Mata Kuliah Departemen Teknik Sistem dan Industri -

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No	Kode dan Nama Mata Kuliah	Tingkat (S1/S2/S3)	Deskripsi Singkat
1	TI234102 Menggambar Teknik / Engineering Drawing	S1	This course discusses the basics of technical drawing, the use of drawing tools and rules, reading and understanding drawing forms for production, an introduction to CAD applications such as SolidWorks, AutoCAD, and Fusion to support product design.
2	TI234206 Proses Manufaktur / Manufacturing Process	S1	This course discusses traditional and modern manufacturing processes for metallic and non-metallic materials, including casting, cutting, forming, assembly, and additives, as well as engineering materials analysis in discrete manufacturing industries.
3	TI234313 Sistem Manufaktur / Manufacturing System	S1	This course discusses the design and control of manufacturing systems to efficiently meet customer needs in terms of quantity, quality, and delivery time. The material covers manufacturing system components such as production facilities, storage, material handling, and inspection. Operational characteristics (production rate, cycle time, manufacturing lead time, resource requirements) and efficiency improvement strategies such as automation, Flexible Manufacturing Systems, Just-in-Time, Lean, and Agile Manufacturing are also discussed.
4	TI234422 Pemeliharaan dan Teknik Keandalan / Maintenance and Reliability Engineering	S1	This course discusses the concepts of reliability and reliability-based maintenance, including failure modeling, reliability testing, as well as maintenance strategies and planning to ensure optimal and reliable system performance.
5	TI234421 Pengendalian dan Penjaminan Kualitas / Quality Control and Assurance	S1	This course covers quality assurance methods, statistical quality control, and quality improvement. Topics include quality concepts, customer requirements, standard operating procedures, quality inspection, and measurement tools. Statistical quality control includes control charts for measurable and categorical characteristics, as well as process capability analysis. Raw material quality control is carried out using sampling methods. Quality improvement is conducted using the 7 Quality Tools and design of experiments.
6	TI184412 Otomasi Industri / Industrial Automation	S1	This course discusses the fundamental principles of industrial automation, the mechanisms and components of automation systems, and control system design. Students will gain understanding and practical experience in designing and integrating automation systems, including prototype development as a means to apply and enhance their innovation and problem-solving skills.
7	TI234733 Sistem Industri Berkelanjutan / Sustainable Industrial System	S1	This course provides an understanding of ecosystems, the relationship between technology and the environment, and the impact of human activities. Students will learn about the principles of sustainable development, the Sustainable Development Goals (SDGs), and their applications at various levels of life. In addition, students will study environmental management systems (ISO, EIA) and innovations in industrial ecology as solutions to environmental problems.
8	TI184727 Ekologi Industri	S1
9	TI234903 Concurrent Engineering	S1	This course discusses collaborative and concurrent new product development, covering the entire product life cycle. Students will learn the principles of Concurrent Engineering (CE), its implementation elements in companies, and key tools such as Design for X (DfX) and Design for Manufacture and Assembly (DfMA), including the use of related software. In addition, the course also covers risk management and the application of digital technologies (Industry 4.0) in CE.
10	TI184926 Manufaktur Berkelanjutan / Sustainable Manufacturing	S1	This is an elective course for undergraduate students at the Department of Industrial Engineering ITS. This course is designed to provide students with an understanding of macro sustainability issues, concepts and scope of Sustainable Manufacturing (SM), strategies in SM, management approaches in SM, and tools commonly used in SM. Additionally, a case study on Zero Waste Stores will be explored thoroughly. In the current situation, there is no doubt that integrating sustainability into business process will enhance business’s total performance and competitiveness. Skills developed and knowledge acquired from this course will prepare students to be environmentally conscious engineers who are sensitive to environmentally related problems and capable to solve those problems and enhance total performance of industries.
11	TI234911 Manufaktur Cerdas / Smart Manufacturing	S1	This course discusses the principles and applications of smart manufacturing, which integrates digital technologies such as the Industrial Internet of Things (IIoT), data analytics, automation, and cyber-physical systems to enhance efficiency, productivity, and sustainability. Students will analyze case studies, engage in discussions within multidisciplinary teams, and design innovative solutions in the field of smart manufacturing.
12	TI4913 Lean Concept & its Application	S1	This course will introduce undergraduate students to Lean thinking principles and its implementations. This course provides students with an introduction to Lean concept, Lean production and Lean services starting from describing the background behind its development and how evaluations and assessments of enterprise systems are performed and then initiate an improvement project. Some of Lean tools and techniques will be described and in some cases demostrated in simulation exercises. The issues relating to employee involvement, improvement teams, training and culture, also examples of applications in manufacturing and business processes will be presented.
13	TI234905 Six Sigma	S1	Sigma is a measure of the dispersion of a data set obtained from variable data or attribute data. This data distribution can be used to determine the performance of an activity or even a system. Six Sigma is a concept of distribution that allows only 3.4 defects per 1,000,000 opportunities. Therefore, Six Sigma can help solve problems in various systems based on the concept of continuous process improvement. Topics discussed include sigma measurement, organizational leadership, DMAIC, DMADV, and the concept of continuous process improvement. The continuous improvement concept is based on the idea that improvement is not a one-time effort but an ongoing process. The Six Sigma program used to solve problems can be applied in both manufacturing and service systems.
14	TI184921 Analisa Produktivitas	S1	Mata kuliah ini membahas dasar-dasar produktivitas, analisis kinerja, dan metode peningkatan efisiensi di lingkungan industri.
15	TI184922 Computer Integrated Manufacturing	S1	Mata kuliah ini membahas integrasi sistem komputer dalam proses manufaktur untuk efisiensi dan otomatisasi.
16	TI184924 Manajemen Teknologi	S1	Mata kuliah ini membahas manajemen inovasi dan pengembangan teknologi dalam konteks industri.
17	TI184927 Manajemen Lingkungan Industri	S1	Mata kuliah ini membahas sistem manajemen lingkungan industri, kebijakan lingkungan, dan penerapan ISO 14001.
18	TI184932 Analisa Kapabilitas Proses	S1	Mata kuliah ini membahas metode analisis kapabilitas proses untuk mengukur kemampuan proses industri dalam memenuhi spesifikasi.
19	TI184928 Manajemen Kualitas	S1	Mata kuliah ini membahas konsep dan strategi manajemen kualitas serta penerapan sistem mutu di industri.
20	TI184929 Perancangan Eksperimen	S1	Mata kuliah ini membahas perancangan eksperimen untuk pengambilan keputusan berbasis data dalam peningkatan proses industri.
21	TI184930 Rekayasa Kualitas	S1	Mata kuliah ini membahas teknik rekayasa kualitas dalam desain produk dan proses.
22	TI184931 Rekayasa Nilai	S1	Mata kuliah ini membahas penerapan metode rekayasa nilai untuk meningkatkan efisiensi biaya dan fungsi produk.

Magister

No	Kode dan Nama Mata Kuliah	Tingkat (S1/S2/S3)	Deskripsi Singkat
1	Advanced Manufacturing Systems	S2	Mata kuliah ini membahas tentang komponen dari sistem manufaktur dan cara pengelolaannya. Komponen penyusun sistem manufaktur seperti fasilitas produksi, penyimpanan dan penanganan material, serta inspeksi perlu dipahami sebagai satu sistem yang diperlukan untuk menghasilkan produk konkrit. Dibahas pula upaya peningkatan efisiensi sistem manufaktur seperti otomasi, Lean Manufacturing, dan Industry 4.0.
2	Quality Engineering (Rekayasa Kualitas)	S2	Mata kuliah ini membahas konsep kualitas, variansi, dan perancangan eksperimen (Design of Experiment). Mahasiswa akan mempelajari konsep robust engineering, metode Taguchi, orthogonal array, serta desain parameter dan toleransi untuk menciptakan produk dengan performa yang robust dan berkualitas tinggi.
3	Reliability Engineering (Teknik Keandalan)	S2	Mata kuliah ini membahas tentang keandalan sistem, pemodelan kegagalan, pengujian keandalan, dan analisis probabilitas berfungsi dari sistem. Konsep ini menjadi dasar bagi penerapan sistem pemeliharaan berbasis keandalan (Reliability-Centered Maintenance).
4	Green Manufacturing	S2	Mata kuliah ini memberikan pemahaman tentang integrasi aspek lingkungan dalam sistem manufaktur. Mahasiswa akan mempelajari konsep sustainable manufacturing, penilaian dampak lingkungan, dan strategi produksi hijau untuk mendukung closed-loop production.
5	TI141421 Manufacturing Productivity (Analisis Produktivitas)	S2	Mata kuliah ini membahas manajemen produktivitas di sistem produksi, termasuk pengukuran, evaluasi, dan peningkatan produktivitas. Mahasiswa akan mempelajari model produktivitas serta penerapannya melalui pendekatan Student-Centered Learning (SCL).
6	2323242512 Circular Economy	S2	Mata kuliah ini membahas konsep ekonomi sirkular yang berfokus pada pemanfaatan ulang sumber daya untuk mengurangi limbah dan dampak lingkungan. Pendekatan ini mendukung pertumbuhan ekonomi hijau dan keberlanjutan industri.
7	2323242513 Data Analytics for Lean Six Sigma	S2	Mata kuliah ini membahas penerapan analisis data dalam kerangka Lean Six Sigma untuk meningkatkan efisiensi proses. Mahasiswa mempelajari konsep DMAIC, analisis statistik, dan penerapan data-driven decision-making untuk perbaikan berkelanjutan.</td

Doktoral

No	Kode dan Nama Mata Kuliah	Tingkat (S1/S2/S3)	Deskripsi Singkat
1	Integrated Manufacturing System	S3	Mata kuliah ini membahas integrasi berbagai sistem dalam lingkungan manufaktur, termasuk sistem produksi, logistik, dan informasi. Mahasiswa akan memahami konsep integrasi berbasis teknologi seperti CIM (Computer Integrated Manufacturing) serta penerapan sistem otomatisasi untuk efisiensi operasional. Setelah mengikuti mata kuliah ini, mahasiswa diharapkan mampu merancang sistem manufaktur yang terintegrasi dan adaptif.

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