TRIZ for Advanced Practitioners Essentials Training by Tonex
This advanced training deepens participants’ expertise in TRIZ for solving complex technical problems. It covers physical contradictions, separation principles, and substance-field analysis for system improvement. ARIZ is explored for structured problem-solving, and technology evolution trends are analyzed using TRIZ. Participants gain hands-on experience in applying advanced TRIZ tools to real-world challenges. The course enhances innovation strategies, helping professionals create breakthrough solutions efficiently. Designed for engineers, designers, and R&D teams, this program strengthens systematic creativity and inventive thinking.
Audience:
- Engineers and technical professionals
- R&D teams and innovation managers
- Product designers and developers
- Problem-solving consultants
- Business strategists
- Manufacturing and quality engineers
Learning Objectives:
- Apply separation principles to resolve physical contradictions
- Use Su-Field Modeling to analyze and improve systems
- Master ARIZ for systematic inventive problem-solving
- Predict technology evolution using TRIZ methodologies
- Enhance innovation capabilities with advanced TRIZ tools
Course Modules:
Module 1: Physical Contradictions and Separation Principles
- Understanding physical and technical contradictions
- Applying separation principles for conflict resolution
- Practical examples of contradiction resolution
- Using TRIZ to eliminate trade-offs in designs
- Integrating separation techniques into innovation strategies
- Case studies of TRIZ-driven problem-solving
Module 2: Substance-Field Analysis and Su-Field Modeling
- Fundamentals of Su-Field Modeling for system analysis
- Identifying and improving weak system interactions
- Strengthening functions using Su-Field transformations
- Developing inventive solutions with Su-Field tools
- Applying substance-field models in real-world problems
- Practical TRIZ examples using Su-Field Analysis
Module 3: ARIZ – Algorithm for Inventive Problem Solving
- Understanding the structured approach of ARIZ
- Step-by-step breakdown of the ARIZ process
- Applying ARIZ to real engineering challenges
- Enhancing creativity through systematic problem-solving
- Overcoming psychological barriers in innovation
- ARIZ case studies and successful applications
Module 4: TRIZ for Predicting Technology Evolution
- Principles of technology forecasting with TRIZ
- Identifying trends in system development
- Using TRIZ laws to anticipate innovation pathways
- Practical examples of technology evolution analysis
- Strategic decision-making based on TRIZ predictions
- Real-world applications in product and process design
Module 5: Advanced TRIZ Problem-Solving Techniques
- Identifying and eliminating root causes of system issues
- Enhancing systems through function-oriented analysis
- TRIZ-based contradiction matrix applications
- Applying inventive principles to improve efficiency
- Systematic methods for generating innovative solutions
- Case studies on advanced TRIZ applications
Module 6: Implementing TRIZ in Organizations
- Integrating TRIZ into corporate innovation frameworks
- Overcoming resistance to TRIZ adoption
- TRIZ in cross-functional teams for problem-solving
- Leveraging TRIZ for R&D and product development
- Measuring the impact of TRIZ-driven innovation
- Best practices for sustaining TRIZ methodologies
Enhance your problem-solving skills with TRIZ expertise. Join Tonex’s advanced TRIZ training to master innovative thinking and drive breakthrough solutions.