| 1. |
A Study on a Quantity Determination Method of Blasting off Conditions by Optical Analysis. |
| 2. |
Takeshi Shinoda, Takashi Tanaka, Kenta Morimitsu, Development of a Quantity Determination Method of Blasting off Conditions, Proceedings of the SNAME Maritime Convention 2022, 2022.09. |
| 3. |
A Study on Diameter of Sound Tubes for On-Board Noise Suppression with Acoustic Simulation. |
| 4. |
A Method of DNN Work Observation for Ship Production
- Extraction of Welding Work from Stationary Camera Image -. |
| 5. |
Improvement for the Drain Course on the Ballast Tank with Multi-Compartment. |
| 6. |
SCM and Work Status Information Acquisition in Shipyard by Constructing a Simulated Production Model. |
| 7. |
A Study on Acoustic Simulation for On-Board Noise Suppression Methods Using Sound Tubes. |
| 8. |
Productivity Assessment of Line Production System for Sub-assembly Process in Shipyard by Working Simulation. |
| 9. |
Study on SCM and Work Information Acquisition in Shipyard by Constructing Simulated Production Model. |
| 10. |
Takeshi Shinoda, Takashi Tanaka, Hayato Okamoto, Daisuke Umemoto, A Method of Automated Work Observation for Ship Production Using Deep Neural Networks, Proceedings of the SNAME Maritime Convention 2021, https://doi.org/10.5957/SMC-2021-041, 2021.10. |
| 11. |
A Study on Acoustic Simulation of Noise Suppression Methods Using Sound Tubes. |
| 12. |
Takeshi Shinoda, Takashi Tanaka, Kento Kishigami, Shunsuke Fujisawa, 3-D Work Simulation Oriented to Digital Transformation for Shipyard: Applying to Sub-assembly Process, Proceedings of the SNAME Maritime Convention 2020, 2020.09. |
| 13. |
Takeshi Shinoda, Takashi Tanaka, Development of risk assessment methodology for occupational safety by work observation technique, Journal of Ship Production and Design, 10.5957/JSPD.32.3.130036, 32, 3, 186-193, 2016.08, It is a challenge to prevent occupational accidents in any industrial activities. The aim of this study is to improve safety and reduce the risk of occupational accidents at shipyards by developing a risk assessment methodology using work observation technique. This article describes a concept and methodology of risk assessment for occupational safety and its application. It introduces an effective and useful assessment procedure designed from a database based on the past cases of occupational accidents at shipyards. A quantitative method is developed to understand unsafe working conditions and environment at shipyards. A mobile device is used to collect the work observation data at the shipyard, and some examples of effective hazard measures are suggested. Based on the methodology, a feasibility study was conducted to improve walking safety at a numerical control (NC) cutting process of a shipyard in Japan.. |
| 14. |
Evaluation of Line Production System for Sub-assembly Process in Shipyard by Working Simulation. |
| 15. |
Study on Work and Safety Observation at Shipyard with Deep Neural Network. |
| 16. |
Study on Evaluation Methodology for Ship’s Cabin by Applying Virtual Reality Technology. |
| 17. |
Improvement of Efficiency for Ballast Water Discharge System by Hydraulic Experimentation. |
| 18. |
Takeshi Shinoda, Takashi Tanaka, Hayato Okamoto, An Automated Work Observation Method for Shipyards using Deep Neural Networks, SNAME Maritime Convention 2019 Conference Paper, 1-12, 2019.10. |
| 19. |
Definition Method of Teaching Data for Deep Neural Network for Extracting Work Data. |
| 20. |
Method of Construction of Teaching Data for Deep Neural Network. |
| 21. |
Study on Evaluation of Manufacturing System in Sub-assembly Process in Shipyard by Work Simulation. |
| 22. |
Study on Acoustic Simulation for Noise Control on Board Ships. |
| 23. |
Takashi Tanaka, Takeshi Shinoda, A Method for Extracting the Work Status in Shipyard Using Deep Neural Networks, Proceedings of SNAME Maritime Convention 2018 Conference, 1-14, 2018.10. |
| 24. |
Takeshi Shinoda, Yohei Mizoguchi, Makoto Abe, Takashi Tanaka, Collection Technology for Marine Microalgae for Industrial Biofuel, Proceedings of Advanced Maritime Engineering Conference 2018, 608-613, 2018.10. |
| 25. |
Takashi Tanaka, Yo Takeshita, Takeshi Shinoda, Study on Noise Control System for Ship Superstructure to Satisfy the IMO Regulations on Noise Levels Onboard Ships, Proceedings of Advanced Maritime Engineering Conference 2018, 552-556, 2018.10. |
| 26. |
Takashi TANAKA, Takeshi SHINODA, Putu HANGGA, Establishing Database for Basic Design of General Arrangement of Ship's Superstructure, Proceedings of Advanced Maritime Engineering Conference 2018, 463-469, 2018.10. |
| 27. |
Takeshi Shinoda, Kento Kishigami, Akira Yoshitani, Takashi Tanaka, Putu Hangga, Study on Tact Time Controlling Management for the Sub-assembly Process in Shipyard by Work Simulation, Proceedings of Advanced Maritime Engineering Conference 2018, 133-138, 2018.10. |
| 28. |
Study on a Methodology of Extraction of Working Information by Deep Learning for Shipyard. |
| 29. |
Simulation for Transfer Carrier for ship’s block in Shipyard. |
| 30. |
Extraction Technique of Working Information by Deep Learning. |
| 31. |
Extraction Technique of Information of Worker’s Position by Image Analysis. |
| 32. |
Design Planning with Evaluation Method for General Arrangement on Ship's Superstructure. |
| 33. |
Evaluation Methodology for Ventilatory Status in the Hold of PCC. |
| 34. |
Data Analysis by Text Mining for Worker’s Near-miss Report at Shipyard. |
| 35. |
篠田 岳思, 田中 太氏, Development of Risk Assessment Methodology for Occupational Safety by Work Observation Technique, Society of Naval Architects and Marine Engineers (SNAME), 32, 3, 139-153, 2016.08. |
| 36. |
田中 太氏, 脇田 薫平, 篠田 岳思, Database Analysis for General Arrangement on Ship’s Superstructure for Design Planning, Asia Navigation Conference 2015, 456-464, 2015.11. |
| 37. |
田中 太氏, 篠田 岳思, 脇田 薫平, An Evaluation Method for Design Planning for General Arrangement on Ship's Superstructure, 12th International Marine Design Conference 2015, 345-355, 2015.05. |
| 38. |
Analysis and Evaluation for General Arrangement on Ship’s Superstructure. |
| 39. |
Study on a Methodology of Work Observation Using Small Size Video Camera. |
| 40. |
A Methodology of Work Analysis Using Camera Monitoring Image. |
| 41. |
Evaluation for General Arrangement on Ship’s Superstructure for Design Planning. |
| 42. |
Evaluation for Safety Assessment on Walkway at Shipyard -Effect on Body Balance of Gradient of Steps -. |
| 43. |
Estimation Method for Air Exchange Condition in the Hold of PCC. |
| 44. |
Observation by Image Processing for Monitoring of Work and Safety at Shipyard. |
| 45. |
Takeshi Shinoda, Takashi Tanaka, Development of Risk Assessment Methodology for Occupational Safety in Using Work Observation Technique, Proceedings of SNAME Annual Meeting 2012, 221-232, 2012.10. |
| 46. |
Construction of Network Camera Observation System for Work and Safety Improvement at Shipyards. |
| 47. |
Evaluation for Safety Assessment on Walkway at Shipyard -Effect on Body Balance of Slat Space of NC Conveyor-. |
| 48. |
Safety Evaluation for Walking Environment on NC Conveyor at Shipyard. |
| 49. |
Development of Safety Assessment for Environment of Walking Way on NC Conveyor Line at Shipyard. |
| 50. |
Study on Work and Safety Observation by Network Camera at Shipyard. |
| 51. |
Evaluation for Safety Assessment by Gait Analysis on Walkway at Shipyard - Application to Working on NC Cutting Machine Conveyor Line -. |
| 52. |
Construction of the Work and Safety Observation System by Network Camera at Shipyard. |
| 53. |
Study of Thermal Environmental Design for Thermal Comfort and Energy Saving at Ship's Cabin. |
| 54. |
Experimental Simulation for Exhaust Gas Flow Condition on Loading at the Hold of PCC and its Ventilation Control. |
| 55. |
Takeshi SHINODA, Takashi TANAKA, Yoshiki KANO, Risk Analysis for Occupational Safety Management at Shipyard, Proceedings of the Twentieth (2010) International Offshore and Polar Engineering Conference, 581-588, 2010.06. |
| 56. |
Evaluation for Safety Assessment on Walkway at Shipyard by Fluctuation Analysis
- Application of Working on NC Cutting Machine Conveyor Line -. |
| 57. |
Study of Risk Assessment on Occupational Safety at Shipyard by Work and Safety Observation. |
| 58. |
Safety Assessment for Environment of Working Walkway by Fluctuation Analysis on Instability Motion of Human Body. |
| 59. |
Evaluation for Safety Assessment on Walkway at Shipyard - Body Balance during Working on NC Conveyor Line -. |
| 60. |
Risk Assessment on Occupational Safety for Safety Improvements at Shipyard. |
| 61. |
A Method of Optimization for Design Planning of General Arrangement on Ship's Cabin. |
| 62. |
Functional Assessment on Container Handling Operation at Container Terminal. |
| 63. |
Trouble Analysis for Design and Industrial Work on Shipbuilding by Text Mining Technology. |
| 64. |
Evaluation for Safety Assessment on Walkway for Occupational Environment at Shipyard. |
| 65. |
Takeshi Shinoda, Takashi Tanaka, Shogo KITAJIMA, Analysis of Container Handling Operation by Observational Data of Work at Container Terminal, Proceedings of IMAM 2009(International Maritime Association of the Mediterranean 2009), 2009.10. |
| 66. |
Safety Assessment for Environment of Working Walkway by Chaos Analysis on Instability Motion of Human Body. |
| 67. |
Takashi Tanaka, Takeshi Shinoda, Applied Chaos Theory to Evaluation for Walking Environment on Occupational Safety Management at Shipyard, Proceedings of ISOPE-2009, pp.688-694, 2009.06. |
| 68. |
Applied Chaos Theory to Evaluation for Walkway Environment on Safety Assessment for Occupational Environment at Shipyard. |
| 69. |
Structural Analysis for Mistakes in Deign and Industrial Work on Shipbuilding by Text Mining Technology. |
| 70. |
Applied Chaos Theory to Safety Management for Improvement of Occupational Health at Shipyard
(Part3) Evaluation for Walking Environment by Fluctuation Property Analysis. |
| 71. |
Applied Chaos Theory to Safety Management for Improvement of Occupational Health at Shipyard
(Part2) Evaluation for Safety Walking Environment at Shipyard.. |
| 72. |
Study on Physical Distribution Management System at Shipyard by Simplified Experiments on Resemble Factory Distribution.. |
| 73. |
Study on Database Analysis of Transfer Crane Container Handling System at Container Terminal.. |
| 74. |
Chaos Analysis of Walking and Working Environment for Occupational Health and Safety Management at Shipyard. |
| 75. |
Evaluation for Safety Walking Environment at Shipyard by Human Model Analysis on Transferring Platform mock-up. |
| 76. |
Takeshi Shinoda, Takashi Tanaka, Hwayoung Kim, Construction of Container Handling Simulation Model in Container Terminal by Database Analysis, Proceedings of IMAM 2007(International Maritime Association of the Mediterranean 2007), 2007.09. |
| 77. |
A Conceptual Design and Feasibility Study of Floating Container Terminal at Chang Jiang River Zone. |
| 78. |
Construction of Database and Risk Analysis on Industrial Accident of Shipyard. |
| 79. |
Applied Chaos Theory to Safety Management for Improvement of Occupational Health at Shipyard
-Time Series Analysis of Walking Exeperiment-. |
| 80. |
Evaluation by Human Model Analysis on Transferring Platform for Work Environment at Shipyard. |
| 81. |
Chaos Analysis of Walking Experiment for Occupational Health and Safety Management. |
| 82. |
Study on Risk Analysis for Occupational Health for Shipyard Workers
- Construction of Data Base and Analysis of Walking Experiment -. |
| 83. |
Functional Consideration for Safety and Reliability with aim of Establishing the Handling Support System of Liquid Cargo. |
| 84. |
Nobuyoshi Fukuchi, Takashi Tanaka, Non-periodic Motions and Fractals of Circular Arch under Follower Forces with Small Disturbances, STEEL AND COMPOSITE STRUCTURES, Volume 6(Number2), pp.87-101, 2006.05. |
| 85. |
Simulated Analysis on Transportation Mode and Strategic Bridgehead for International Logistics Service. |
| 86. |
Methodology of Evaluation for Risk Assesment on Marine Transportation. |
| 87. |
Value Improvements of Physical Distribution at Sea by Application of Ubiquitous Technology. |
| 88. |
Occupational Health and Safety Management at Shipyard Based on Human Factor Influence
-Analysis on Walking Experiment by Motion Capturing Technology-. |
| 89. |
Study on Improvement for Container Throughput by Data Base Analysis on Container Handling. |
| 90. |
Nobuyoshi Fukuchi, Takashi Tanaka, Chaotic and Fractal Dynamics of a Circular Arch under Follower Forces with Small Disturbances, Proceedings of The Second International Conference on Steel & Composite Structures '04, pp.809-821, 2004.01. |
| 91. |
A Characteristic Analysis on Dynamic Stability of Form-resistant Structures in Non-conservative System
(Part2)Chaotic Dynamics and Correlation Dimensions of Circular Arch. |
| 92. |
Correlation Dimensions Corresponding to Dynamic Behaviors of Circular Arch Subjected to Follower Forces with Small Disturbances. |
| 93. |
A Characteristic Analysis on Oscillatory and Chaotic Behavior of a Circular Arch subjected to Follower Forces with Small Disturbances. |
| 94. |
Nobuyoshi Fukuchi, Takashi Tanaka, Koichi Okada, A Characteristic Analysis on Dynamic Stability of Shell-like Lattice Structures subjected to Follower Forces, Advances in Computational Engineering Sciences, 2000(Vol.2), pp.1816-1821, 2000.01. |
| 95. |
A Characteristic Analysis on Dynamic Stability of Form-resistant Structures in Non-conservative System
(Part1)Chaotic Dynamics of Circular Arch subjected to Follower Forces. |
| 96. |
Establishing the Algorithm and Designing Tools for the Optimum Arrangement. |
