Course 13: Innovative Product Design and Development
Course 13: Innovative Product Design and Development
(Syllabus)
Last Update: April 22, 2020
Course Objective:
The subject of the course concerns the creative design of innovative products that are technological innovation or modification of existing technological solutions. As a result, designed products should find their application in Industry 4.0 related businesses and its problems. The implementation of the course subject is based on learning and training methods of effective implementation of innovation, identification and analysis of the strategic elements of new product innovation, e.g. the process, different functions, and individual roles. The goal of this course is to develop creative thinking of the graduates and discussion of issues related to development and marketing innovative products, including searching for ideas and creating a concept based on creative thinking techniques and methods of entrepreneurial problem solving, selecting ideas and development of prototypes, taking into account user needs and the latest scientific research.
Learning Outcomes: The students on the completion of this course would be able to:
- analyze the basic concepts related to innovations and the idea of implementing innovative products (apply),
- apply the basic techniques of creative thinking and creative problem solving for creating innovative product and marketing strategies (apply),
- identify the benefits of implementing innovations (analyze),
- identify the challenges and opportunities associated with the launch of a new product and propose suitable strategies depending on product and situation (analyze),
- prepare a conceptual product design taking into account user needs and the latest scientific research (create),
- valorization, capitalization and protection of the original solutions obtained from the creative activity (evaluate),
- create and co-ordinate cross-disciplinary teams to achieve a common objective (create),
- present entrepreneurial and creative attitude towards seeking various problem solutions (apply).
Prerequisite: None
Course Outline:
Course outline (modules / topics)
- Module 1: Innovation and creativity (Lectures: 5 hours, Workshop: 15 hours, Self-study: 15 hours)
- Module 2: Product Design and Development (Lectures: 5 hours, Workshop: 25 hours, Self-study: 25 hours)
- Module 3: Intellectual Property (Lectures: 5 hours, Workshop: 20 hours, Self-study: 20 hours)
Week |
Topic |
English |
Thai |
Note |
||||
Workshop | Learning Materials | Teaching Materials | Workshop | Learning Materials | Teaching Materials | |||
1 | M1.1.Innovation
|
MSIE-13-L-M1S1-L01 | MSIE-13-L-M1S1-L01-Thai | |||||
2 | M.1.2.Creative thinking and creative problem solving for creating innovative product
|
MSIE-13-L-M1S2-W01 | MSIE-13-L-M1S2-L01
|
MSIE-13-T-M1S2-W01 | MSIE-13-L-M1S2-W01-Thai | MSIE-13-L-M1S2-L01-Thai
|
||
3 | M.2.1.Creation and development of new products including sustainable development
|
MSIE-13-L-M2S1-W01 | MSIE-13-L-M2S1-L01
|
MSIE-13-T-M2S1-W01 | MSIE-13-L-M2S1-W01-Thai | MSIE-13-L-M2S1-L01-Thai | ||
4 | M.2.2.Creating a product design concept based on the design thinking methodology
|
MSIE-13-L-M2S2-W01 | MSIE-13-L-M2S2-L01
|
MSIE-13-T-M2S2-A01 | MSIE-13-L-M2S2-W01-Thai | MSIE-13-L-M2S2-L01-Thai
|
||
5 | M.3.1.Intellectual property
|
|
|
|||||
6 | M.3.2.Knowledge management techniques
|
|
MSIE-13-L-M3S2-L01 MSIE-13-L-M3S2-L02 MSIE-13-L-M3S2-L03 MSIE-13-L-M3S2-L04 MSIE-13-L-M3S2-L05 MSIE-13-L-M3S2-L06 MSIE-13-L-M3S2-L07 MSIE-13-L-M3S2-L08 MSIE-13-L-M3S2-L09 MSIE-13-L-M3S2-L10 |
|
MSIE-13-L-M3S2-L02-Thai MSIE-13-L-M3S2-L03-Thai MSIE-13-L-M3S2-L04-Thai MSIE-13-L-M3S2-L05-Thai MSIE-13-L-M3S2-L06-Thai MSIE-13-L-M3S2-L07-Thai MSIE-13-L-M3S2-L08-Thai MSIE-13-L-M3S2-L09-Thai MSIE-13-L-M3S2-L10-Thai |
Laboratory Sessions: None
Learning Resources:
Textbooks: No designated textbook, but class notes and handouts will be provided.
Reference Books:
- Curedale R.A., Design Thinking Process & Methods 4th Edition, Publisher: Design Community College Inc., 2017.
- Justice L., The Future of Design: Global Product Innovation for a Complex World, Publisher Nicholas Brealey, 2019.
- Chesbrough H.W., Open innovation. The New imperative for creating and profiting from technology, Harvard Business School Press, Boston 2003.
- Liu C. Innovative Product Design Practice, CYPI Press, 2007.
- Cooper R.G., Edgett S.J., Product Innovation and Technology Strategy, Booksurge Publishing, 2009.
- Gessinger G.H., Materials and Innovative Product Development, Publisher Butterworth-Heinemann, 2009.
- Patton J., Economy P., User Story Mapping: Discover the Whole Story, Build the Right Product Published O’Reilly Media, 2014.
- Alves R., Nunes, N.J., Towards a Taxonomy of Service Design Methods and Tools, (in:) Falcão e Cunha J., Snene M., Nóvoa H. (eds.), Exploring Services Science. Lecture Notes in Business Information Processing, 2013, 215-229, Springer, Berlin, Heidelberg.
- Zawadzki P., Żywicki K., Smart product design and production control for effective mass customization in the Industry 4.0 concept, „Management and Production Engineering Review”, 2016, 7, 3, 105- 112.
Journals and Magazines:
- Management and Production Engineering Review
Teaching and Learning Methods:
This course will be implemented through the lectures, workshops and self- studies. The teaching and learning methods during workshops and self- studies include class discussion, analysis of examples, identification of customer needs, individual/ group generation of the product concept and its critical assessment, as well as simple prototyping of a product. Workshops will be conducted among others by the Design Thinking method. Students will gain the ability to moderate according to the Design Thinking methodology, which creates innovative solutions, products, services and processes. They will acquire the ability to search and recognize challenges that can be conducted according to the Design Thinking methodology. They will learn the rules for selecting project teams. Students will acquire ability to use teamwork to achieve the group’s intended goal and result.
Time Distribution and Study Load:
Lectures: 15 hours
Workshop: 60 hours
Self-study: 60 hours
Evaluation Scheme:
The final grade will be computed according to the following weight distribution: Class discussions (15%); Individual presentation of assignments (15%); Individual tasks for a group project (15%); Progress a group project (10%); Project outcome (10%); Final presentation of group project (20%); Test (15%).
An “A” would be awarded if a student shows a deep understanding of the knowledge about innovative product design and development.
A “B” would be awarded if a student shows an overall understanding of all topics about innovative product design and development.
A “C” would be given if a student meets below average expectation in understanding and application of basic knowledge about innovative product design and development.
A “D” would be given if a student does not meet expectations in both understanding and application of the given knowledge about innovative product design and development.
Developer: Katarzyna ROZPONDEK & Agnieszka OCIEPA-KUBICKA (CUT), Naritsak Tuntitipawan (KMUTNB), Nicolae Ionescu (UPB), Montalee Sasananan (TU)
MSIE 4.0 Courses
No. | Course Title | Credit
(Lec-Wor-Lab-Self)* |
ETCS** | Progress Presentation at CUT | Syllabus |
1 | |||||
2 | |||||
3 | |||||
4 | |||||
5 | |||||
6 | |||||
7 | |||||
8 | |||||
9 | Applied Data Analytics | Course 9 Applied Data Analytics-Second Version | Course 9- Applied Data Analytics – Four Version | ||
10 | |||||
11 | |||||
12 | Additive Manufacturing for Industry 4.0 | 3 (2-0-3-9) | Course 12. Additive Manufacturing | ||
13 | |||||
14 | |||||
15 | Customer Experience–Driven Design | 3(2-2-0-9) | Course15 Customer Experience- Driven Design | Course 15- Customer Experience-Driven Design | |
16 | Communications and People Skills Development for Engineering Leaders | 3 (1-4-0-9) | Course 16- Communications and People Skills Development for Engineering Leaders |