基本情報(Profile)
最終更新日(Last Updated)2025/03/27江種 大宗
HIROMUNE EGUSA
江種 大宗
2025/03
広島大学(Hiroshima University)
先進理工系科学研究科博士課程後期先進理工系科学専攻輸送・環境システムプログラム(Graduate School of Advanced Science and Engineering (Doctoral Course) Division of Advanced Science and Engineering Transportation and Environmental Systems Program)
| 工学(Engineering) | 総合工学(Integrated engineering) | 船舶海洋工学(Naval and maritime engineering)(Naval and maritime engineering) |
研究活動(Research Activities)
- 論文(Published Papers)
-
2025/03 船舶構造設計のDXに関する研究 / Studies on Digital Transformation in Ship Structural Design
2024/09/25 A case study on CNN-based Drawing Check AI / A case study on CNN-based Drawing Check AI
The 37th Asian-Pacific Technical Exchange and Advisory Meeting on Marine Structures (TEAM 2019 Kure, Japan) / The 37th Asian-Pacific Technical Exchange and Advisory Meeting on Marine Structures (TEAM 2019 Kure, Japan), 367-3732024/09/25 A Study on Modularization and Optimization of Container Vessel Structure to Improve the Efficiency of Inquiry Design / A Study on Modularization and Optimization of Container Vessel Structure to Improve the Efficiency of Inquiry Design
The 37th Asian-Pacific Technical Exchange and Advisory Meeting on Marine Structures (TEAM 2019 Kure, Japan) / The 37th Asian-Pacific Technical Exchange and Advisory Meeting on Marine Structures (TEAM 2019 Kure, Japan), 311-3182024/09/25 Application of Natural Language Processing to Shipyard Data -Design Flaw Extraction from the Defect Report Correction using BERT- / Application of Natural Language Processing to Shipyard Data -Design Flaw Extraction from the Defect Report Correction using BERT-
The 37th Asian-Pacific Technical Exchange and Advisory Meeting on Marine Structures (TEAM 2019 Kure, Japan) / The 37th Asian-Pacific Technical Exchange and Advisory Meeting on Marine Structures (TEAM 2019 Kure, Japan), 403-4102024/09/25 A Study on Hull Structure Drawing Check AI Using k-means Clustering and Convolutional Neural Network / A Study on Hull Structure Drawing Check AI Using k-means Clustering and Convolutional Neural Network
The 37th Asian-Pacific Technical Exchange and Advisory Meeting on Marine Structures (TEAM 2019 Kure, Japan) / The 37th Asian-Pacific Technical Exchange and Advisory Meeting on Marine Structures (TEAM 2019 Kure, Japan), 319-324
- MISC(MISC)
-
2024/05 k-means法と畳み込みニューラルネットワークを用いた船殻図面の検図AIに関する研究—A Study on Hull Construction Drawing Check AI Using k-means Clustering and Convolutional Neural Network
日本船舶海洋工学会講演会論文集 Conference proceedings, the Japan Society of Naval Architects and Ocean Engineers, (38), 711-7132185-1840 https://cir.nii.ac.jp/crid/1520583004767486720?lang=ja , 2023/11 引合設計の効率化のためのコンテナ船構造のモジュール化に関する研究—A Study on Modularization of Container Vessel Construction to Make Design by Inquiry More Efficient
日本船舶海洋工学会講演会論文集 Conference proceedings, the Japan Society of Naval Architects and Ocean Engineers, (37), 713-7172185-1840 https://cir.nii.ac.jp/crid/1520020010463954432?lang=ja , 2017 大規模災害時における錨泊船舶の発電機を利用した陸上への給電システムに関する実験的研究—水中ケーブルにかかる荷重に関する水理実験 / Experimental study on power supply system to shore using anchorage vessel for Large-scale disaster: Hydraulic experiment on the dynamic tension of underwater cable
広島商船高等専門学校紀要 / The Bulletin of National Institute of Technology, Hiroshima College, 39, 171-176 , 10.32221/hiroshimashosenkiyo.39.0_1711883-9908, 130007897236 http://ci.nii.ac.jp/ncid/AA12429342 , 概要はこちら(Description) When a large-scale disaster have occurred the island and urban coastal areas damage to the infrastructure is huge and first aid is apt to delay. After the disaster by focusing on the often a ship to be forced to anchoring of outside the port. In this study, the power supply system using the vessel at anchor the ship that do not use the quay is presented. The paper deals with the dynamic tension of anchoring vessel connected with underwater cable by model scale experiment. The using Strong and heavy cable such as underwater cable protected by iron wire make it clear that the cable suppress the movement of a ship. However, the Electricity can be carried more efficiently by specifying a cable with a large radius and heavy. The authors will devise a method to determine the optimum radius for safety and efficiency.
2017 新型錨開発のための錨鎖伸出量に関する調査
日本航海学会講演予稿集(Web), 5(2)2188-4412 201702238489885457 2016/11 錨泊船舶を利用した陸上への給電システムに関する基礎的研究(第1報)—A Basic Study On The System of Electrical Supply For Coastal Disaster Area Using Anchoring Vessel(1st Report)
日本船舶海洋工学会講演会論文集 Conference proceedings, the Japan Society of Naval Architects and Ocean Engineers, (23), 659-6622185-1840, 40021623015 https://cir.nii.ac.jp/crid/1520290882864142976?lang=ja , 2016 大規模災害時における錨泊船舶の発電機を利用した陸上への給電システムに関する実験的研究—ケーブルに作用する力に関する検討 / A study on the power supply from ships using the buoy at the time of large-scale disasters: Study on application of force of cable at sea
広島商船高等専門学校紀要 / The Bulletin of National Institute of Technology, Hiroshima College, 38, 93-100 , 10.32221/hiroshimashosenkiyo.38.0_931883-9908, 110010031743 http://ci.nii.ac.jp/ncid/AA12429342 , 概要はこちら(Description) When a large-scale disaster have occurred the island damage (a power outage or water outages, etc.) to the infrastructure is huge, and first aid is apt to delay. After the disaster by focusing on the often a ship to be forced to anchoring of outside the port, in this study, the land power supply system using the vessel at anchor the ship that do not use the quay is presented.
2016 水中ケーブルが接続された錨泊船舶の挙動に関する基礎的研究
日本航海学会講演予稿集(Web), 4(2)2188-4412 201702286304385490 2016 水中ケーブルに接続された錨泊船舶の離島災害時への対応
日本島嶼学会大会研究発表要旨集, 2016201702294494344158 2015 大規模災害時における錨泊船を用いた陸上への給電システムの提案
日本島嶼学会大会研究発表要旨集, 2015201602208221311601