１．Takeshi Matsuoka, Shinji Kobayashi, Kazunori Morishita and Hidekazu Yoshikawa, Availability Analysis of Heliotron J by the GO-FLOW methodology with AI Technologies, The 20th IEEE Conference on Industrial Electronics and Applications (ICIEA 2025), 03-06 August 2025, Yantai Marriott Hotel in Yantai, Shandong, China 

２．Takeshi Matsuoka, Availability Analysis of a Loop Structured System - Application of the GO-FLOW methodology to a distributed energy system consisting of a solar panel, a rechargeable battery and a fuel cell -, Proceedings of International Conference on Probabilistic Safety Assessment and Management & Asian Symposium on Risk Assessment and Management (PSAM17&ASRAM2024), 7-11 October, 2024, Sendai International Center, Sendai, Miyagi, Japan 

３．Takeshi Matsuoka*, Shinji Kobayashib, Kazunori Morishitab, and Hidekazu Yoshikawac , Availability Analysis of Heliotron J Water-cooling System by the GO-FLOW methodology, Proceedings of International Conference on Probabilistic Safety Assessment and Management & Asian Symposium on Risk Assessment and Management (PSAM17&ASRAM2024), 7-11 October, 2024, Sendai International Center, Sendai, Miyagi, Japan   

４．Hiroko Itoh*, Takeshi Matsuoka,  Exploring ConOps Prototypes for Initial Risk Assessment of Autonomous Ship Operations, Proceedings of International Conference on Probabilistic Safety Assessment and Management & Asian Symposium on Risk Assessment and Management (PSAM17&ASRAM2024), 7-11 October, 2024, Sendai International Center, Sendai, Miyagi, Japan   

６．リスクモニターにおける原子力プラント状態の動的挙動の表示－GO-FLOW手法の応用－、日本原子力学会2022年春の年会企画セッション「Dynamic PRAの最新動向」、令和4年3月18日(金）  

７．リスクモニターにおける原子力プラント状態の動的挙動の表示－GO-FLOW手法の応用－、日本原子力学会2022年春の年会企画セッション「Dynamic PRAの最新動向」、令和4年3月18日(金）  

８．太陽光パネル・燃料電池・蓄電池より構成された分散型電力供給システムのアベイラビリティ解析 －GO FLOW 手法によるループ構造システムの解析－、令和3年度第2回シンビオ講演会「2050 カーボンニュートラル達成へのベストミックスを考える 」、令和3年12月1日(水）  

９．Takeshi Matsuoka, Display of Dynamical Behaviour of Nuclear Power Plant States in Risk Monitor System - Use of the GO-FLOW Methodology and Interactive Update -, Takeshi Matsuoka, Availability Analysis of a Loop Structured System - Application of the GO-FLOW methodology to a distributed energy system consisting of a solar panel, a rechargeable battery and a fuel cell - International Conference on Probabilistic Safety Assessment and　Management, PSAM15(1st.-6th November 2020, Venice, Italy)  

10．Takeshi Matsuoka, Transition of the mission success probability under severe accident conditions: analysis by the GO-FLOW methodology and the consideration of uncertainty, International Journal of Nuclear Safety and Simulation, Vol. 7, Number 2(December 2016)pp.119-128 

11．Takeshi Matsuoka, Transition of the Mission Success Probability with the Progression of Nuclear Power Plant Accident, International Journal of Nuclear Safety and Simulation, Vol. 6, Number 3(September 2015)pp.242-250 

12．Takeshi Matsuoka, Estimation of dynamic behavior of nuclear power plant system state under severe accident cnditions, International Journal of Nuclear Safety and Simulation, Vol. 5, Number 3(September 2014)pp.197-204

13．Muhammad Hashim, Yoshikawa Hidekazu, Matsuoka Takeshi, Yang Ming, Application case study of AP1000 automatic depressurization system (ADS) for reliability evaluation by GO-FLOW methodology,Nuclear Engineering and Design, Vol.278 (2014) pp.209-221

14．Muhammad Hashim, Hidekazu Yoshikawa, Takeshi Matsuoka and Ming Yang, Quantitative dynamic reliability evaluation of AP1000 passive safety systems by using FMEA and GO-FLOW methodology, Journal of Nuclear Science and Technology, Vol.51, No.4 (2014)pp.526-542.

15．Muhammad Hashim, Hidekazu Yoshikawa, Takeshi Matsuoka and Ming Yang, Considerations of uncertainties in evaluating dynamic reliability by GO-FLOW methodology - example study of reliability monitor for PWR safety system in the risk-monitor system, Journal of Nuclear Science and Technology, Vol.50, No.7 (2013)pp.695-708

16．Muhammad Hashim, Hidekazu Yoshikawa, Takeshi Matsuoka and Ming Yang, Common cause failure analysis of PWR containment spray system by GO-FLOW methodology, Nuclear Engineering and Design, Vol.262 (2013) pp.350-357

17．Takeshi Matsuoka, Installation of GO-FLOW into the risk monitor being developed at Harbin Engineering University, International Journal of Nuclear Safety and Simulation, Vol. 3, Number 4 (December 2012) pp.307-313

18．Takeshi Matsuoka and Yusuke Kato, Modeling of a Human Performance by the GO-FLOW Methodology, First International Symposium on Socially and Technically Symbiotic Systems, August 29-31, 2012, Okayama, Japan

19．Takeshi Matsuoka, GO-FLOW　Methodology -Basic concept and integrated analysis framework for its applictions, International Journal of Nuclear Safety and Simulation, Vol. 1, Number 3 (September 2010) pp.198-206

21．松岡猛、立花悟、大島剛夫、確率論的安全評価におけるGO-FLOW手法及びベイジアンネットワーク、日本学術会議　安全工学シンポジウム2008講演予稿集, pp.327-330 （2008年7月11日）

22．Takeshi Matsuoka, The GO-FLOW and the Bayesian Network in PSA, Proceedings of International Conference on Probabilistic Safety Assessment and　Management;PSAM9(2008年5月19日～23日)

23．Takeshi Matsuoka, Reliability Analyses of a Self-Holding Type Relay System by a Dynamical Event Tree and the GO-FLOW Methodology, Proceedings of International Conference on Probabilistic Safety Assessment and　Management;PSAM8 (2006年5月15日～19日)

24．T.Okazaki, N.Mitomo and T.Matsuoka, The Use of the GO-FLOW Methodology to Investigate the Aging Effects in Nuclear Power Plants, Proceedings of International Conference on Probabilistic Safety Assessment and　Management;PSAM8 (2006年5月15日～19日)

25．T.Matsuoka, Comparison between the GO-FLOW and the DYLAM Methodologies for the Analysis of a Dynamic System, Proceedings of theInternational Scientific Conference EMF'2004 pp.108～113（2004年9月21日)

26．T.Matsuoka and G.Petkov, Comparison between the GO-FLOW and the ATRD Methodologies for the Analysis of a Dynamic System, Proceedings of the International Scientific Conference EMF'2004 pp.102～107（2004年9月21日）

27．T.Matsuoka and G.Petkov, Controllable Dynamic System Reliability Models for Risk Assessment of Process Control Systems, Proceedings of International Conference on Probabilistic Safety Assessment and　Management;PSAM7 pp.694～700 (2004年)

28．T.Matsuoka, Improvement of The GO-FLOW Methodology, Proceedings of International Conference on Probabilistic Safety Assessment and Management;PSAM7 pp.1152～1157(2004年6月14日)

29．T.Matsuoka and G.Petkov, Reliability Inducements for Dynamic Systems by GO-FLOW and ATRD Methods, Proceedings of the International Topical Meeting on Probabilistic Safety Assessment PSA'02,(2002)

30．T.Matsuoka, Improvement of The GO-FLOW Methodology－Reliability Analysis of a Continuously Maintained System－, Proceedings of International Conference on Probabilistic Safety Assessment and　Management;PSAM6 pp.385～390 (23-28 June 2002)

31．松岡 猛、GO-FLOW手法によるリレー回路の信頼性解析、電子情報通信学会、信学技報Vol.100 No.525 pp.18-25（2000年12月）

32．H.Matsukura, N.Mitomo and T.Matsuoka，A Reliability Analysis of Man-Machine System(Holdup Tank System) by the GO-FLOW, Proceedings of International Topical Meeting, PSAM-V（2000年11月）pp.1185-1191

33．松岡 猛、システム信頼性解析手法GO-FLOWとその解析実施例、電子情報通信学会、信学技報Vol.99 No.490 pp.65-75(1999年12月)

34．T.Matsuoka, Safety Analysis System using Thermo-Hydrodynamic Simulation of Accident Sequences in Event Tree/GO-FLOW , PSA'99, August 22-26,Washington D.C.,1999, pp.619-623

35．松岡 猛、システム信頼性解析手法GO-FLOW、Techno marine 日本造船学会誌第837号(1999年3月)pp.47～54

37．松岡 猛、プラントシステムの信頼性解析手法GO-FLOW、安全工学第37巻5号（1998年10月）pp.343～351

38．T.Matsuoka, An Application of the GO-FLOW Methodology -A Reliability Analysis of Automatic Train Control System of Shinkansen in Japan, Proceedings of International Topical Meeting, PSAM-IV（1998年9月）pp.233-238

39．T.Matsuoka, An Application of the GO-FLOW Methodology -Safety Analysis of Fuel Cell Propulsion System for a 1,500 DWT　Cargo Vessel, Proceedings of International Topical Meeting, PSAM-IV（1998年9月）pp.21-25

40．T.Matsuoka, An Application of the GO-FLOW Methodology -Evaluation of Component Cooling Water System for New Type Marine Reactor, Proceedings of International Topical Meeting, PSAM-IV（1998年9月）pp.221-226

41．T.Matsuoka, An Application of the GO-FLOW Methodology -Hazard and Operability Analysis of Olefin Plant, Proceedings of International Topical Meeting, PSAM-IV（1998年9月）pp.431-436

42．T.Matsuoka, The GO-FLOW Reliability Analysis Methodology -Analysis of Common Cause Failures with Uncertainty-, Nuclear Engineering and Design, Vol.175(1997) pp.205-214

44．T.Matsuoka, An Application of the GO-FLOW Methodology, Evaluation of Emergency Decay Heat Removal systems for New type Marine Reactor, Proceedings of International Conference on Probabilistic Safety Assessment, PSA96 (1996年10月) pp.791～795

45．T.Matsuoka, An Analysis of a Dynamic System by the GO-FLOW Methodology, Proceedings of International Topical Meeting, PSAM-III（1996年 6月）pp.1547～1552

46．T.Matsuoka,Development of the GO-FLOW Reliability Analysis Methodology for Nuclear Reactor Systems, Proceedings of International Conference on Probabilistic Safety assessment, PSA95 (1995年11月) pp.593～598

47．「原子炉システムの信頼性解析手法GO-FLOWの開発研究」船舶技術研究所報告 第３１巻６号（1995年12月）pp.271-345

49．T.Matsuoka, The GO-FLOW Reliability Analysis Methodology -Analysis of Common Cause Failures with Uncertainty -, Proceedings of SMiRT13, (1995年8月) M pp.659-664

50．T.Matsuoka, Development of the GO-FLOW Reliability Analysis　Methodology -Common Cause Failure analysis and Uncertainty Analysis-, Proceedings of the International Meeting of PSAM-II, San Diego U.S.A. (March 20-25, 1994) pp.032.11-18

51．T.Matsuoka, The Incorporation of Common Cause Failures into the GO-FLOW Methodology,　Proceedings of the International Meeting on Probabilistic Safety Assessment PSA'93, Clearwater Beach, Florida January 26 -29 (1993) pp.811-817

54．T.Matsuoka, Development of the GO-FLOW Reliability Analysis Support System, Use of Probabilistic Safety Assessment for Operational Safety PSA'91, International Atomic Energy Agency, Vienna Austria (1992) IAEA-SM-321/61 pp.677-688

55．T.Matsuoka, GO-FLOW: A System Reliability Analysis Methodology, Proceedings of the International Topical Meeting of PSAM, Beverly Hills, California (February 1991) pp.525-532

56．T.Matsuoka, A Reliability Analysis by the GO-FLOW Methodology: An Analysis of Emergency Core CoolingSystem of Marine Reactor under Fire Accident Conditions, Proceedings of the International Topical Meeting of PSAM, Beverly Hills, California (February 1991) pp.291-298

58．T.Matsuoka, A Phased Mission Analysis by the GO-FLOW Methodology, Proceedings of International ANS/ENS Topical Meeting Probability, Reliability and Safety Assessment, Pittsburgh, U.S.A. (April 2-7, 1989)pp.1148-1145

59．T.Matsuoka, The GO-FLOW Methodology; A Reliability Analysis of the Emergency Core Cooling System of a Marine Reactor under Accident Conditions, Nuclear Technology, Vol.84 (1989)pp.285-295

60．「確率論的安全評価のためのシステム信頼性解析方法の研究」、船舶技術研究報告　別冊11号（1988年7月）

61．T.Matsuoka and M.Kobayashi, GO-FLOW A New Reliability Analysis Methodology, Nuclear Science and Engineering, Vol.98 (1988), pp.64-78

62．T.Matsuoka, GO-FLOW; A Reliability Analysis Methodology -Its Basic Concept and Applicability", Proceedings of International ANS/ENS Topical Meeting on Probabilistic Safety Methods and Applications, Zurich, (September 1987)pp.179-184

63．T.Matsuoka, FFTA;A Fast Fault Tree Analysis Program, Nuclear Engineering and Design, Vol.91 (1986) pp.93-101

64．T.Matsuoka, GO-FLOW; A Reliability Analysis Methodology Applicable to Piping System, Proceedings of International ANS/ENS Topical Meeting on Probabilistic Safety Methods and Applications, San Francisco, U.S.A. (Feb.24 － March 1, 1985) No.175