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博士班

一、課程地圖與課程大鋼(查看)


二、修業規定

91學年度入學 92學年度入學 93學年度入學
94學年度入學 95學年度入學 96學年度入學
97學年度入學 98學年度入學 99學年度入學
100學年度入學 101學年度入學 102學年度入學
103學年度入學 104學年度入學 105學年度入學
106學年度入學 107學年度入學 108學年度入學
109學年度入學 110學年度入學 111學年度入學
112學年度入學 113學年度入學  

三、雙聯博士學位申請資格及條件:國立中正大學工學院機械工程研究所泰國農業大學機械工程研究

1 學程目標

本雙聯博士學位學程名稱為「中正機械所-泰農機械所雙聯博士學位學程」(下稱「學程」),每一學年度進入此學程的學生每校至多10名。

1.1 中正機械所學生前往泰農機械所學分認定

在泰農修業年限至少3學期,學生可以在泰農攻讀機械工程博士學位。學分認定,中正學生將從泰農機械所修讀的博士課程學分帶回中正作抵免申請 

1.2 泰農機械所學生前往中正機械所學分認定

在中正修業年限至少3學期,學生可以在中正攻讀機械工程博士學位。學分認定,泰農學生將從中正機械所修讀的博士課程學分回泰農作審核確認。

因此,學程雙方學生,在二大學修業時間(至少6學期)、修習學分數(滿足二校畢業要求)下,可獲得兩個博士學位中正授予之機械所博士學位及泰農授予之機械所博士學位

2 申請條件和規定  

2.1 中正機械學生前往泰農機械

在中正符合成績的博士生有資格直接申請泰農機械工程博士課程(課程路線和學習計劃見附件1和附件2)。

中正學生將按照泰農的標準申請流程和程序進行申請。泰農保留對學生入學的所有決定的權利。

泰農註冊以英語授課的課程的候選人必須滿足泰農機械設定的以下語言要求:

        TOEFL

  • Paper-based Total             ³ 500
  • Computer-based Total      ³ 173
  • Internet-based Total         ³ 61

        IELTS         ³ 5.5

        TOEIC        ³ 650

中正學生將在泰農註冊攻讀機械工程博士學位。他們將遵守泰農機械標準規則和條。他們也將繼續在原校中正就讀並完成雙方學位

2.2 泰農機械學生前往中正機械

在泰農符合成績的博士生有資格直接申請中正機械工程博士學位。(課程路線和學習計劃見附件1和附件2)。

泰農學生將根據中正機械的標準申請流程和程序進行申請。中正保留對學生錄取其課程的所有決定權。

中正註冊以英語授課的課程的候選人必須滿足中正機械設定的以下語言要求:

        TOEFL

  • Paper-based Total              ³ 500
  • Computer-based Total       ³ 173
  • Internet-based Total          ³ 61

        IELTS                  ³ 5.5

        TOEIC                ³ 650

泰農學生將在中正註冊攻讀機械工程博士學位。他們將遵守中正機械標準規則和條。他們也將繼續在原校泰就讀並完成雙方學位

3 協調

雙方同意成立協調委員會,由雙方任命的教和行政代表組成,負責監督本協議的執行。委員會將每學期召開一次會議,以審查該雙聯學位課程是否符合品質標準和學術規定。為此,將安排聯合學術委員會。

為履行本協的條款,雙方將通過其協調人,就本協的宗旨展開共同活動。

4 學費  

學生需在就讀期間向所註冊的學校支付學二至三學期學雜費金額依每學年度之繳費標準收取。

5 住宿

接待學校將協助安置對方學生於合適的住宿學生必須支付自己的生活費。

6 責任

學生將分別由兩校各一名教師負責共同指導以完成英文撰寫之學術論文。兩位共同指導教授承諾充分履行其職責。

學生在接待學校期間仍將承擔其本國學校的全部法責任。

7 課程要求

7.1 課程要求

中正機械總畢業學分為20學分,其中 2學分為必修專題研討 12學分在中正機械完成 6學分在泰農機械完成。在中正機械就讀,學生必須在入學3年內通過資格考試。(附件2、附件3、附件4和附件5

泰農機械總畢業學分為55學分,其中 4學分專題研討3學分在泰農機械完成博士論文48學分  .

7.2 論文

論文是雙學位課程的最終要求。學生將由兩校各一名教師擔任指導教授共同指導。學生必須根據中正機械泰農機械的規定完成一篇論文。在泰農機械,學生完成論文可獲 48學分。(附件6

7.3 論文口試

學生需於舉行論文口試之學期,分別於二校同時註冊並繳交學雜費。論文口試委員需由二校指導教授邀請組成。

中正機械,學生必須在論文口試前至少六個月通過論文提審。論文口試申請須經同意下向學術委員會提出申請並獲通過下,才得提出校級申請泰農指導教授擔任口試委員,可以選擇線上口試,但須獲得中正核可。

泰農機械,學生必須在論文提案審查前至少三個月提交論文提案。然後,學生必須在論文口試前至少四個月通過論文提審。須經指導老師和學術委員會核可中正指導教授擔任口試委員,可以選擇線上參與口試,但須獲得泰農核可。

8 授予最終學位  

中正泰農將授予在博士課程中獲得所需學分的學生,發表兩篇完整的學術論文含正式接受刊登,並成功完成最終論文的學生。

9 智慧財產權

各方應尊重與本協使用或開發的雙方共有之智慧財產權。共同作品的產權在執行前由雙方定。未經同意,各方不得使用對方的名稱或商標。

雙方對論文擁有平等的版權有權,並有權發表參加該計劃的學生創作的作品。

10 期限

本協自簽署之日起五年。此後,除非其中一方在其希望終止公約之日前至少六個月發出終止通知,否則公約將自動續展。在提前終止的情況下,已經在接待學校註冊博士課程的學生將能夠完成這些課程。

本協議是基於雙方公平和誠實的意圖聲明以及不具任何法律或法律制度合約之約束而簽訂。任何一方不得將自己視為另一方的代理人,且雙方均無權委託另一方。

 

附件1 推薦路線

For CCUME students going to KUME

YEAR 1

Semester 1

National Chung Cheng University

Semester 2

YEAR 2

Semester 3

Semester 4

Kasetsart University

YEAR 3

Semester 5

Semester 6

For KUME students going to CCUME

YEAR 1

Semester 1

Kasetsart University

Semester 2

YEAR 2

Semester 3

Semester 4

National Chung Cheng University

YEAR 3

Semester 5

Semester 6

 

Annex 2  - Study plan

A2.1 課程學分要求

總學分要求75學分(中正機械20學分,泰農機械55學分)

  1. 課程27學分

必修9學分(中正機械2學分專討,泰農機械4學分專討及3學分必修)

專選18學分(中正機械18學分)    

  1. 博士論文48學分(泰農機械48學分)

A2.2 中正機械資格考試

  1. 博士生須於入學後三年內(不含休學期間)通過博士班研究生資格考試,未通過者應予退學。如因特殊事由未能於入學後三年內通過者,該生可檢具證明,於第四學年開學前由指導教授簽請,經本系學術委員會核可,得予以延長期限,但至多延長一年。
  2. 博士生以通過三門博士班資格考相關課程,其中通過科目至少必須含兩門核心課程,以及一門經指導教授同意之碩博士班課程。核心課程共十門,包含五組專業組提供碩博士班課程各二門
  3. 博士生通過成績標準:三門成績皆應在80()以上或名列該門全班成績前1/2()以內。

A2.3 論文發表

學生應發表(含正式接受刊登)與博士論文相關之著作至少二篇於EISCI期刊,且其中至少一篇須發表於SCI之期刊。

前提是學生擔任論文的第一作者,並隸屬於中正機械泰農機械

 

Annex 3  - List of courses

Mandatory (Required enrolment):

01208691        Advanced Research Methods in Mechanical Engineering    

                                                                        3 credits  from KU

01208697        Seminar                                   2 credits  from KU

01208699        Thesis                                       48 credits from KU

                Seminar                                           2 credits  from CCU

Recommended electives at CCU for credit transfer (3 subjects have to be selected):

4205005  Linear System                                 3 credits  from CCU

4205007  Elasticity                                         3 credits  from CCU

4205601  Intermediate Fluid Dynamics         3 credits  from CCU

4205776  Digital Control Systems Design     3 credits  from CCU

4205803  Robotics                                          3 credits  from CCU

4206301  Structural Dynamics                       3 credits  from CCU

4206502  Intermediate Heat Transfer I          3 credits  from CCU

4208151  Optimum Design                            3 credits  from CCU

4415098  Opto-mechatronic System Design    3 credits  from CCU

4415111  Opto-mechatronics                         3 credits  from CCU

Recommended subjects at KU for credit transfer to CCU (At most 3 subjects can be selected):

01208525        Fracture Mechanics                3 credits  from KU

01208527        Fundamentals of Linear Finite Element Analysis  3 credits  from KU

01208542        Advanced Fluid Mechanics       3 credits  from KU

01208546        Finite Volume Method for Computational Fluid Dynamics 

                                                                        3 credits  from KU

01208555        Thermochemical Conversion of Biomass      3 credits  from KU

 

Annex 4  - Description of courses

A4.1 Courses in KU

- 01208525      Fracture Mechanics

A design concepts, analyses, and test methods for assuring fracture-safe structural reliability, the material parameters used in materials specifications, nondestructive inspection methods, the fracture mechanisms as a basis to determine causes of failure.

- 01208527      Fundamentals of Linear Finite Element Analysis

Finite element formulation. Weak form of differential equation. Finite element interpolation functions. Finite element model. Finite element method for stress analysis in linear elasticity problems. Finite element method for thermal analysis in linear heat transfer problems. Computer implementation of finite element method. Use of finite element software packages.

- 01208542      Advanced Fluid Mechanics

Conservation laws, flow kinematics, special forms of the governing equations, two-dimensional potential flows, three-dimensional potential flows, surface waves, exact solutions, low-Reynolds-number solutions, boundary layers, shock waves.

- 01208546      Finite Volume Method for Computational Fluid Dynamics

Concept and importance of computational fluid dynamics and finite volume method, equations of motion for fluid flow and heat transfer, solution procedures by iterative numerical methods, problems with flow over an obstacle, application of finite volume method to engineering problems.

- 01208555      Thermochemical conversion of biomass

Biomass. Biomass pretreatment. Pyrolysis process. Torrefaction process. Carbonization process. Gasification process. Biomass combustion. Hydrothermal process. Examples of biomass conversion plant. Environmental impacts. Economic feasibility of biomass conversion plant. and case studies.

- 01208691      Advanced Research Methods in Mechanical Engineering      

Advanced research in mechanical engineering and preparation of research proposal, application of information technology and computer for data processing and retrievals, data analysis, technical report writing, technical presentation and group discussion; paper preparation for international journal publication.

- 01208697      Seminar

Presentation and discussion on interesting advanced topics in engineering by external experts and faculty members. Visit to the industries.

- 01208699      Thesis    

                        Research at the doctoral degree level and compile into a thesis.

 

A4.2 Courses in CCU

-  4205005     Linear System

The course deals with the theoretical aspects of linear dynamic systems as they apply to engineering modeling, analysis and design. The mathematical concepts of time and complex frequency domain representation of linear dynamic systems are covered in detail. Furthermore, the theoretical foundations and application of system stability are discussed thoroughly. Finally, the properties of controllability and observability are studied to apply them to both feedback controller and observer design.

-  4205007     Elasticity

This course mainly introduces the elasticity, including tensor introduction, fundamental mechanics theory, 2D Cartesian coordinate problems, polar coordinate problems, and energy method, etc. This course can help students to handle the basic methods for elastic stress and strain, to build up a strong theoretical basis for study the strength, stiffness, reliability, fracture and fatigue problems of practical engineering components and structures.

-  4205601     Intermediate Fluid Dynamics

This course delves into the principles of fluid mechanics, encompassing mass, momentum, energy conservation, and fluid mechanics, extending from basic fluid mechanics to solid mechanics. Students will develop solid analytical skills and apply their knowledge, enabling them to progress to the design and enhancement of fluid machinery.

-  4205776     Digital Control Systems Design

Students will learn how to digitally implement the continuous dynamics synthesized by classical control or modern control to function as controllers, observers, filters, or phase-compensators. The implementation is finished in two stages: discrete equivalency and DSP programming. 

-  4205803     Robotics

This class focuses on that how to formulated the position, kinematic and dynamic analysis of the robotic, and how to apply these theories on the multi-body motion analysis.

-  4206301     Structural Dynamics

This course primarily instructs students the foundational principles of structural vibration. It covers the creation of mathematical models for system vibrations and the analysis of these systems. Additionally, it delves into dynamic behavior, demonstrating how to utilize mathematical models to gain a deeper understanding of system vibrations and modify the dynamic response. The course also covers relevant methods for managing mechanical system vibrations or implementing technology to suppress them.

表單的頂端

-  4206502     Intermediate Heat Transfer I

This course provides clarification of fundamental principles, derivation of equations and establishment of models, mathematical analysis, numerical computations, understanding of physical phenomena, and guidance on engineering applications.

-  4208151     Optimum design

This course integrates extensive mathematical programming and optimization search. It involves translating a complex real-world design challenge into a mathematical programming problem, followed by employing numerical methods to discover a solution for this mathematical programming problem.

-  4415098     Opto-mechatronic System Design

This course explains the basic principles of Opto-mechatronic System Design, and introduce related tools and methods.

-  4415111     Opto-mechatronics

This course facilitates the comprehension of optomechanical and electrical integration engineering. Optomechanical and electrical integration engineering involves the seamless integration of optical, mechanical, and electrical components to enhance overall system performance.

 

 

Annex 5  - Grade conversion table

The conversion between KU and CCU grades is based on the following table of percentages. Therefore, grades should be transferred between the partners via percentage values.
The student must achieve a minimum grade of 70 out of 100 to successfully pass the course.

KU

Grade

%

A

81-100

B+

76-80

B

71-75

C+

66-70

C

61-65

D+

56-60

D

50-55

F

< 50

CCU

Grade

%

A+

90-100

A

85-89

A−

80-84

B+

77-79

B

73-76

B−

70-72

C+

67-69

C

63-66

C−

60-62

D

50-69

E

0-49

 

Annex 6  - 評估

學生必須提交符合以下要求的論文:

  1. 一篇英文撰寫論文。
  2. 論文的格式應符合泰農中正的指導要求應經雙方學校同意認可
  3. 根據雙方學校口試規定泰農機械與中正機械成立學術委員會,經審核通過,才得進行校級口試申請並遵循兩校的口試申請程序
  4. 完成之論文應同時一本至泰農機械及中正機械,並依各學校要求繳交論文數。
  5. 泰農機械及中正機械的名稱必須出現在論文的封面上。
  6. 除上述規定外,最終版本之論文,將提供電子論文給雙方留存

 

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