TRIZ - The Laws of Evolution

Photo by Suzanne D. Williams on unsplash

Introduction

  • Laws of Product Evolution
  • 8 directions
  • Radar Chart in R
  • Find Opportunities based on Radar Chart

Laws of Product Evolution

  • Law of completeness of the system: Systems derive from synthesis of separate parts into a functional system.
  • Law of energy transfer in the system: Shaft, gears, magnetic fields, charged particles, which are the heart of many inventive problems.
  • Law of increasing ideality: Function is created with minimum complexity, which can be considered a ratio of system usefulness to its harmful effects. The ideal system has the desired outputs with no harmful effects, i.e., no machine, just the function(s).
  • Law of harmonization: Transferring energy more efficiently.
  • Law of uneven development of parts: Not all parts evolve at the same pace. The least will limit the overall system
  • Law of transition to a super system: Solution system becomes subsystem of larger system.
  • Law of Transition from Macro to Micro: Using physically smaller solutions, e.g., electronic tubes to chips.
  • Law of Increasing Substance-Field Involvement: Viewing and modeling systems as composed of two substances interacting through a field.

How Would you Redesign this Product

TBD. Plot a set of Radar charts showing different stages of evolution of well known product lines. Obsolete products are even more interesting.

References

  1. Project TETRIS: Chapter 2: Laws of System Evolution (PDF)

  2. Project TETRIS: Chapter 5: Techniques to Resolve Contradictions / Resources / Effects (PDF)

  3. Project TETRIS: Examples of inventive problems: Example 1-5 (RAR Archive File)

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