From systematic design process towards teaching product designer's toolkit

Timo Lehtonen; Tero Juuti; Kaisu Rättyä; Jarkko Pakkanen; Mikko Vanhatalo

From systematic design process towards teaching product designer's toolkit

Timo Lehtonen, Tero Juuti, Kaisu Rättyä, Jarkko Pakkanen, Mikko Vanhatalo

Tutkimustuotos: Konferenssiartikkeli › Tieteellinen › vertaisarvioitu

Abstrakti

In higher level of engineering education, the training of single development process in the field of product development is no longer sufficient, because our students are employed in such jobs that they need to be able to understand the customer's perspective and the company's business goals in addition to the technical design process. In the past, we taught the systematic design process because it provided a good understanding of product design. The disadvantage was that the student’s user centric, organizational centric, and society centric design methods and skills required in development projects did not grow due to strong focus on the systematic design process. Our purpose is to educate engineering professionals for the future who have a design method toolkit, from which they select tools with apt combination for the future task. The focus of this study is to prototype different learning solution, in which the learning goals and education approach is changed. The learning goal is that every student is skilled with ten methods, familiar with at least 30 methods and is able to find even more methods. The students are trained to identify the key approach of the method and evaluate its suitability for the present task. We use the Educational Design Research (EDR) approach to course design and implementation. In addition, we use the pedagogical content knowledge of product development based on the previous studies. The EDR serves also as a research framework for this study. In the beginning of the course, students are allowed to choose the subject for their product concept. In the first design session, we ask students to explore the desirable properties of their concepts. In the second design session, we make an intervention by presenting “Seven Deadly Sins in product development”. Then we motivate the students by explaining that the methods help to avoid the common pitfalls. In the design studio, descriptions of 30 different methods has been placed on the walls. The methods are grouped according to their purpose to enable efficient choosing. We ask students to choose methods for a toolkit that they can answer to all mentioned common pitfalls. We ask each group to tell why their choices are solving the problematic situation. Students will continue the development work with their chosen methods and they can change methods as the work progresses if they see it necessary. Reflecting is an integral part of the course. We ask how well students think they were successful in developing a product solution and how suitable tools, methods and development process did they succeed in choosing. The results of this approach have been very good. With this approach, we are able to teach students that there are many different product development methods, and students can choose their methods. In the past, we have received feedback from our alumni for some years that, the engineering is not done as it is taught at university. The purpose of this teaching development narrows this gap and thus develops industrial working methods in the long run.

Alkuperäiskieli	Englanti
Otsikko	Proceedings of 20th International Conference on Engineering & Product Design Education
Alaotsikko	6 & 7 September 2018, Dyson School of Design Engineering, Imperial College London, UK
Toimittajat	Erik Bohemia, Ahmed Kovacevic, Lyndon Buck, Peter Childs, Stephen Green, Ashley Hall, Aran Dasan
Kustantaja	The Design Society
Sivut	92-97
Sivumäärä	6
Vuosikerta	93
ISBN (painettu)	978-1-912254-02-6
Tila	Julkaistu - 5 syysk. 2018
OKM-julkaisutyyppi	A4 Artikkeli konferenssijulkaisussa
Tapahtuma	International conference on engineering and product design education - Kesto: 1 tammik. 1900 → …

Julkaisusarja

Nimi	Proceedings of the 20th International Conference on Engineering and Product Design Education, E and PDE 2018

Conference

Conference	International conference on engineering and product design education
Ajanjakso	1/01/00 → …

Julkaisufoorumi-taso

Jufo-taso 1

!!ASJC Scopus subject areas

Industrial and Manufacturing Engineering
Education

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https://www.designsociety.org/publication/40840/FROM+SYSTEMATIC+DESIGN+PROCESS+TOWARDS+TEACHING+PRODUCT+DESIGNER%E2%80%99S+TOOLKIT

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Lehtonen, T., Juuti, T., Rättyä, K., Pakkanen, J., & Vanhatalo, M. (2018). From systematic design process towards teaching product designer's toolkit. teoksessa E. Bohemia, A. Kovacevic, L. Buck, P. Childs, S. Green, A. Hall, & A. Dasan (Toimittajat), Proceedings of 20th International Conference on Engineering & Product Design Education: 6 & 7 September 2018, Dyson School of Design Engineering, Imperial College London, UK (Vuosikerta 93, Sivut 92-97). (Proceedings of the 20th International Conference on Engineering and Product Design Education, E and PDE 2018). The Design Society.

Lehtonen, Timo ; Juuti, Tero ; Rättyä, Kaisu et al. / From systematic design process towards teaching product designer's toolkit. Proceedings of 20th International Conference on Engineering & Product Design Education: 6 & 7 September 2018, Dyson School of Design Engineering, Imperial College London, UK. Toimittaja / Erik Bohemia ; Ahmed Kovacevic ; Lyndon Buck ; Peter Childs ; Stephen Green ; Ashley Hall ; Aran Dasan. Vuosikerta 93 The Design Society, 2018. Sivut 92-97 (Proceedings of the 20th International Conference on Engineering and Product Design Education, E and PDE 2018).

@inproceedings{20396970dc0c4aa18146bfc92cde3772,

title = "From systematic design process towards teaching product designer's toolkit",

abstract = "In higher level of engineering education, the training of single development process in the field of product development is no longer sufficient, because our students are employed in such jobs that they need to be able to understand the customer's perspective and the company's business goals in addition to the technical design process. In the past, we taught the systematic design process because it provided a good understanding of product design. The disadvantage was that the student{\textquoteright}s user centric, organizational centric, and society centric design methods and skills required in development projects did not grow due to strong focus on the systematic design process. Our purpose is to educate engineering professionals for the future who have a design method toolkit, from which they select tools with apt combination for the future task. The focus of this study is to prototype different learning solution, in which the learning goals and education approach is changed. The learning goal is that every student is skilled with ten methods, familiar with at least 30 methods and is able to find even more methods. The students are trained to identify the key approach of the method and evaluate its suitability for the present task. We use the Educational Design Research (EDR) approach to course design and implementation. In addition, we use the pedagogical content knowledge of product development based on the previous studies. The EDR serves also as a research framework for this study. In the beginning of the course, students are allowed to choose the subject for their product concept. In the first design session, we ask students to explore the desirable properties of their concepts. In the second design session, we make an intervention by presenting “Seven Deadly Sins in product development”. Then we motivate the students by explaining that the methods help to avoid the common pitfalls. In the design studio, descriptions of 30 different methods has been placed on the walls. The methods are grouped according to their purpose to enable efficient choosing. We ask students to choose methods for a toolkit that they can answer to all mentioned common pitfalls. We ask each group to tell why their choices are solving the problematic situation. Students will continue the development work with their chosen methods and they can change methods as the work progresses if they see it necessary. Reflecting is an integral part of the course. We ask how well students think they were successful in developing a product solution and how suitable tools, methods and development process did they succeed in choosing. The results of this approach have been very good. With this approach, we are able to teach students that there are many different product development methods, and students can choose their methods. In the past, we have received feedback from our alumni for some years that, the engineering is not done as it is taught at university. The purpose of this teaching development narrows this gap and thus develops industrial working methods in the long run.",

keywords = "Design methods, Metacognitive skills, Problem based learning, Product design education",

author = "Timo Lehtonen and Tero Juuti and Kaisu R{\"a}tty{\"a} and Jarkko Pakkanen and Mikko Vanhatalo",

note = "Publisher Copyright: {\textcopyright} 2018 Institution of Engineering Designers The Design Society. All Rights Reserved.; International conference on engineering and product design education ; Conference date: 01-01-1900",

year = "2018",

month = sep,

day = "5",

language = "English",

isbn = "978-1-912254-02-6",

volume = "93",

series = "Proceedings of the 20th International Conference on Engineering and Product Design Education, E and PDE 2018",

publisher = "The Design Society",

pages = "92--97",

editor = "Bohemia, {Erik } and Kovacevic, {Ahmed } and Buck, {Lyndon } and Childs, {Peter } and Green, {Stephen } and Hall, {Ashley } and Dasan, {Aran }",

booktitle = "Proceedings of 20th International Conference on Engineering & Product Design Education",

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Lehtonen, T , Juuti, T , Rättyä, K, Pakkanen, J & Vanhatalo, M 2018, From systematic design process towards teaching product designer's toolkit. julkaisussa E Bohemia, A Kovacevic, L Buck, P Childs, S Green, A Hall & A Dasan (toim), Proceedings of 20th International Conference on Engineering & Product Design Education: 6 & 7 September 2018, Dyson School of Design Engineering, Imperial College London, UK. Vuosikerta 93, Proceedings of the 20th International Conference on Engineering and Product Design Education, E and PDE 2018, The Design Society, Sivut 92-97, International conference on engineering and product design education, 1/01/00.

From systematic design process towards teaching product designer's toolkit. / Lehtonen, Timo ; Juuti, Tero ; Rättyä, Kaisu et al.
Proceedings of 20th International Conference on Engineering & Product Design Education: 6 & 7 September 2018, Dyson School of Design Engineering, Imperial College London, UK. toim. / Erik Bohemia; Ahmed Kovacevic; Lyndon Buck; Peter Childs; Stephen Green; Ashley Hall; Aran Dasan. Vuosikerta 93 The Design Society, 2018. s. 92-97 (Proceedings of the 20th International Conference on Engineering and Product Design Education, E and PDE 2018).

Tutkimustuotos: Konferenssiartikkeli › Tieteellinen › vertaisarvioitu

TY - GEN

T1 - From systematic design process towards teaching product designer's toolkit

AU - Lehtonen, Timo

AU - Juuti, Tero

AU - Rättyä, Kaisu

AU - Pakkanen, Jarkko

AU - Vanhatalo, Mikko

PY - 2018/9/5

Y1 - 2018/9/5

N2 - In higher level of engineering education, the training of single development process in the field of product development is no longer sufficient, because our students are employed in such jobs that they need to be able to understand the customer's perspective and the company's business goals in addition to the technical design process. In the past, we taught the systematic design process because it provided a good understanding of product design. The disadvantage was that the student’s user centric, organizational centric, and society centric design methods and skills required in development projects did not grow due to strong focus on the systematic design process. Our purpose is to educate engineering professionals for the future who have a design method toolkit, from which they select tools with apt combination for the future task. The focus of this study is to prototype different learning solution, in which the learning goals and education approach is changed. The learning goal is that every student is skilled with ten methods, familiar with at least 30 methods and is able to find even more methods. The students are trained to identify the key approach of the method and evaluate its suitability for the present task. We use the Educational Design Research (EDR) approach to course design and implementation. In addition, we use the pedagogical content knowledge of product development based on the previous studies. The EDR serves also as a research framework for this study. In the beginning of the course, students are allowed to choose the subject for their product concept. In the first design session, we ask students to explore the desirable properties of their concepts. In the second design session, we make an intervention by presenting “Seven Deadly Sins in product development”. Then we motivate the students by explaining that the methods help to avoid the common pitfalls. In the design studio, descriptions of 30 different methods has been placed on the walls. The methods are grouped according to their purpose to enable efficient choosing. We ask students to choose methods for a toolkit that they can answer to all mentioned common pitfalls. We ask each group to tell why their choices are solving the problematic situation. Students will continue the development work with their chosen methods and they can change methods as the work progresses if they see it necessary. Reflecting is an integral part of the course. We ask how well students think they were successful in developing a product solution and how suitable tools, methods and development process did they succeed in choosing. The results of this approach have been very good. With this approach, we are able to teach students that there are many different product development methods, and students can choose their methods. In the past, we have received feedback from our alumni for some years that, the engineering is not done as it is taught at university. The purpose of this teaching development narrows this gap and thus develops industrial working methods in the long run.

AB - In higher level of engineering education, the training of single development process in the field of product development is no longer sufficient, because our students are employed in such jobs that they need to be able to understand the customer's perspective and the company's business goals in addition to the technical design process. In the past, we taught the systematic design process because it provided a good understanding of product design. The disadvantage was that the student’s user centric, organizational centric, and society centric design methods and skills required in development projects did not grow due to strong focus on the systematic design process. Our purpose is to educate engineering professionals for the future who have a design method toolkit, from which they select tools with apt combination for the future task. The focus of this study is to prototype different learning solution, in which the learning goals and education approach is changed. The learning goal is that every student is skilled with ten methods, familiar with at least 30 methods and is able to find even more methods. The students are trained to identify the key approach of the method and evaluate its suitability for the present task. We use the Educational Design Research (EDR) approach to course design and implementation. In addition, we use the pedagogical content knowledge of product development based on the previous studies. The EDR serves also as a research framework for this study. In the beginning of the course, students are allowed to choose the subject for their product concept. In the first design session, we ask students to explore the desirable properties of their concepts. In the second design session, we make an intervention by presenting “Seven Deadly Sins in product development”. Then we motivate the students by explaining that the methods help to avoid the common pitfalls. In the design studio, descriptions of 30 different methods has been placed on the walls. The methods are grouped according to their purpose to enable efficient choosing. We ask students to choose methods for a toolkit that they can answer to all mentioned common pitfalls. We ask each group to tell why their choices are solving the problematic situation. Students will continue the development work with their chosen methods and they can change methods as the work progresses if they see it necessary. Reflecting is an integral part of the course. We ask how well students think they were successful in developing a product solution and how suitable tools, methods and development process did they succeed in choosing. The results of this approach have been very good. With this approach, we are able to teach students that there are many different product development methods, and students can choose their methods. In the past, we have received feedback from our alumni for some years that, the engineering is not done as it is taught at university. The purpose of this teaching development narrows this gap and thus develops industrial working methods in the long run.

KW - Design methods

KW - Metacognitive skills

KW - Problem based learning

KW - Product design education

UR - https://www.designsociety.org/publication/40840/FROM+SYSTEMATIC+DESIGN+PROCESS+TOWARDS+TEACHING+PRODUCT+DESIGNER%E2%80%99S+TOOLKIT

M3 - Conference contribution

AN - SCOPUS:85057719903

SN - 978-1-912254-02-6

VL - 93

T3 - Proceedings of the 20th International Conference on Engineering and Product Design Education, E and PDE 2018

SP - 92

EP - 97

BT - Proceedings of 20th International Conference on Engineering & Product Design Education

A2 - Bohemia, Erik

A2 - Kovacevic, Ahmed

A2 - Buck, Lyndon

A2 - Childs, Peter

A2 - Green, Stephen

A2 - Hall, Ashley

A2 - Dasan, Aran

PB - The Design Society

T2 - International conference on engineering and product design education

Y2 - 1 January 1900

ER -

Lehtonen T , Juuti T , Rättyä K, Pakkanen J, Vanhatalo M. From systematic design process towards teaching product designer's toolkit. julkaisussa Bohemia E, Kovacevic A, Buck L, Childs P, Green S, Hall A, Dasan A, toimittajat, Proceedings of 20th International Conference on Engineering & Product Design Education: 6 & 7 September 2018, Dyson School of Design Engineering, Imperial College London, UK. Vuosikerta 93. The Design Society. 2018. s. 92-97. (Proceedings of the 20th International Conference on Engineering and Product Design Education, E and PDE 2018).

From systematic design process towards teaching product designer's toolkit

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Conference

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