Takuya OBUCHI

obuchi.takuya [at] ist.osaka-u.ac.jp

論文誌

  1. T. Nakano, Y. Okaie, S. Kobayashi, T. Koujin, C. Chan, Y. Hsu, T. Obuchi, T. Hara, Y. Hiraoka, and T. Haraguchi, "Performance evaluation of leader-follower-based mobile molecular communication networks for target detection applications," IEEE Transactions on Communications, vol. 65, no. 2, pp. 663-676 (Feb. 2017).
  2. Y. Okaie, T. Nakano, T. Hara, T. Obuchi, K. Hosoda, Y. Hiraoka, and S. Nishio, "Cooperative target tracking by a mobile bionanosensor network," IEEE Transactions of Nanobioscience, vol. 13, no. 3, pp. 267-277 (Sept. 2014).

国際会議

  1. Y. Okaie, T. Nakano, T. Obuchi, S. Ishiyama, and T. Hara, "Molecule gradient formation by mobile bio-nanomachines," Proc. IEEE Int'l Symposium on Intelligent Signal Processing and Communication Systems (ISPACS 2017) (Nov. 2017).
  2. Y. Okaie, T. Nakano, T. Obuchi, and T. Hara, "Modeling and simulation experiments of trail network formation by non-diffusion-based mobile molecular communication networks," Proc. IEEE Int'l Workshop on Signal Processing Advances in Wireless Communications (SPAWC 2017) (July 2017).
  3. J. Yang, S. Iwasaki, A. Abraham, J. Hagad, T. Obuchi, and T. Nakano, "Performance optimization of self-organizing bioparticles for multi-target detection and gravitation problems," Proc. EAI Int'l Conf. on Bio-inspired Information and Communications Technologies (BICT 2017) (Mar. 2017).
  4. S. Iwasaki, J. Yang, A. Abraham, J. Hagad, T. Obuchi, and T. Nakano, "Modeling multi-target detection and gravitation by intelligent self-organizing bioparticles," Proc. IEEE Global Communications Conf. (GLOBECOM 2016) (Dec. 2016).
  5. T. Nakano, S. Kobayashi, T. Koujin, C. Chan, Y. Hsu, Y. Okaie, T. Obuchi, T. Hara, Y. Hiraoka, and T. Haraguchi, "Leader-follower-based target detection model for mobile molecular communication networks," Proc. IEEE Int'l Workshop on Signal Processing Advances in Wireless Communications (SPAWC 2016), pp. 1-5 (July 2016).
  6. Y. Okaie, T. Nakano, T. Obuchi, and T. Hara, "Research challenges in bionanosensor networks," Proc. INFOCOM Workshops 2016, pp. 1035-1036 (Apr. 2016).
  7. Y. Okaie, T. Nakano, T. Obuchi, T. Hara, and S. Nishio, "Mobility and controllability of bio-nanomachines," Proc. EAI Int'l Conf. on Bio-inspired Information and Communications Technologies (BICT 2015), 163-165 (Dec. 2015).
  8. Y. Okaie, T. Obuchi, T. Hara, and S. Nishio, "In silico experiments of mobile bionanosensor networks for target tracking," Proc. ACM Int'l Conf. on Nanoscale Computing and Communication (NanoCom 2015) pp. 14:1-14:6 (Sept. 2015).
  9. T. Obuchi, Y. Okaie, T. Nakano, T. Hara, and S. Nishio, "Inbody mobile bionanosensor networks through non-diffusion-based molecular communication," Proc. IEEE Int'l Conf. on Communications (ICC 2015), pp. 2681-2687 (June 2015).
  10. Y. Okaie, T. Nakano, T. Obuchi, T. Hara, and S. Nishio, "Bacterium-based mobile bionanosensor networks for target tracking: A biologically realistic model," Proc Int'l Conf. on Bio-inspired Information and Commucations Technologies (BICT 2014), pp. 188-190 (Dec. 2014).
  11. T. Nakano, T. Hara, Y. Okaie, T. Obuchi, and S. Nishio, "Mobile bionanosensor networks through molecular communication," Proc. Asia-Pacific Microwave Conf. (APMC 2014), pp. 525-527 (Nov. 2014).

全国大会

  1. T. Obuchi, T. Nakano, Y. Okaie, and T. Hara, "Non-diffusion-based molecular communication using adhesive molecules," 電子情報通信学会 2016年総合大会講演論文集, pp. S50-S51 (Mar. 2016).