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2020 – today
- 2024
[j54]Yifan Chen, Dezhong Yao, Tadashi Nakano:
Special Feature: 14th EAI International Conference on Bio-Inspired Information and Communications Technologies. IEEE Trans. Mol. Biol. Multi Scale Commun. 10(1): 98-100 (2024)- 2023
- [j53]Jiewen Wang
, Tadashi Nakano:
Modelling and Simulations of Collective Bio-Nanomachine Rotation in 3-D Space. IEEE Trans. Mol. Biol. Multi Scale Commun. 9(2): 222-226 (2023) - [c92]Quoc Duy Nam Nguyen, Thi Hong Tran, Tadashi Nakano:
Optimizing Parkinson's Disease Classification and Severity Assessment Using Dense Multiscale Sample Entropy and Hybrid Feature Selection. ICIT 2023: 64-69 - [c91]Tadashi Nakano, Tatsuya Suda:
Cell Clusters and Their Networks for Emerging Applications. SGIoT 2023: 90-97 - 2022
- [j52]Baris Atakan, Sebastià Galmés, Werner Haselmayr, Nariman Farsad, Tadashi Nakano:
Guest editorial for signal processing aspects of molecular communications. Digit. Signal Process. 124: 103544 (2022) - [j51]Fan-Hsun Tseng, Chi-Yuan Chen, Reza Malekian, Tadashi Nakano, Zhenjiang Zhang:
Guest Editorial: AI-enabled intelligent network for 5G and beyond. IET Commun. 16(11): 1265-1267 (2022) - [j50]Yesenia Cevallos, Tadashi Nakano, Luis Tello-Oquendo, Ahmad A. Rushdi, Deysi Inca, Ivone Santillán, Amin Zadeh Shirazi, Nicolay Samaniego:
A brief review on DNA storage, compression, and digitalization. Nano Commun. Networks 31: 100391 (2022) - [j49]Andreani D. Odysseos, Tadashi Nakano:
Bionanomachine Diagnostics and Nanonetwork Therapeutic in Brain Malignancies With Bionanodevice Interfaces. IEEE Trans. Mol. Biol. Multi Scale Commun. 8(1): 28-35 (2022) - [c90]Karin Matsushita, Tadashi Nakano:
Wet-laboratory Experiments and Computer Simulation of Growing Cell Clusters. GLOBECOM 2022: 4541-4546 - [c89]Jiewen Wang, Tadashi Nakano:
Collective Rotational Motion of Bio-nanomachines via Chemical and Physical Interactions. GLOBECOM 2022: 4547-4552 - [c88]Tomoka Tsuchiya, Takanori Saiki, Tadashi Nakano:
Modeling and Simulations of Vascular-like Structure Formation of Cancer Cells. ISMICT 2022: 1-6 - [c87]Mayuka Chiba, Tadashi Nakano:
Collective Gradient Detection for Forming a Bio-nanomachine Supercluster. SCIS/ISIS 2022: 1-4 - [c86]Motoharu Nishino, Tadashi Nakano:
Frequency-based Directional Sensing for Mobile Molecular Communication. SCIS/ISIS 2022: 1-4 - [c85]Takanori Saiki, Tadashi Nakano:
Design and Implementation of a Multicellular Molecular Communication Simulator. SCIS/ISIS 2022: 1-5 - [c84]Tomoka Tsuchiya, Tadashi Nakano, William C. Tang:
Two Point Correlation Analysis of Cancer Cell Structure Formation. SCIS/ISIS 2022: 1-4 - [c83]Jiewen Wang, Tadashi Nakano:
Collective Rotational Motion of Bio-nanomachines in Noisy Environments. SCIS/ISIS 2022: 1-6 - 2021
- [j48]Yifan Chen, Tadashi Nakano, Lin Lin, Weisi Guo, Mohammad Upal Mahfuz:
Editorial: Biologically Inspired Computing and Networking. Mob. Networks Appl. 26(3): 1344-1346 (2021) - [c82]Yesenia Cevallos, Tadashi Nakano, Luis Tello-Oquendo, Nishtha Chopra, Amin Zadeh Shirazi, Deysi Inca, Ivone Santillán:
Theoretical Basis for Gene Expression Modeling Based on the IEEE 1906.1 Standard. BICT 2021: 145-162 - [e5]Tadashi Nakano:
Bio-Inspired Information and Communications Technologies - 13th EAI International Conference, BICT 2021, Virtual Event, September 1-2, 2021, Proceedings. Lecture Notes of the Institute for Computer Sciences, Social Informatics and Telecommunications Engineering 403, Springer 2021, ISBN 978-3-030-92162-0 [contents] - 2020
- [j47]Yutaka Okaie, Tadashi Nakano:
Mobile Molecular Communication Through Multiple Measurements of the Concentration of Molecules. IEEE Access 8: 179606-179615 (2020) - [j46]Tadashi Nakano, Shin Nagai, Toshifumi Yamatogi, Takeo Kurihara, Kazumaro Okamura:
Use of sea surface discoloration to monitor and discriminate the causative genera of harmful algal blooms (HABs): Practical use of digital repeat photography. Ecol. Informatics 59: 101114 (2020) - [j45]Tadashi Nakano, Adriana Compagnoni:
Editorial: Biologically Inspired Networking. Mob. Networks Appl. 25(5): 1900-1901 (2020) - [c81]Yutaka Okaie, Tadashi Nakano:
Binary Concentration Shift Keying with Multiple Measurements of Molecule Concentration in Mobile Molecular Communication. BICT 2020: 42-51 - [c80]Tadashi Nakano, Yutaka Okaie, Nikolaos Dietis, Andreani D. Odysseos:
Growing Bio-nanomachine Networks: Application to Malignant Tumor Evolution and Progression. GLOBECOM 2020: 1-6 - [c79]Tadashi Nakano, Tatsuya Suda:
Communication, Migration and Energy in Bio-nanomachine Functionality Differentiation. GLOBECOM 2020: 1-7 - [c78]Shinya Ishiyama, Tadashi Nakano, Yutaka Okaie, Takahiro Hara, Kaname Harumoto:
Cooperative signaling and directed migration of bio-nanomachines in mobile molecular communication. NANOCOM 2020: 3:1-3:7 - [c77]Kazuki Yonekura, Tadashi Nakano, Yutaka Okaie, Takahiro Hara, Kaname Harumoto:
Network Formation Model of Bio-nanomachines Based on Directed Migration and Adhesion. WCNC 2020: 1-6 - [e4]Yifan Chen, Tadashi Nakano, Lin Lin, Mohammad Upal Mahfuz, Weisi Guo:
Bio-inspired Information and Communication Technologies - 12th EAI International Conference, BICT 2020, Shanghai, China, July 7-8, 2020, Proceedings. Lecture Notes of the Institute for Computer Sciences, Social Informatics and Telecommunications Engineering 329, Springer 2020, ISBN 978-3-030-57114-6 [contents]
2010 – 2019
- 2019
- [j44]Tadashi Nakano, Yutaka Okaie, Shouhei Kobayashi, Takahiro Hara, Yasushi Hiraoka, Tokuko Haraguchi:
Methods and Applications of Mobile Molecular Communication. Proc. IEEE 107(7): 1442-1456 (2019) - [j43]Tadashi Nakano, Lin Lin, Yutaka Okaie, Cong Wu, Hao Yan, Takahiro Hara, Kaname Harumoto:
Random Cell Motion Enhances the Capacity of Cell-Cell Communication. IEEE Trans. Mol. Biol. Multi Scale Commun. 5(2): 158-162 (2019) - [c76]Peng He, Tadashi Nakano, Dapeng Wu, Boran Yang, Hanyong Liu, Xiaojuan Han:
Calcium Signaling in Mobile Molecular Communication Networks. GLOBECOM 2019: 1-6 - [c75]Tatsuya Suda, Tadashi Nakano:
Modeling the Stochastic Behavior of Kinesin-Coated Beads. ICC 2019: 1-7 - [c74]Liting Yang, Xin Ge, Qiang Liu, Kun Yang, Yifan Chen, Tadashi Nakano:
Chemotaxis-based Multi-hop Molecular Nanonetworks for Target Detection. ICCC Workshops 2019: 186-191 - [c73]Naohiko Tsuda, Hironori Washizaki, Kiyoshi Honda, Hidenori Nakai, Yoshiaki Fukazawa, Motoei Azuma, Toshihiro Komiyama, Tadashi Nakano, Hirotsugu Suzuki, Sumie Morita, Katsue Kojima, Akiyoshi Hando:
WSQF: comprehensive software quality evaluation framework and benchmark based on SQuaRE. ICSE (SEIP) 2019: 312-321 - [c72]Shinya Ishiyama, Tadashi Nakano, Yutaka Okaie, Takahiro Hara, Kaname Harumoto:
Data-driven Simulation of Epidemic Information Dissemination in Mobile Molecular Communication. NANOCOM 2019: 34 - 2018
- [j42]Peng He, Tadashi Nakano, Yuming Mao, Pietro Liò, Qiang Liu, Kun Yang:
Stochastic Channel Switching of Frequency-Encoded Signals in Molecular Communication Networks. IEEE Commun. Lett. 22(2): 332-335 (2018) - [j41]Satoru Iwasaki, Tadashi Nakano:
Graph-Based Modeling of Mobile Molecular Communication Systems. IEEE Commun. Lett. 22(2): 376-379 (2018) - [j40]Taro Furubayashi, Yoshihiro Sakatani, Tadashi Nakano, Andrew W. Eckford, Norikazu Ichihashi:
Design and wet-laboratory implementation of reliable end-to-end molecular communication. Wirel. Networks 24(5): 1809-1819 (2018) - [c71]Shinya Ishiyama, Tadashi Nakano, Yutaka Okaie, Takahiro Hara:
Epidemic Information Dissemination in Mobile Molecular Communication Systems. GLOBECOM 2018: 1-7 - [c70]Haoyang Zhai, Liting Yang, Tadashi Nakano, Qiang Liu, Kun Yang:
Bio-Inspired Design and Implementation of Mobile Molecular Communication Systems at the Macroscale. GLOBECOM 2018: 1-6 - [c69]Tadashi Nakano, Tatsuya Suda:
Modeling and simulations of bio-nanomachines for spatiotemporal pattern formation. NANOCOM 2018: 2:1-2:6 - [c68]Kento Furuhashi, Junichi Suzuki, Jonathan S. Mitzman, Tadashi Nakano, Yutaka Okaie, Hiroaki Fukuda:
Impacts of SW-ARQ on the Latency and Reliability of Diffusive, In-Sequence Molecular Communication. SECON Workshops 2018: 76-79 - [c67]Tatsuya Suda, Tadashi Nakano:
Molecular Communication as a Biological System. SECON Workshops 2018: 80-83 - [c66]Yifan Chen, Yu Zhou, Ross D. Murch, Tadashi Nakano:
Communication-Inspired Model of Epidemics. SECON Workshops 2018: 84-87 - [c65]Yoshihiro Sakatani, Junya Nakanishi, Takuya Yamada, Takahiro Komori, Shohei Fujii, Masataka Okubo, Tadashi Nakano:
An Avatar-Mediated Communication System for the Construction of Interpersonal Relationships. SMC 2018: 2614-2619 - 2017
- [j39]Satoru Iwasaki, Jian Yang, Tadashi Nakano:
A Mathematical Model of Non-Diffusion-Based Mobile Molecular Communication Networks. IEEE Commun. Lett. 21(9): 1969-1972 (2017) - [j38]Tadashi Nakano, Yutaka Okaie, Shouhei Kobayashi, Takako Koujin, Chen-Hao Chan, Yu-Hsiang Hsu, Takuya Obuchi, Takahiro Hara, Yasushi Hiraoka, Tokuko Haraguchi:
Performance Evaluation of Leader-Follower-Based Mobile Molecular Communication Networks for Target Detection Applications. IEEE Trans. Commun. 65(2): 663-676 (2017) - [j37]Tadashi Nakano, Tatsuya Suda:
Molecular Communication Using Dynamic Properties of Oscillating and Propagating Patterns in Concentration of Information Molecules. IEEE Trans. Commun. 65(8): 3386-3398 (2017) - [j36]Tadashi Nakano:
Molecular Communication: A 10 Year Retrospective. IEEE Trans. Mol. Biol. Multi Scale Commun. 3(2): 71-78 (2017) - [c64]Hiroaki Egashira, Junichi Suzuki, Toshiaki Koike-Akino, Tadashi Nakano, Hiroaki Fukuda, Philip V. Orlik:
Molecular Fountain: A Robustness Enhancement Framework for Diffusive Molecular Communication. GLOBECOM 2017: 1-7 - [c63]Hiroaki Egashira, Junichi Suzuki, Jonathan S. Mitzman, Tadashi Nakano, Hiroaki Fukuda:
Robust directional-diffusive hybrid molecular communication with parity-check erasure coding. IFSA-SCIS 2017: 1-8 - [c62]Yutaka Okaie, Tadashi Nakano, Takuya Obuchi, Shinya Ishiyama, Takahiro Hara:
Molecule gradient formation by mobile bio-nanomachines. ISPACS 2017: 844-848 - [c61]Haoyang Zhai, Tadashi Nakano, Athanasios V. Vasilakos, Kun Yang, Qiang Liu:
Increase detection algorithm for concentration-encoded diffusion-based molecular communication. NANOCOM 2017: 10:1-10:6 - [c60]Yifan Chen, Shaolong Shi, Xin Yao, Tadashi Nakano, Panagiotis Kosmas:
Touchable computation: Computing-inspired bio-detection. SPAWC 2017: 1-5 - [c59]Yutaka Okaie, Tadashi Nakano, Takuya Obuchi, Takahiro Hara:
Modeling and simulation experiments of trail network formation by non-diffusion-based mobile molecular communication networks. SPAWC 2017: 1-5 - [c58]Peng He, Tadashi Nakano, Yuming Mao, Qiang Liu, Kun Yang:
Channel Switching in Molecular Communication Networks through Calcium Signaling. WCNC 2017: 1-6 - 2016
- [b1]Yutaka Okaie, Tadashi Nakano, Takahiro Hara, Shojiro Nishio:
Target Detection and Tracking by Bionanosensor Networks. Springer Briefs in Computer Science, Springer 2016, ISBN 978-981-10-2467-2, pp. 1-65 - [j35]Kazufumi Hosoda, Soichiro Tsuda, Kohmei Kadowaki, Yutaka Nakamura, Tadashi Nakano, Kojiro Ishii:
Population-reaction model and microbial experimental ecosystems for understanding hierarchical dynamics of ecosystems. Biosyst. 140: 28-34 (2016) - [j34]Yifan Chen, Tadashi Nakano, Panagiotis Kosmas, Chau Yuen, Athanasios V. Vasilakos, Muhamad Asvial:
Green Touchable Nanorobotic Sensor Networks. IEEE Commun. Mag. 54(11): 136-142 (2016) - [j33]Taro Furubayashi, Tadashi Nakano, Andrew W. Eckford, Norikazu Ichihashi, Tetsuya Yomo:
Packet Replication and Noise in Reliable End-to-end Molecular Communication. EAI Endorsed Trans. Creative Technol. 3(9): e4 (2016) - [j32]Yutaka Okaie, Tadashi Nakano, Takuya Obuchi, Takahiro Hara, Shojiro Nishio:
Mobility and Controllability of Bio-nanomachines. EAI Endorsed Trans. Mob. Commun. Appl. 2(10): e5 (2016) - [j31]Junichi Suzuki, Parisa Memarmoshrefi, Tadashi Nakano:
Editorial: Advances on Bio-inspired Information, Communication and Computational Systems. Mob. Networks Appl. 21(1): 127-129 (2016) - [c57]Satoru Iwasaki, Jian Yang, Anthony O. Abraham, Juan Lorenzo Hagad, Takuya Obuchi, Tadashi Nakano:
Modeling Multi-Target Detection and Gravitation by Intelligent Self-Organizing Bioparticles. GLOBECOM 2016: 1-6 - [c56]Yutaka Okaie, Tadashi Nakano, Takuya Obuchi, Takahiro Hara:
Research challenges in bionanosensor networks. INFOCOM Workshops 2016: 1035-1036 - [c55]Jumpei Namba, Tadashi Nakano, Yutaka Okaie, Takahiro Hara:
Epidemic Information Dissemination for Molecular Communication among Mobile Bio-nanomachines. NANOCOM 2016: 41:1-41:2 - [c54]Junya Nakanishi, Yoshihiro Sakatani, Masataka Okubo, Shohei Fujii, Kohei Matsuo, Takuya Yamada, Tadashi Nakano:
Sense of Self-Agency in Sharing Conversational Experiences between Agents and Human Users. ICSC 2016: 270-271 - [c53]Tadashi Nakano, Tatsuya Suda, Yutaka Okaie, Michael J. Moore:
Analysis of Cyber Aggression and Cyber-Bullying in Social Networking. ICSC 2016: 337-341 - [c52]Tadashi Nakano, Shouhei Kobayashi, Takako Koujin, Chen-Hao Chan, Yu-Hsiang Hsu, Yutaka Okaie, Takuya Obuchi, Takahiro Hara, Yasushi Hiraoka, Tokuko Haraguchi:
Leader-follower based target detection model for mobile molecular communication networks. SPAWC 2016: 1-5 - [i2]Andrew W. Eckford, Taro Furubayashi, Tadashi Nakano:
RNA as a Nanoscale Data Transmission Medium: Error Analysis. CoRR abs/1609.07329 (2016) - 2015
- [j30]Tadashi Nakano, Junichi Suzuki:
Special issue on Biological Information and Communication Technology. Nano Commun. Networks 6(3): 85-86 (2015) - [c51]Yutaka Okaie, Tadashi Nakano, Takuya Obuchi, Takahiro Hara, Shojiro Nishio:
Mobility and Controllability of Bio-nanomachines. BICT 2015: 163-164 - [c50]Taro Furubayashi, Tadashi Nakano, Andrew W. Eckford, Norikazu Ichihashi, Tetsuya Yomo:
Packet Replication and Noise in Reliable End-to-end Molecular Communication. BICT 2015: 165-166 - [c49]Taro Furubayashi, Tadashi Nakano, Andrew W. Eckford, Tetsuya Yomo:
Reliable End-to-End Molecular Communication with Packet Replication and Retransmission. GLOBECOM 2015: 1-6 - [c48]Tadashi Nakano, Tatsuya Suda, Michael J. Moore:
Molecular Communication through Biological Pattern Formation. GLOBECOM 2015: 1-7 - [c47]Jonathan S. Mitzman, Bria Morgan, Torna Omar Soro, Junichi Suzuki, Tadashi Nakano:
A feedback-based molecular communication protocol for noisy intrabody environments. HealthCom 2015: 463-467 - [c46]Takuya Obuchi, Yutaka Okaie, Tadashi Nakano, Takahiro Hara, Shojiro Nishio:
Inbody mobile bionanosensor networks through non-diffusion-based molecular communication. ICC 2015: 1078-1084 - [e3]Junichi Suzuki, Tadashi Nakano:
8th International Conference on Bio-inspired Information and Communications Technologies, BICT 2014, Boston, MA, USA, December 1-3, 2014. ICST 2015, ISBN 978-1-63190-053-2 [contents] - [e2]Junichi Suzuki, Tadashi Nakano, Henry Hess:
BICT 2015, Proceedings of the 9th EAI International Conference on Bio-inspired Information and Communications Technologies (formerly BIONETICS), New York City, United States, December 3-5, 2015. ICST/ACM 2015, ISBN 978-1-63190-100-3 [contents] - 2014
- [j29]Michael J. Moore, Yutaka Okaie, Tadashi Nakano:
Diffusion-Based Multiple Access by Nano-Transmitters to a Micro-Receiver. IEEE Commun. Lett. 18(3): 385-388 (2014) - [j28]Luca Felicetti, Mauro Femminella, Gianluca Reali, Tadashi Nakano, Athanasios V. Vasilakos:
TCP-Like Molecular Communications. IEEE J. Sel. Areas Commun. 32(12): 2354-2367 (2014) - [j27]Tadashi Nakano, Shouhei Kobayashi, Tatsuya Suda, Yutaka Okaie, Yasushi Hiraoka, Tokuko Haraguchi:
Externally Controllable Molecular Communication. IEEE J. Sel. Areas Commun. 32(12): 2417-2431 (2014) - [j26]Yutaka Okaie, Tadashi Nakano, Takahiro Hara, Shojiro Nishio:
Autonomous mobile bionanosensor networks for target tracking: A two-dimensional model. Nano Commun. Networks 5(3): 63-71 (2014) - [c45]Yutaka Okaie, Tadashi Nakano, Takuya Obuchi, Takahiro Hara, Shojiro Nishio:
Bacterium-based Mobile Bionanosensor Networks for Target Tracking: A Biologically Realistic Model. BICT 2014 - [c44]Yutaka Okaie, Tadashi Nakano, Takahiro Hara, Kazufumi Hosoda, Yasushi Hiraoka, Shojiro Nishio:
Modeling and performance evaluation of mobile bionanosensor networks for target tracking. ICC 2014: 3969-3974 - [c43]Tadashi Nakano, Shouhei Kobayashi, Tatsuya Suda, Yutaka Okaie, Yasushi Hiraoka, Tokuko Haraguchi:
Externally Controllable Molecular Communication Systems for Pattern Formation. NANOCOM 2014: 14:1-14:4 - [i1]Luca Felicetti, Mauro Femminella, Gianluca Reali, Tadashi Nakano, Athanasios V. Vasilakos:
TCP-like molecular communications. CoRR abs/1406.4259 (2014) - 2013
- [j25]Tadashi Nakano, Yutaka Okaie, Athanasios V. Vasilakos:
Transmission Rate Control for Molecular Communication among Biological Nanomachines. IEEE J. Sel. Areas Commun. 31(12-Supplement): 835-846 (2013) - [j24]Yutaka Okaie, Tadashi Nakano:
Resource pricing games on graphs: existence of Nash equilibria. Optim. Lett. 7(2): 231-240 (2013) - [c42]Michael J. Moore, Tadashi Nakano:
Application of high-band UWB body area network to medical vital sensing in hospital. BODYNETS 2013: 472-475 - [c41]Yutaka Okaie, Tadashi Nakano, Takahiro Hara, Shojiro Nishio:
Single Target Tracking in Bionanosensor Networks: Preliminary Simulation Results. BODYNETS 2013: 476-477 - [c40]Tadashi Nakano, Kazufumi Hosoda, Yutaka Nakamura, Kojiro Ishii:
A Biologically-inspired Intrabody Nanonetwork: Design Considerations. BODYNETS 2013: 484-487 - [c39]Tadashi Nakano, Michael J. Moore, Yutaka Okaie, Akihiro Enomoto, Tatsuya Suda:
Cooperative drug delivery through molecular communication among biological nanomachines. ICC Workshops 2013: 809-812 - [c38]Yutaka Okaie, Tadashi Nakano, Jian-Qin Liu:
Information transmission through a multiple access molecular communication channel. ICC 2013: 4030-4034 - 2012
- [j23]Michael J. Moore, Tadashi Nakano, Akihiro Enomoto, Tatsuya Suda:
Anonymity and roles associated with aggressive posts in an online forum. Comput. Hum. Behav. 28(3): 861-867 (2012) - [j22]Yutaka Okaie, Tadashi Nakano:
Network formation games in non-cooperative service overlay networks. Comput. Syst. Sci. Eng. 27(1) (2012) - [j21]Tadashi Nakano, Yutaka Okaie, Jian-Qin Liu:
Channel Model and Capacity Analysis of Molecular Communication with Brownian Motion. IEEE Commun. Lett. 16(6): 797-800 (2012) - [j20]Jian-Qin Liu, Tadashi Nakano:
Principles and Methods for Nanomechatronics: Signaling, Structure, and Functions Toward Nanorobots. IEEE Trans. Syst. Man Cybern. Part C 42(3): 357-366 (2012) - [j19]Michael J. Moore, Tadashi Nakano, Akihiro Enomoto, Tatsuya Suda:
Measuring Distance From Single Spike Feedback Signals in Molecular Communication. IEEE Trans. Signal Process. 60(7): 3576-3587 (2012) - [c37]Michael J. Moore, Tadashi Nakano:
Multiplexing over molecular communication channels from nanomachines to a micro-scale sensor device. GLOBECOM 2012: 4302-4307 - [c36]Michael J. Moore, Tadashi Nakano:
Comparing transmission, propagation, and receiving options for nanomachines to measure distance by molecular communication. ICC 2012: 6132-6136 - [c35]Akihiro Enomoto, Michael J. Moore, Tadashi Nakano, Tatsuya Suda:
Stochastic cargo transport by molecular motors in molecular communication. ICC 2012: 6142-6145 - [c34]Tadashi Nakano, Yutaka Okaie, Athanasios V. Vasilakos:
Throughput and efficiency of molecular communication between nanomachines. WCNC 2012: 704-708 - [c33]Yutaka Okaie, Tadashi Nakano:
Nanomachine placement strategies for detecting Brownian molecules in nanonetworks. WCNC 2012: 1755-1759 - [p2]Tadashi Nakano:
A Networking Paradigm Inspired by Cell Communication Mechanisms. Biologically Inspired Networking and Sensing 2012: 1-10 - [e1]Junichi Suzuki, Tadashi Nakano:
Bio-Inspired Models of Network, Information, and Computing Systems - 5th International ICST Conference, BIONETICS 2010, Boston, MA, USA, December 1-3, 2010, Revised Selected Papers. Lecture Notes of the Institute for Computer Sciences, Social Informatics and Telecommunications Engineering 87, Springer 2012, ISBN 978-3-642-32614-1 [contents] - 2011
- [j18]Sasitharan Balasubramaniam, Dmitri Botvich, Ray Carroll, Julien Mineraud, Tadashi Nakano, Tatsuya Suda, William Donnelly:
Biologically inspired future service environment. Comput. Networks 55(15): 3423-3440 (2011) - [j17]Yutaka Okaie, Tadashi Nakano:
Non-cooperative optimization games in market-oriented overlay networks: an integrated model of resource pricing and network formation. Frontiers Comput. Sci. China 5(4): 496-505 (2011) - [j16]Yutaka Okaie, Tadashi Nakano:
A game theoretic framework for peer-to-peer market economy. Int. J. Grid Util. Comput. 2(3): 183-195 (2011) - [j15]Tadashi Nakano, Michael Moore:
Molecular Communication Paradigm Overview. J. Next Gener. Inf. Technol. 2(1): 9-16 (2011) - [j14]Tadashi Nakano, Junichi Suzuki:
Special Issue on Biological Information and Communication Technology. Nano Commun. Networks 2(2-3): 85-87 (2011) - [j13]Michael J. Moore, Tadashi Nakano:
Addressing by beacon distances using molecular communication. Nano Commun. Networks 2(2-3): 161-173 (2011) - [j12]Tadashi Nakano:
Biologically Inspired Network Systems: A Review and Future Prospects. IEEE Trans. Syst. Man Cybern. Part C 41(5): 630-643 (2011) - [c32]Michael J. Moore, Tadashi Nakano:
Synchronization of Inhibitory Molecular Spike Oscillators. BIONETICS 2011: 183-195 - [c31]Yutaka Okaie, Michael J. Moore, Tadashi Nakano:
Propagation Delay of Brownian Molecules in Nano-Biosensor Networks. BIONETICS 2011: 196-198 - [p1]Yutaka Okaie, Tadashi Nakano:
A Game Theoretic Approach to Dynamic Network Formation in Market-Oriented Resource Providing Networks. Intelligent Decision Systems in Large-Scale Distributed Environments 2011: 251-278 - 2010
- [j11]Tadashi Nakano, Yutaka Okaie:
Cooperative Resource Pricing in Service Overlay Networks for Mobile Agents. IEICE Trans. Commun. 93-B(7): 1927-1930 (2010) - [j10]Tadashi Nakano, Jian-Wei Shuai, Takako Koujin, Tatsuya Suda, Yasushi Hiraoka, Tokuko Haraguchi:
Biological excitable media based on non-excitable cells and calcium signaling. Nano Commun. Networks 1(1): 43-49 (2010) - [j9]Özgür B. Akan, Tadashi Nakano, Michael J. Moore:
Special Issue on Fundamentals of Nanoscale Communications. Nano Commun. Networks 1(3): 157-159 (2010) - [j8]Tadashi Nakano, Michael J. Moore:
In-sequence molecule delivery over an aqueous medium. Nano Commun. Networks 1(3): 181-188 (2010) - [c30]Yutaka Okaie, Tadashi Nakano:
Price Stability in Peer-to-Peer Resource Markets. 3PGCIC 2010: 531-534 - [c29]Tadashi Nakano, Shouhei Kobayashi, Tokuko Haraguchi:
Interfacing Living Cells via Molecular Communication. BIONETICS 2010: 30-31 - [c28]Yutaka Okaie, Tadashi Nakano:
Dynamics and Convergence of Resource Prices in Market-Oriented Overlay Networks. BIONETICS 2010: 100-101 - [c27]Jian-Qin Liu, Tadashi Nakano:
A Filter for the Cooperative Kinase Network of Budding Yeast Saccharomyces cerevisiae. BIONETICS 2010: 563-564 - [c26]Tadashi Nakano:
Biological Computing Based on Living Cells and Cell Communication. NBiS 2010: 42-47 - [c25]Yutaka Okaie, Tadashi Nakano:
Modeling and Simulation of Market-Oriented Service Overlay Networks. NBiS 2010: 125-132 - [c24]Yutaka Okaie, Tadashi Nakano:
Simulating the network dynamics in market-oriented overlay networks. NCM 2010: 1-4 - [c23]Tadashi Nakano, Tatsuya Suda:
Biological cell communications technology: An architecture overview. NCM 2010: 488-490
2000 – 2009
- 2009
- [c22]Sasitharan Balasubramaniam, Dmitri Botvich, Ray Carroll, Julien Mineraud, William Donnelly, Tadashi Nakano, Tatsuya Suda:
Adaptive Dynamic Routing Supporting Service Management for Future Internet. GLOBECOM 2009: 1-7 - [c21]Tadashi Nakano, Jian-Qin Liu:
Information Transfer through Calcium Signaling. NanoNet 2009: 29-33 - [c20]Jian-Qin Liu, Tadashi Nakano:
Quantitative Analysis of the Feedback of the Robust Signaling Pathway Network of Myosin V Molecular Motors on GluR1 of AMPA in Neurons: A Networking Approach for Controlling Nanobiomachines. NanoNet 2009: 34-38 - 2008
- [c19]Tomoki Yoshihisa, Tadashi Nakano, Shun Watanabe, Tatsuya Suda:
Bee-inspired data collection methods for P2P streaming systems. BIONETICS 2008: 11 - [c18]Frank Walsh, Sasitharan Balasubramaniam, Dmitri Botvich, Tadashi Nakano, Tatsuya Suda:
Simulation Framework for Communication Protocols of Molecular Communication Systems. BIONETICS 2008: 34 - [c17]Jian-Qin Liu, Tadashi Nakano:
Biomolecular Computation Based on Cell Communication. BIONETICS 2008: 36 - [c16]Frank Walsh, Sasitharan Balasubramaniam, Dmitri Botvich, Tatsuya Suda, Tadashi Nakano, Stephen F. Bush, Mícheál Ó Foghlú:
Hybrid DNA and Enzyme Based Computing for Address Encoding, Link Switching and Error Correction in Molecular Communication. NanoNet 2008: 28-38 - 2007
- [j7]Tadashi Nakano, Tatsuya Suda:
Applying biological principles to designs of network services. Appl. Soft Comput. 7(3): 870-878 (2007) - [c15]Tadashi Nakano, Tatsuya Suda, Takako Koujin, Tokuko Haraguchi, Yasushi Hiraoka:
Molecular Communication through Gap Junction Channels: System Design, Experiments and Modeling. BIONETICS 2007: 139-146 - [c14]Jian-Qin Liu, Tadashi Nakano:
An Information Theoretic Model of Molecular Communication Based on Cellular Signaling. BIONETICS 2007: 316-321 - [c13]Tatsuya Suda, Tadashi Nakano, Michael J. Moore, Akihiro Enomoto, Keita Fujii:
Biologically Inspired Approaches to Networks: The Bio-Networking Architecture and the Molecular Communication. BIOWIRE 2007: 241-254 - [c12]Michael J. Moore, Akihiro Enomoto, Tadashi Nakano, Atsushi Kayasuga, Hiroaki Kojima, Hitoshi Sakakibara, Kazuhiro Oiwa, Tatsuya Suda:
Molecular Communication: Simulation of Microtubule Topology. IWNC 2007: 134-144 - [c11]Michael J. Moore, Akihiro Enomoto, Tadashi Nakano, Yutaka Okaie, Tatsuya Suda:
Interfacing with nanomachines through molecular communication. SMC 2007: 18-23 - 2006
- [c10]Michael J. Moore, Akihiro Enomoto, Tadashi Nakano, Tatsuya Suda, Atsushi Kayasuga, Hiroaki Kojima, Hitoshi Sakakibara, Kazuhiro Oiwa:
Simulation of a molecular motor based communication network. BIONETICS 2006: 19 - [c9]Tadashi Nakano, Michael J. Moore, Akihiro Enomoto, Tatsuya Suda, Takako Koujin, Tokuko Haraguchi, Yasushi Hiraoka:
A cell-based molecular communication network. BIONETICS 2006: 23 - [c8]Michael J. Moore, Akihiro Enomoto, Tadashi Nakano, Ryota Egashira, Tatsuya Suda, Atsushi Kayasuga, Hiroaki Kojima, Hitoshi Sakakibara, Kazuhiro Oiwa:
A Design of a Molecular Communication System for Nanomachines Using Molecular Motors. PerCom Workshops 2006: 554-559 - 2005
- [j6]Anh Nguyen, Tadashi Nakano, Tatsuya Suda:
Learning from nature: network architecture inspired by biology. ACM Crossroads 11(4): 2 (2005) - [j5]Vishakh, Nicholas Urrea, Tadashi Nakano, Tatsuya Suda:
An interaction model for mobile agent services using social networks. ACM Crossroads 11(4): 3 (2005) - [j4]Tadashi Nakano, Tatsuya Suda:
Self-organizing network services with evolutionary adaptation. IEEE Trans. Neural Networks 16(5): 1269-1278 (2005) - [j3]Kaname Harumoto, Tadashi Nakano, Shinya Fukumura, Shinji Shimojo, Shojiro Nishio:
Effective Web browsing through content delivery adaptation. ACM Trans. Internet Techn. 5(4): 571-600 (2005) - [c7]Vishakh, Nicholas Urrea, Tadashi Nakano, Tatsuya Suda:
A resource-allocation mechanism for multiagent networks. GECCO Workshops 2005: 411-414 - 2004
- [c6]Tadashi Nakano, Tatsuya Suda:
Adaptive and Evolvable Network Services. GECCO (1) 2004: 151-162 - [c5]Tadashi Nakano, Tatsuya Suda:
Evolution and Adaptation of Distributed Network Services. SAINT Workshops 2004: 360-367 - 2002
- [j2]Tadashi Nakano, Kaname Harumoto, Shinji Shimojo, Shojiro Nishio:
A web page transmission mechanism with transmission order control of inline objects. Syst. Comput. Jpn. 33(4): 14-24 (2002) - [c4]Hiroshi Fujimoto, Tadashi Nakano, Kaname Harumoto, Shojiro Nishio:
Response order rearrangement on a caching proxy for reducing WWW latency. SAC 2002: 845-851 - [c3]Tadashi Nakano, Kaname Harumoto, Shinji Shimojo, Shojiro Nishio:
User adaptive content delivery mechanism on the world wide web. SAC 2002: 1140-1146 - 2001
- [c2]Tadashi Nakano, Kaname Harumoto, Shinji Shimojo, Shojiro Nishio:
Extending hypertext streaming protocol to realize effective web page transmission via a chaching proxy. SAC 2001: 440-445 - 2000
- [j1]Kaname Harumoto, Tadashi Nakano, Shinji Shimojo:
An Architecture for Adaptive Multimedia Content Delivery. New Gener. Comput. 18(4): 375-390 (2000) - [c1]Tadashi Nakano, Kaname Harumoto, Shinji Shimojo, Shojiro Nishio:
Controlling Transmission Order of Inline Objects for Effective Web Page Publishing. SAC (2) 2000: 942-947
Coauthor Index
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