DEFINISI TEKNIK INDUSTRI Arif Rahman
ENGINEERING... is the profession in which a knowledge of the mathematical and natural sciences gained by study, experience, and practice. It is applied with judgment to develop ways to utilize, economically, the materials and forces of nature for the benefit of mankind (ABET Definition)... is the application of scientific, economic, social, and practical knowledge in order to invent, design, build, maintain and improve structures, machines, devices, systems, materials and processes (WIKIPEDIA Definition)
creating and improving solutions and benefits of mankind --- ENGINEERING
INDUSTRIAL ENGINEERING..is concerned with the design, improvement, and installation of integrated systems of men, materials, information, energy, and equipments. It draws upon specialized knowledge and skill in the mathematical, physical and social sciences together with the principles and methods of engineering analysis and design to specify, predict and evaluate the result to be obtained from such systems
Knowledge & Skill Mathematical Physical Sciences Social Sciences Industrial Engineering Engineering Specify Predict Evaluate Optimal Result Design Integrated Systems Improvement Installation
BASIC KNOWLEDGE AND SKILL principles and methods of ENGINEERING analysis and design
CORE COMPETENCIES Integrated SYSTEM
COGNITIVE COMPETENCIES RESULT
There s no BEST way, but there re BETTER ways --- INDUSTRIAL ENGINEERS Find the Better Ways
BETTER WAYS Industrial Engineers Find a Better Way... A better way to make a product faster and easier A safer way A less expensive way They examine and analyze to find better ways to solve the problem
Getting worse is a problem. Missed target is a problem. Gap is a problem Always make it BETTER Unimproved achievement is also a problem --- CONTINUOUS IMPROVEMENT
KOMPETENSI TEKNIK INDUSTRI PENGUASAAN PENGETAHUAN Menguasai konsep teoretis sains alam, aplikasi matematika rekayasa; prinsip-prinsip rekayasa (engineering fundamentals), sains rekayasa dan perancangan rekayasa yang diperlukan untuk analisis dan perancangan sistem terintegrasi Menguasai prinsip dan teknik perancangan sistem terintegrasi dengan pendekatan sistem Menguasai prinsip dan issue terkini dalam ekonomi, sosial, ekologi secara umum. Menguasai pengetahuan tentang teknik komunikasi dan perkembangan teknologi terbaru dan terkini;
KOMPETENSI TEKNIK INDUSTRI KEMAMPUAN KERJA Mampu menerapkan matematika, sains, dan prinsip rekayasa (engineering principles) untuk menyelesaikan masalah rekayasa kompleks pada sistem terintegrasi (meliputi manusia, material, peralatan, energi, dan informasi) Mampu mengidentifikasi, memformulasikan dan menganalisis masalah rekayasa kompleks pada sistem terintegrasi berdasarkan pendekatan analitik, komputasional atau eksperimental Mampu merumuskan solusi untuk masalah rekayasa kompleks pada sistem terintegrasi dengan memperhatikan faktor-faktor ekonomi, kesehatan dan keselamatan publik, kultural, sosial dan lingkungan (environmental consideration) Mampu merancang sistem terintegrasi sesuai standar teknis, keselamatan dan kesehatan lingkungan yang berlaku dengan mempertimbangkan aspek kinerja dan keandalan, kemudahan penerapan dan keberlanjutan, serta memperhatikan faktor-faktor ekonomi, sosial, dan kultural,
KOMPETENSI TEKNIK INDUSTRI KEMAMPUAN KERJA Mampu meneliti dan menyelidiki masalah rekayasa kompleks pada sistem terintegrasi menggunakan dasar prinsip-prinsip rekayasa dan dengan melaksanakan riset, analisis, interpretasi data dan sintesa informasi untuk memberikan solusi Mampu memilih sumberdaya dan memanfaatkan perangkat perancangan dan analisis rekayasa berbasis teknologi informasi dan komputasi yang sesuai untuk melakukan aktivitas rekayasa
18 DEFINISI SISTEM suatu kesatuan yang terdiri dari sekumpulan elemen-elemen (entitas atau subsistem) yang saling berinteraksi (selaras atau bertolak belakang, bergabung atau terurai) secara simultan dan terpadu untuk mewujudkan tujuan tertentu dengan mendapatkan masukan dan menghasilkan keluaran pada lingkungan di luar batasan sistem
DEFINISI SISTEM Batasan Entitas / Subsistem Interaksi / Relasi Input / Faktor Output / Dampak Sistem Umpan Balik Lingkungan 19
NAMA LAIN TEKNIK INDUSTRI Selain disebut dengan TEKNIK INDUSTRI (INDUSTRIAL ENGINEERING), disiplin ilmu ini terkadang juga disebut dengan : SYSTEM ENGINEERING METHOD ENGINEERING
SYSTEM ENGINEERING..is an interdisciplinary approach and means to enable the realization of successful systems. It focuses on defining customer needs and required functionality early in the development cycle, documenting requirements, then proceeding with design synthesis and system validation while considering the complete problem including operations, performance, test, manufacturing, cost and schedule. It integrates all the disciplines and specialty forming a structured development process.
SYSTEM ENGINEERING
SYSTEM ENGINEERING
METHOD ENGINEERING..is concerned with the selection, development, and documentation of the methods by which work is to be done. It includes the analysis of input and output conditions, assisting in the choice of the processes to be used, operations and work flow analysis, workplace design, assisting in tool and equipment selection and specifications, ergonomic and human factors considerations, workplace layout, motion analysis and standardization, and the establishment of work time standards.
METHOD ENGINEERING
PELUANG KERJA TEKNIK INDUSTRI
TULISKAN DI SECARIK KERTAS : Peluang Kerja TEKNIK INDUSTRI (Jabatan/Profesi ; Departemen ; Jenis Industri) Pekerjaan apa yang ingin anda lakukan setelah lulus program S1 Teknik Industri? Atau... Pekerjaan apa yang anda perkirakan akan sesuai dengan kompetensi lulusan S1 Teknik Industri? Misalnya : 1. Perencana jadwal preventive maintenance di Departemen Maintenance di Industri Manufaktur Kendaraan Bermotor 2. Pengawas produksi di Departemen Produksi di Industri Kimia Farmasi 3. Pengevaluasi kelayakan finansial di Divisi Layanan Kredit di Industri Jasa Perbankan
METODE DELPHI
METODE DELPHI 1. Mengumpulkan curah pendapat 2. Menyusun rekapitulasi curah pendapat 3. Menyebarkan hasil rekapitulasi 4. Mengumpulkan jajak pendapat untuk memilah-milah yang relevan 5. Menyusun rekapitulasi jajak pendapat 6. Menyebarkan hasil rekapitulasi 7. Mengumpulkan jajak pendapat untuk mengurutkan sesuai tingkat relevansi 8. Menyusun rekapitulasi jajak pendapat
PELUANG KERJA TEKNIK INDUSTRI INDUSTRIAL ENGINEER Expert Advisor and Consultant Analyst of System Trainer Decision Maker Helps in decision making Helps in designing the system Expert in new Technology like BPR, TQM, MRP, OR, etc. Interprets data Reviews data Advises for improvement Suggests productivity tool Identifies system faults Analyses job at micro level Coordinator Motivates Helps in work study Trains the workers in methods & motion study Applies new technologies Negotiator Uses Operation Research & Quantitative Techniques Develops & uses decision tools Uses MIS & computers
PELUANG KERJA TEKNIK INDUSTRI INDUSTRIAL ENGINEER Design and improvement of condition Design and improvement of organisation Design and improvement of workplace, method, and procedure Design and improvement of products and services External Vendor development Customer research Requirement analysis etc Internal Ergonomic Lighting Noise & vibration Fatigue Ventilations Temperature etc Management Science & Operation Research Organisational Issues Leadership Motivation Automation Organisation culture etc Decision Theory & Strategic Planning Work study System analysis Layout planning Planning Directing Control Scheduling etc TQM (Total Quality Management) Value analysis & engineering BPR (Business Process Reengineering Kansei Engineering Benchmarking etc
PELUANG KERJA TEKNIK INDUSTRI
PELUANG KERJA TEKNIK INDUSTRI
PELUANG KERJA TEKNIK INDUSTRI
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