PAPER

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[2-1]

Saito, H. and Abe, T., "A Traffic Forecasting Method Taking into Account of Outliers," IEICE J68-B, 4, pp. 454-459 (1985) (in Japanese).

[2-2]

Saito, Hiroshi, "An Adaptive Traffic Forecasting Method with Macro-Traffic Forecasts," IEICE, J-69-B, 2, pp. 123-129 (1986) (in Japanese).

[2-3]

Abe, T. and Saito, H., "Baysian forecasting with multiple state space model," The Trans. of IECE of Japan, E69, 3, pp. 210-216 (1986).

[2-4]

Saito, H. and Abe, T., "Methods of Estimating Traffic Matrices," IEICE, J-69-B, 10, pp. 1031-1037 (1986) (in Japanese).

[2-5]

Saito, Hiroshi, "A demand forecasting method for new telecommunication services," J. of the Operations Research Society of Japan, 30, 2, pp. 248-262 (1987).

[2-6]

Saito, Hiroshi, "Analysis of measured loss probability and grade-of-service in ISDNs," Computer Networks and ISDN systems, 15, pp. 87-96 (1988).

[2-7]

Saito, Hiroshi, "Optimal Control of Variable Rate Coding in integrated voice/data packet networks," Performance Evaluation, 10, 2, pp. 115-128 (1989).

[2-8]

Saito, Hiroshi, "Statistics for traffic congestion control in circuit-switched networks," The Trans. of IECE of Japan, E71, 7, pp. 679-687 (1988).

[2-9]

T. Ueda and H. Saito, �gApplications of time series analysis in telecommunication,�h Operations Research 34, 10, pp. 530-534 (1989) (in Japanese).

[2-10]

Saito, Hiroshi, "Optimal queueing discipline for real-time traffic at ATM switching nodes," IEEE Trans. Comm., 38, 12, pp. 2131-2136 (1990).

[2-11]

Saito, Hiroshi, "Optimal control of variable rate coding with incomplete observation in integrated voice/data packet networks," European J. of Operational Research, 51, pp. 47-64 (1991).

[2-12]

Saito, H. and Machihara, F., "Transient analysis of a Markovian loss system with heterogeneous inputs for time congestion measurement," Queueing Systems, 8, pp. 87-96 (1991).

[2-13]

Saito, Hiroshi, "The departure process of an N/G/1 Queue," Performance Evaluation, 11, pp. 241-251 (1990).

[2-14]

Saito, Hiroshi, Kawarasaki, Masatoshi and Yamada, Hiroshi, "An analysis of statistical multiplexing in an ATM transport network," IEEE Journal on Selected Areas in Communications, 9, 3, pp. 359-367 (1991).

[2-15]

Kawashima, Konosuke and Saito, Hiroshi, "Teletraffic issues in ATM networks," Computer Networks and ISDN Systems, 20, pp. 369-375 (1990).

[2-16]

Saito, Hiroshi, "Call admission control in an ATM network using upper lound of cell loss probability," IEEE Transactions on Communications, 40, 9, pp. 1512-1521 (1992).

[2-17]

Saito, H. and Shiomoto, K., "Dynamic call admission control in ATM networks," IEEE Journal on Selected Areas in Communications, 9, 7, pp. 982-989 (1991).

[2-18]

Saito, Hiroshi, Kawashima, Konosuke and Sato, Ken-ichi, "Traffic control technologies in ATM networks," IEICE Transactions, E74, 4, pp. 761-771 (1991).

[2-19]

Vakil, F. and Saito, Hiroshi, "On congestion control in ATM networks," IEEE LCS Magazine, pp. 55-65, August (1991).

[2-20]

H. Saito, �gTeletraffic studies in ATM network,�h IEICE journal, 75, 5, pp.496-502 (1992) (in Japanese).

[2-21]

Saito, H., "Call admission control in an ATM networks using upper bound of cell loss probability," IEEE Trans. on Communications, 40, 9, pp. 1512-1521 (1992).

[2-22]

Saito, H., "Toward a Future Traffic Dimensioning Method: Non-parametric Approach for Cell Loss Rate Evaluation," IEICE, B-I, J76-B-I, 3, pp. 197-208 (1993). (in Japanese). (English translation: A Future Traffic-Dimensioning Method: A Nonparametric Approach for Cell Loss-Rate evaluation," Electronics and communications in Japan, Part1, Vol. 77, No. 2, pp. 106-119 (1994))

[2-23]

Yamada, H., Saito, H., and Kawarasaki, M., "An Analysis of Statistical Multiplexing in an ATM Transport Network," NTT R&D, 40, 12, pp. 1571-1580 (1991).

[2-24]

Miyake, K., Saito, H., and Chaki, S., "Traffic Control for ATM Networks," NTT R&D, 42, 3, pp. 319-330 (1993).

[2-25]

Chaki. S., Saito, H., and Miyake, k., "Reactive Congestion Control for High Speed-Data Comminication ATM Networks," IEICE, B-I, J76-B-I, 11, pp. 838-848 (1993). (in Japanese)

[2-26]

Saito, H. and Asaka, T., "Traffic aspect of persoal telecommunications in Intelligent Networks," Computer Networks and ISDN systems, 26,9, pp. 1089-1099 (1994).

[2-27]

Aida, M. and Saito, H., "Traffic contract parameters and CAC guaranteeing cell-loss ratio in ATM networks", IEICE, E78-B, 3, pp. 336-343 (1995).

[2-28]

Kawamura, Y. ,Saito, H., and Chaki, S., "A Study of Dynamic Connection Admission Control with Traffic Measurement in ATM Networks," IEICE, B-I, J77-B-I, 6, pp. 395-404 (1994) ( in Japanese). (English translation: Y. Kawamura, H. Saito and S. Chaki, "Parameter design of dynamic connection admission control in Asynchronous Transfer Mode networks," Electronics and communications in Japan, Part 1, 78, 10, pp. 26-37 (1995).)

[2-29]

Saito, Hiroshi, "VP dimensioning for high speed data communication in ATM network," Int. J. of Communication Systems, 7, pp. 275-281 (1994).

[2-30]

Yokoi, H., Matsuda, J., Shioda, S., Saito, H., "Performance Evaluation of Routing Schemes in B-ISDN," IEICE E78-B, 4, pp. 514-522 (1995).

[2-31]

Kawamura, Y., Saito, H., and Usui, Y., "Development of an ATM Traffic Engineering Workstation," NTTR&D, 44, 4, pp. 340-346 (1995).

[2-32]

Saito, H., "Measurement-Driven Traffic Technologies in B-ISDN," NTT R&D,44,4 pp.327-332 (1995).

[2-33]

Yokoi, H., Shioda, S., and Saito, H., "A Study of Routing Schemes in B-ISDN," NTTR&D, 44, 4, pp. 353-360 (1995).

[2-34]

Kawashima, K. and Saito, H., "Traffic Technologies in B-ISDN," NTTR&D, 44, 4, pp.325-326 (1995).

[2-35]

Saito, H., Nakagawa, S., Kato, Y., and Ohta, S., "Innovation of Circuit/Path Operations in ATM Networks -Self-sizing Network-," NTTR&D, 44, 4, pp. 333-340 (1995).

[2-36]

Saito, H., "Bayesian Performance Estimation Driven by Performance Monitoring and its Application," IEICE, E79-B, 1, pp. 1-7 (1996).

[2-37]

Saito Hiroshi "Resource management and charging in ATM networks" Computer Network and ISDN Systems, 28, p.641-644 (1996).

[2-38]

Saito, H., Nakagawa, S., Kato, H., and Ohta, S., "Innovation of Circuit/Path Operations in ATM Networks -Self-sizing Networks-," NTT REVIEW, 8,1, pp.56-65 (1996).

[2-39]

Saito, H., "Management Driven Traffic Technologies in ATM Networks," NTT REVIEW,8 ,1, pp.51-55 (1996).

[2-40]

Kawashima, K. and Saito, H., "Traffic Technologies Implemented by Operation Systems in B-ISDN," NTT REVIEW,8,1, pp.49-50 (1996).

[2-41]

Kawamura, Y., Saito, H., and Usui, Y., "A Traffic Engineering Support System for ATM Nodes," NTT REVIEW,8,1, pp.66-72 (1996).

[2-42]

H. Saito, �gInformation transfer on information highway - traffic control of large capacity and high speed telecommunication systems - ,�h Information Processing, 37, 6, pp.481-489 (1996) (in Japanese).

[2-43]

H. Saito, �gBroadband Integrated Services Digital Network,�h SICE journal, 35, 3, p.654 (1996) (in Japanese).

[2-44]

Shioda, S. and Saito, H., "Cell-loss ratio analysis insufficient knowledge of traffic characteristics," Journal of the Operations Research Society of Japan, 40, 1, pp. 140-158(1997).

[2-45]

Shioda S. and Saito, H., "Connection admission control guaranteeing cell-loss ratio of cell stream passing through usage parameter control," IEICE, E80-B, 3, pp.399-411 (1997).

[2-46]

Yokoi, H., Toyoizumi, H., Saito, H., and Ohno, Y., "A Dimension Method for VPC Bandwidth by Using Self-sizing," NTT R&D(1996).

[2-47]

Shioda, S., Saito, H.,and Yokoi, H., "Sizing and provisioning for physical and virtual path networks using self-sizing capability," IEICE trans. Commun., E80-B, 2, pp. 252-262 (1997).

[2-48]

Saito, H., Shioda, S., and Kawamura, Y., "Proposal of a Bayesian Performance Estimation Method and its Application," JORSJ, 40, 4, pp. 509-521 (1997) (in Japanese).

[2-49]

Saito, H., "Congestion Control through Network Money," IEICE Trans. Commun., E80-B, 7, pp.991-999 (1997).

[2-50]

Saito, H., Kawashima, K., Kitazume, H., Koike, A., Ishizuka, M., and Abe, A., "Performance Issues in Public ABR Services," IEEE Communication Magazine,34,11,pp.40-48(1996).

[2-51]

Saito. H., Dynamic Resource Allocation in ATM Networks, IEEE Comunication Magazine, 35, 5, pp.146-153(1997).

[2-52]

Koike, A., Ishizuka, M., Kitazume, H, and Saito, H, "Development of ABR network and its performance," NTT R&D pp. 1041-1048 (1996).

[2-53]

Tsuchiya, T. and Saito, H., "The worst case cell arrival patterns in ATM networks," IEICE Trans. B, E81-B, 5, pp. 996-1003 (1998).

[2-54]

P. L. Conti, H. Saito and L. De Giovanni, "A robust connection admission control applicable to long range dependence traffic," IEICE trans. Communications, EB-I-81, 5, pp. 849-857 (1998).

[2-55]

Saito, H. and Ishizuka, M., "On the performance of the feedback rate control technology in ATM networks," NTT R&D, 47, 2, pp.177-182 (1998).

[2-56]

Kawahara, R., Saito, H., and Kawarasaki, M., "Characteristics of ABR Explicit Rate Control Algorithms in WAN Environment," International Journal of Communication Systems, Int. J. Commun. Syst., 11, pp.189-209 (1998).

[2-57]

Malomsoky, Sz., Vidacs, A. and Saito, H., "Real-time VP bandwidth control for long-range-dependent traffic," International Journal of Communication Systems, Int. J. Commun. Syst., 12, pp.229-247 (1999).

[2-58]

Vidacs, A., Malomsoky, Sz. and Saito, H., "A simple Adaptive Bandwidth Control for Real Traffic," Advances in Performance Analysis, Vol. 2(1), pp.21-44 (1999).

[2-59]

Saito, H., "Performance Evaluation of AAL2 Switch Networks," IEICE Trans. Commun., Vol. E82-B, No. 9, pp.1411-1423 (1999).

[2-60]

Saito, H., "Performance Evaluation of AAL2 Voice Multiplexer," Performance Evaluation, 42, 1, pp. 57-83 (2000).

[2-61]

Saito, H., "Bandwidth Management for AAL2 Traffic," IEEE Trans. Vehicular Technology, 49, 4, pp. 1364-1377 (2000).

[2-62]

R. Kawahara and H. Saito, Performance Evaluation of TCP/IP over ATM over ADSL, IEICE Trans. Commun., E83-B, 2, pp. 140-154 (2000).

[2-63]

H. Saito, �gEffectiveness of UBR VC apporach in AAL2 networks and its application to IMT-2000�h, IEICE Trans. E83-B, 11, pp. 2486-2493 (2000).

[2-64]

H. Saito, T. Tsuchiya, D. Sato, G. Marosi�C G. Horvath�C P. Tatai, S. Asano�C"Real-time Cell Arrival Sequence Estimation and Simulation for IP-over-ATM networks", IEICE Tran. E84-B, 3, pp.634-643 (2001).

[2-65]

Ryoichi Kawahara, Keisuke Ishibashi, Toshiyuki Hirano, Hiroshi Saito, Hisaki Ohara, Daisuke Satoh, Shoichiro Asano, and Jun Matsukata, �gTraffic Measurement and Analysis in an ATM-based Internet Backbone, Computer Communications, 24, pp.1508-1524 (2001).

[2-66]

K. Miyake, H. Saito, and J. Itoda�gNomadic services toward ubiquitous services�h, NTT Tech. J., 14, 1, pp. 14-18 (2002) (in Japanese).

[2-67]

H. Saito, �gProspect of network infrastructure,�h Image information industry, January 2002, pp. 46-48 (2002).

[2-68]

T. Kumagai and H. Saito, �gA hybrid on-demand content delivery scheme employing modified pyramid broadcasting�h, IEICE Trans. E86-B, 4, pp.1399-1411 (2003).

[2-69]

K. Miyake, H. Saito, and J. Itoda�gNomadic services aiming for ubiquity�h, NTT Review, 14, 5, pp. 10-14 (2002).

[2-70]

S. Nakagawa, K. So, S. Mine and H. Saito, "Video system using RFID location information," NTT Tech. J., 15, 8, pp.34-36 (2003).

[2-71]

H. Saito and H. Minami, "Performance issues and network design for sensor networks," IEICE Trans. Commun., E87-B, 2, pp. 294-301 (2004).

[2-72]

T. Tsuchiya and H. Saito, �gImpact of protocols and network configuration on node-level availability in sensor network�h, IEICE Trans. Commun., E88-B, 3, pp. 981-990 (2005).

[2-73]

T. Tsuchiya and H. Saito, �gUsage of network-level dynamic priority and its comparison with static priority�h, IEICE Trans. Commun., E88-B, 4, pp. 1549-1558 (2005).

[2-74]

Hiroshi SAITO, Masahiro UMEHIRA, Masahiro MORIKURA, Considerations of Global Ubiquitous Network Infrastructure, IEICE Trans. Commun., J88-B, 11, pp. 2128-2136 (2005) (in Japanese).

[2-75]

Hiroshi Saito, "Performance analysis of combined vehicular communication," IEICE Trans. Commun., E89-B, 5, pp. 1486-1494 (2006).

[2-76]

Hiroshi Saito, �gWide Area Ubiquitous Network: New Wireless Network for Sensors and Actuators�h, NTT Technical Review, 6, 3 (2008).

[2-77]

Hideki Toshinaga, Koki Mitani, Hiroshi Shibata, Koichi Takasugi, Mika Ishizuka, Satoshi Kotabe, Shinya Ishihara, Hiroshi Tohjo, and Hiroshi Saito, �gWide Area Ubiquitous Network Service System�h, NTT Technical Review, 6, 3 (2008).

[2-78]

H. Saito, Osamu Kagami,, Masahiro Umehira, and Yuichi Kado, �gWide Area Ubiquitous Network: The Network Operator's View of a Sensor Network�h, IEEE Communications Magazine, 46, 12, pp.112-120, December, 2008.

[2-79]

Hiroshi Saito, Shigeo Shioda, and Junko Harada, "Application of insensitivity analysis of coverage processes to wireless sensor networks,�h IEICE Trans. Communications, E91-B, 12, pp. 3937-3944 (2008).

[2-80]

Junko Harada, Shigeo Shioda, and Hiroshi Saito, �gPath Coverage Properties of Randomly Deployed Sensors with Finite Data-Transmission Ranges,�h Computer Networks, 53, 7, pp. 1014-1026 (2009).

[2-81]

Hiroshi Saito, �gNetworked Movable Fuel-Supply Stations for Vehicles and its Performance,�h IEICE Trans. Communications, E93-B, 4, pp.982-992, 2010.

[2-82]

Stephan WANKE, Hiroshi SAITO, Yutaka ARAKAWA, and Shinsuke SHIMOGAWA, �gUser Location in Picocells -- A Paging Algorithm Derived from Measured Data,�h IEICE Trans. Communications, E93-B, 9, pp.2291-2298, 2010.

[2-83]

Hiroshi Saito, Shinsuke Shimogawa, Sadaharu Tanaka, and Shigeo Shioda, �gEstimating Parameters of Multiple Heterogeneous Target Objects Using Composite Sensor Nodes�h, IEEE Trans. Mobile Computing, 11, 1, pp. 125-138, 2012.

[2-84]

Hiroshi Saito, Sadaharu Tanaka, Shigeo Shioda, Parameter Estimation for Non-Convex Target Object Using Networked Binary Sensors, IEICE Trans. Information and Systems, E94-D, 4, pp.772-785, 2011.

[2-85]

Hiroshi Saito, Sadaharu Tanaka, and Shigeo Shioda, Stochastic Geometric Filter and Its Application to Shape Estimation for Target Objects, IEEE Trans. Signal Processing, 59, 10, pp. 4971-4984, 2011.

[2-86]

Kenya YAMASHITA, Shigeo SHIODA, and Hiroshi SAITO, Shape Estimation Using Networked Binary Sensors with Unknown Sensor Density, IEICE Trans. Information and Systems, J95-D, 1, pp.54-66�A2012 (in Japanese).

[2-87]

Shinsuke Shimogawa, Miyuki Shinno, and Hiroshi Saito, Structure of S-shaped growth in innovation diffusion, Physical Review E, 85, 5, 056121, 2012.

[2-88]

Hiroshi Saito and Daisei Uchida, Asymptotic Minimum Coverage Using Macroscopic Diversity, IEEE Trans. Mobile Computing, 12, 8, pp. 1518-1531, 2013.

[2-89]

Hiroshi Saito, Local Information, Observable Parameters, and Global View, IEICE Trans. Communications, E96-B, 12, pp.3017-3027, 2013.

[2-90]

Xinjie Guan, Xili Wan, Ryoichi Kawahara, and Hiroshi Saito, An Online Framework for Flow Round Trip Time Measurement, IEICE Trans. Communications, E97-B, 10, pp. 2145-2156, 2014.

[2-91]

Hiroshi Saito, Analysis of Geometric Disaster Evaluation Model for Physical Networks, IEEE Trans. Networking, 23, 6, pp. 1777-1789, 2015.

[2-92]

Hiroshi Saito and Shigeo Shioda, Parameter Estimation Method for Time-variant Target Object Using Randomly Deployed Sensors and its Application to Participatory Sensing, IEEE Trans. Mobile Computing, 14, 6, pp. 1259-1271, 2015.

[2-93]

Hiroshi Saito, Spatial Design of Physical Network Robust against Earthquakes, IEEE/OSA Journal of Lightwave Technology, 33, 2, pp.443-458, 2015.

[2-94]

Hiroshi Saito, New Network Design Method for Increasing Robustness of Disaster-affected Networks --- Toward Realization of Disaster-free Networks ---, IEICE J., 98, 9, pp. 803-809, 2015 (in Japanese).

[2-95]

Hiroshi Saito, Toward the Realization of Disaster-free Networks, NTT Technical Review, 13, 6, 2015.

[2-96]

Hiroshi Saito, Basic theory of network science --- network and spatial characterization/spatial information, NTT Tech. J., 27, 7, pp. 14-15, 2015 (in Japanese).

[2-97]

Hiroshi Saito, Theoretical Optimization of Sensing Area Shape for Target Detection, Barrier Coverage, and Path Coverage, IEICE Trans. Communications, E99-B, 9, pp.1967- 1979, 2016.

[2-98]

Phuong Nga Tran and Hiroshi Saito, Geographical Route Design of Physical Networks Using Earthquake Risk Information, IEEE Communications Magazine, 54, 7, pp. 131-137, 2016.

[2-99]

Phuong Nga Tran and Hiroshi Saito, Enhancing Physical Network Robustness against Earthquake Disasters with Additional Links, IEEE/OSA Journal of Lightwave Technology, 34, 22, pp. 5226-5238, 2016.

[2-100]

Hiroshi Saito, New Network Concept for Disaster Management, Smart Grid, 2016 (in Japanese)�D

[2-101]

Hiroshi Saito and Ryoichi Kawahara, Geometrical Characterization of Offloading through Wireless LANs, IEEE Trans. Mobile Computing, 16, 1, pp. 130-142, 2017.

[2-102]

Hiroshi Saito, Stochastic Events in the Plane and Applications to Communications Networks IEICE J., 100, 4, pp. 273-279, 2017 (in Japanese).

[2-103]

Ryoichi Kawahara, and Hiroshi Saito, Name resolution based on set of attribute-value pairs of real-world information, IEICE Trans. Communications, E100 B, 1, pp.110-121, 2017.

[2-104]

Hirotada Honda and Hiroshi Saito, Geometric Analysis of Estimability of Target Object Shape Using Location-Unknown Distance Sensors, IEEE Trans. on Control of Network Systems, 6, 1, pp.94-103, 2019.

[2-105]

Tatsuaki Kimura and Hiroshi Saito, Theoretical Interference Analysis of Inter-vehicular Communication at Intersection with Power Control, Computer Communication, 117, pp. 84-103, 2018.

[2-106]

Hiroshi Saito and Tatsuaki Kimura, Theoretical Framework for Estimating Target-Object Shape by Using Location-Unknown Mobile Distance Sensors, IEEE Trans. Mobile Computing, 19, 5, pp.1233-1246, 2020.

[2-107]

Hirotada Honda and Hiroshi Saito, Nation-wide Disaster Avoidance Control against Heavy Rain, IEEE Trans. Networking, 27, 3, pp. 1084-1097, 2019.

[2-108]

Tatsuaki Kimura and Hiroshi Saito, Spatio-Temporal Correlation of Interference in MANET Under Spatially Correlated Shadowing Environment, IEEE Trans. Mobile Computing, 20, 4, pp.1642-1655, 2021.

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1. Book

3. Letter

4. International confereces

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