PROGRAM SPECIFICATION

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DEPARTMENT OF INDUSTRIAL AND SYSTEMS ENGINEERING ROOM A2.602, INTERNATIONAL UNIVERSITY

BLOCK 6, LINHTRUNG WARD, THUDUC DISTRICT, HCMCITY

PROGRAM

SPECIFICATION

DEPARTMENT OF INDUSTRIAL AND SYSTEMS ENGINEERING

VERSION 2015

INTERNATIONAL UNIVERSITY

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TABLE

OF

CONTENT

1. MISSION 4

2. JOB OPPORTUNITIES 4

3. PROGRAM OFFERING 4

4. PROGRAM STRUCTURE AND CONTENT 8

5. CURRICUMLUM 10

IU ISE CURRICULUM - TOEFL > 500 10

IU ISE CURRICULUM – 430 < TOEFL < 500 (IE3 – IE4)** 13 IU ISE CURRICULUM – TOEFL < 430 (IE1 – IE2) ** 16

6. CURRICULUM MAP 19

7. TWINING PROGRAM 20

TWINNING PROGRAM- RUTGERS UNIVERSITY 20

IU - SB ISE CURRICULUM – 430 < TOEFL < 500 (IE3-IE4) ** 25 IU - SB ISE CURRICULUM – TOEFL < 430 (IE1 – IE2) ** 26

8. COURSE DESCRIPTION 27

9. ACADEMIC REGULATION 35

SPECIALIZATION SELECTION 35

SUMMER INTERNSHIP REGISTRATION 35

THESIS REGISTRATION 35 GRADUATION CRITERIA 35 SCHOLARSHIP INFORMATION 36 COURSE REGISTRATION 36 ACADEMIC SUSPENSION 37 ACADEMIC INFORMATION 38 GRADING CRITERIA 38 10. FACULTY 38 11. DEGREE CHECKLIST 43 FROM YEAR 2009 43 FROM YEAR 2010 46 FROM YEAR 2011 49

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FROM YEAR 2012 52

FROM YEAR 2013 55

12. COURSE SYLLABI 58

13. COURSE ASSESSMENT 291

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1. MISSION

 Develop future leaders in different industry sectors in Vietnam

 Prepare lifelong learners for professional fulfillment in the field of Industrial and

Systems Engineering

2. JOB OPPORTUNITIES

ISE engineers can take on and perform excellently tasks in various fields, namely Logistics & Supply Chain Management, Project Management, Inventory Man-agement, Quality ManMan-agement, Optimization in Production and Service, develop-ing an integrated solution to reduce the operation cost, etc. Qualified graduated engineers can achieve the top-level positions in organizations such as Production Director and Chief Executive Officer

3. PROGRAM OFFERING

The department of Industrial and Systems Engineering uses its own program specification with the following information as formulated by the AUNQA

 Awarding body/institution: International University HCMC

 Teaching institution: Department of Industrial and Systems Engineering,

Intertional University HCMC

 Accreditation: MOET standard, recognized in 2009

Name of the final award: Bachelor of Engineering in Industrial and Systems Engineering

 Program Title: Industrial and Systems Engineering

Learning outcomes of the program:

a. An ability to apply knowledge of mathematics, science and engineering b. An ability to design and conduct experiments, as well as to analyze and

interpret data

c. An ability to design a system, component, or process to meet desired needs within realistic constraints such as economic, environmental, social, political, ethical, health and safety, manufacturability, and sustainability d. An ability to function in multidisciplinary teams

e. An ability to identify, formulate, model and simulate and solve industrial and systems problems

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g. The broad education necessary to understand the impact of engineering solutions in a global, economic, environmental, and societal context

h. A recognition of the need for, and an ability to engage in life-long learning i. A knowledge of contemporary issues and ability to self-update

j. An ability to use the techniques, skills, and modern engineering tools necessary for engineering practice.

k. A competence in one or more technical specialties that meet the needs of the industrial sector in Vietnam

l. A knowledge of probability and statistics, including applications appropriate to Industrial and Systems Engineering

m. A knowledge of applied mathematics in operations research

 Program objectives

The program equips students with professional knowledge and skills for high per-formance in the field of production and services. In particular, ISE students have abilities of:

- Designing industrial systems: Create new design for industrial systems in production and service from small to medium size. For some especial cases, new design for large systems will also be considered

- Operating and managing industrial systems: Operate effectively industrial systems in production and services by efficiency combination all system’s resources (people, finance, machines, ect.)

- Improving industrial systems: Detect, simulate, and get result to determine optimization index for new productive and services. Propose necessary change to improve existing systems.

- Redesigning industrial systems: Analyze and research existing systems of production and service to see whether it needs redesigning or not for increasing productive and efficiency.

- Supporting decision making: Analyze, evaluate, and simulate managing models to give alterative solution as single-criteria and multi-criteria for supporting managers in making decision.

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 Engage in lifelong learning to maintain and enhance professional skills

 Work effectively with people and demonstrate leadership, professional skills

and ethical behavior in the workplace

 Fulfill the needs of community and industrial sector of Vietnam in solving

technical and management problems using industrial and systems engineering principles, tools and techniques

 Admission criteria of the program:

- Leaving high school certificate examination, in June

- Direct Apply based on students’ academic performance and interviews

 Benchmarking: comparison with Rutgers University Industrial and Systems Engineering Curriculum, and SUNY Binghamton Systems Science and Industrial Engineering curriculum

 Program outcomes such as knowledge, skills and attitudes:

Graduated students are expected to obtain knowledge, skills and proper attitude to be successful in their life and career. The program outcomes are grouped by knowledge, skills and attitudes.

 Teaching and learning strategies:

- Students centered

- Collaborative learning

- Integration of theories & practices

- Research oriented

- Utilization of IT

 Course Assessment:

According to the Academic Regulations of IU-VNU, the assessments fall into three categories as follows:

1. Final exam: 35% - 60%

2. Mid-term exam: 20% - 40%

3. Others (e.g. In-class quizzes, group presentation, etc): 10% - 30%

The final grade of a laboratory course includes:

4. Laboratory assignment: 70% - 80%

5. Laboratory final exam: 20% - 30%

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The ISE Program structure was built based on the framework of engineering program from the Vietnam Ministry of Education and Training in which courses are grouped into general knowledge (33%), professional knowledge (57%), and professional practice and research (11%) (Table 3-1). As such, the program provides students a balance knowledge of breadth and depth which could suit to different individual needs. Graduates from ISE can apply broad knowledge obtained from the program to a diverse range of careers or pursuit of other education programs. On the other hand, the professional knowledge gives students in-depth understanding of scientific principles, analysis and design skills to achieve success in the practice or in advanced study and research of industrial & systems engineering. In addition, English proficiency and soft skills such as critical thinking, communication skills are compulsory subjects in the program structure, which in reality also have an important contribution to the success of ISE students after graduation.

Table 3-1Program structure

CURRICULUM STRUCTURE CREDITS PERCENTATGE

General knowledge 47 33%

Political education 10 7%

Humanity and Social Science 3 2%

Academic English 8 6%

Physical Training 0 0%

Mathematic, Physic, Chemical 26 18%

Core knowledge 18 13%

Specialization knowledge (Compulzsory) 47 33%

Specialization knowledge (Elective) 15 _11%

Research 5 4%

Thesis 10 7%

TOTAL 142 100%

 Requirement for graduation: 142 credits, including graduation thesis

 Program specification’s update

The program specification was established at the very beginning in 2009 with the found-ing of the ISE department. Till now, the program specification has several revisions in response to the needs of the stakeholders.

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4. PROGRAM STRUCTURE AND CONTENT

The ISE program is being taught in English, which is the only ISE program in Vietnam that uses English in teaching and learning. This helps the students not only acquire pro-fessional knowledge but also improve their English skills. In other to help the students study in the program, the university has an English program that can enhance the Eng-lish ability of students.

The ISE program aims to train students to become good ISE engineers with high quality in knowledge, professional skills and ethics as well as political qualities, so that they will be able to work in the industry and make their contributions in the modernization and in-dustrialization of Vietnam.

The contents of the program consist of several knowledge blocks: general education block, core major requirement block, specialization major requirement block, and intern-ship and thesis block

 General education block (47 Credits, 33 %): general education includes social science and humanity courses (Principle of Marxism, Ho Chi Minh’s thought, Revolutionary lines of Vietnamese Communist Party, Critical thinking, academic English), natural science courses (Calculus, Physics, Chemistry), economics course (Principles of Economics). These courses aim to provide students with the general knowledge that can help them to study better in other courses and be-come a good citizen with background in social science and politics.

 Core major requirement block (18 Credits, 13 %): core major requirements are the basic knowledge of ISE that help students to build a solid foundation in Indus-trial engineering. Students are provided with the knowledge of probability & statis-tics, engineering mechanics, computer programming.

 Specialization major requirement block (63 Credits, 44 %): after completing the core major requirement courses, students will be provided with the special-ized knowledge in ISE including designing new systems, redesigning current sys-tems, managing operating systems. The specialized major requirement block has both required (47 credits, 33%) and elective courses (15 credits, 11%).

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 Internship (5 Credits, 3 %): in ISE, internship plays an important role in the study of students. There are two internship courses in the program: after completing the sophomore year, students have to take the Internship 1, and the Internship 2 will be in the summer of the junior The objective of the Internship 1 is to let students have the first overview and get to know the operations of different manufacturing. Each student is required to visit at least six companies and write a report about their operations. The Internship 2 helps students to gain more practical experi-ence in the operation of factories, learn how the applications of theories they learned in the classes into real life, and find the topic for their theses

 Thesis block(10 Credits, 7 %):: Students are required to complete these two in-ternship courses before they can start doing their theses, which are the require-ment for graduation It takes at least 3 months for doing the thesis. In the thesis, under the guidance of a lecturer, a student has to formulate a problem, find a so-lution to solve the problem through theories, computer software they have learned during their studies. Internship and thesis occupy about 10% of the whole curricu-lum (15 credits in a total of 142 credits), which shows that ISE program focuses on solving practical problems and doing researches.

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5. CURRICUMLUM

Requirement for graduation: 142 credits, including graduation thesis

a. IU ISE CURRICULUM - TOEFL > 500

IU ISE Curriculum - Toefl>= 500 (4 years)

Freshman

Year

Semester 1 Crds

EN007IU Writing AE1 2

EN008IU Listening AE1 2

MA001IU Calculus 1 4

PH013IU Physics 1 2

PH014IU Physics 2 2

PT001IU Physical Training 1 0

CH011IU Chemistry for Engineers 3

Total credits 15

EN012IU Speaking AE2 2

PE008IU Critical Thinking 3

IS001IU Introduction to Industrial Engineering 1

IS054IU Engineering Drawing 3

PH015IU Physics 3 3

Total credits 18

Summer

se-mester Crds

PE011IU Principles of Marxism 5

PE012IU HCM’ s thoughts 2

PE013IU

Revolutionary Lines of Vietnamese Communist

Party 3

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Year

IS019IU Production Management 3

IS002IU Introduction to Computing & Lab 4

IS004IU Engineering Probability & Statistics 4

IS016IU Engineering Mechanics – Dynamics 3

Total credits 18

IS020IU Engineering Economy 3

IS021IU Deterministic models in OR 3

IS017IU Work design & Ergonomics + Lab 4

IS034IU Product Design & Development 3

MA024IU Differential Equations 4

Total credits 17 Summer se-mester Crds IS052IU Internship 1 2 _{Military Training} Total credits 2 Junior Year Crds Semester 5

IS040IU Management Information System 3

IS025IU Quality Management 3

IS026IU Project Management 3

IS029IU Supply chain & Logistics Management 3

IS024IU Probabilistic Models in OR 3

IS___IU ISE Elective Course (choose 1 course below) 3

IS031IU Experimental Design

IS018IU CAD/CAM

_{Total credits} ₁₈

IS051IU Communication skills 3

IS028IU Simulation Models in IE 4

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IS032IU Facility Layout 3

IS___IU ISE Elective Course (choose 1 course below) 3

IS044IU Computer Control Manufacturing Systems

IS058IU Forecasting Techniques

IS068IU Procurement Management

Total credits 16 Summer se-mester Crds IS053IU Internship 2 3 Total credits 3 Senior Year Semester 7 Crds

IS033IU Multi-Criteria Decision Making 3

IS041IU Lean Production 3

IS___IU ISE Elective Course (choose 3 courses below) 9

IS035IU Systems Engineering

IS043IU Flexible Manufacturing Systems

IS045IU Leadership

IS023IU Inventory Management

BA146IU Retail Management

IS067IU International Transportation & Logistics

_{Total credits} ₁₅

IS048IU Thesis research 10

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b. IU ISE CURRICULUM – 430 < TOEFL < 500 (IE3 – IE4)** IU ISE Curriculum - TOEFL 430-500, IE2 (4.5 years)

Year 1

EN074IU Reading & writing IE2 8

EN075IU Listening & speaking IE2 8

Total credits 20

PH013IU Physics 1 2

PH014IU Physics 2 2

Summer

PE013IU

Revolutionary Lines of Vietnamese Communist

Par-ty 3

Year 2

Semester 3 Crds

EN012IU Speaking AE2 2

PH015IU Physics 3 3

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Total credits 16 Summer se-mester Crds IS052IU Internship 1 2 _{Military Training} Total credits 2 Year 3 Semester 5 Crds

IS024IU Probabilistic Models in OR 3

IS___IU ISE Elective Course (choose 1 course below) 3

IS018IU CAD/CAM

IS027IU Scheduling & Sequencing 3

Summer

IS053IU Internship 2 3

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Year 4

Semester 7 Crds

IS___IU ISE Elective Course (choose 3 courses below) 9

IS045IU Leadership

Year 5 Crds

Semester 9

_{Total credits} ₁₀

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c. IU ISE CURRICULUM – TOEFL < 430 (IE1 – IE2) **

IU ISE Curriculum - TOEFL <430 IE1 (5 years)

Year 1

Total credits 22

Summer

PE013IU Revolutionary Lines of Vietnamese Communist Party 3

Year 2

Semester 3 Crds

PH013IU Physics 1 2

PH014IU Physics 2 2

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PH015IU Physics 3 3 Total credits 17 Summer se-mester Crds _{Military Training} Total credits 0 Year 3 Semester 5 Crds

Total credits 17

Total credits 17 Summer se-mester Crds IS052IU Internship 1 2 Total credits 2 Year 4 Semester 7 Crds

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IS___IU ISE Elective Course (choose 1 course below) 3

IS018IU CAD/CAM

IS027IU Scheduling & Sequencing 3

Total credits 16 Summer se-mester Crds IS053IU Internship 2 3 Total credits 3 Year 5 Semester 9 Crds

IS___IU ISE Elective Course (choose 3 courses below) 9

IS045IU Leadership

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6. CURRICULUM MAP

Total number of Credit per semester

Selective courses: * Management specialization/ ** Automation Specialization Summer semester

15 credits

SEMESTER 1 SEMESTER 2 SEMESTER 3 SEMESTER 4 SEMESTER 5 SEMESTER 6 SEMESTER 7 SEMESTER 8

Calculus 1 (4crds) Calculus 2 (4 crds) Calculus 3 (4crds) Differential equation (4crds) Management Information System (3crds) Communication skills (3crds) Multi-criteria Decision Making (3crds) Thesis (10crds) Physic 1 (2crds) Physic 3 (3crds) Introduction to Computing & lab

(4crds) Engineering Economy (3crds) Quality Management (3crds) Simulation Models in IE (4crds) Lean Production (3crds) Physic 2 (2crds) Introduction to IE _(1crd) Engineering Probability & Statistic (4crds) Deterministic models in OR (3 crds) Project Management (3crds) Scheduling & Sequencing (3crds) Systems Engineering ** (3crds) Chemistry for Engineering (3 crds) Engineering Drawing (3crds) Engineering Mechanics- Dynamics (3crds)

Work Design & Ergonomics +lab (3

crds)

Supply chain & Logistics Management (3crds) Facility Layout (3crds) Flexible Manufacturing Systems** (3crds) Writing Academic English 1( 2crds) Writing Academic English 2( 2crds) Production management (3crds) Product Design and Development (3 crds) Probabilistic Models in OR (3crds) Computer Control Manufacturing System ** (3crds) Leadership * (3crds) Listening Academic English 1(2crds) Listening Academic English 2 (2crds) Experimental Design* (3crds) Forecasting Techniques */ ** (3 crds) Inventory Management * (3crds)

Physical Training 1 Physical Training 2

Internship 1 (2crds) CAD/CAM** (3crds) Procurement Management * (3crds) Retail Management * (3crds) International Transportation & Logistics * * (3crds) Internship 2 (3crds)

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7. TWINING PROGRAM

TWINNING PROGRAM- RUTGERS UNIVERSITY

a. IU – RG - ISE CURRICULUM - TOEFL > 500 *RG: Rutgers University

Freshman Year

Fall Spring

Subject ID Subject Credits Subject ID Subject Credits

MA001RG Calculus 1 4 MA003RG Calculus 2 4

PH013RG Physics 1 2 PH014RG Physics 2 2

CH011RG Chemistry for Engineers 3 CH011RG Analytical chemistry 3 CH012RG Chemistry Laboratory 1 IS002RG Introduction to Computing 3 PE008RG Critical Thinking

3 IS015RG Engineering Mechanics – Statics 3 EN007-08RG Academic English 1 4 EN011-012RG Academic English 2 4

Total credits 17 Total credits 19

Sophomore Year

Fall Spring

Subject ID Subject Credits Subject ID Subject Credits

MA023RG Calculus 3 4 MA024RG Differential Equations 4 PH015RG Physics 3 3 IS014RG Analytical Physics IIB 3 PH016RG Physics 3 Lab 1 IS015RG Analytical Physics IIB Lab 1 IS001RG Introduction to IE

1 IS016RG Engineering Mechanics – Dynamics

3

IS006RG IE lab

2 IS017RG Work design &

Ergonom-ics + Lab 4

IS004RG Engineering Probability

3 IS003RG Introduction to

Microeco-nomic 3

IS004RG Mechanics of Solids

3 IS012RG Introduction to Macro

economics 3

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IU - RG ISE CURRICULUM – 430 < TOEFL < 500 (IE3 – IE4)**

Freshman Year

Fall Spring

Subject ID Subject Credits Subject ID Subject Credits

EN052-53-54-55RG

IE2

12 CH011RG Chemistry for Engineers 3

MA001RG Calculus 1 4 CH012RG Chemistry Laboratory 1

PH013RG Physics 1 2 PH014RG Physics 2 2

MA003RG Calculus 2 4

IS015RG Engineering Mechanics – Statics

3

PE008RG Critical thinking 3

EN007-08RG

Academic English 1 4

Summer semester Subject ID Subject Credits EN011-012RG AE2 4 TOTAL 4 Sophomore Year Fall Spring

Subject ID Subject Credits Subject ID Subject Credits

MA023RG Calculus 3 4 MA024RG Differential Equations 4 PH015RG Physics 3 3 IS014RG Analytical Physics IIB 3 PH016RG Physics 3 Lab 1 IS015RG Analytical Physics IIB Lab 1

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IS001RG Introduction to Indus-trial Engineering 1

IS016RG Engineering Mechanics – Dynamics

3

IS006RG IE lab

2 IS003RG Introduction to

Microeco-nomic 3

IS004RG Engineering Probability

3 IS012RG Introduction to Macro

eco-nomics 3

IS004RG Mechanics of Solids

3 IS007RG Work design & Ergonomics

+ Lab 4

IS004RG Analytical chemistry 3 IS002RG Introduction to Computing 3

Total credits 20 Total credits 24

b. IU - RG ISE CURRICULUM – TOEFL < 430 (IE1 – IE2) ** Freshman Year

Fall (Semester 1) Spring (Semester 2)

Subject ID

Subject Credits Subject ID Subject Credits

EN048- 49-50-51RG IE1 32 EN052-53-54-55RG IE2 12 PH013RG Physics 1 2 PH014RG Physics 2 2 MA001RG Calculus 1 4

Summer semester

Subject ID Subject Credits

EN007-08RG AE1 4 MA003RG Calculus 2 4 TOTAL 8 Sophomore Year

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Subject ID Subject Credits Subject ID

Subject Credits

CH011RG Chemistry for

Engi-neers 3

CH011RG Analytical chemistry 4

CH012RG

Chemistry Laboratory 1 IS015RG Engineering Mechanics – Statics

3

IS001RG Introduction to IE 1 IS002RG Introduction to Computing 3 IS006RG

IE lab 2 IS017RG Work design & Ergonomics +

Lab 4

IS004RG Engineering

Probabil-ity 3

IS004RG Mechanics of Solids 3

MA023RG Calculus 3 (Multi-variable Calculus) 4

IS003RG Introduction to

Microeco-nomic 3

EN011-012RG

AE2 4 IS012RG Introduction to Macro

eco-nomics 3

Total credits 18 Total credits 20

Fall (Semester 5)

Subject ID Subject Credits

MA028RG Differential Equations 4

PH015RG Physics 3 3

PH016RG Physics 3 Lab 1 IS016RG Engineering

Mechan-ics – DynamMechan-ics 3 IS014RG Analytical Physics IIB 3 IS015RG Analytical Physics IIB

Lab 1

PE008RG Critical thinking 3 Total credits 18

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TWINNING PROGRAM- THE TATE UNIVERSITY OF NEW YORK (SUNY), UNIVERSITY AT BINGHAMTON

a. IU – SB - ISE CURRICULUM -TOEFL>500 Freshman Year

Subject ID Fall Credit Subject ID

Spring Credit

MA001SB Calculus 1 4 MA003SB Calculus 2 4

PE008SB Critical Thinking 3 PH013SB Physics 1 2 CH011SB Chemistry for

Engi-neers 3 PH014SB Physics 2 2 CH012SB Chemistry Laboratory 1 EN011-012SB Academic English 2 4

EN007-08SB Academic English 1

4 IS015SB Engineering Mechanics – Statics

3

PT001SB Physical Training 0 PT002SB Physical Training 0

TOTAL 15 TOTAL 15

Sophomore Year

Subject ID Fall Subject ID Spring MA024SB or MA023SB Differential Equa-tions or Cal 3 4

MA028SB Applied Linear Algebra 4

PH015SB Physics 3 3 IS017SB Human Factors 4

PH016SB Physics 3 Lab

1 IS002SB Introduction to Compu-ting

3

IS001SB Introduction to Indus-trial Engineering 1

PH012SB Physics 4 2

IS006SB IE lab 2

IS004SB Engineering Proba-bility

4

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1.1.IU - SB ISE CURRICULUM – 430 < TOEFL < 500 (IE3-IE4) **

Freshman Year

Subject ID Fall Credit Subject ID Spring Credit

EN052-53-54-55SB

IE2

12 EN007-08SB AE1 4

MA001SB Calculus 1 4 MA003SB Calculus 2 4

CH011SB Chemistry for Engineers 3 PH013SB Physics 1 2 CH012SB Chemistry Laboratory 1 PH014SB Physics 2 2 PT001SB Physical Training 1 0 IS015SB Engineering Mechanics

– Statics

3

PT002SB Physical Training 2 0

TOTAL 20 TOTAL 15

Sophomore Year

Subject ID Fall Credit Subject ID Spring Credit

EN011-012SB

AE2

4 MA028SB Applied Linear Algebra 4

MA024RG or

MA023SB

Differential Equations or

Cal 3 4

PE008SB Critical thinking 3

PH015SB Physics 3

3 IS002SB Introduction to Compu-ting

3

PH016SB Physics 3 Lab 1 IS020SB Human Factors 4 IS001SB Introduction to Industrial

Engineering 1

PH012SB Physics 4 2

IS006SB IE lab 2

IS004SB Engineering Probability 4

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IU - SB ISE CURRICULUM – TOEFL < 430 (IE1 – IE2) **

Freshman Year

Subject ID

Fall Credit Subject ID Spring Credit

EN048- 49-50-51SB IE1 32 EN052-53-54-55SB IE2 12

PT001SB Physical Training 1 MA001SB Calculus 1 4

PH013SB Physics 1 2 PT002SB Physical training 2 TOTAL 32 TOTAL 18 Sophomore Year Subject ID

Fall Credit Subject ID Spring Credit

CH011SB Chemistry for Engineers

3 MA024RG or MA023SB

Differential Equations

or Cal 3 4

CH012SB Chemistry Laboratory 1 IS020SB Human Factors 4 MA003SB Calculus 2

4 IS015SB Engineering Mechan-ics – StatMechan-ics

3 PH014SB Physics 2

2 IS002SB Introduction to Com-puting

3 IS001SB Introduction to Industrial

Engineering 1

EN011-012SB

AE2 4

IS006SB IE lab 2 PH012SB Physics 4 2

EN007-08SB AE1 4 TOTAL 17 TOTAL 20 Subject ID Fall Credit Fall

PE008SB Critical thinking 3

PH015SB Physics 3 3

PH016SB Physics 3 Lab 1 IS004SB Engineering Probability 4 MA028SB Applied Linear Algebra 4

TOTAL 14

**Subject to change. The RG ISE and SB ISE curricula for students whose TOEFL scores below 500 provided here are just examples based on their English levels at the year of intake. The subjects to be taken are usually fixed in the freshmen year but might be varied in the years following, depending on their progress in English which is frequently assessed by every semester. The students will be counseled by their appointed advisors on the subjects to be taken in the new semester.

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8. COURSE DESCRIPTION

MA001IU Calculus 1 4 credits

Functions; Limits; Continuity; Derivatives, Differentiation, Derivatives of Basic Elementary Functions, Differentiation Rules; Applications of Differentiation: l’Hôpital’s Rule, Optimiza-tion, Newton’s Method; Anti-derivatives; Indefinite Integrals, Definite Integrals, Fundamental Theorem of Calculus; Techniques of Integration; Improper Integrals; Applications of Inte-gration.

MA003IU Calculus 2 4 credits

Sequence and Series; Convergence Tests; Power Series; Taylor and Maclaurin Series; Cartesian Coordinates; Lines, Planes and Surfaces; Derivatives and Integrals of Vector Functions, Arc Length and Curvature, Parametric Surfaces; Functions of Several Variables; Limits, Continuity, Partial Derivatives, Tangent Planes; Gradient Vectors; Extrema; La-grange Multipliers; Multiple Integrals: Double Integrals, Triple Integrals, Techniques of Inte-gration; Vector Fields, Line Integrals, Surface Integrals.

Prerequisite: MA001 (Calculus 1)

MA023IU Calculus 3 4 credits

Complex numbers, complex series, complex functions, complex derivatives; Laplace trans-form, z-transtrans-form, Fourier series, Fourier transtrans-form, the inverse transtrans-form, transforms of derivatives and integrals, first-order differential equations, second-order differential equa-tions, difference equaequa-tions, applications to electrical circuits and signal processing.

MA024IU Differential Equations 4 credits

First-order differential equations, second-order linear differential equations, undetermined coefficients, variation of parameters, applications, higher-order linear differential equations, systems of first-order linear equations, elementary partial differential equations and the method of separation of variables.

PH013IU Physic 1 2 credits

An introduction to mechanics including: planar forces, free body diagrams, planar equilibri-um of rigid bodies, friction, distributed forces, shear force and bending moment diagrams,

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simple stress and strain and associated material properties, kinematics and kinetic of parti-cles, work and energy, motion of rigid bodies in a plane

PH014IU Physic 2 2 credits

This course provides students basic knowledge about fluid mechanics; macroscopic de-scription of gases; heat and the first law of thermodynamics; heat engines and the second law of thermodynamics; microscopic description of gases and the kinetic theory of gases.

PH015IU Physic 3 3 credits

To provide a thorough introduction to the basic principles of physics to physics and engi-neering students in order to prepare them for further study in physics and to support their understanding and design of practical applications in their fields. Content: Electrostatics, particles in electric and magnetic fields, electromagnetism, circuits, Maxwell's equations, electromagnetic radiation.

Co-requisite: PH016 (Physic 3 Laboratory)

CH011IU Chemistry for Engineers 3 credits

This course is designed for non-chemistry majors, as it is intended for students pursuing a degree in information technology, electronic and telecommunication. The course is de-signed to provide a strong background in the fundamentals of chemistry, preparing stu-dents for further study in their major field. Topics include important principles, theories, concepts of chemistry, and chemical calculations necessary for a comprehension of the structure of matter, the chemical actions of the common elements and compounds.. The impact of chemistry on everyday life and on the environment is also introduced wherever possible.

Co-requisite: CH012 (Chemistry for Engineers Laboratory)

EN008IU Listenning Academic English 1 2 credits

To provide students with the study skills needed to listen to academic lectures, take effec-tive notes and prepare for examinations.

EN007IU Writing Academic English 1 2 credits

This course provides students with instruction and practice in essay writing, including

trans-forming ideas into different functions of writing such as definitions, classifications, cause –

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will develop the ability to read critically and write accurately, coherently, and in appropriate academic style in response to those texts. They will also practice necessary skills to write a research report.

EN012IU Speaking Academic English 2 2 credits

Students are provided with practical strategies for effective presentations. They also have chance to practice giving presentations in class and receive feedback.

Prerequisite: EN007 & EN008 (Academic English1)

EN011IU Writing Academic English 2 2 credits

This course provides an overview of the organizational format for a research paper and sists students in completing research projects in any content area course by providing as-sistance in writing effective research papers using a step-by-step process approach. Course content includes the components of a research paper, and techniques of selecting and narrowing topics; writing argumentative thesis statements; outlining; locating and doc-umenting sources; taking notes. Students also have to read extensively about a chosen topic to explore different ideas of multiple authors about that topic. Students work with pro-jects relating to their content area courses.

Prerequisite: EN007 & EN008 (Academic English1)

PE008IU Critical Thinking 3 credits

This course aims to introduce to you the fundamentals of critical thinking. Its course inte-grates basic critical thinking, persuasive communication, and related errors in thinking les-sons with examination of arguments from several sources, including literature, politics, commercials, and the media.

The primary focus of this course is the development of critical skills. To this end, you will learn to identify common fallacies, reflect on the use of language for the purpose of presen-tation, and think critically about ethical judgments, advertisement, TV and film, magazines and newspapers.

EE049 Introduction to Electrical Engineering 3 credits

This course is an introduction to engineering processes for future electrical engineering. This course provides the students with the fundamental concepts of the electrical engineer-ing profession. In addition, the students will learn the proper usage of engineerengineer-ing tools, in-cluding computers and measurement equipments. Students will also perform statistical analysis of experimental data, define engineering requirements, and implement simulation.

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Introduction to MATLAB, a powerful programming package for engineers and scientists. Students will learn the fundamentals of MATLAB, how to write programs in MATLAB, and how to solve engineering problems using MATLAB. Emphasis on problem-solving skills and mathematical tools of importance in engineering.

IS006IU IE Lab 2 credits

Introduction to programming in C++. Operators and the C++ system; fundamental data types; flow of control; functions; arrays, pointers, and strings; application of C++ for solving engineering problems and numerical analyses.

IS005IU Engineering Mechanics – Statics 3 credits

The classification of systems of forces and their resultants; geometrical and analytical con-ditions for the equilibrium of force systems, frames and trusses, friction, parabolic and ca-tenary cables, centers of gravity.

IS004IU Engineering Probability 4 credits

Probability problems in engineering, conditional probability, discrete and continuous distri-butions, function of random variables, interval estimates.

IS016IU Engineering Mechanics – Dynamics 3 credits

Kinematics of particles to rigid bodies, rotation of a rigid body, plane motion of a rigid body, relative motion, the principles of work and energy, impulse and momentum, impact.

IS020IU Engineering Economy 3 credits

Economic decisions involving engineering alternatives; annual cost, present worth, rate of return, and benefit-to-cost; before and after tax replacement economy; organizational fi-nancing; break-even charts; unit and minimum-cost public sector studies.

IS019IU Production Management 3 credits

Introduction to production systems. Production planning and control in decision making. Forecasting. Aggregate production planning. Capacity planning. Materials requirement planning. Scheduling. Advanced techniques and approaches in modern production plan-ning and control for desigplan-ning manufacturing and service systems.

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Elements of problem solving and algorithmic design. Use of numerical analysis and linear algebra to solve industrial engineering problems. Topics to be covered include: problem formulations, simplex method in tableau form, duality theory, an introduction to the geome-try of the simplex method, sensitivity analysis, transportation and network flow problems, optimality conditions and basic numerical methods for nonlinear programs.

IS018IU CAD/CAM 3 credits

This course introduces you to modern manufacturing with three areas of emphasis: com-puter aided design, comcom-puter aided manufacturing, and comcom-puter aided process planning. This course provides the important theory, concepts, technology, and the state-of-the-art development in CAD/CAM. It is very important to understand how the CAD/CAM systems work and know the current industry status. The subjects covered in this class include part design specification, NC programming, process planning, and Computer aided process

planning (CAPP), CAD and CAM systems, and CAD/CAM data exchange.

IS024IU Probability Models In OR 3 credits

To introduce the student into basic topics of mathematical modeling process of decision problems in complex stochastic industrial environments. This course covers stochastic op-erations research models, algorithms, and applications. Markov chains and queuing models are discussed. Renewal theory, reliability theory, and stochastic models for manufacturing systems are also taken into consideration. Students will acquire in this course the basis for the study of other probabilistic topics in their curriculum.

IS032IU Facilities Layout 3 credits

This course focuses on the fundamentals of the design, layout, and location of industrial and nonmanufacturing facilities. Selection of machines and material handling equipment and their efficient arrangement. Emphasis on quantitative methods. Warehouse layout. Fa-cility location theory.

IS027IU Scheduling and Sequencing 3 credits

This course gives an introduction to scheduling problems: techniques, principles, algo-rithms and computerized scheduling systems.

Topics include scheduling algorithms for single machine, parallel machine, flow shop, job shop and also solution methodologies such as heuristic procedures, constructive algo-rithms, branch and bound approaches, and genetic algorithms.

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“Project management” course is developed to provide the principal concept on project management which was characterized by the project management body of knowledge guide (PMBOK Guide). The course emphasizes the five project process groups of initiating, planning, executing, controlling and closing, and the nine knowledge areas of project inte-gration, scope, time, cost, quality, human resources, communication, risk, and procurement management.

In addition, this course also provides a computer aid for project management by introducing the application of Microsoft Project and project scheduling.

IS025IU Quality Management 3 credits

This course introduces to the principles of quality management, with an emphasis on cross-functional problem solving. It provides methods for quality planning, improvement and control with applications in manufacturing and service. The students also gain a basic understanding of the philosophy, conceptual frameworks and the tools of the Total Quality Management.

IS028IU Simulation Models In IE 4 credits

Systems modeling and simulation techniques find applications in fields as diverse as phys-ics, chemistry, biology, economphys-ics, medicine, computer science, and engineering. The pur-pose of this course is to introduce fundamental principles and concepts in the general area of systems modeling and simulation. Topics to be covered in this course include basics of discrete-event system simulation, mathematical and statistical models.

Introduce the fundamental concepts necessary for the design and use of modern database systems. Examine the concepts in the order that encountering them in the actual database design process. Discuss various forms for relations that possess good properties. Discuss how to use the relational database language SQL to define the relations and to write SQL statements to insert, delete, retrieve and update the data. Examine some of the fundamen-tal storage structures that are used in relational database systems. Discuss some ad-vanced topics in the database management area.

IS044IU Computer Controls of Manufacturing Systems 3 credits

Programmable automation applied to manufacturing. Controller architecture, sensors and automatic data acquisition, computer control of actuators, continuous and discrete control of processes, computer integration and local area networks.

IS033IU Multicriteria Decision Making 3 credits

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Decision making is one of the important parts in operation research or management sci-ence. Decision making techniques help management to choose the best alternative based on quantitative criteria. This course provides students with basic knowledge about decision model formulation, so that they can make decisions based on the results of the models. This course also provides students with specific techniques for practical applications in production and services.

IS034IU Product Design and Development 3 credits

Product Design and Development course introduces to the students the role of multiple

functions in creating a new product (e.g. marketing, finance, industrial design, engineering,

production) as well as tools and methods for product design and development. Highlight of the course is the project in which the students will design a new product and produce a pro-totype version of it. Throughout the project, the students will apply their learned principles and methods of product development in a realistic context. The course also enables the students to coordinate interdisciplinary tasks in order to achieve a common objective.

IS029IU Supply chain & Logistics management 3 credits

Logistics and Supply chain management involves a number of decisions that benefit by quantitative techniques of analysis and design. The course will explore modeling, computa-tion implementacomputa-tion of solucomputa-tions in some areas of Logistics and Supply Chain Management. The content also include material flow management across the supply chain, value man-agement and analysis of total supply chain costs, robust design of supply chains, co-ordination of supply chain decisions and handling of uncertainties in supply chain manage-ment.

IS040IU Management Information Systems 3 credits

Integrates topics of management and organization theory, information and communication theory, and systems theory relevant to managing an organization’s information resources. Includes computer hardware and software, telecommunications, and database concepts and emphasizes the e-commerce and Internet based business models to get a competi-tiveness of global based business environments. This course meets the requirements for a Technology Intensive course.

IS043IU Flexible Manufacturing Systems 3 credits

This course studies the concept and method of flexible manufacturing system planning and control. The study covers flexible manufacturing system technology, flexible manufacturing system component, flexible manufacturing system performance evaluation: analytical mod-el, simulation modmod-el, flexible manufacturing system configuration planning: routing optimi-zation, capacity optimioptimi-zation, tools optimioptimi-zation, flexible manufacturing system production

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planning and control: batching, set-up planning. The course provides ability to plan and control flexible manufacturing system.

IS031IU Design of Experiments 3 credits

An applied statistics course on planning, statistical analysis, and interpretation of experi-ments of various types. Coverage includes factorial designs, randomized blocks, Latin squares, incomplete block designs, nested, crossover designs, and optimal design.

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9. ACADEMIC REGULATION

Specialization Selection

After completing the first two years of the program, students are allowed to choose their specialization. Specialization is the research area which students are interested in and wish to continue with for final thesis. Department of Industrial and Systems Engineering currently offers two specializations:

 Management Orientation

 Automation Orientation

The priority for specialization selection is based on student’s GPA and the quota for each. Once specialization is chosen, students have to take the required courses for each specialization, relevant elective courses and final thesis.

Summer Internship Registration

Students are allowed to register for summer internship before the academic year when they aim to apply for thesis.

 Objectives:

 To develop skills in the application of theory to practical work

 situations;

 To develop skills and techniques directly applicable to their careers;

 To provide students the opportunity to get involve with industry before

graduated.

 Internship duration: two internships are requirement  Internship 1: Minimum 4 weeks

 Internship 2:minimum 8 weeks to 12 weeks (full-time working)

Thesis Registration  Criteria:

 Successfully accumulate at least 90% of credit numbers of the

academic curriculum and finish senior project;

 Do not under any academic admonishment.

 Duration: minimum 12 weeks

Graduation Criteria

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 Successfully complete the academic curriculum (142 credits) with GPA ≥ 50

 Meet the minimum English requirement of 61 TOEFL iBT, 6.0 IELTS.

 Military Education Certification

 Meet other requirements in accordance with the regulations for

graduation set by the IU.

Scholarship Information

 University Scholarship (Decision No 99 & 100/ĐHQT-ĐT)

Each semester, top 10% of students with highest GPA will receive scholar-ship from the IU. 4% of students will receive full scholarscholar-ship (12.000.000 VND for Fall/Spring semester or 6.000.000 VND for Summer semester) and 6% of students will receive half scholarship (6.000.000 VND for Fall/Spring semester or 3.000.000 for Summer semester).

 Minimum requirements:

 Complete the Academic English 1 (AE1).

 Register at least 12 credits for Fall/Spring semester or 6 credits

for Summer semester;

 Semester GPA ≥ 70 (with no course fails in that semester)

 Admission Scholarship 2012

 Full scholarship (full tuition exemption for 4 years – equivalent to 120.000.000 VND): Students have entrance examination scores ≥ 24.

 Partial scholarship (half tuition exemption for 4 years – equivalent to

60.000.000 VND): Student have entrance examination scores ≥ 23.

 Condition to maintain Scholarships: Students must have GPA each semester ≥ 70 and the score of every subject ≥50.

Course Registration

Course registration aims at helping students gain full success in building their own training plan, selecting appropriate subjects for every semester in such a way that can meet his or her own personal capacity and conditions for the highest achieve-ment.

 Students should register a minimum of 12 credits, except for the last

semester.

 Students should register a maximum of 24 credits in one semester,

ex-cept for the last semester, for those who have cumulative GPA ≥65

 The subject registration form must be approved by the academic

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 For exceptional cases, students must file for the consideration of the Dean of Schools.

 Students do online course registration on the website:

https://hcmiu.edu.vn/edusoftweb/ (username and password for student will be creat-ed by the university).

 The registration time will be informed at the School of Electrical

Engi-neering.

Adjusting Student Timetable

When receiving the timetables, students must check the information including the number of registered courses, tuition fees, etc… if there should any errors, students must report to the Schools within three days of the timetable announcement.

The Schools must check (through the academic advisors) and give their opinions on the students’ file of document, and then send them to the Office of Academic Affairs for settlement

Adding and Dropping Courses

In the first week of teaching, based on their timetables, ability and learning condi-tions, students can file for adding and dropping courses.

Academic Probation

University Academic Committee will consider to settle the academic matters after first and summer semester annually. The result of the summer semester will be add-ed to that of second semester of the correspondent year upon academic settling. Student violating the below regulation will be admonished academically:

 Those who acquire insufficient credits as required by the specialization in

one semester;

 Cumulative GPA < 35.

 Having two consecutive cumulative GPA < 50.

The duration for academic probation will last in the succeeding formal semester.

Academic suspension

Students violating one of the below regulation will be suspended academically:

 The ultimate time for studying has finished;

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 Students are warned more than 2 times;

 Do not register courses for each semester;

 Do not finish tuition fees in the prescribed time.

Academic Information

 Students can see all studying results in each semester and training results

at the Department of Industrial and Systems Engineering

 In studying process, student can ask for student’s transcript at the Office of

Academic Affairs.

 For student who is warned or suspended, the university will send the

infor-mation for student’s family.

Grading Criteria

CLASSIFICATION SCALE

0 OF 100 SCALE 0 OF 4 LETTER GRADE

PASS

Excellent 85 ≤ GPA ≤ 100 4.0 A

Very Good 75 ≤ GPA < 85 3.75 A-

Good 65 ≤ GPA < 75 3.5 B+

Fairly good 60 ≤ GPA < 65 3.0 B

Fair 55 ≤ GPA < 60 2.5 C+

Average 50 ≤ GPA < 55 2.0 C

FAIL

Weak 30 ≤ GPA < 50 1.3 D+

Rather weak 10 ≤ GPA < 30 1.0 D

Too weak GPA < 10 0 F

10. FACULTY

Assoc. Prof. Ho Thanh Phong – Rector cum Head of Industrial and Systems Engineering

Degree: Phd in Industrial and Systems Engineering, Asian Institute of

Technology, Thailand

Research Interest: Multiple Criteria Decision Making (MCDM) Stochastic Process

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Operations and Supply Chain Management Scheduling and Sequencing

Project Management

Manufacturing and Service Management Modeling and Simulation in industry Decision Support System.

Email: [email protected]

Dr. Nguyen Van Chung – Vice Rector of Industrial and Systems Engineering Department

Degree: Phd in Industrial and Systems Engineering, Asian Institute of

Technology, Thailand

Research Interest: Ergonomic problems in working environment

Planning maintenance for equipment/ production line Production aggregate planning

Application for supply chain

Dr. Pham Huynh Tram – Deputy Head of Industrial and Systems Engineering Department Degree Ph.D in Manufacturing Systems and Technology

Nanyang Technological University, Singapore-MIT Alliance

Research Interest: Quality management

Lean production

Manufacturing & service management

Dr. Ha Thi Xuan Chi – Lecturer of Industrial and Systems Engineering Department Degree Ph.D in Industrial Management, Taiwan

Research Interest: Applied Linear Algebra;

Quantitative Methods for Business;

Probabilistic Models in Operation Research

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Dr. Phan Nguyen Ky Phuc – Lecturer of Industrial and Systems Engineering Department

Degree Ph.D in Industrial Management, Taiwan

Research Interest: Engineering Probability & Statistics;

Design of Experiment

Msc. Nguyen Hoang Huy– Lecturer of Industrial and Systems Engineering Department Degree Msc in Logistics & Supply chain management, England

Research Interest: Quantitative Management,

Logistics & Supply chain management, Production Management

Msc. Ho Thanh Vu– Lecturer of Industrial and Systems Engineering Department

Degree Msc in Industrial & System Engineering, America

Research Interest: Engineering Probability & Statistics;,

Scheduling & sequencing Design of Experiment

Email: [email protected]

Msc. Vo Quynh Mai – Lecturer of Industrial and Systems Engineering Department Degree Msc in Logistics and supply chain, Australia

Research Interest: Quantitative Management,

Logistics & Supply chain management, Production Management

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Degree Msc in Industrial & System Engineering, Canada

Research Interest: Work design,

Production Management, Lean Production

Msc. Truong Ba Huy – Lecturer of Industrial and Systems Engineering Department

Degree: Master of Industrial Management & Engineering

Research Interest: Selective Maintenance

Inventory

Msc. Duong Vo NhiAnh– Lecturer of Industrial and Systems Engineering Department

Degree: Master in Mechanical Engineering – University of technology of

HCMC

Master of Business Administration – CFVG

Research Interest: CAD/CAM - Research NURBS curve to create smooth

tool-path for high speed milling

Key Factors Influence to Customer Loyalty in B2C context – A case of electronic Supermarket sector in Vietnam

Operations, Logistics and Supply Chain Management Project management

Msc. Nguyen Hoang Minh - Lecturer of Industrial and Systems Engineering Department

Degree: Master of Industrial Management & Engineering, Thailand

Research Interest: Production management

Supply chain management Quality management

Msc. Do VinhTruc – Lecturer of Industrial and Systems Engineering Department

Degree: Master in Computer Science and Information Management ,

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Research Interest: Programming in simulation, Scheduling

Msc. Ho Doan Quoc - Head of LABs of Industrial and Systems Engineering Department

Degree: Master in Industrial and Systems Engineering, Vietnam

Research Interest: Programming in simulation, Scheduling

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11. DEGREE CHECKLIST

1. From Year 2009

Degree : Bachelor

Major : Industrial and Systems Engineering

Minimum required credit number: 141

Minimum GPA : 50.0

No. SubID Subject Credit Level Grade Equivalence

Subject Required major courses (minimum: 64 credits)

1 IS002IU Introduction to Computing 3 1-2 2 IS005IU Engineering Mechanics – Statics 3 1-2

3 IS001IU, IS006IU

Introduction to Industrial

Engi-neering + IE lab 3 2-1

4 IS004IU Engineering Probability 4 2-1 5 IS016IU Engineering Mechanics –

Dynamics

3 2-1

6 IS020IU Engineering Economy 3 2-2 7 IS017IU Work design & Ergonomics 4 2-2 8 IS034IU Product Design & Development 3 2-2 9 IS019IU Production Management 3 3-1 10 IS022IU Database Systems 3 3-1 11 IS025IU Quality Management 3 3-1 12 IS051IU Communication skills 3 3-1 13 IS026IU Project Management 3 3-2 14 IS028IU Simulation Models in IE 4 3-2

15 Internship 3 3-2

16 IS027IU Scheduling & Sequencing 3 4-1

17 IS029IU Supply chain & Logistics

Man-agement 3 4-1

18 IS047IU Thesis research 10 4-2 ISE Elective courses (minimum: 12 credits)

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No. SubID Subject Credit Level Grade Equivalence Subject

Students have to take at least 04 courses (minimum 12 credits) from the following level 3 - elective major course list

1 IS031IU Experimental Design 3 3/4

2 IS032IU FacilityLayout 3 3/4

3 IS040IU Management Information Sys-tems

3 3/4

4 IS033IU Multi-CriteriaDecisionMaking 3 3/4

5 IS045IU Leadership 3 3/4

6 IS041IU Lean Production 3 3/4

7 IS018IU CAD/CAM 3 3/4

8 IS044IU Computer Control Manufactu-ringSystems

3 3/4

9 IS023IU Inventory Management 3 3/4 10 IS043IU Flexible ManufacturingSystems 3 3/4 11 IS035IU Systems Engineering 3 3/4 FREE Elective courses (minimum: 06 credits)

Students have to take at least 02 courses (minimum 06 credits) from the following level 4 - elective major course list

Students can choose any courses in all major of IU Program.

English courses (minimum: 8 credits)

1 EN007IU Writing AE1 2 1-1

2 EN008IU Listening AE1 2 1-1

3 EN011IU Writing AE2 2 1-2

4 EN012IU Speaking AE2 2 1-2

Mathematics courses (minimum: 21 credits)

1 MA001IU Calculus 1 4 1-1

4 MA024IU Differential Equations 4 2-2 5 IS021IU Deterministic models in OR 3 3-1 6 IS004IU Probabilistic Models in OR 3 3-2 Chemistry & Physics courses (minimum: 14 credits)

1 CH011IU CH012IU

Chemistry for Engineers Chemistry Laboratory

3

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No. SubID Subject Credit Level Grade Equivalence Subject 2 PH013IU Physics 1 2 1-1 3 PH014IU Physics 2 2 1-1 4 PH015IU PH016IU Physics 3 Physics 3 Lab 3 1 1-2 5 PH012IU Physics 4 2 2-1

Political education (10 credits)

1 PE011IU Principles of Marxism 5 1-3 2 PE012IU Ho Chi Minh’s Thought 2 2-1 3 PE013IU Revolutionary Lines of

Viet-namese Communist Party 3 2-2 General Education (minimum: 9 credits)

1 PE008IU Critical Thinking 3 1-2

2 General Elective 3 2-1

Physical training

1 PT001IU Physical