CERTIFICATION BODY
Malaysia TRIZ Innovation Association (MyTRIZ)
OVERVIEW
This comprehensive training program introduces participants to the Theory of Inventive Problem Solving (TRIZ), a systematic methodology for innovation and creative problem-solving developed from the analysis of millions of patents. The course begins with foundational concepts, exploring the history and basic principles of TRIZ while demonstrating its benefits in structured problem-solving approaches. Participants will master essential TRIZ techniques including contradiction analysis, where they learn to identify and resolve both technical and physical contradictions using the contradiction matrix and 39 engineering parameters.
By the end of the course, participants will be able to:
- Apply TRIZ fundamentals to systematically identify and define technical problems.
- Utilize contradiction analysis tools (e.g., contradiction matrix, 40 inventive principles) to resolve engineering challenges.
- Implement ARIZ, separation principles, and Substance-Field Analysis for structured problem-solving in complex systems.
- Leverage standard solutions and system evolution trends to forecast and drive innovation.
- Adapt TRIZ methods to real-world industry cases while overcoming psychological barriers and optimizing available resources.
Typically spans 2 days (9am to 5pm).
Nonetheless, we can customize both the program’s duration and schedule to cater to unique client requirements (e.g., compact 1-day workshops or extended sessions beyond 2 days).
- R&D Engineers
- Product Development Engineers
- Process Improvement Specialists
- Innovation or Strategy Team Members
- Design Engineers involved in problem-solving and innovation
PROPOSED OUTLINE/AGENDA
- Icebreaker & Trainer Introduction
- Program Objectives
- Explore the origin and development of TRIZ, a structured methodology for innovation founded by Genrich Altshuller.
- Understand how it evolved through the analysis of global patent systems
- Learn the core principles behind TRIZ, including systematic innovation and overcoming contradictions.
- Discover how TRIZ differs from traditional problem-solving approaches.
- Understand how to analyze systems by their functions and evaluate them for effectiveness.
- Introduce the concept of Ideality to drive system improvements toward perfection.
- Gain insight into TRIZ’s step-by-step approach for solving technical problems systematically.
- Use CECA to dig deep into root causes of technical issues.
- Learn how to simplify systems by eliminating unnecessary components.
- Understand the stages of a product or technology’s evolution using the S-Curve.
- Identify technical contradictions where improving one aspect leads to the worsening of another.
- Apply the TRIZ contradiction matrix to match technical problems with applicable inventive principles.
PROGRAM METHODOLOGY
- Hands-on Activities: Practical exercises to reinforce theoretical concepts.
- Group Discussions: Opportunities for peer-to-peer learning and exchange of ideas.
- Role Plays: Simulations of realistic situations to build practical skills.
- Feedback Sessions: Reviews and reflections to encourage improvement.
- Problem-solving Exercises: Develop critical thinking and decision-making skills.
- Experiential Learning: Learning by doing, promoting active involvement.
- Interactive Lectures: Engaging presentations by experts in the field.
- Case Studies: Real-world scenarios for learners to apply their knowledge.
- Quizzes & Tests: Regular assessments to track learning progress.
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