Estimating Production Metric for Ship Assembly Based on Geometric and Production Information of Ship Block Model

Estimating Production Metric for Ship Assembly Based on Geometric and Production Information of Ship Block Model

To secure technological competitiveness in shipbuilding and offshore industries, the continuous application and development of various technologies is essential. Efficient scheduling in shipyards is an important management task, whereby materials and manpower are allocated at the appropriate time an...

Full description

Bibliographic Details
Main Authors: Won-Seok Choi, Dong-Ham Kim, Jong-Ho Nam, Min-Jun Kim, Young-Bin Son
Format: Article
Language:English
Published: MDPI AG 2021-01-01
Series:Journal of Marine Science and Engineering
Subjects:
production metric
man-hour estimation
CAD block model
shipbuilding assembly process
Online Access:https://www.mdpi.com/2077-1312/9/1/39
id doaj-6eccbb20d67843d289c21938061fc11e
record_format Article
spelling doaj-6eccbb20d67843d289c21938061fc11e2021-04-02T20:54:49ZengMDPI AGJournal of Marine Science and Engineering2077-13122021-01-019393910.3390/jmse9010039Estimating Production Metric for Ship Assembly Based on Geometric and Production Information of Ship Block ModelWon-Seok Choi0Dong-Ham Kim1Jong-Ho Nam2Min-Jun Kim3Young-Bin Son4Naval Architecture and Ocean Systems Engineering, Korea Maritime & Ocean University, Busan 49112, KoreaAutonomous & Intelligent Maritime Systems Research Division, Korea Research Institute of Ships & Ocean Engineering, Daejeon 34103, KoreaNaval Architecture and Ocean Systems Engineering, Korea Maritime & Ocean University, Busan 49112, KoreaNaval Architecture and Ocean Systems Engineering, Korea Maritime & Ocean University, Busan 49112, KoreaNaval Architecture and Ocean Systems Engineering, Korea Maritime & Ocean University, Busan 49112, KoreaTo secure technological competitiveness in shipbuilding and offshore industries, the continuous application and development of various technologies is essential. Efficient scheduling in shipyards is an important management task, whereby materials and manpower are allocated at the appropriate time and to the correct workspace. Although some large shipyards ensure effective scheduling and production management through simulations employing advanced technologies, most shipbuilding industries, including small- and medium-sized shipyards, continue to use an index based on past experiences. However, this legacy index, termed the basic unit, involves poor engineering logic; therefore, it does not appropriately reflect a shipyard’s working environment, which changes rapidly in response to technological developments. Although this has led to a demand for improvements in the basic unit, a clear solution has not been presented thus far. In this study, a method for calculating the man-hours required for assembly, which is the basis for preparing the basic unit, is proposed. First, the assembly process is analyzed, and individual activities involved in the assembly process are quantified and formulated into working hours, which is defined as a production metric. Based on a ship’s computerized block model, the geometric properties and production information required for calculating the metric are generated automatically as far as possible; this is to establish a convenient production metric calculation system. The proposed method features complete applicability in new shipyards through a customization. It also serves as a tool for predicting the metric of new ships or comparisons with those of existing ships.https://www.mdpi.com/2077-1312/9/1/39production metricman-hour estimationCAD block modelshipbuilding assembly process
collection DOAJ
language English
format Article
sources DOAJ
author Won-Seok Choi
Dong-Ham Kim
Jong-Ho Nam
Min-Jun Kim
Young-Bin Son
spellingShingle Won-Seok Choi
Dong-Ham Kim
Jong-Ho Nam
Min-Jun Kim
Young-Bin Son
Estimating Production Metric for Ship Assembly Based on Geometric and Production Information of Ship Block Model
Journal of Marine Science and Engineering
production metric
man-hour estimation
CAD block model
shipbuilding assembly process
author_facet Won-Seok Choi
Dong-Ham Kim
Jong-Ho Nam
Min-Jun Kim
Young-Bin Son
author_sort Won-Seok Choi
title Estimating Production Metric for Ship Assembly Based on Geometric and Production Information of Ship Block Model
title_short Estimating Production Metric for Ship Assembly Based on Geometric and Production Information of Ship Block Model
title_full Estimating Production Metric for Ship Assembly Based on Geometric and Production Information of Ship Block Model
title_fullStr Estimating Production Metric for Ship Assembly Based on Geometric and Production Information of Ship Block Model
title_full_unstemmed Estimating Production Metric for Ship Assembly Based on Geometric and Production Information of Ship Block Model
title_sort estimating production metric for ship assembly based on geometric and production information of ship block model
publisher MDPI AG
series Journal of Marine Science and Engineering
issn 2077-1312
publishDate 2021-01-01
description To secure technological competitiveness in shipbuilding and offshore industries, the continuous application and development of various technologies is essential. Efficient scheduling in shipyards is an important management task, whereby materials and manpower are allocated at the appropriate time and to the correct workspace. Although some large shipyards ensure effective scheduling and production management through simulations employing advanced technologies, most shipbuilding industries, including small- and medium-sized shipyards, continue to use an index based on past experiences. However, this legacy index, termed the basic unit, involves poor engineering logic; therefore, it does not appropriately reflect a shipyard’s working environment, which changes rapidly in response to technological developments. Although this has led to a demand for improvements in the basic unit, a clear solution has not been presented thus far. In this study, a method for calculating the man-hours required for assembly, which is the basis for preparing the basic unit, is proposed. First, the assembly process is analyzed, and individual activities involved in the assembly process are quantified and formulated into working hours, which is defined as a production metric. Based on a ship’s computerized block model, the geometric properties and production information required for calculating the metric are generated automatically as far as possible; this is to establish a convenient production metric calculation system. The proposed method features complete applicability in new shipyards through a customization. It also serves as a tool for predicting the metric of new ships or comparisons with those of existing ships.
topic production metric
man-hour estimation
CAD block model
shipbuilding assembly process
url https://www.mdpi.com/2077-1312/9/1/39
work_keys_str_mv AT wonseokchoi estimatingproductionmetricforshipassemblybasedongeometricandproductioninformationofshipblockmodel
AT donghamkim estimatingproductionmetricforshipassemblybasedongeometricandproductioninformationofshipblockmodel
AT jonghonam estimatingproductionmetricforshipassemblybasedongeometricandproductioninformationofshipblockmodel
AT minjunkim estimatingproductionmetricforshipassemblybasedongeometricandproductioninformationofshipblockmodel
AT youngbinson estimatingproductionmetricforshipassemblybasedongeometricandproductioninformationofshipblockmodel
_version_ 1721546237976510464

Similar Items