Technical and physical contradictions
Technical contradiction and physical contradictions are independent and most commonly used tools of the TRIZ methodology for solving technological problems.
Technical contradiction and physical contradiction are fundamental yet highly effective tools for solving problems described using applied analytical tools such as CECA or trimming. The result of applying these tools by an innovator is the development of concepts for new solutions. However, it should be remembered that this process requires proper preparation-without the results of preliminary analyses that provide substantive input, the mere use of contradictions is unjustified and may lead to incorrect conclusions.
Educational objectives
In this section, you will learn:- Introduction to the definitions of technical and physical contradictions;
- Construction and development of correct algorithms for applying contradictions;
- Differences between the contradiction matrix and the interaction matrix;
- Discussion of inventive principles and how to use them effectively;
- Models for resolving technical and physical contradictions.
Business objectives
Contradictions are a universal and versatile tool. In the development of product innovations, it will be used primarily to:- Improvement of the system;
- Development of new products and processes;
- Cost reduction;
- Identification and elimination of failures.
Who is the course intended for:
- Development managers and engineers;
- R&D department managers and engineers;
- 6 Sigma, Lean, QFD, and DFSS specialists;
- Strategic planning specialists;
- Engineers and technical staff;
- Startup team members;
- Patent attorneys;
- Researchers and students, primarily in technical fields;
- Employees of Technology Transfer Centers and Technology Parks;
- Public officials bridging the fields of science and business.
A certified TRIZ (Level 3) and DFP (Level 3) expert, she applies her knowledge and skills not only in R&D projects but also in creating educational materials and popular science articles. Co-author of four textbooks on TRIZ and DFP.
She serves as Scientific Secretary for both MATRIZ and the DFP Institute.
By training, she is a designer - a graduate of the Faculty of Fashion Design at the Academy of Fine Arts in Łódź. From 1998 to 2020, she worked in the manufacturing industry as a designer and technologist. She is also an experienced trainer. For many years, she worked as a chief technologist and specialist in implementing CNC cutting lines and CAD systems for automatic fabric cutting. She also lectured on fabric cutting technologies in the furniture industry at the Faculty of Forestry and Wood Technology, Poznań University of Life Sciences.
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