, Proc. IEEE Globecom Workshops 2013, 1239-1244 (2013) (Atlanta, USA).
  101. Impact of Adding/Dropping Nyquist-WDM Superchannels on Transmission Performance in an Elastic Optical Network, M. Jinno, K. Hosokawa1, S. Kuwahara Y. Yamada and T. Kataoka, Proc. OptoElectronics and Communications Conference 2014, WE7A-3 (2014) (Melbourne, Australia).

国際ワークショップ招待講演(査読なし)

  1. (Invited) Introducing Adaptation into Optical Domain: Spectrum-Sliced Elastic Optical Path Network (SLICE). M. Jinno, 9th annual International Photonics Workshop (2010) (San Diego, USA).
  2. (Invited) Spectrum-Sliced Elastic Optical Path Network (SLICE): Introducing Adaptation into the Optical Domain. M. Jinno, Optical Fiber Communication Conference and Exposition and National Fiber Optic Engineers Conference 2010 Workshop (2010) (San Diego, USA).
  3. (Invited) Energy and Spectrally Efficient Elastic Optical Path Network. M. Jinno, International Topical Meeting on Photonic in Switching 2010 Workshop (2010) (Monterey, USA).
  4. (Invited) Management and Control Aspects of Spectrum-Sliced Elastic Optical Path Network. M. Jinno, Y. Sone, and A. Hirano, European Conference on Optical Communications 2010 Workshop (2010) (Torino, Italy).
  5. (Invited) Squeezing out stranded spectra through elastic and adaptive resource allocation, M. Jinno, Optical Fiber Communication Conference and Exposition and National Fiber Optic Engineers Conference 2011 Workshop (2011) (Los Angeles, USA).
  6. (Invited) Spectrally-efficient elastic optical path networking. M. Jinno, The Pacific Rim Conference on Lasers and Electro-Optics 2011 Workshop (2011) (Sydney, Australia).
  7. (Invited) Multi-flow optical transponder for efficient multi-layer optical networking. M. Jinno, European Conference on Optical Communications 2011 Workshop (2011) (Geneva, Switzerland).
  8. (Invited) Spectrum- and Energy-Efficient Elastic Optical Networking. M. Jinno, Asia Communications and Photonics Conference 2011 Workshop (2011) (Shanghai, China)

国内研究会等招待講演(査読なし)

  1. (招待講演)インテリジェントなダイナミック光ネットワーキング, 電子情報通信学会 全国大会, 2006年3月25日, 神野正彦
  2. (招待講演)IP+フォトニックネットワークの将来展望, NGN時代の光技術・産業懇談会第一回公開討論会, 2007年5月15日, 神野正彦
  3. (招待講演)エラスティック光パスネットワークSLICEのアーキテクチャと実現技術, フォトニックネットワーク新時代における産業・技術懇談会 第1回公開討論会, 2009年5月21日, 神野 正彦
  4. (招待講演)ECOC2009報告 -光ネットワーク関連-, 電子情報通信学会 光通信システム研究会, 2009年10月22日, 曽根由明、神野正彦
  5. (招待講演)高効率・スケーラブルな新しい光パスネットワークアーキテクチャ:SLICE, 電子情報通信学会 新世代ネットワーク時限研究会, 2009年11月12日, 神野正彦、高良秀彦、バルトロメル、築島幸男、曽根由明
  6. (奨励講演)多階層ハイパーキューブ・フォトニックネットワークの拡張法, 電子情報通信学会 フォトニックネットワーク研究会, 2010年3月8日, 坂野寿和、門畑顕博、曽根由明、渡辺篤、神野正彦
  7. (招待講演)エラスティック光パスネットワークとその実現技術, 電子情報通信学会 ソサイエティ大会, 2010年9月14日, 神野正彦、高良秀彦、バルトロメル、曽根由明
  8. (招待講演)エラスティック光パスネットワーク-アダプティブ、スケーラブルな光レイヤに向けて-, 電子情報通信学会 フォトニックネットワーク研究会   , 2010年9月2日, 神野正彦
  9. (招待講演)ディジタルコヒーレント時代の新たな光ネットワーキングに向けて, 電子情報通信学会 光通信システム研究会, 2010年7月30日, 神野正彦
  10. (招待講演)光トランスポートネットワーク技術の将来展望 電子情報通信学会, ソサイエティ大会, 2011年9月14日, 神野正彦

解説・総説

  1. 光ネットワークと制御技術. 高田篤、神野正彦, オプトロニクス (2006)
  2. アプリケーションと連動したフォトニックネットワークの自律制御技術の北米フィールドトライアル. 築島幸男, 平野章, 神野正彦, NTT技術ジャーナル (2007)
  3. Application-aware Synergetic Network Control Technology: Demonstrated in a Field Trial in US Nationwide Photonic Network. Y. Tsukishima, A. Hirano, and M. Jinno, NTT Technical Review (2006)
  4. 最新フォトニックネットワーク技術の概要. 日比野善典, 坪川信, 神野正彦, 高田篤,  宮本裕, NTT技術ジャーナル (2007)
  5. フォトニックトランスポートネットワークアーキテクチャと制御管理技. 神野正彦, 今宿亙, 鮫島康則, 高良秀彦, 平野章,松田和浩, 山田一久, NTT技術ジャーナル (2007)
  6. 超高速大容量ネットワークの実現に向けて. 神野正彦, 木村秀明, 日比野善典, 上原一浩, 久々津直哉, 伊藤文彦, 松岡伸治, NTT技術ジャーナル (2008)
  7. Towards ultrahigh-speed high-capacity networks. M. Jinno, H. Kimura, Y. Hibino, K. Uehara, N. Kukutsu, F. Ito, and S. Matsuoka, NTT Technical Review (2009)
  8. 100ギガビットを自在に操る新しい光ネットワーキング. 神野正彦, OplusE (2009)
  9. 光ネットワークの最新技術 [21] 超大容量を高効率に操る将来光コアネットワーク技術. 中島隆、松岡伸治、神野正彦、米永一茂, 日経コミュニケーションズ (2010)
  10. A Novel Photonic Network Architecture based on a Hierarchical Hypercube Network Topology. T. Sakano, A. Kadohata, Y. Sone, A. Watanabe, and M. Jinno, NTT Technical Review (2010)
  11. Hot Report from German-Japanese Symposium in Osaka: Networks as Social Infrastructures. M. Jinno, IEICE Global Plaza (2011)
  12. 経済的で柔軟な光レイヤを実現する光ネットワーク仮想化技術. 神野正彦, 電子情報通信学会誌 (2011)
  13. 将来の革新的光トランスポートネットワーク技術. 盛岡 敏夫、神野正彦、久保田 寛和、高良 秀彦, NTT技術ジャーナル (2011)
  14. ITU-T Kaleidoscope academic conference 2010 – A participation report. M. Jinno, NTT Technical Review (2011)
  15. Future Optical Transport Network Technologies. T. Morioka, M. Jinno, H. Kubota, and H. Takara, NTT Technical Review (2011)

登録特許

  1. 光タイミング抽出回路(第2662805号)1997/09/24 神野 正彦、松本 隆男、古賀 正文
  2. 光カー・スイッチ(第2656967号)1997/09/24 神野 正彦
  3. 光分離装置(第3180962号)2001/07/03 神野正彦
  4. 光分離装置(第3250741号)2002/01/28 神野正彦
  5. (社内特許表彰)波長分割多重型光伝送システムおよび方法(第3515358号)2004/01/23 神野正彦、阪本 匡、相澤 茂樹、乗松 誠司、可児 淳一
  6. 光処理回路(第3558199号)2004/08/25 服部 邦典、福井 将樹、神野正彦
  7. 波長分割多重型光伝送システム(第3547607号)2004/04/23 可児 淳一、神野正彦、阪本 匡
  8. Wavelength division multiplexing optical transmission system(US Patent Number 6490064)T. Sakamoto, S. Aisawa, M. Jinno, S. Norimatsu, J. Kani
  9. (社内特許表彰)光回路およびネットワーク(第3643249号)2005/04/27 服部 邦典、福井 将樹、神野正彦
  10. 可変光減衰方法及び可変光減衰器(第3706271号)2005/10/12 服部 邦典、郷 隆司、神野正彦、桑野 茂
  11. 光通信ノード及び光通信システム(第3583694号)2004/11/04 小野 浩孝、島野 勝弘、桑野 茂、神野正彦
  12. ノード装置及びパス設定方法(第4717796号)2011/04/08 曽根 由明、今宿 亙、神野正彦
  13. 波長選択スイッチ及び光クロスコネクトスイッチ機能部及び光クロスコネクト装置(第4852491号)2011/10/28 今宿 亙、平野 章、高良 秀彦、神野正彦、曽根 由明
  14. トランスペアレント光ネットワーク及びノード装置及びトランスペアレント光ネットワーク故障監視方法(第4859909)2011/11/11 高良 秀彦、山田 一久、佐原 明夫、高橋 哲夫、神野 正彦

Professional activities

  1. Optical Fiber Communication Conference: TPC Member (2015)
  2. IEEE Global Communications Conference (GLOBECOM): TPC Member (2014, 2013), Workshop TPC Member (2013, 2012)
  3. OSA Advanced Photonics, Photonic Networks and Devices (NETWORKS): General Co-Chair (2013), TPC Member (2014)
  4. Opto-Electronics and Communications Conference (OECC): Category Chair (2010), TPC Member (2013, 2012, 2008, 2007)
  5. Conference on Optical Network Design and Modeling (ONDM): TPC Vice Chair (2010), TPC Member (2014, 2013, 2012, 2011)
  6. Conference on IP + Optical Network (iPOP): TPC Vice Chair (2009), TPC Member (2014, 2013, 2012, 2011, 2010)
  7. International Conference on Optical Communication Systems (OPTICS): TPC Member (2012, 2011, 2010)
  8. International Conference on Optical Communications and Networks (ICOCN): TPC Member (2010)
  9. Asia Communications and Photonics (ACP): TPC Member (2010, 2008)
  10. German-Japanese Symposium (GJS): PC Member (2010, 2007)
  11. IEEE Winter topical on "Photonics for Routers and Interconnects": TPC Member (2009)
  12. European Conference on Optical Communication (ECOC): TPC Member (2007)
  13. Topical Meeting on Optical Amplifiers and their Applications (OAA): TPC Member (1999)

Editor of Journals

  1. IEICE TRANSACTIONS on Communications: Guest Editor of Special Issue on OECC 2010 (2011), Editorial Board Member (2001-2005),
  2. IEEE OSA Journal of Lightwave Technology: Guest Editor of Special Issue on Optical Networks (2003)
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