This book describes the adoption process of TRIZ under challenging conditions and under serious limitations. It presents the integration of TRIZ with other techniques to solve problems in the Latin America industry. The chapters contain some industrial cases that explain the adoption process of TRIZ. They also describe the restrictions or limits on the use and adoption of TRIZ. This book describes a strategy to apply the TRIZ tools for product or service design. Case studies from different universities and enterprises are presented to facilitate the assimilation of the TRIZ concepts and tools.
Author(s): Guillermo Cortes Robles
Publisher: Springer
Year: 2023
Language: English
Pages: 238
City: Cham
Preface
Contents
1 A FOS-Based Framework for Software Design Pattern Replacement
1.1 Introduction
1.2 State of the Art
1.2.1 Software Design Domain
1.2.2 TRIZ/FOS Domain
1.3 FOS Algorithm for Design Pattern Replacement Proposal
1.4 The Framework to Identify Functions in Design Patterns
1.4.1 Creation of Function Tables
1.4.2 Comparison of Design Pattern Structures
1.4.3 Testing for Pattern Replacement
1.5 Experimental Results
1.5.1 Function-by-Function Matrix
1.5.2 Versatility and Adaptability
1.5.3 Case Study
1.6 Conclusions
References
2 Product Personalization with TRIZ and CAI
2.1 Introduction
2.2 Product Personalization
2.3 Conceptual Design
2.4 Computer-Aided Innovation
2.5 Product Personalization in the Conceptual Design Phase
2.5.1 Personalization Strategy
2.5.2 Phases’ Description
2.6 Case Study
2.6.1 Following the Personalization Phases
2.6.2 Listen to the Client’s Voice
2.6.3 Transform the Client’s Voice Into Demands
2.6.4 Transform Customer Voice into Specifications
2.6.5 Conceptual Design of the Customized Product
2.7 Recommendations
2.8 Conclusions
References
3 Application of Design Thinking and TRIZ Theory to Assist a User in the Formulation of an Innovation Project
3.1 Introduction
3.2 Innovation
3.3 Design Thinking
3.3.1 Definition
3.3.2 Stages that Make Up the DT Process
3.3.3 Design Thinking: State-of-the-Art Review
3.4 Theory of Inventive Problem Solving (TRIZ)
3.4.1 Definition
3.4.2 Basic Concepts of TRIZ
3.4.3 TRIZ Benefits
3.4.4 TRIZ: State-of-the-Art Review
3.4.5 Reason for DT+TRIZ Integration
3.5 DT+TRIZ Framework
3.5.1 Description of the Framework DT+TRIZ
3.5.2 Results of the DT+TRIZ Integration
3.6 Case of Application: A Domestic Electrical Outlet Case for a Blind Person and Visual Weakness
3.7 Conclusions
3.8 Future Work
References
4 Innovation Process Workflow Approach to Promote Innovation in the Food Industry
4.1 Introduction
4.2 Innovation Process
4.2.1 Innovative Process Engineering Model
4.3 TRIZ Theory and OTMS
4.3.1 TRIZ Theory
4.3.2 The General Theory of Powerful Thinking (OTSM)
4.4 Innovation Process Workflow Model
4.4.1 The Management Level
4.4.2 The Operational Level
4.4.3 The Support Level
4.5 Innovation Process Workflow Approach (IPWA)
4.5.1 Initial Situation
4.5.2 Definition of the Problematic Situation
4.5.3 Network of Problems/Solutions
4.5.4 Problem Definition
4.5.5 Problem Evaluation and Selection
4.5.6 Typical Inventive Solution Technology
4.5.7 Solution Evaluation and Selection
4.5.8 Contradiction Technology
4.5.9 Design Adaptation
4.6 Case Study
4.6.1 Initial Situation
4.6.2 Problematic Situation
4.6.3 Problem Definition and Evaluation
4.6.4 Typical Solution Technology
4.6.5 Contradiction Technology
4.6.6 Concept Solution
4.6.7 Design Adaptation
4.6.8 Exploitation
4.7 Conclusion
References
5 New Services Ideation: IDEATRIZ Methodology Application
5.1 Introduction
5.2 Research Method
5.2.1 Application of the Original IDEATRIZ Methodology
5.2.2 Analysis of the Application of the Original IDEATRIZ
5.2.3 IDEATRIZ Methodology Adapted for Service
5.2.4 Application of IDEATRIZ Adapted for Services
5.2.5 Analysis of the Application of Adapted IDEATRIZ
5.3 Results of Research
5.4 Discussion and Conclusion
References
6 Problems in the Spreading of TRIZ in Argentina
6.1 Problem-Solving
6.2 Brief Tour of Several Structured Engineering Problem-Solving Methodologies for Engineering Application
6.3 Influence of Continuous Improvement at the Expense of TRIZ
6.4 Entrepreneurship—UNDP Project (United Nations Development Program)
6.5 Argentine Economy and Industry (1810–2018)
6.5.1 Colonial Period and Emancipation
6.5.2 Agro-Export Model Between 1860 and 1930 (Commodities)
6.5.3 Industrialization by Importation Substitution (ISI) From 1930 to 1975
6.5.4 The Neoliberal Model
6.5.5 Post-convertibility
6.5.6 Consequences
6.5.7 Result
6.6 TRIZ in Argentina
6.7 TRIZ Teaching in Argentine
6.8 Conclusions
References
7 Technology Roadmapping and TRIZ: A Practical Approach for Inventive Problem-Solving and Product Innovation
7.1 Introduction
7.2 Technology Roadmapping: Opportunities and Advantages
7.3 Theory of Inventive Problem Solving
7.3.1 TRIZ Tools
7.3.2 TRIZ Evolution Trends and Patterns
7.3.3 TRIZ Advantages and Limitations
7.4 Computer Aided Innovation
7.4.1 Related Work
7.4.2 Methodological Approach
7.4.3 TRM+TRIZ Approach
7.5 Case Study: Product Innovation Using TRM+TRIZ
7.6 Discussion
7.6.1 Advantages of TRM+TRIZ Over TRM
7.6.2 Limitations of TRM+TRIZ
7.7 Conclusion and Future Work
References
8 TRIZ as a Strategy for Improvement of Process Control in the Wood Industry
8.1 Introduction
8.1.1 Timber Sawmill
8.1.2 Circular Saws as Cutting Tools in Sawmills
8.1.3 Energy Consumption in Cutting Wood
8.1.4 The Wear of the Cutting Tools
8.1.5 The Theory of Inventive Problem Solving (TRIZ)
8.2 Method Application
8.2.1 Innovation Situation Questionnaire (ISQ)
8.2.2 Interaction Analysis
8.2.3 Inventive Standards
8.3 Conclusions and Future Outlook
References
9 Solving Inventive Problems Dynamically: An Application of TRIZ with the System Dynamics Modeling Process
9.1 Introduction
9.2 Background
9.3 Implementation of SD to TRIZ
9.4 Application in a Conceptual Design
9.4.1 Definition and Identification of Variables
9.4.2 Contradiction Analysis
9.4.3 Development of the Dynamic Simulation Model
9.5 Discussion and Results
9.5.1 Case of Study
9.5.2 Proposing Solutions
9.6 Conclusions and Future Work
References
