Achievements

Journal papers

  1. Naomi Kuze, Daichi Kominami, Kenji Kashima, Tomoaki Hashimoto and Masayuki Murata, "Hierarchical optimal control method for controlling large-scale self-organizing networks," to appear in ACM Transactions on Autonomous and Adaptive Systems, 2017.

  2. Shinya Toyonaga, Daichi Kominami, and Masayuki Murata, "Percolation analysis for constructing a robust modular topology based on a binary-dynamics model," International Journal of Distributed Sensor Networks, SAGE, April 2017. - available at SAGE journals

  3. Masaya Murakami, Shu Ishikura, Daichi Kominami, Tetsuya Shimokawa, and Masayuki Murata, "Robustness and efficiency in interconnected networks with changes in network assortativity," Applied Network Science, Springer, DOI: 10.1007/s41109-017-0025-4, March 2017. - available at Springer Open.

  4. Shinya Toyonaga, Daichi Kominami, and Masayuki Murata, "Virtual wireless sensor networks: Adaptive brain-inspired configuration for Internet of Things," Sensors Special Issue `Intelligent Internet of Things (IoT) Networks,' 2016, 16(8), 1323; doi: 10.3390/s16081323, August 2016. - available at Sensors.

  5. Naomi Kuze, Daichi Kominami, Kenji Kashima, Tomoaki Hashimoto, and Masayuki Murata, "Controlling large-scale self-organized networks with lightweight cost for fast adaptation to changing environments," ACM Transactions on Autonomous and Adaptive Systems, Volume 11 Issue 2, July 2016. - available at ACM Digital Library.

  6. Takuya Iwai, Daichi Kominami, Masayuki Murata, and Tetsuya Yomo, "Free-energy-based design policy for robust network control against environmental fluctuation, " The Scientific World Journal, vol. 2015, pp. 1-12, doi: http://dx.doi.org/10.1155/2015/464031, June 2015. - available at Hindawi.

  7. Naomi Kuze, Daichi Kominami, Masayuki Murata, "A predictive mechanism for enhancing adaptability of self-organised routing," International Journal of Bio-Inspired Computation, vol. 6, no. 6, pp. 384-396, November 2014. - available at Inderscience.

  8. Shinya Toyonaga, Daichi Kominami, Masashi Sugano, and Masayuki Murata, "Potential-based routing for supporting robust any-to-any communication in wireless sensor networks," EURASIP Journal on Wireless Communications and Networking, vol. 2013, doi:10.1186/1687-1499-2013-278, December 2013. - available at Springer.

  9. Daichi Kominami, Masashi Sugano, Masayuki Murata, and Takaaki Hatauchi, "Controlled and self-organized routing for large-scale wireless sensor networks," ACM Transactions on Sensor Networks, vol. 10, no. 1, November 2013. - available at ACM Digital Library.

  10. Daichi Kominami and Masayuki Murata, "A design approach for controlled self-organization-based sensor networks focused on control timescale," International Journal of Distributed Sensor Networks (special issue on wireless ad hoc sensor networks), DOI: 10.1155/2013/463605, vol. 2013, pp. 1-8, May 2013. - available at Hindawi.

  11. Daichi Kominami, Masashi Sugano, Masayuki Murata, and Takaaki Hatauchi, "Robust and resilient data collection protocols for multihop wireless sensor networks," IEICE Transactions on Communications, vol. E95-B, no. 9, pp.2740-2750, September 2012. - available at IEICE.

  12. Chuluunsuren Damdinsuren, Daichi Kominami, Masashi Sugano, Masayuki Murata and Takaaki Hatauchi, "Lifetime extension based on residual energy for receiver-driven multi-hop wireless network," Cluster Computing, DOI: 10.1007/s10586-012-0212-0, pp. 1-12, May, 2012. - available at Springer.

  13. Daichi Kominami, Masashi Sugano, Masayuki Murata, and Takaaki Hatauchi, "Energy-efficient receiver-driven wireless mesh sensor networks," Sensors, vol. 11, no. 1, pp. 111-137, December 2011. - available at Sensors.

Refereed conference papers

  1. Masaya Murakami, Kenji Leibnitz, Daichi Kominami, and Masayuki Murata, "Designing Interconnected Networks for Improving Robustness and Efficiency," to be presented at IEEE LANMAN, June 2017.

  2. Daichi Kominami, Takanori Iwai, Hideyuki Shimonishi, and Masayuki Murata, "A control method for autonomous mobility management systems toward 5G mobile networks," in Proceedings of IEEE International Conference on Communications, Workshop (ICC2017-WS03), May 2017.

  3. Masaya Murakami, Kenji Leibnitz, Daichi Kominami, Tetsuya Shimokawa, and Masayuki Murata, "Constructing Virtual IoT Network Topologies with a Brain-Inspired Connectivity Model," in Proceedings of the 11th International Conference on Ubiquitous Information Management and Communication (ACM IMCOM), pp. 1-7, January 2017. - available at ACM Digital Library.

  4. Mari Otokura, Kenji Leibnitz, Yuki Koizumi, Daichi Kominami, Tetsuya Shimokawa, and Masayuki Murata, "Impact of Fluctuating Goals on Adaptability of Evolvable VNF Placement Method," in Proceedings of 9th International Workshop on Autonomous Self-Organizing Networks (CANDAR ASON Workshop), pp. 304-310 December 2016. [IEEE Xplore Digital Library]

  5. Mari Otokura, Kenji Leibnitz, Yuki Koizumi, Daichi Kominami, Tetsuya Shimokawa, and Masayuki Murata, "Application of Evolutionary Mechanism to Dynamic Virtual Network Function Placement," in Proceedings of the IEEE 24th International Conference on Network Protocols (ICNP), Workshop: Control Operation and Application in SDN protocols (CoolSDN Workshop), pp. 1-6, November 2016. [IEEE Xplore Digital Library]

  6. Yasuharu Hirano, Takuya Iwai, Daichi Kominami, Ikkyu Aihara, and Masayuki Murata, "Implementation of a sound-source localization method for calling frog in an outdoor environment using a wireless sensor network, " in Proceedings of the IEEE international Conference on Wireless Communications, Signal Processing and Networking (IEEE WiSPNET), March 2016. [IEEE Xplore Digital Library]

  7. Shinya Toyonaga, Daichi Kominami, and Masayuki Murata, "Brain-inspired method for constructing a robust virtual wireless sensor network, " in Proceedings of the 2015 International Conference on Computing and Network Communications (CoCoNet'15), pp. 59-65, December 2015. [IEEE Xplore Digital Library]

  8. Naomi Kuze, Daichi Kominami, Kenji Kashima, Tomoaki Hashimoto, and Masayuki Murata, "Hierarchical optimal control method for controlling self-organized networks with light-weight cost," in Proceedings of the 2015 IEEE Global Communications Conference (IEEE GLOBECOM), pp. 1-7, December 2015. [IEEE Xplore Digital Library]

  9. Yuki Fujita, Daichi Kominami, and Masayuki Murata, "Sink mobility strategies for reliable data collection in wireless sensor networks," in Proceedings of the 7th International Conference on Adaptive and Self-Adaptive Systems and Applications (IARIA ADAPTIVE 2014), pp. 150-157, March 2015. - available at ThinkMind.

  10. Takuya Iwai, Daichi Kominami, Masayuki Murata, and Tetsuya Yomo, "Thermodynamics-based strategy to achieve balance between robustness and performance for self-organized network controls, " in Proceedings of the 8th IEEE International Conference on Self-Adaptive and Self-Organizing Systems (poster session) (IEEE SASO 2014), pp. 181-182, September 2014. [IEEE Xplore Digital Library]

  11. Naomi Kuze, Daichi Kominami, Kenji Kashima, Tomoaki Hashimoto, and Masayuki Murata, "Enhancing convergence with optimal feedback for controlled self-organizing networks," in Proceedings of the IEEE 80th Vehicular Technology Conference (IEEE VTC 2014-fall), pp. 1-7, September 2014. [IEEE Xplore Digital Library]

  12. Takuya Iwai, Daichi Kominami, Masayuki Murata, and Tetsuya Yomo, "Thermodynamics-based entropy adjustment for robust self-organized network controls," in Proceedings of the 38th Annual IEEE International Computers, Software, and Applications Conference (poster session) (IEEE COMPSAC 2014), pp. 636-637, July 2014. [IEEE Xplore Digital Library]

  13. Naomi Kuze, Naoki Wakamiya, Daichi Kominami, and Masayuki Murata, "Proposal and evaluation of a predictive mechanism for ant-based routing," in Proceedings of the 5th International Conference on Emerging Network Intelligence (IARIA EMERGING 2013), pp. 7-12, September 2013. - available at ThinkMind.

  14. Shinya Toyonaga, Yuki Fujita, Daichi Kominami, and Masayuki Murata, "Implementation of controlled sink mobility strategies with a gradient field in wireless sensor networks," in Proceedings of the 7th International Conference on Sensor Technologies and Applications (IARIA SENSORCOMM 2013), pp. 27-32, August 2013. - available at ThinkMind.

  15. Shinya Toyonaga, Daichi Kominami, Masashi Sugano, and Masayuki Murata, "Potential-based downstream routing for wireless sensor networks," in Proceedings of the 7th International Conference on Systems and Networks Communications (IARIA ICSNC 2012), pp. 59-64, November 2012. - available at ThinkMind.

  16. Chuluunsuren Damdinsuren, Daichi Kominami, Masashi Sugano, Masayuki Murata, and Takaaki Hatauchi, "Load balancing techniques for extending smart metering system lifetime," in Proceedings of the IEEE Region 10 Conference - Networks and Communications (IEEE TENCON 2012), pp. 1-6, November 2012. [IEEE Xplore Digital Library]

  17. Tadashi Hayamizu, Daichi Kominami, Masashi Sugano, Masayuki Murata, and Takaaki Hatauchi, "Performance improvement by collision avoidance of control packets in receiver-driven multihop wireless mesh networks,” in Proceedings of the 9th IEEE International Conference on Mobile Ad hoc and Sensor Systems (IEEE MASS 2012), pp. 473-474, October 2012. [IEEE Xplore Digital Library]

  18. Chuluunsuren Damdinsuren, Daichi Kominami, Masashi Sugano, Masayuki Murata, and Takaaki Hatauchi, "Lifetime extension based on residual energy for receiver-driven multi-hop wireless network,” in Proceedings of Workshop on Optimization Issues in Energy Efficient Distributed Systems (HPCS Workshop OPTIM 2011), pp. 442-448, July 2011. [IEEE Xplore Digital Library]

  19. Daichi Kominami, Masashi Sugano, Masayuki Murata, and Takaaki Hatauchi, "Controlled potential-based routing for large-scale wireless sensor networks," in Proceedings of the 14th ACM International Conference on Modeling, Analysis, and Simulation of Wireless and Mobile Systems (ACM MSWiM 2011), pp. 187-195, November 2011. [ACM Digital Library]

  20. Daichi Kominami, Masashi Sugano, Masayuki Murata, and Takaaki Hatauchi, "Robustness of receiver-driven multi-hop wireless network with soft-state connectivity management," in Proceedings of the 5th International Conference on Systems and Networks Communications (IARIA ICSNC 2010), pp. 46-51, August 2010. [IEEE Xplore Digital Library]

  21. Daichi Kominami, Masashi Sugano, Masayuki Murata, Takaaki Hatauchi, and Junichi Machida, "Energy saving in intermittent receiver-driven multi-hop wireless sensor networks," in Proceedings of the 3rd IEEE International Conference on Sensor Networks, Ubiquitous, and Trustworthy Computing (IEEE SUTC 2010), pp. 296-303, June 2010. [IEEE Xplore Digital Library]

  22. Daichi Kominami, Masashi Sugano, Masayuki Murata, Takaaki Hatauchi, and Yoshikazu Fukuyama, "Performance evaluation of intermittent receiver-driven data transmission on wireless sensor networks," in Proceedings of the 6th International Symposium on Wireless Communication Systems (ISWCS 2009), pp. 141-145, September 2009. [IEEE Xplore Digital Library]

Non-refereed conference papers

  1. Daichi Kominami, Yasuharu Hirano, Ikkyu Aihara, and Masayuki Murata, "Localization system for analyzing chorus of Japanese tree frogs," IPSJ SIG Technical Reports (SIGMUS 2017), June 2017.

  2. Daichi Kominami, Takanori Iwai, Hideyuki Shimonishi, and Masayuki Murata, "QoE enhancement for video streaming based on a human perceptual mechanism," Technical Report of IEICE (NS2016-221), vol. 116, no. 486, pp. 365-370, March 2017.

  3. Ikkyu Aihara, Daichi Kominami, Yasuharu Hirano, and Masayuki Murata, "Autonomous distributed control methods for wireless sensor networks based on nonlinear dynamics of frog choruses," Technical Report of IEICE (IN2016-155), vol. 116, no. 485, pp. 347-352, March 2017.

  4. Saeko Shigaki, Naomi Kuze, Daichi Kominami, Kenji Kashima, and Masayuki Murata, "Self-organized multi-agent control method inspired by collective decision making," Technical Report of IEICE (IN2016-145), vol. 116, no. 485, pp. 287-292, March 2017.

  5. Masaya Murakami, Daichi Kominami, Kenji Leibnitz, and Masayuki Murata, "Analysis and strategies for improving robustness and efficiency in interconnected networks,"Technical Report of IEICE (IN2016-166), vol. 116, no. 485, pp. 413-418, March 2017.

  6. Yasuharu Hirano, Daichi Kominami, Ikkyu Aihara, and Masayuki Murata, "Real Time Localization Methods for Calling Frogs using a Wireless Sensor Network," presented at the poster session of the 3rd Annual Meeting of Bioacoustics, December 2016.

  7. Mari Otokura, Kenji Leibnitz, Yuki Koizumi, Daichi Kominami, Tetsuya Shimokawa, Masayuki Murata, "Application of Evolutionary Mechanism to Dynamic Virtual Network Function Placement," Technical Report of IEICE (IN2016-37), vol. 116, no. 231, pp. 7-12, September 2016.

  8. Masaya Murakami, Daichi Kominami, Kenji Leibnitz, Tetsuya Shimokawa, and Masayuki Murata, "Constructing a virtual IoT network using a cerebral cortical connectivity model," in Technical Report of IEICE (CCS2016-18), vol. 116, no. 180, pp. 9-14, August 2016.

  9. Shu Ishikura, Daichi Kominami, and Masayuki Murata, "Evaluation of the degree correlation’s impact on information diffusion in modular networks," in Proceedings of The 4th Korea-Japan Joint Workshop on Complex Communication Science, January, 2016.

  10. Daichi Kominami, Masayuki Murata, and Tetsuya Yomo, "Thermodynamics of Information Networks," Technical Report of IEICE (IN2015-70), vol. 115, no. 310, pp. 51-56, November 2015.

  11. Yasuharu Hirano, Daichi Kominami, and Masayuki Murata, "Implementation of an acoustic localization method for calling frog using a wireless sensor network," Technical Report of IEICE (IN2015-2), vol. 115, no. 42, pp. 7-12, May 2015.

  12. Daichi Kominami, Kenji Kashima, Tomoaki Hashimoto, and Masayuki Murata, "[invited] Enhancing adaptability of self-organizing network systems," Technical Report of IEICE (IN2014-77), vol. 114, no. 253, pp. 19-24, October 2014.

  13. Takura Iwai, Daichi Kominami, Masayuki Murata, and Tetsuya Yomo, "Interpretation of self-organized network controls in terms of Thermodynamics," Workshop on IEICE Technical Committee on Information Network Science (NetSci), August 2014.

  14. Naomi Kuze, Daichi Kominami, Kenji Kashima, Tomoaki Hashimoto, and Masayuki Murata, "Potential-based routing with optimal feedback using reduced order model for controlled self-organizing networks," Technical Report of IEICE (IN2014-32), vol. 114, no. 139, pp. 7-12, July 2014.

  15. Shu Ishikura, Daichi Kominami, and Masayuki Murata, "A topology construction method for wireless sensor networks inspired by brain functional networks," Technical Report of IEICE (IN2014-31), vol. 114, no. 139, pp. 7-12, July 2014.

  16. Takuya Iwai, Daichi Kominami and Masayuki Murata, "Thermodynamics-based coordinated control for self-organizing information networks," Proceedings of the IEICE General Conference, March 2014.

  17. Naomi Kuze, Daichi Kominami, Kenji Kashima, Tomoaki Hashimoto, and Masayuki Murata, "Robustness of potential-based routing with model predictive control," Technical Report of IEICE (IN2013-195), vol. 113, no. 473, pp. 305-310, March 2014.

  18. Daichi Kominami, Kenji Kashima, Tomoaki Hashimoto, and Masayuki Murata, "Potential-based routing with model predictive control for controlled self-organizing networks," Technical Report of IEICE (IN2013-173), vol. 113, no. 473, pp. 205-210, March 2014.

  19. Yuki Fujita, Shinya Toyonaga, Daichi Kominami, and Masayuki Murata, "Proposal and implementation of controlled sink mobility using potential fields in wireless sensor networks," Technical Report of IEICE (IN2013-13), vol. 113, no. 76, pp. 7-12, May 2013.[CiNii (Japanese)]

  20. Daichi Kominami and Masayuki Murata, "A design approach for managed self-organization based wireless sensor networks," Proceedings of the IEICE General Conference, BS-9-1, pp. 175-176, March 2013. [CiNii (Japanese)]

  21. Daichi Kominami and Masayuki Murata, "A design approach for controlled and self-organized networks focused on control timescale," Workshop on IEICE Technical Committee on Information Network Science (NetSci), August 2012. [IEICE (Japanese)]

  22. Shinya Toyonaga, Daichi Kominami, Masashi Sugano, Masayuki Murata, and Takaaki Hatauchi, "Potential-based downstream routing for wireless sensor networks," Technical Report of IEICE (AN2012-30), vol. 112, no. 30, pp. 45-46, May 2012. [CiNii (Japanese)]

  23. Damdinsuren Chuluunsuren, Daichi Kominami, Masashi Sugano, Masayuki Murata, and Takaaki Hatauchi, "Load balancing techniques for lifetime prolonging in smart metering systems," Technical Report of IEICE (IN2011-188), vol. 111, no. 469, pp. 305-310, March 2012. [CiNii (Japanese)]

  24. Damdinsuren Chuluunsuren, Daichi Kominami, Masashi Sugano, Masayuki Murata, and Takaaki Hatauchi, "Control method of intermittent interval for extending lifetime of receiver-driven multi-hop wireless network," Technical Report of IEICE (IN2010-164), vol. 110, no. 449, pp. 121-126, March 2011. [CiNii (Japanese)]

  25. Tadashi Hayamizu, Daichi Kominami, Masashi Sugano, Masayuki Murata, and Takaaki Hatauchi, "Performance improvement by collision avoidance of control packet for receiver-driven multi-hop wireless networks," Technical Report of IEICE (IN2010-191), vol. 110, no. 449, pp. 283-288, March 2011. [CiNii (Japanese)]

  26. Daichi Kominami, Masashi Sugano, Masayuki Murata, and Takaaki Hatauchi, "Controlled potential-based routing for large-scale wireless sensor networks," Technical Report of IEICE (AN2010-48), vol. 110, no. 377, pp. 25-30, January 2011. [CiNii (Japanese)]

  27. Daichi Kominami, Masashi Sugano, Masayuki Murata, and Takaaki Hatauchi, "Robustness of intermittent receiver-driven wireless networks against fluctuations of wireless channel quality," Technical Report of IEICE (AN2010-21), vol. 110, no. 129, pp. 63-68, July 2010. [CiNii (Japanese)]

  28. Damdinsuren Chuluunsuren, Daichi Kominami, Masashi Sugano, Masayuki Murata, and Takaaki Hatauchi, "Lifetime extension based on residual energy for receiver-driven multi-hop wireless network," Technical Report of IEICE (AN2010-3), vol. 110, no. 49, pp. 11-14, May 2010. (Young Researcher Study Encouragement Award). [CiNii (Japanese)]

  29. Daichi Kominami, Masashi Sugano, Masayuki Murata, and Takaaki Hatauchi, "Robustness of receiver-driven multi-hop wireless network with soft-state connectivity management," The Papers of Technical Meeting on Information Systems, IEE Japan (IS-10-038), pp. 81-86, May 2010. [CiNii (Japanese)]

  30. Daichi Kominami, Masashi Sugano, Masayuki Murata, Takaaki Hatauchi, and Junichi Machida, "Performance improvement by collision avoidance mechanism in receiver-driven multi-hop wireless networks," Technical Report of IEICE (AN2009-32), vol. 109, no. 247, pp.65-70, October 2009. [CiNii (Japanese)]

  31. Daichi Kominami, Masashi Sugano, Masayuki Murata, Takaaki Hatauchi, Yoshikazu Fukuyama, and Tatsuya Shikura, "Evaluation of intermittent receiver-driven data transmission on wireless sensor networks," Technical Report of IEICE (IN2008-155), vol. 108, no. 458, pp. 139-144, March 2009. [CiNii (Japanese)]

Thesis

  • Doctoral thesis: "Managed self-organization control for robust wireless sensor networks," Graduate School of Information Science and Technology, Osaka University, January 2013. [pdf]

  • Master's thesis: "Robustness of receiver-driven multi-hop wireless network with softstate connectivity management," Graduate School of Information Science and Technology, Osaka-University, February 2010. [pdf]

Awards

  • Best Paper Award: "Brain-inspired method for constructing a robust virtual wireless sensor network," IEEE CoCoNet 2015, December 2015 (second author).

  • Best Paper Award: "Proposal and evaluation of a predictive mechanism for ant-based routing," EMERGING 2013, October 2013 (second author).

  • KASAMI Award: for "Study on managed self-organizing network architectures for large-scale wireless sensor networks," Graduate School of Engineering Sciences, Osaka University, March 2014.

  • The Young Researcher Study Encouragement Award: "Controlled potential-based routing in large-scale wireless sensor networks," IEICE Technical Committee on Ad Hoc Networks, January 2011.

  • Best Paper Award: "Robustness of receiver-driven multi-hop wireless network with soft-state connectivity management," ICSNC 2010, August 2010.