1. |
Takeshi Shinoda, Takashi Tanaka, Kenta Morimitsu, Development of a Quantity Determination Method of Blasting off Conditions, SNAME Maritime Convention 2022, 2022.09. |
2. |
A Study on Diameter of Sound Tubes for On-Board Noise Suppression with Acoustic Simulation. |
3. |
A Method of DNN Work Observation for Ship Production - Extraction of Welding Work from Stationary Camera Image -. |
4. |
SCM and Work Status Information Acquisition in Shipyard by Constructing a Simulated Production Model. |
5. |
Improvement for the Drain Course on the Ballast Tank with Multi-Compartment. |
6. |
A Study on Acoustic Simulation for On-Board Noise Suppression Methods Using Sound Tubes. |
7. |
Productivity Assessment of Line Production System for Sub-assembly Process in Shipyard by Working Simulation. |
8. |
Study on SCM and Work Information Acquisition in Shipyard by Constructing Simulated Production Model. |
9. |
Takeshi Shinoda, Takashi Tanaka, Hayato Okamoto, Daisuke Umemoto, A Method of Automated Work Observation for Ship Production Using Deep Neural Networks, SNAME Maritime Convention 2021, 2021.10. |
10. |
A Study on Acoustic Simulation of Noise Suppression Methods Using Sound Tubes. |
11. |
Takeshi Shinoda, Takashi Tanaka, Kento Kishigami, Shunsuke Fujisawa, 3-D Work Simulation Oriented to Digital Transformation for Shipyard: Applying to Sub-assembly Process, The Society of Naval Architects and Marine Engineers, 2020.09. |
12. |
Study on Work and Safety Observation at Shipyard with Deep Neural Network. |
13. |
Evaluation of Line Production System for Sub-assembly Process in Shipyard by Working Simulation. |
14. |
Study on Evaluation Methodology for Ship’s Cabin by Applying Virtual Reality Technology. |
15. |
Improvement of Efficiency for Ballast Water Discharge System by Hydraulic Experimentation. |
16. |
Takeshi Shinoda, Takashi Tanaka, Hayato Okamoto, An Automated Work Observation Method for Shipyards using Deep Neural Networks, SNAME Maritime Convention 2019, 2019.10. |
17. |
Definition Method of Teaching Data for Deep Neural Network for Extracting Work Data. |
18. |
Method of Construction of Teaching Data for Deep Neural Network for Extracting Work Data. |
19. |
Study on Evaluation of Manufacturing System in Sub-assembly Process in Shipyard by Work Simulation. |
20. |
Study on Acoustic Simulation for Noise Control on Board Ships. |
21. |
Takashi Tanaka, Takeshi Shinoda, A Method for Extracting the Work Status in Shipyard Using Deep Neural Networks, SNAME Maritime Convention 2018, 2018.10. |
22. |
Takashi Tanaka, Yo Takeshita, Takeshi Shinoda, Study on Noise Control System for Ship Superstructure to Satisfy the IMO Regulations on Noise Levels Onboard Ships, Advanced Maritime Engineering Conference 2018, 2018.10. |
23. |
Takashi TANAKA, Takeshi SHINODA, Putu HANGGA, Establishing Database for Basic Design of General Arrangement of Ship's Superstructure, Advanced Maritime Engineering Conference 2018, 2018.10. |
24. |
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, Advanced Maritime Engineering Conference 2018, 2018.10. |
25. |
Takeshi Shinoda, Yohei Mizoguchi, Makoto Abe, Takashi Tanaka, Collection Technology for Marine Microalgae for Industrial Biofuel, Advanced Maritime Engineering Conference 2018, 2018.10. |
26. |
Study on a Methodology of Extraction of Working Information by Deep Learning for Shipyard. |
27. |
Simulation for Transfer Carrier for ship’s block in Shipyard. |
28. |
Design Planning with Evaluation Method for General Arrangement on Ship's Superstructure. |
29. |
Extraction Technique of Working Information by Deep Learning. |
30. |
Extraction Technique of Information of Worker’s Position by Image Analysis. |
31. |
Evaluation Methodology for Ventilatory Status in the Hold of PCC. |
32. |
Data Analysis by Text Mining for Worker’s Near-miss Report at Shipyard. |
33. |
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, 2015.11. |
34. |
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, 2015.05. |
35. |
Analysis and Evaluation for General Arrangement on Ship’s Superstructure. |
36. |
Study on a Methodology of Work Observation Using Small Size Video Camera. |
37. |
A Methodology of Work Analysis Using Camera Monitoring Image. |
38. |
Evaluation for General Arrangement on Ship’s Superstructure for Design Planning. |
39. |
Evaluation for Safety Assessment on Walkway at Shipyard -Effect on Body Balance of Gradient of Steps -. |
40. |
Estimation Method for Air Exchange Condition in the Hold of PCC. |
41. |
Observation by Image Processing for Monitoring of Work and Safety at Shipyard. |
42. |
Takeshi Shinoda, Takashi Tanaka, Development of Risk Assessment Methodology for Occupational Safety in Using Work Observation Technique, SNAME Annual Meeting 2012, 2012.10. |
43. |
Construction of Network Camera Observation System for Work and Safety Improvement at Shipyards. |
44. |
Evaluation for Safety Assessment on Walkway at Shipyard -Effect on Body Balance of Slat Space of NC Conveyor-. |
45. |
Safety Evaluation for Walking Environment on NC Conveyor at Shipyard. |
46. |
Development of Safety Assessment for Environment of Walking Way on NC Conveyor Line at Shipyard. |
47. |
Study on Work and Safety Observation by Network Camera at Shipyard. |
48. |
Evaluation for Safety Assessment by Gait Analysis on Walkway at Shipyard - Application to Working on NC Cutting Machine Conveyor Line -. |
49. |
Construction of the Work and Safety Observation System by Network Camera at Shipyard. |
50. |
Study of Thermal Environmental Design for Thermal Comfort and Energy Saving at Ship's Cabin. |
51. |
Experimental Simulation for Exhaust Gas Flow Condition on Loading at the Hold of PCC and its Ventilation Control. |
52. |
Study of Risk Assessment on Occupational Safety at Shipyard by Work and Safety Observation . |
53. |
Evaluation for Safety Assessment on Walkway at Shipyard by Fluctuation Analysis - Application of Working on NC Cutting Machine Conveyor Line -. |
54. |
Evaluation for Safety Assessment on Walkway at Shipyard - Body Balance during Working on NC Conveyor Line -. |
55. |
Risk Assessment on Occupational Safety for Safety Improvements at Shipyard. |
56. |
A Method of Optimization for Design Planning of General Arrangement on Ship's Cabin. |
57. |
Functional Assessment on Container Handling Operation at Container Terminal. |
58. |
Trouble Analysis for Design and Industrial Work on Shipbuilding by Text Mining Technology.. |
59. |
Evaluation for Safety Assessment on Walkway for Occupational Environment at Shipyard.. |
60. |
Applied Chaos Theory to Evaluation for Walking Environment on Occupational Safety Management at Shipyard. |
61. |
Structural Analysis for Mistakes in Deign and Industrial Work on Shipbuilding by Text Mining Technology. |
62. |
Applied Chaos Theory to Evaluation for Safety Assessment on Walkway for Occupational Environment at Shipyard. |
63. |
Applied Chaos Theory to Safety Management for Improvement of Occupational Health at Shipyard (Part3) Evaluation for Walking Environment by Fluctuation Property Analysis. |
64. |
Applied Chaos Theory to Safety Management for Improvement of Occupational Health at Shipyard (Part2) Evaluation for Safety Walking Environment at Shipyard. |
65. |
Study on Physical Distribution Management System at Shipyard by Simplified Experiments on Resemble Factory Distribution. |
66. |
Study on Database Analysis of Transfer Crane Container Handling System at Container Terminal. |
67. |
Chaos Analysis of Walking and Working Environment for Occupational Health and Safety Management at Shipyard. |
68. |
Construction of Container Handling Simulation Model in Container Terminal by Database Analysis. |
69. |
A Conceptual Design and Feasibility Study of Floating Container Terminal at Chang Jiang River Zone. |
70. |
Construction of Database and Risk Analysis on Industrial Accident of Shipyard. |
71. |
Applied Chaos Theory to Safety Management for Improvement of Occupational Health at Shipyard -Time Series Analysis of Walking Exeperiment-. |
72. |
Evaluation by Human Model Analysis on Transferring Platform for Work Environment at Shipyard . |
73. |
Chaos Analysis of Walking Experiment for Occupational Health and Safety Management. |
74. |
Simulated Analysis on Transportation Mode and Strategic Bridgehead for International Logistics Service. |
75. |
A Characteristic Analysis on Dynamic Stability of Form-resistant Structures in Non-conservative System (Part2)Chaotic Dynamics and Correlation Dimensions of Circular Arch. |
76. |
Correlation Dimensions Corresponding to Dynamic Behaviors of Circular Arch Subjected to Follower Forces with Small Disturbances. |
77. |
A Characteristic Analysis on Oscillatory and Chaotic Behavior of a Circular Arch subjected to Follower Forces with Small Disturbances. |
78. |
A Characteristic Analysis on Dynamic Stability of Form-resistant Structures in Non-conservative System (Part1)Chaotic Dynamics of Circular Arch subjected to Follower Forces. |
79. |
Establishing the Algorithm and Designing Tools for the Optimum Arrangement. |