1. introduction

PembukaPembuka FALSAFAH TEKNIK DANFALSAFAH TEKNIK DAN MANAGEMEN INDUSTRI

1. Introduction ‐ FTMI 1

TujuanTujuan1. Memahami disiplin Teknik Industri baik yang terkaitp y g

dengan:• Cakupan keilmuan, bidang garapan dan profesip , g g p p

• Perkembangan pola pikir, keilmuan dan keahlian

• Bidang penelitianBidang penelitian

• Jenjang dan Kurikulum Pendidikan

2 Memperkenalkan cara pikir sistemik terintegrasi dan2. Memperkenalkan cara pikir sistemik terintegrasi danmetoda keteknik industrian dalam memecahkanpermasalahan dalam sistem integralpermasalahan dalam sistem integral

3. Menanamkan sikap dan perilaku etikal dalammenjalankan profesi teknik industrimenjalankan profesi teknik industri


Rule of ConductRule of Conduct

• Min 80% Present in Class

• Present in Class Before Starting the LecturePresent in Class Before Starting the Lecture

• Don’t Use Sandal, Kaos Oblong and Hand Ph D i h LPhone During the Lecture

• Having Good Attitudeg


AssessmentAssessment• Requirements:Requirements:

– Min 80% Present in Class

– Having Good Attitude

• Score/Grade :/– Mid Semester Test (UTS) : 25%

Final Test (UAS): 25%– Final Test (UAS): 25%

– Homework (PR) : 50%• Group : 40% ( 6 papers & problems)

• Individual : 10% ( 2 paper)


ReferencesReferences1.Turner et al., Introduction to Industrial And System , y

Engineering, 3 ed., Prentice Hall, 1993.

2. Hicks, Introduction to Industrial Engineering and Management: a New Perspective, 2nd ed., Mc. Graw Hill Inc., 1994

3. Emerson & Naehring, Origins of Industrial Engineering, Institute of Industrial Engineers, 1988

id l i i d l d bl4. Eide, et al., Engineering Fundamental and Problem Solving, 4th. Ed., Mc. Graw Hill Inc., 2002


SAPSAPMinggu Materi Metoda Referensi

Concept & Framework IE1 Engineering & Industrial Engineering L&D 1, 2,3 & 42 Concept and Scope of Industrial Eng. L&D 1&23 Presentation of HW: 1 P&D Various3 Presentation of HW: 1 P&D Various

Classical of IE Thought4 Era Scientific Management L&D 25 Presentation of WH 26 Era Administrative & Behavior Mngt L&D 27 Presentation of HW: 3 P&D 38 Era Management Science L&D 1&2

Mid Test

9 Presentation of HW: 4 P&D Various 10 Era Systemic & Integrated Approach L&D 1&211 Presentation of HW: 5 P&D Various12 Information & Global Approach L&D 1&2


SAPSAP

Minggu Materi Metoda Referensi

Ed ti R h & P f iEducation, Research & Profession13 Education Reference and Curricula L&D Various14 IE Research L&D Various15 Profession and Ethics L&D Various16 Presentation HW : 6 P&D TA of IE16 Presentation HW : 6 P&D TA of IE

Final Test

Note : L Leckture, D Descussion, P Presentation


Home Work o e o• Tujuan

– Memahami Konsep dan kerangka pikir displin teknikMemahami Konsep dan kerangka pikir displin teknik industri, dan aplikasinya

• Jenis TugasJenis Tugas– Tugas Individu : 2 buah

• Teknik Industri: Pengertian, obyek, ruang lingkup dan perkembangan keilmuannyaperkembangan keilmuannya

• Pendekatan dan aliran berpikir Teknik Industri– Tugas Kelompok: 6 buah

• Dikerjakan secara berkelompok, max 6 orang• Diserahkan 1 hari sebelum presentasi

• Sumber• Sumber– Field Survey– Aneka ReferensiAneka Referensi

81. Introduction ‐ FTMI

Home Work 1o e o• Tujuan

– Memahami Konsep Scientific Management danMemahami Konsep Scientific Management danaplikasinya

• Jenis TugasJenis Tugas– Mengindentifikasikan kebutuhan atau masalah dalamsistem integral (work station)M id ifik i d k di k d l– Mengidentifikasi pendekatan yang digunakan dalammemecahkan permasalahan

– Menjelaskan penerapan prinsip analisis, sinthesis danj p p p p ,design

– Mengenali kelemahan dan proses improvement S b• Sumber– Field Survey– Aneka Referensi– Aneka Referensi


Home Work 2o e o• Tujuan

– Memahami konsep Administration and BehaviorMemahami konsep Administration and Behavior Management dan aplikasinya

• Jenis TugasJenis Tugas– Mengindentifikasikan kebutuhan atau masalah dalam sistem integral (Organization)M id ifik i d k di k d l– Mengidentifikasi pendekatan yang digunakan dalam memecahkan permasalahan

– Menjelaskan penerapan prinsip analisis, sinthesis dan j p p p p ,design

– Mengenali kelemahan dan proses improvement S b• Sumber– Field Survey– Aneka Referensi– Aneka Referensi


Home Work 3• Tujuan

– Memahami Management ScienceMemahami Management Science

• Jenis Tugas– Mengindentifikasikan permasalahan dalam sistem real– Mengindentifikasikan permasalahan dalam sistem real– Memilih jenis model yang digunakan dalam penyelesaian masalah dan mengidentifikasikan komponen modelnya

– Memformulasikan model dan mencari solusinya– Melakukan analisis solusi, sinthesis dan proses improvementimprovement

• Sumber– Field Surveyy– Aneka Referensi



– Memahami sistemic & integrated approachMemahami sistemic & integrated approach






– Memahami Information & Global ApproachMemahami Information & Global Approach





Home Work 6Home Work 6• Tujuan

M h i IE h d lik i d l– Memahami IE approach dan aplikasinya dalam tugas sarjana teknik industri

• Jenis Tugas– Memilih salah satu tugas sarjana teknik industri yang ada di perpustakaan

– Mengidentifikasikan masalah, model dan solusinya, serta rekomendasi dan saranrekomendasi dan saran

– Membuat opini, kritik dan saran perbaikan

• Sumber– Thesis Magister Teknik & Manajemen Industri


Conceptual Framework of Industrial Engineering


SasaranSasaran

Memahami disiplin Teknik Industri baik yang terkait dengan:g

– Disiplin lainnya khususnya Science danEngineering LainnyaEngineering Lainnya

– Cakupan keilmuan dan bidang garapan

S j h P k b T k ik I d t i– Sejarah Perkembangan Teknik Industri


MateriMateri

• Engineering and Industrial EngineeringEngineering and Industrial Engineering

• Concept and Scope of IE


Engineering and Industrial Engineering


SasaranSasaran

Memahami Persamaan Dan Perbedaan AntaraMemahami Persamaan Dan Perbedaan Antara Science, Engineering Dan Industrial

EngineeringEngineering


Science-Engineering-IE

Engineering

S i IndustrialScience Industrial Engineering

Object : Natural System Artificial System Integrated SystemObject : Natural System Artificial System Integrated SystemPhenomena : Determistic Det./Probabilistic Prob/UncertaintyOutput : Theory/K’ledge Product/service Value AddedPerformance : Truth Benefit EfficiencyPerformance : Truth Benefit EfficiencyValidity : Absolute Relative ContextualStart : Curiosity Need/Problem Need/ProblemP f i S i ti t E i I d t i l E iProfession : Scientist Engineer Industrial Engineer


SciencePrime objective: increase knowledge of

t l tnatural system

Research(Scientific Method)• Formulate Hypothesis• Execute Experiment

l l• Analyze Result• Generalize Hypothesis Theory/Law

(N K l d )(New Knowledge)• Publish the New Knowledge


B i K l d A d T lBasic Knowledge And Tool

• Basic knowledge» Logic» Logic

» Creativity

T l• Tool» Analysis

» Synthesis

• Process» Scientific Research


Basic Engineering ProcessBasic Engineering Process

Problem (Incl Outcome)Symptom/Need Problem (Incl.Outcome)Symptom/Need

Analysis(Incld. Exp’tation)

Synthesis of Alt.Solution

Decision ( Best Altv.)

Solution, System orMethod


Engineeringg gPrime objective: use the knowledge to design and d l bl d i ddevelops usable devices, structure and processes

for better human life

Design ProcessDesign ProcessIdentification of NeedProblem Definition

SearchConstraintCriteria

Alternative SolutionAnalysis

i iDecisionSpecification

Communication


Basic Knowledge And ToolBasic Knowledge And Tool

• Basic knowledge• Basic knowledge» Mathematics

» Natural Sciences» Natural Sciences

• Tool» Analysis» Analysis

» Synthesis

• ProcessProcess» Applied Research

» Design


Engineering Era

Early ModernEra : Before 1750 ‐ After 1750 Knowledge : ‐Mathematics ‐ Not Only Mathematics &g y

‐Physics Physics* Chemical* l l* Molecular* Social Sciences

Object : Physical System ‐ Not Only Physical Systemj y y y y y* Life SystemAbstract


Early Engineering EraEarly Engineering Era

• Egyptian Engineering (3200 BC)gypt a g ee g (3 00 C)

• Mesopotamian Engineering (2000 BC)

• Greek Engineering (500 BC)

• Roman Engineering (320 BC)Roman Engineering (320 BC)

• Oriental Engineering

• European Engineering


Modern Engineering EraModern Engineering Era

Big Five Engineering Newer Engineering• Civil . NuclearCivil . Nuclear

• Mechanical . Computer

El t i l Bi i i• Electrical . Bioengineering

• Chemical . Environmental

• Industrial Engineering . Etc.


28

Big 5 DisciplinesBig 5 Disciplines• Military Engineering

• Civil Engineering• Civil Engineering• Mechanical Engineering

Mathematics + Physics Mechanical Principle Steam EngineMathematics + Physics Mechanical Principle Steam Engine

• Electrical EngineeringMathematics + Physics Electrical Sciencey

Telegraph: Samuel MorseCarbon filament lamp: Thomas Edison

h l• Chemical EngineeringMathematics + Physics + Chemistry Synthetic Material

I d t i l E i i• Industrial EngineeringMathematics +Physics +Man Integrated System


Relationship of Industrial Engineering to Other Engineering and Scientific DisciplinesEngineering and Scientific Disciplines

Statistics Quality & Reliability

Logic

Electrical EngineeringMathematics Physics

Operation Research

Computer & Inf.Sci

Civil Mechanical Industrial Early Industrial

Control Theory

Civil Engineering

MechanicalEngineering Engineering

yEngineering(Scientific Management)

Psychology and ProductivityMilitary

EconomicsManufacturing

ErgonomicsSociology ScienceMilitary

EngineeringEarly Management

PhilosophyEconomics

ChemicalEngineering

ManufacturingEngineering

PhysiologyChemistry

Engineering


Why IE Was Born ?Why IE Was Born ?• As a Result of Industrial RevolutionAs a Result of Industrial Revolution

• Need for Technically Trained People Who Could Plan, Organize, and Manage the Operations of Large Complex Systemp g p y

• Need to Increase Productivity and Efficiency of Operation SystemEfficiency of Operation System


Industrial Engineering ?Industrial Engineering ?

Industrial Engineering Is Concerned With the Design, g g g ,Improvement, and Installation of Integrated Systems of People, Material, Information, Equipment, and Energy. It

i li d l d d kill i hDraws Upon Specialized Knowledge and Skill in the Mathematical, Physical, and Social Sciences Together With the Principles and Methods of Engineering Analysis andthe Principles and Methods of Engineering Analysis and Design to Specify, Predict, and Evaluate the Results to Be

Obtained From Such System

Object Knowledge Skill Job


Source: IIE

32

Pioneers Of IEPioneers Of IE• Adam SMITHAdam SMITH

• Charles BABBAGE

• Eli WHITNEY

• Henry TOWNEHenry TOWNE

• Frederick W TAYLOR

• Frank B GILBERTH

• Lillian GILBERTHLillian GILBERTH


Para Tokoh Aliran Pendiri dan Karyanya

No Nama Tokoh Karya dan Kontribusi Keterangan1. Adam Smith o Menerbitkan buku, “The Wealth of Meningkatkan produktivitas

Nations” pada tahun 1776, dimanadikemukakan konsep spesialisasipekerja (Specialization of Labor)

g pmelalui spesialisasi pekerja dengan pemilahan operasi sesuai kemapuan karyawan dan perancangan prosesg

2 Charles Babbage o Menerbitkan “On the Economy of Machinery & Manufacturers” padatahun 1832 dan mengemukankonsep pembagian pekerjaan

Dengan konsep division of wokdapat meningkatkan produktivitas pembuatan peniti hampir 5 kali libat dari

(Divison of Work)♦ Membuat prototipe:

− difference engine− analytical engine

sebelumnyaDifference engine adalah prototipekalkulator mekanis, dan analytical engine adalah prototipe komputerelektronis

3 Eli Whitney o Mengemukakan konsep ‘Interchangeable Part’

Membuat konsep dan produk cetakan (dies) untuk membuat senapan secara massal dan mudah dioperasikan

4. Henry Towne(Mantan presidenASME)

o Menulis makalah : “The Engineer as Economist” dalam ‘The Transaction of the American

Mengemukakan perlunyainsinyur mesin memperhatikanaspek ekonomi dan

Society of Mechanical Engineers (ASME) pada tahun 1886

profitabilitas dalam keputusanyang diambilnya


Adam SMITHAdam SMITH

Wealth of Nations (1776)

Specialization of Labor– Division of the task in pin making into 4 separate operations increased output by a factor of almost 5

– 10 worker could produce 48.000 pins per dayp p p y


Charles BABBAGECharles BABBAGEOn the Economy of Machinery and Manufacture (1832)

– motion and time studydivision of labor– division of labor

• Result of factory visit in England and USA(early 1800)• Observed the manufacture of straight pins that:Observed the manufacture of straight pins that:

– involve 7 distinct operations– measured the cost and time of performing each operation

Money Could Be Saved Using Woman and Children

• Critics : Do not attempt to improve the work methods or• Critics : Do not attempt to improve the work methods or reduce the operation time


Henry TOWNEHenry TOWNE

The Engineer As Economist (1886)

Stressed the Need for Engineers to Be Concerned With the Profitability Effect of Their Decisionsthe Profitability Effect of Their Decisions


Frederick Winslow TAYLORFrederick Winslow TAYLOR(1856-1915)

FW T l I fl d b T d W t thFW Taylor was Influenced by Towne and Wentworth

• 1874 : Machinist Apprentice in the Hydraulic Work

983 h i l i S i d• 1983 : Mechanical Engineer From Stevens Institute and

Work at Midvale Steel Company

• 1881 : Began Study of Metal Cutting

• 1895 : Presented “A Piece Rate System” at ASME Meeting

• 1903 : Presented “ Shop Management”

• 1909 : Presented “ Principle of Scientific Management”


Basic Knowledge And ToolBasic Knowledge And Tool• Basic knowledgeBasic knowledge

»Mathematics» PhysicPhysic» Social Sciences

• ToolTool»Model»Method of Engineering Analysis»Method of Engineering Analysis

• Process» Design» Design» Integrated and Systemic Approach


1. introduction

Documents

fieldsurvey anekareferensi1

basic knowledge

sumber fieldsurvey

introduction ftmi

yangdigunakan di

d1

sinthesisdanproses improvement

industrial engineering