Profile of Undergraduate Study Program
The following is the profile of the Industrial Engineering Study Program (PSTI)
Study Program Permit
7350/D/T/K-N/2011
Accreditation – SK
Accreditation Rating A with SK BAN-PT Number: 4215/SK/BAN-PT/Accreditation/S/XI/2017
International Accreditation (IABEE) with accreditation certificate No. 00027.A valid from 30 June 2018 to 30 June 2024
Graduate Degree
Sarjana Teknik (S.T.)
Deskripsi
Industrial Engineering Study Program (PSTI) Diponegoro University was established on February 23, 1998 with the establishment decree number being PP No. 51/DIKTI/KEP/1998 in the Building of the Dean of the Faculty of Engineering. At the beginning of the establishment of PSTI Undip occupied several lecture halls in Mechanical Engineering after several years of getting 3 (three) floor building which is quite representative in Architectural Engineering.
In 2015 PSTI officially occupied a new 4 (four) floor building which was a building assisted by the Djarum Foundation which is located at Jl.Prof. Soedarto, S.H. Tembalang, Semarang 50275 Telp./Fax No. (024) 7460052. PSTI homepage and e-mail are www.industri.undip.ac.id and industri@ft.undip.ac.id.
Scientific Vision
“Becoming an Industrial Engineering Undergraduate Study Program that excels in industrial engineering education in the development of sustainable integrated systems at the international level in 2025”
Undergraduate Study Program Students
2022
2021
2020
2019
Graduates of the S-1 Study Program
2022
2021
2020
2019
Profile of Graduates of S-1 Study Program
Graduate Profile is the role and function of graduates after completing education in accordance with the scientific field or expertise of the study program
Profile of Study Program Graduates
Profile of Graduates of Industrial Engineering S1 Study Program, Diponegoro University are as follows:
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- System Improver: Graduates of Industrial Engineering who are able, in a team, both as members and leaders at the initial level of management, effectively use methods in industrial engineering disciplines to design and improve processes and systems in organizations to increase productivity and quality of output of the organization
- System Implementor: Bachelor of Industrial Engineering who is able, in a team either as a member or leader at the initial level of management, skillfully performs the installation (installation) of processes and systems that are designed and repaired in the organization
- Thinker: Bachelor of Industrial Engineering who is able to develop self-knowledge and skills continuously
Study Program Graduate Learning Outcomes (CPL)
The Graduate Learning Achievements (CPL) of the Bachelor of Industrial Engineering Study Program at Diponegoro University are as follows:
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- Outcome A (CPL A): Able to solve complex engineering problems in industrial engineering by applying engineering principles, mathematics and science
- Outcome B (CPL B): Able to apply models, frameworks, methods and engineering tools as well as the latest technology needed in tasks in the field of industrial engineering
- Outcome C (CPL C): Able to design integrated systems by meeting applicable standards, taking into account the various interests of stakeholders and paying attention to various constraints and potential existing resources in a global perspective
- Outcome D (CPL D): Able to develop and carry out experimental designs along with analysis, data interpretation and information synthesis to support problem solving in the field of industrial engineering
- Outcome (CPL E): Able to communicate effectively both in writing and orally
- Outcome F (CPL F): Able to work in groups effectively, inclusively, collaboratively to plan, complete and evaluate industrial engineering tasks within certain limits
- Outcome G (CPL G): Understand professional responsibilities and professional ethical aspects when solving problems in industrial engineering
- Outcome H (CPL H): Able to recognize needs, and manage lifelong self-learning
Performance Indicators and Rubrics
The following is the achievement of performance indicators and rubrics:
CPL A: Able to solve complex engineering problems in industrial engineering by applying engineering principles, mathematics and science
| PERFORMANCE INDICATORS |
| A.1 Understand relevant engineering, math and science principles |
| A.2 Formulate the problem and identify the important variables |
| A.3 Understand the need for multiple solutions |
| A.4 Analyze various solutions |
| A.5 Provide justification for selecting a solution |
CPL B: Able to apply models, frameworks, methods and engineering tools as well as the latest technology needed in tasks in the field of industrial engineering
| PERFORMANCE INDICATORS |
| B.1 Understand the definition, scope, problems and the industrial engineering profession |
| B.2 Utilize engineering models, frameworks, methods and tools |
| B.3 Utilizing technology in the field of industrial engineering |
CPL C: Able to design integrated systems by meeting applicable standards, taking into account the various interests of stakeholders and paying attention to various constraints and potential existing resources in a global perspective
| PERFORMANCE INDICATORS |
| C.1 Formulating the problem as an integrated system based on stakeholder interests, constraints and potential resources |
| C.2 Establish decision criteria to evaluate the integrated system design |
| C.3 Develop alternative integrated system design |
| C.4 Analyze performance and consider the managerial implications of integrated system design |
CPL D: Able to develop and carry out experimental designs along with analysis, data interpretation and information synthesis to support problem solving in the field of industrial engineering
| PERFORMANCE INDICATORS |
| D.1 Designing a trial plan |
| D.2 Collect data for experimental variables |
| D.3 Interpret the experimental results by taking into account the relevant theory |
| D.4 Explain the results, the differences between the experimental results and the model and make conclusions |
CPL E: Able to communicate effectively both in writing and orally
| PERFORMANCE INDICATORS |
| E.1 Organizing materials |
| E.2 Present in own language to demonstrate understanding |
| E.3 Provide data to support a statement or inform an audience |
| E.4 Use language appropriately |
| E.5 Convey ideas orally |
CPL F: Able to work in groups effectively, inclusively, collaboratively to plan, complete and evaluate industrial engineering tasks within certain limits
| PERFORMANCE INDICATORS |
| F.1 Create an inclusive and collaborative environment |
| F.2 Fulfill individual responsibilities and contribute to the success of the group |
| F.3 Defining scope, goals, deadlines, plans and organization of resources |
CPL G: Understand professional responsibilities and professional ethical aspects when solving problems in industrial engineering
| PERFORMANCE INDICATORS |
| G.1 Analyzing various aspects of an industrial engineering problem |
| G.2 Explain ethical and professional responsibilities related to industrial engineering projects |
| G.3. Use the applicable standards |
| G.4. Explain the impact of decisions on various aspects |
CPL H: Able to recognize needs, and manage lifelong self-learning
| PERFORMANCE INDICATORS |
| H.1 Identify the techniques, skills and tools needed for an issue |
| H.2 Skilled in using the necessary technological devices for an issue |
| H.3 Mastering English to understand reading, writing and speaking |
S1 Study Program Curriculum
Overview of the curriculum of the Undip Industrial Engineering Study Program
Semester 1
| Code | Subject |
Credits |
| PTID6101 | Linier Algebra | 3 |
| PTID6103 | Basic Physics. 1 | 2 |
| PTID6105 | Introduction to Industrial Engineering | 3 |
| UUW00003 | Pancasila and Citizenship | 3 |
| UUW00004 | Indonesian Languange | 2 |
| UUW00005 | Sport | 1 |
| UUW00006 | Internet of Things | 2 |
| UUW00007 | English | 2 |
| UUW00011 | Religius Education | 2 |
| Religius Education Moslem | ||
| Religius Education Christian | ||
| Religius Education Catholic | ||
| Religius Education Buddhism | ||
| Religius Education Hindu | ||
| Religius Education Kong Hu Cu | ||
| Total Credits | 20 |
Semester 2
| Code | Subject | Credits |
| PTID6101 | Calculus I | 3 |
| PTID6103 | Basic Physics 2 | 2 |
| PTID6105 | Engineering Mechanics | 2 |
| UUW00003 | Manufacturing Process | 2 |
| UUW00004 | Industrial Environment System | 2 |
| UUW00005 | Introduction to Economics | 2 |
| UUW00006 | Practicum of Basic Physic | 1 |
| UUW00007 | Engineering Materials | 2 |
| UUW00011 | Engineering Drawing + Practicum | 3 |
| Total Credits | 19 |
Semester 3
| Code | Subject | Credits |
| PTID6201 | Calculus II | 3 |
| PTID6203 | Cost Estimation and Analysis | 2 |
| PTID6205 | Operation Research I | 3 |
| PTID6207 | Probability Theory | 3 |
| PTID6209 | Production Planning and Control I | 2 |
| PTID6211 | Work Measurement and Analysis | 2 |
| PTID6213 | Organization and Cooperate Management | 2 |
| PTID6215 | Practicum of Manufacturing Process | 1 |
| PTID6217 | Industrial Psychology | 2 |
| Total Credits | 20 |
Semester 4
| Code | Subject | Credits |
| PTID6202 | Operational Research II | 3 |
| PTID6204 | Numerical Methods | 3 |
| PTID6206 | Industrial Statistic | 3 |
| PTID6208 | Works System Design and Ergonomics + Prac. | 3 |
| PTID6210 | Engineering Economics | 2 |
| PTID6212 | Production Planning and Control II | 2 |
| PTID6214 | Safety Engineering | 2 |
| PTID6216 | Standardization and Conformity Assessment | 2 |
| Total Credits | 20 |
Semester 5
| Code | Subject | Credits |
| PTID6301 | System Modelling | 3 |
| PTID6303 | Product Engineering | 3 |
| PTID6305 | Quality Control and Assurance | 3 |
| PTID6307 | Information System Design and Analysis | 3 |
| PTID6309 | Research Methodology | 2 |
| PTID6311 | Supply Chain Management | 3 |
| PTID6313 | Project of Industrial Engineering I | 2 |
| UUW00008 | Enterpreneurship | 2 |
| Total Credits | 21 |
Semester 6
| Code | Subject | Credits |
| PTID6400 | Job Training | 2 |
| PTID6302 | Field Training | 0 |
| PTID6304 | Facility Layout Design + Pract | 3 |
| PTID6306 | Computer Simulation | 3 |
| PTID6308 | E-business | 2 |
| PTID6310 | Writing and Communication Research | 2 |
| PTID6312 | Integrated Manufacturing System | 2 |
| PTID6314 | Project of Industrial Engineering II | 2 |
| PTID6316 | Project Management | |
| Total Credits | 18 |
Semester 7
| Code | Subject | Credits |
| PTID6401 | Corporate Planning and Analysis | 3 |
| LTID64XX | Elective Course 1 | 3 |
| LTID64XX | Elective Course 2 | 3 |
| LTID64XX | Elective Course 3 | 3 |
| LTID64XX | Elective Course 4 | 3 |
| LTID64XX | Elective Course 5 | 3 |
| Total Credits | 18 |
Semester 8
| Code | Subject | Credits |
| PTID6500 | Bachelor Thesis | 5 |
| UUW00009 | Community Service Program | 3 |
| Total Credits | 8 |
Elective Courses
| Code | Subject | Credits |
| LTID6411 | Strategic Standardization | 3 |
| LTID6412 | Standards for Engineering | 3 |
| LTID6413 | Service Quality Measurement | 3 |
| LTID6414 | Supply Chain Performance Analysis | 3 |
| LTID6415 | Supplier Relationship Management | 3 |
| LTID6416 | Risk Management | 3 |
| LTID6417 | Kansei Engineering | 3 |
| LTID6418 | Work Management | 3 |
| LTID6419 | Strategic Procurement | 3 |
| LTID6421 | Strategic Management | 3 |
| LTID6422 | Business Strategy | 3 |
| LTID6423 | Usability and User Experience | 3 |
| LTID6424 | Management of Small and Medium Enterprises | 3 |
| LTID6425 | Technopreneurship | 3 |
| LTID6426 | Multivariate Statistics | 3 |
| LTID6427 | Statistical Process Control | 3 |
| LTID6428 | Disaster Logistics Management | 3 |
| LTID6429 | Circular Economy | 3 |
| LTID6431 | Lean Manufacturing System | 3 |
| LTID6432 | Agent Based Simulation | 3 |
| LTID6433 | Knowledge Management | 3 |
| LTID6434 | Database System | 3 |
| LTID6435 | Enterprise Resource Planning | 3 |
| LTID6436 | Big Data Analytics | 3 |
| LTID6437 | Data Mining | 3 |
| LTID6438 | Multi Criteria Decision Making | 3 |
| LTID6439 | Safety Engineering | 3 |
| LTID6441 | Transportation Safety | 3 |
| LTID6442 | Experiment Design | 3 |
| LTID6443 | Cognitive Ergonomics | 3 |
| LTID6444 | Ergonomics in Work Organization | 3 |
| LTID6445 | Green Ergonomics | 3 |
| LTID6446 | Design for Sustainability | 3 |
| LTID6447 | Marketing Management | 3 |
| LTID6448 | Sustainable Supply Chain | 3 |
| LTID6449 | Materials Management | 3 |
| LTID6451 | Lean Enterprise System | 3 |