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A curve based hull form variation with geometric constraints of area and centroid
| DC Field | Value | Language |
|---|---|---|
| dc.contributor.advisor | 남종호 | - |
| dc.contributor.author | NGUYEN SI BANG | - |
| dc.date.accessioned | 2019-12-16T02:44:22Z | - |
| dc.date.available | 2019-12-16T02:44:22Z | - |
| dc.date.issued | 2017 | - |
| dc.identifier.uri | http://repository.kmou.ac.kr/handle/2014.oak/11462 | - |
| dc.identifier.uri | http://kmou.dcollection.net/jsp/common/DcLoOrgPer.jsp?sItemId=000002377932 | - |
| dc.description.abstract | To obtain the new shape from modifying an existing geometric shape is a common process of design encountered in automobile, aircraft, and shipbuilding industries. In particular, designing a new ship from a well-made existing ship, called hull form variation or variation, for short, has been a crucial process used in every design department of shipyards for prompt and efficient initial hull form creation. This process, however, is not only complicated but also unintuitive and thus requires an expert’s skill and experience. An approach to performing the variation with the given geometric constraints of area and centroid is proposed. To modify an existing hull shape, a basic boundary curve of the shape is selected as a design variable. A parametric piecewise polynomial curve that satisfies new geometric requirements is generated and superimposed on the top of the selected boundary curve to yield the desired curve. The main process of the variation is performed in a linearized fashion that preserves the original shape as much as possible; thus, a new form is efficiently and promptly obtained. The proposed concept can be readily extended to similar modification processes of an existing geometric shape by adopting different geometric requirements. | - |
| dc.description.tableofcontents | Chapter 1. Introduction 1 1.1 Hull form design concept 1 1.2 Motivation 3 1.3 Clarification of study 6 1.4 Outline 7 Chapter 2. Hull form’s geometry variation traditional method 9 2.1 Mid-ship coefficient vary 9 2.2 Lackenby’s method 12 2.3 Other methods 13 2.3.1 Block coefficient method 13 2.3.2 ‘One minus Prismatic’ method 14 2.3.3 Stretch 14 2.3.4 Balance 14 Chapter 3. Theoretical basis 15 3.1 Ship lines – design variables 15 3.2 Non-Uniform Rational B-Spline 16 3.2.1 Control point 17 3.3.2 Knot vector 19 3.2.3 Order 20 3.2.4 Local modification scheme 21 3.3 Optimization techniques 22 3.3.1 Optimization in ship hull variation 22 3.3.2 Particle Swarm Optimization 24 3.4 Curve energy minimization 27 3.4.1 Curve’s curvature 27 3.4.2 Curve’s energy 30 Chapter 4 Curve based hull form variation with geometric constraints of area and centroid 33 4.1 Requirements for variation 33 4.2 Overall process 35 4.3 Characteristics of intermediate curve 37 4.4 Curve based variation 39 4.4.1 Hull curve generation 39 4.4.2 Geometric requirements for intermediate and deviation curves 41 4.4.3 Determination of deviation curve 44 4.4.4 Variation by superposition 46 4.5 Application 48 4.5.1 Stern section variation 48 4.5.2 Bulbous bow section variation 50 Chapter 5. Conclusions 52 References 54 | - |
| dc.format.extent | viii, 53 p. | - |
| dc.language | eng | - |
| dc.publisher | 한국해양대학교 일반대학원 | - |
| dc.rights | 한국해양대학교 논문은 저작권에 의해 보호받습니다. | - |
| dc.title | A curve based hull form variation with geometric constraints of area and centroid | - |
| dc.type | Dissertation | - |
| dc.date.awarded | 2017-08 | - |
| dc.contributor.alternativeName | NGUYEN SI BANG | - |
| dc.contributor.department | 대학원 조선해양시스템공학과 | - |
| dc.contributor.affiliation | 한국해양대학교 조선해양시스템공학부 | - |
| dc.description.degree | Master | - |
| dc.subject.keyword | ship hull design, hull form variation, NURBS, curve superposition, curve minimization | - |
| dc.title.translated | A curve based hull form variation with geometric constraints of area and centroid | - |
| dc.identifier.holdings | 000000001979▲000000007040▲000002377932▲ | - |
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