DEVELOPING MODULE FOR THE COURSE OF INDUSTRIAL ENGINEERING SYSTEM DESIGN AT SWISS GERMAN UNIVERSITY

By

Caraka Tri Putra Ilman Hartawan 1-1212-108

BACHELOR’S DEGREE in

INDUSTRIAL ENGINEERING

FACULTY OF ENGINEERING AND INFORMATION TECHNOLOGY

SWISS GERMAN UNIVERSITY The Prominence Tower

Jalan Jalur Sutera Barat No. 15, Alam Sutera Tangerang, Banten 15143 - Indonesia

AUGUST 2017

Revision After the Thesis Defense on July 25, 2017

INDUSTRIAL ENGINEERING SYSTEM DESIGN AT SWISS GERMAN UNIVERSITY Page 2 of 56

STATEMENT BY THE AUTHOR

I hereby declare that this submission is my own work and to the best of my knowledge, it contains no material previously published or written by another person, nor material which to a substantial extent has been accepted for the award of any other degree or diploma at any educational

institution, except where due acknowledgement is made in the thesis.

Caraka Tri Putra Ilman .H

____________________________________________

Student Date

Approved by:

Ir. Setijo Awibowo, MM

____________________________________________

Thesis Advisor

Date

Ir. Triarti Saraswati, M. Eng

____________________________________________

Thesis Co-Advisor Date

Dr. Ir. Gembong Baskoro, M.Sc.

____________________________________________

Dean Date

Caraka Tri Putra Ilman Hartawan DEVELOPING MODULE FOR THE COURSE OF INDUSTRIAL ENGINEERING SYSTEM DESIGN IN INDUSTRIAL ENGINEERING STUDENT AT SWISS GERMAN UNIVERSITY

By

Caraka Tri Putra Ilman Hartawan Ir. Setijo Awibowo, MM, Advisor Ir. Triarti Saraswati, M. Eng, Co-Advisor

SWISS GERMAN UNIVERSITY

To maintain its accreditation level, the Industrial Engineering department needs a laboratory course that teaches the theoretical and practical aspect of learning. To bring success of an activity in the library, a teaching material could be developed. As a part of teaching material, a well-designed module will empower student with suitable knowledge and skills that are needed in the future. To have a well-planed module there are many model to be used as an instructional design, and the one that is used in this thesis is ADDIE model framework. The ADDIE model starts from the analyze step, the design step, the develop stage, the implementation step and the evaluation step. In this research the ADDIE model are used as tool to guide the process of developing a module. The analyze step is use to identify problems in the Industrial Engineering department at Swiss German University. The design step are determining the learning activities to be put in each selected topic then, determining the needed module’s specification to give illustration of what components does the module will have, the specification of the module also shows the arrangement of the

component. The Development step is the drafting using data from the design step. The

implementation are the test of the product, after the product is implemented student assessment from the disseminated questionnaire determine the score of the developed module. Moreover the assessment on the new purchased assembly workstation is also done. The conclusion to the

developed module is that the module is good to use by the student and to expand its capability, the topic could be added. Where as for the workstation, the current height is not suitable for standing operation and suggests to be redesigned to meet the height of the user which are the Industrial Engineering student.

Keywords: Module, ADDIE Model, Ergonomic, Anthropometric, Workstation

INDUSTRIAL ENGINEERING SYSTEM DESIGN AT SWISS GERMAN UNIVERSITY Page 4 of 56

© Copyright 2017

by Caraka Tri Putra Ilman Hartawan All rights reserved

DEDICATION

I dedicate this works To my self, and my family

Caraka Tri Putra Ilman Hartawan ACKNOWLEDGEMENTS

First of all I would like to express my gratitude to Allah SWT who gives me the power and blessing throughout the making of this thesis work.

Special thanks to my parents, brother, and big family for their support, encouragement, motivation, and prayer that help me throughout the completion of this thesis work.

I am also grateful to as my advisor Mr. Ir. Setijo Awibowo MM and Ms. Ir. Triarti Saraswati M.

Eng as my co-advisor during this thesis work. Thank you for all his and her time to guides, motivates, and encourages me during the making of this thesis work.

I would also like to thanks to my best friend Echa Pradiptha for all her support. Moreover, special thanks to friends in the Industrial Engineering batch 2012 who always support me. I really do thank you guys.

INDUSTRIAL ENGINEERING SYSTEM DESIGN AT SWISS GERMAN UNIVERSITY Page 6 of 56

TABLE OF CONTENTS

Page

STATEMENT BY THE AUTHOR ... 2

ABSTRACT ... 3

DEDICATION ... 4

ACKNOWLEDGEMENTS ... 5

TABLE OF CONTENTS ... 6

LIST OF FIGURES ... 9

LIST OF TABLES ... 10

CHAPTER 1 INTRODUCTION ... 11

1.1 Background ... 11

1.2 Research Problem ... 12

1.3 Research Purpose ... 12

1.4 Significance of Study ... 12

1.5 Thesis Scope ... 12

1.6 Proposed Methodology ... 12

1.7 Thesis Organization ... 14

CHAPTER 2 LITERATURE REVIEW ... 15

2.1 Module ... 15

2.1.1 Characteristics of Module ... 16

2.1.2 Module Development ... 17

2.1.3 Components of module ... 17

2.1.4 Module Development Technique ... 18

2.1.5 Module Evaluation ... 19

2.2 Ergonomics ... 20

CHAPTER 3 RESEARCH METHODS ... 21

3.1 Proposed Methodology ... 21

3.2 Analyze ... 23

3.2.1 Problem identification ... 23

Caraka Tri Putra Ilman Hartawan

3.4 Development ... 24

3.5 Implementation ... 24

3.5.1 Ergonomic Assesment of Assembly Workstation ... 24

3.6 Research Instrument ... 24

3.6.1 Student’s Questionnaire ... 24

3.7 Data Processing Technique ... 25

3.7.1 Data Analysing Technique ... 25

CHAPTER 4 RESULT AND DISCUSSION ... 26

4.1 Analyze ... 26

4.1.1 Problem Identification ... 26

4.1.2 Identifying Topic ... 27

4.2 Design ... 27

4.2.1 Determining Learning Activities Procedure ... 27

4.2.2 Determining Module Specification ... 30

4.2.3 Developing Research Instrument ... 31

4.3 Development ... 31

4.4 Implentation ... 35

4.4.1 Module Assesment ... 35

4.4.2 Workstation Assesment ... 36

CHAPTER 5 CONCLUSION ... 40

5.1 Conclusion ... 40

5.2 Recommendation for the Industrial Engineering Department ... 40

5.3 Recommendation for Future Research ... 41

Glossaries ... 42

REFERENCES ... 42

APPENDICES ... 45

APPENDIX A-STUDENT QUESTIONNAIRE ... 45

APPENDIX B – DATA TABULATION ... 48

APPENDIX C – ANTHROPOMETRIC DATA ... 49

APPENDIX D ... 52

CURICULUM VITAE ... 53