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.

[2-109]

Hiroshi Saito, Theoretical Design of Geographical Route of Communications Cable Network Supplied by Power Grid to Minimize Disaster Damage, IEEE Trans. Network and Service Management, IEEE Trans. Network and Service Management, 19, 1, pp. 100-111, 2022.

[2-110]

Hiroki Ikeuchi and Hiroshi Saito, Shape Estimation Using Location-Unknown Distance Sensors: Iterative Closest Point Approach, IEEE Sensors Journal, 22, 11, pp. 10740-10750, 2022.

[2-111]

T. Kimura and H. Saito, Theoretical Broadcast Rate Optimization for V2V Communications at Intersection, IEEE Trans. Mobile Computing, 21, 9, pp.3360-3372, 2022.

[2-112]

Hiroshi Saito, Critical Location of Communications Network with Power Grid Power Supply, IEICE Trans. Commun., E106-B, 2, pp.166-173, 2023.

[2-113]

Hiroshi Saito, Theoretical Analysis of Fully Wireless-Power-Transfer Node Networks, IEICE Trans. Commun., DOI: 10.1587/transcom.2022EBP3204.

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1. Book

3. Letter

4. International confereces

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