基础工业工程教学大纲英文版.docx
Syllabus of Fundament of Industrial EngineeringCourse Name: Fundament of Industrial EngineeringCourse Code:Credits: 3Total Credit Hours: 48Lecture Hours: 48Experiment Hours: 0Programming Hours: 0Practice Hours: 0Total Number of Experimental (Programming) Projects 0Where, Compulsory ( 0 ), Optional ( 0 ).School: Department of Management Science and Engineering, School of BusinessTarget Major: Industrial EngineeringI、Course Nature & AimsFundament of Industrial Engineering is one of the main courses in industrial engineering. It is the first professional course. This course mainly introduces the basic concept of industrial engineering and work study. Work study is the important part of the Fundament of Industrial Engineering. Work study consists of two components: the first part is method study, the second is work measurement. Method study is regarded as a systematic approach to finding easier and better way to accomplish a task. Method study mainly includes process analysis, operation analysis and motion analysis. Work measurement mainly includes time study, work sampling and predetermined time systems The objective of any work measurement method is to determine the standard time. This course provides students with a basis for later study.After this course, students should have an understanding of Fundament of Industrial Engineering. Students will have the ability to solve the practical problem with these skills and knowledge.II、Course Objectives1. Course ObjectivesAfter completion of the course, students will be able to:Objective 1. Understand the definition of Industrial engineering.Objective 2. Establish the consciousness of industrial engineering.Objective 3. Master the methods of method study and work measurementObjective 4. Solve the practical problem with these skills and knowledge2. Supporting for Graduation RequirementsThe graduation requirements supported by course objectives are mainly reflected in the graduationrequirements indices 1, 2, 10, as follows:Supporting for Graduation RequirementsCourseObjectivesGraduationRequirementsIndices and Contents Supporting forGraduation RequirementsTeachingTopicsLevel ofSupportIndicesContents1Understand the definition of Industrial engineering.1Ability to apply mathematics, science and engineering knowledgeChapter 7、8、9、10L2Master the methods of method study and work measurement2The ability to understand and use the latest industrial engineering techniques and toolsChapter 3>4>5>6、7、8、9、10、Ik 12、13H3Establish the consciousness of industrial engineering Solve the practical problem with these skills and knowledge10Ability to have broad knowledge to understand the impact of engineering solutions on the global economy, environment and societyChapter 1、2、14MIII> Basic Course ContentChapter 1 Production and Productivity Management1.1 Enterprise production and operation1.2 Productivity and productivity managementTeaching Requirements: Understand the main management modes and common problems of enterprise production and operation Understand the importance of productivity and the methods to improve productivity Be familiar with the definition and classification of productivity Master the factors influencing the productivity of the enterpriseKey Points: Factors influencing the productivity of the enterpriseDifficult Points: Productivity evaluationChapter 2 Overview of Industrial Engineering2.1 Industrial Engineering2.2 The emergence and development of industrial engineering2.3 Content system and talent quality of industrial engineeringTeaching Requirements: Understand the definition of industrial engineering. Understand the history of industrial engineering. Understand content and development of industrial engineering.Key and Difficult Points: Definition and consciousness of industrial engineeringChapter 3 Work Study3.1 Overview of work study3.2 Overview of method study3.3 Overview of work measurementTeaching Requirements: Understand work study, method study and work measurementKey and Difficult Points: Content of work study, “5W1H" method and "ECRS" principlesChapter 4 Program Analysis4.1 Overview of program analysis4.2 Operation process analysis4.3 Process procedures analysis4.4 Layout and route analysis4.5 Analysis of management servicesTeaching Requirements: Understand the concept, characteristics and tools of program analysis Be familiar with the process chart, flow chart, and layout and route map Master commonly used symbols, types and program analysis methodsKey and Difficult Points: The drawing of process chart, flow chart, and layout and route mapChapter 5 Operation Analysis5.1 Overview of operation analysis5.2 Man-machine analysis5.3 Analysis of joint operation5.4 Analysis of bimanualnessTeaching Requirements: Be familiar with the definition, basic requirements and characteristics of work analysis; Master the methods of man-machine analysis joint analysis and bimanual analysis.Key and Difficult Points: Man-machine analysisChapter 6 Motion Analysis6.1 Overview of motion analysis6.2 Analysis of motilin6.3 Image anaylsis6.4 Principles of motion economy6.5 Work improvementApplication of work improvementTeaching Requirements: Understand the concept, use and analysis method of image analysis; Be familiar with kinetic factors, kinetic analysis concepts, kinetic signs and kinetic analysis purposes Master the principles of motion economyKey and Difficult Points: Apply the principles of motion economy to improve workChapter 7 Stopwatch Time Study7.1 Characteristics and objects of stopwatch time study7.2 Tools for stopwatch time study7.3 Steps for stopwatch time study7.4 Common evaluation methodsTeaching Requirements: Understand the meaning, characteristics and applicable objects of stopwatch time study; Be familiar with commonly used assessment methods; Master the steps of stopwatch time study.Key and Difficult Points: The steps of stopwatch time studyChapter 8 Work Sampling8.1 Principles of work sampling8.2 Work sampling methods and steps8.3 Working sampling application examplesTeaching Requirements: Be familiar with the characteristics, advantages, disadvantages and uses of work sampling;Master the principles and implementation steps of work sampling.Key Points: Principles and implementation steps of work samplingDifficult Points: Decision of daily observation timeChapter 9 Standard Method of Scheduled Motion Time9.1. Overview9.2. Method time measurement (MTM)9.3. Work factor method (WF)9.4. Model timingTeaching Requirements:Understand the standard method of scheduled motion time, method time measurement (MTM) and work factor method (WF simple method) and modeling timeKey and Difficult Points: Modeling timingChapter 10 Site Management Method10.1 Overview of site management10.2 Visual management10.3 "5S" management10.4 Setting managementTeaching Requirements: Understand the characteristics and importance of site management; Be familiar with visual management; Master the meaning of "5S" and the content and methods of "5S" management.Key and Difficult Points: The meaning of “5S" and the content and methods of "5S" management.IV、Table of Credit Hour DistributionTeaching ContentLectureHoursExperimentHoursPracticeHoursProgrammingHoursSelf-studyHoursExerciseClassDiscussionHoursChapter 1 Productionand ProductivityManagement4Chapter 2 Overviewof IndustrialEngineering4Chapter 3 WorkStudy4Chapter 4 ProgramAnalysis4Chapter 5 WorkAnalysis4Chapter 6 MotionAnalysis8Chapter 7 StopwatchTime Study4Ch 叩 ter 8 WorkSampling4Chapter 9 StandardMethod of ScheduledMotion Time4Ch 叩 ter 10 SiteManagement Method4Review4Total48Sum48VI、Teaching Method.Lectures and case study.VII、Course Assessment and Achievement EvaluationAssessment Methods:1. Usual PerformanceUsual Performance is evaluated based on students participation in discussions, answering questions, completion of homework, attendance, etc.2. Final ExamExamination Formats: Closed-bookGrading Methods: Hundred-mark SystemFinal Score = 30%xUsual Performance+70%xFinal ExamVHI> Course ResourcesTextbooks:Yi Shuping, Guo Fu. Fundament of Industrial Engineering (Second Edition)|M.Beijing: China Machine Press, 2013.Bibliography:1. Wang Yingluo. Fundament of Industrial EngineeringM.Beijing: China Science and Technology Press, 2008.2. Wayne C. Turner. Introduction to Industrial and Systems EngineeringfM. Beijing: Tsinghua University Press, 2011Reading Materials:None.IX、NotesPrerequisites:Follow-up Courses:Contents and Requirements of Students* Self-study:Bilingual Teaching or Not: NoRequirements and Proportion of Bilingual Teaching:Discipline and Considerations of Practice Session: please fill in this part if there is practice session, and "no practice session" if there is no practice session.Notes: