HOME > Members > SATOH, Daisuke

Members

Name

SATOH, Daisuke

Biography

  • Daisuke Satoh received his B.E. and M.E. degrees in electronics and communication engineering in 1992 and 1994 and his Ph.D. in information and computer science in 2002 from Waseda University, Tokyo, Japan. He joined NTT in 1994. Currently he is working as a senior research engineer in NTT Network Service Systems Laboratories and as a part-time lecturer in Chiba Institute of Technology. He worked as a part-time lecturer in Waseda University from 2002 to 2015, Kogakuin University from 2015 to 2017, and Hosei University from 2018 to 2022. He also worked as a lecturer of the AI and Data Seminar at Center for Mathematical Modeling and Data Science, Osaka University in 2020. His research interests include applied discrete systems (discrete systems for data analysis), forecasting with growth curve models, behavioral teletraffic engineering (especially disaster congestion), and software reliability engineering. He received the Best Author Award from the Japan Society for Industrial and Applied Mathematics (JSIAM) in 2011, the Best Presentation Award at the 79th annual Convention of the Japanese Psychological Association in 2016, and the Best Research Award from the Technical Committee of Information and Communication Technologies for Safe and Secure Life (ICTSSL), the Institute of Electronics, Information and Communication Engineers (IEICE) in 2023. He has served as a reviewer for Mathematical Reviews for the American Mathematical Society (AMS). He was a director of the JSIAM from 2020 to 2022. Dr. Satoh is a member of the JSIAM, the IEICE, and the Operations Research Society of Japan (ORSJ).

[Awards]

  • The Best Author Award of Japan Society of Industrial and Applied Mathematics, 2011
  • The Best Presentation Award at the 79th annual Convention of the Japanese Psychological Association, 2016
  • The Best Research Award from the Technical Committee of Information and Communication Technologies for Safe and Secure Life, the Institute of Electronics, Information and Communication Engineers, 2023

Technical/Academic Activities

https://scholar.google.co.jp/citations?user=VRZAaZkAAAAJ&hl=ja&oi=ao
https://www.researchgate.net/profile/Daisuke_Satoh2

[Refereed Journal Papers]

  1. D. Satoh, Analysis for flow termination in the decentralized and centralized pre-congestion notification architecture, Computer Networks, Vol. 233, Article: 109876 (2023.9) 1--15.
    https://doi.org/10.1016/j.comnet.2023.109876
  2. D. Satoh and T. Mochida, Changes in calling parties' behavior caused by settings for indirect control of call duration under disaster congestion, IEICE Transactions, E105-A, (9), Article: 2021EAP1094, (2022.9) 1358―1371.
    https://doi.org/10.1587/transfun.2021EAP1094
  3. D. Satoh, Property of Gompertz data through convex of upper estimated with logistic difference equation, RMS: Research in Mathematics & Statistics, Vol. 9, Issue 1, Article: 2011645, (2022. 1) 1―15.
    https://doi.org/10.1080/27658449.2021.2011645
  4. D. Satoh, Discrete Gompertz equation and model selection between Gompertz and logistic models, International Journal of Forecasting, Vol. 37 (3) (2021) 1192―1211.
    https://doi.org/10.1016/j.ijforecast.2021.01.005
  5. D. Satoh and R. Matsumura, Forecasting with full use of data without interpolation on logistic curve model with missing data, Japan Journal of Industrial and Applied Mathematics, Vol. 38 (2) (2021) 473―488.
    https://doi.org/10.1007/s13160-020-00452-w
  6. D. Satoh and M. Uchida, Riccati equation as topology-based model of computer worms and discrete SIR model with constant infectious period, Physica A, Vol. 566, Article: 125606, (2021) 1―14.
    https://doi.org/10.1016/j.physa.2020.125606
  7. D. Satoh, Model selection among growth curve models that have the same number of parameters, Cogent Mathematics & Statistics, Vol. 6, Article: 1660503, (2019) 1―17.
    https://doi.org/10.1080/25742558.2019.1660503
  8. D. Satoh, Property of Logistic Data Exposed with Gompertz Model and Resistance to Noise in Actual Data, Japan Journal of Industrial and Applied Mathematics, Vol. 36 (3) (2019) 937―957.
    https://doi.org/10.1007/s13160-019-00382-2
  9. D. Satoh, Properties of Gompertz Data Revealed with non-Gompertz Integrable Difference Equation, Cogent Mathematics & Statistics, Vol.6, Article: 1596552 (2019) 1―16.
    https://doi.org/10.1080/25742558.2019.1596552
  10. D. Satoh and R. Matsumura, Monotonic decrease of upper limit estimated with Gompertz model for data described using logistic model, Japan Journal of Industrial and Applied Mathematics, 36 (1) (2019) 79―96.
    https://doi.org/10.1007/s13160-018-0333-9
  11. D. Satoh, Y. Takano, R. Sudo, and T. Mochida, Reduction of Communication Demand under Disaster Congestion using Control to Change Human Communication Behavior without Direct Restriction, Computer Networks, 134, (2018) 105―115.
    https://doi.org/10.1016/j.comnet.2018.01.049
  12. Y. Takahashi and D. Satoh, Maintenance of Communication Carrier Networks against Large-Scale Earthquakes, IEICE Transactions, E98-A (8), (2015) 1602―1609 (Invited paper).
    https://doi.org/10.1587/transfun.E98.A.1602
  13. D. Satoh, H. Kawano, and Y. Chiba, Effect of Load-balancing against Disaster Congestion with Actual Subscriber Extension Telephone Numbers, IEICE Transactions, E98-A (8), (2015)1637―1646.
    https://doi.org/10.1587/transfun.E98.A.1637
  14. D. Satoh and H. Ueno, Marking Algorithm of Distinguishing Three Traffic Load States with Two Encoding States for Pre-congestion Notification, Computer Communications, 36 (10-11), (2013) 1209―1224.
    https://doi.org/10.1016/j.comcom.2013.03.004
  15. D. Satoh and K. Ashitagawa, Nationwide SIP Telephony Network Design to Prevent Congestion Caused by Disaster, IEICE Transactions, E93-B (9), (2010) 2273―2281.
    https://doi.org/10.1587/transcom.E93.B.2273
  16. M. Menth, F. Lehrieder, B. Briscoe, P. Eardley, T. Moncaster, J. Babiarz, A. Charny, X. Zhang, T. Taylor, K-H. Chan, D. Satoh, R. Geib, and G. Karagiannis, A Survey of PCN-Based Admission Control and Flow Termination, IEEE Communications Surveys & Tutorials, Vol. 12 (3), (2010) 357―375.
    https://doi.org/10.1109/SURV.2010.040710.00078
  17. D-D. Luong, A. Vidacs, J. Biro, T-D. Dang, D. Satoh, and K. Ishibashi, Unicast probing techniques for estimation of shared loss rate, International Journal of Communication Systems, Vol. 20 (5), (2007) 613―632.
    https://doi.org/10.1002/dac.839
  18. S. Shioda, D. Satoh and H. Yamamoto: Economic Feasibility of Bandwidth-Sharing Services with QoS Guarantees, Journal of the Operations Research Society of Japan, Vol. 46 (3), (2003) 372―393.
    https://doi.org/10.15807/jorsj.46.372
  19. S. Yamada, S. Inoue, D. Satoh, Statistical Data Analysis Modeling Based on Difference Equations for Software Reliability Assessment, Transactions of the Japan Society for Industrial and Applied Mathematics, Vol. 12 (2), (2002) 155―168.
    https://doi.org/10.11540/jsiamt.12.2_155
  20. D. Satoh and S. Yamada, Parameter estimation of discrete logistic curve models for software reliability assessment, Japan Journal of Industrial and Applied Mathematics, Vol. 19 (1), (2002) 39―53.
    https://doi.org/10.1007/BF03167447
  21. R. Kawahara, K. Ishibashi, T. Hirano, H. Saito, H. Ohara, D. Satoh, S. Asano and J. Matsukata, Traffic measurement and analysis in an ATM-based internet backbone, Computer Communications, Vol. 24 (15-16), (2001) 1508―1524.
    https://doi.org/10.1016/S0140-3664(01)00309-7
  22. D. Satoh, A Discrete Bass Model and Its Parameter Estimation, Journal of the Operations Research Society of Japan, Vol. 44 (1), (2001) 1―18.
    https://doi.org/10.15807/jorsj.44.1
  23. H. Saito, T. Tsuchiya, D. Satoh, G. Marosi, G. Horvath, P. Tatai, and S. Asano, Real-Time Cell Arrival Sequence Estimation and Simulation for IP-over-ATM Networks, IEICE Transactions, E84-B (3), (2001) 634―643.
    https://search.ieice.org/bin/pdf_link.php?category=B&lang=E&year=2001&fname=e84-b_3_634&abst=
  24. D. Satoh, A Discrete Gompertz Equation and a Software Reliability Growth Model, IEICE Transactions, E83-D (7), (2000) 1508―1513. https://search.ieice.org/bin/summary.php?id=e83-d_7_1508

[Refereed International Conference Papers]

  1. D. Satoh and H. Ueno, Cause and countermeasure of overtermination for PCN-based flow termination, Proceedings of IEEE Symposium on Computers and Communications (ISCC), (IEEE, Riccione, June, 2010) 155―161.
  2. D. Satoh and K. Ashitagawa, SIP Network Design to Prevent Congestion Caused by Disaster, Proceedings of the IEEE International Conference on Communications (ICC), (IEEE Communications Society, Dresden, June, 2009) 1―6.
  3. N. Kamiyama and D. Satoh, Network Topology Design using Analytic Hierarchy Process, Proceedings of the IEEE International Conference on Communications (ICC), (IEEE Communications Society, Beijing, May, 2008) 2048―2054.
  4. I. Moldovan, T-D. Dang, J. Biro, D. Satoh, and K. Ishibashi, Bottleneck Links Detection Method Based on Passive Monitoring, Proceedings of the Third IASTED International Conference on Communications, Internet, and Information Technology, (IASTED, St. Thomas, US Virgin Islands, November, 2004) 115―121.
  5. D. Satoh, Discrete Stochastic Gompertz Equations and Software Reliability Growth Models, Supplementary Proceedings of 15th International Symposium on Software Reliability Engineering, (IEEE Computer Society, Saint-Malo, November, 2004) 49―50.
  6. D. Satoh, A Measure to Distinguish between a Logistic Curve Model and a Gompertz Curve Model, Supplementary Proceedings of 14th International Symposium on Software Reliability Engineering, (IEEE Computer Society, Denver, November, 2003) 234―235.
  7. P. Valga, G. Kun, P. Fodor, J. Biro, D. Satoh, and K. Ishibashi, An Advanced Technique on Bottleneck Detection, Proceedings of 9th EUNICE Open European Summer School and IFIP Workshop on Next Generation Networks, (EUNICE, Budapest-Balatonfured, September, 2003) 52―56.
  8. D-D. Luong, A Vidacs, J. Biro, D. Satoh and K. Ishibashi, Unicast Probing to Estimate Share Loss Rate, Proceedings of 6th IFIP/IEEE International Conference (MMNS 2003), (IFIP/IEEE, Belfast, September, 2003), (In A. Marshall and N. Agoulmine (Eds.) Management of Multimedia Networks and Services (Springer-Verlag Berlin, 2003), 503―515).
  9. D. Satoh, A Discrete Stochastic Logistic Equation and a Software Reliability Growth Model, Supplementary Proceedings of 13th International Symposium on Software Reliability Engineering, (IEEE Computer Society, Annapolis, November, 2002) 141―142.
  10. S. Shioda, D. Satoh, and T. Kawahara, Estimating the Source-Destination Traffic Matrix of a Virtual Private Network, Proceedings of Communications Quality & Reliability, (IEICE and IEEE, Okinawa, May, 2002) 94―98.
  11. D. Satoh and S. Yamada, Discrete equations and software reliability growth models, Proceedings of 12th International Symposium on Software Reliability Engineering, (IEEE Computer Society, Hong Kong, November, 2001) 176―184.
  12. H. Saito, H. Ohara and D. Satoh, Development of Real-time Simulator Using Traffic Monitoring, Proceedings of IEEE ICC 2000, (IEEE, New Orleans, June, 2000) 195―199.
  13. D. Satoh and S. Shioda, Convergence to the Optimal Solution by Successive Control of Virtual Path Bandwidth, Proceedings of 3rd APSITT (IEICE, Ulaanbaatar, September, 1999) 29―33.
  14. T. Ueda and D. Satoh, Analysis of Preferences for Telecommunication Services in Each Area, Proceedings of the Fifth Conference of the International Federation of Classification Societies (IFCS-96) (International Federation of Classification Societies, Kobe March, 1996), (In C. Hayashi et al. (Eds.) Studies in Classification, Data Analysis, and Knowledge Organization: Data Science, Classification, and Related Methods (Springer-Verlag Tokyo, 1998), 708―715).

[International Conference]

  1. D. Satoh and S. Shioda, Measurement of the Large Deviation Rate Function, Abstracts of 11th INFORMS Applied Probability Society Conference, (INFORMS, New York, July, 2001) 28.
  2. S. Shioda, D. Satoh, and H. Yamamoto, Economic Feasibility of Bandwidth Sharing Services with QoS Guarantees, Abstracts of 11th INFORMS Applied Probability Society Conference, (INFORMS, New York, July, 2001) 20―21.
  3. T. Ueda, T. Suzuki and D. Satoh, A Method of Forecasting Demand for New Telecommunication Services, Abstracts of 9th European Meeting of the Psychometric Society, (The Psychometric Society, Leiden, July, 1995).

[Overview Article]

  1. D. Satoh, Countermeasure Technology against Disaster Congestion: From Call Control to Change of Human Behavior, IEICE Fundamentals Review, Vol. 12, No. 4, (2019) 301―311.
    https://doi.org/10.1587/essfr.12.4_301

[Internet Draft]

  1. D. Satoh, H. Ueno, Y. Maeda, and O. Phanachet, Single PCN Threshold Marking by using PCN baseline encoding for both admission and termination controls, draft-satoh-pcn-st-marking-02 (2009) 1―37.
  2. D. Satoh, H. Ueno, and M. Menth, Performance evaluation of termination in CL-algorithm, draft-satoh-pcn-performance-termination-00 (2009) 1―11.
  3. D. Satoh, Y. Maeda, O. Phanachet and H. Ueno, Single PCN Threshold Marking by using PCN baseline encoding for both admission and termination controls, draft-satoh-pcn-st-marking-01 (2009) 1―36.
  4. D. Satoh, M. Ishizuka, O. Phanachet and Y. Maeda, Single PCN Threshold Marking by using PCN baseline encoding for both admission and termination controls, draft-satoh-pcn-st-marking-00 (2008) 1―22.