Why TRIZ?
TRIZ is a structured approach to problem-solving that focuses on finding innovative solutions to difficult technical problems. The methodology is based on the analysis of existing solutions and the identification of patterns and principles that can be used to create new and better solutions.
Why TRIZ?
Systematic approach: TRIZ provides a systematic approach to problem-solving that helps innovators identify and solve problems more efficiently and effectively. The methodology is based on a set of principles and tools that guide innovators through the problem-solving process.
Use of patterns and analogies: TRIZ uses patterns and analogies to help innovators find solutions to problems. By looking at similar problems in other fields or industries, innovators can identify patterns and analogies that can be applied to their own problem.
Focus on contradictions: TRIZ focuses on identifying and resolving contradictions within a problem, which helps to generate innovative solutions. By identifying the underlying contradictions, innovators can find ways to overcome them and create a better solution.
Focus on innovation principles: TRIZ is based on a set of innovation principles that have been identified and tested through the analysis of thousands of patents and inventions. These principles provide a framework for innovators to generate creative solutions to problems.
Ideality: TRIZ promotes the concept of ideality, which is the idea of creating an ideal solution that meets all the requirements of a problem without any compromises. This approach encourages innovators to think outside the box and find new ways to solve problems.
Emphasis on knowledge transfer: TRIZ emphasizes the transfer of knowledge from one problem domain to another. This means that innovators can apply solutions from other domains to their own problem, which can lead to more innovative and effective solutions.
Why TRIZ?
Boeing: Boeing used TRIZ to develop a more efficient wing design for its 787 Dreamliner aircraft. By applying TRIZ principles, they were able to reduce fuel consumption and improve the aerodynamic efficiency of the wing.
Procter & Gamble: Procter & Gamble used TRIZ to develop a new type of packaging for its toothpaste products. By applying TRIZ principles, they were able to develop a more effective and efficient packaging solution that reduced waste and improved the customer experience.
Samsung: Samsung used TRIZ to develop a new type of battery for its smartphones. By applying TRIZ principles, they were able to develop a more efficient and durable battery that improved the user experience and reduced costs.
Ford: Ford used TRIZ to develop a more efficient manufacturing process for its vehicles. By applying TRIZ principles, they were able to identify and solve problems in the manufacturing process, which led to significant cost savings and improved efficiency.
By applying TRIZ principles, innovators can enhance their creativity, reduce costs, reduce risks, and increase efficiency, leading to more successful innovation outcomes.
