Use when need systematic innovation through comprehensive solution space exploration, resolving technical contradictions (speed vs precision, strength vs weight, cost vs quality), generating novel product configurations, exploring all feasible design alternatives before prototyping, finding inventive solutions to engineering problems, identifying patent opportunities through parameter combinations, or when user mentions morphological analysis, Zwicky box, TRIZ, inventive principles, technical contradictions, systematic innovation, or design space exploration.
Systematically explores solution spaces using morphological analysis matrices and resolves technical contradictions with TRIZ inventive principles. Use when you need to generate comprehensive design alternatives, break trade-off stalemates (speed vs precision, strength vs weight), or find patentable innovations through structured parameter exploration.
/plugin marketplace add lyndonkl/claude/plugin install lyndonkl-thinking-frameworks-skills@lyndonkl/claudeThis skill inherits all available tools. When active, it can use any tool Claude has access to.
resources/evaluators/rubric_morphological_analysis_triz.jsonresources/methodology.mdresources/template.mdSystematically explore solution spaces through morphological analysis (parameter-option matrices) and resolve technical contradictions using TRIZ inventive principles to generate novel, non-obvious solutions.
Systematic Exploration:
Innovation & Invention:
Resolving Contradictions:
Engineering & Design:
Two complementary methods:
Morphological Analysis: Decompose problem into parameters, identify options for each, systematically combine to explore solution space.
Parameters: Power (3 options) × Size (4 options) × Material (3 options) = 36 configurations
TRIZ: Resolve contradictions using 40 inventive principles. Example: "Improve speed → worsens precision" solved by Principle #1 (Segmentation): fast rough pass + slow precision pass.
Copy this checklist:
Morphological Analysis & TRIZ Progress:
- [ ] Step 1: Define problem and objectives
- [ ] Step 2: Choose method (MA, TRIZ, or both)
- [ ] Step 3: Build morphological box (if MA)
- [ ] Step 4: Identify contradictions (if TRIZ)
- [ ] Step 5: Apply TRIZ principles
- [ ] Step 6: Evaluate and select solutions
Step 1: Define problem and objectives
Clarify problem statement, key objectives, constraints (cost, size, time, materials), and success criteria.
Step 2: Choose method
Step 3: Build morphological box (if using MA)
See resources/template.md for structure.
Step 4: Identify contradictions (if using TRIZ)
State clearly:
See resources/template.md for 39 TRIZ parameters and contradiction matrix.
Step 5: Apply TRIZ principles
See resources/template.md for all 40 principles.
For advanced techniques, see resources/methodology.md.
Step 6: Evaluate and select
Morphological: Identify promising combinations, eliminate infeasible, score on objectives, select top 3-5
TRIZ: Assess contradiction resolution, check side effects, estimate difficulty, select most promising
Use resources/evaluators/rubric_morphological_analysis_triz.json for quality criteria.
Physical Products: Materials, power source, form factor, control interface, manufacturing method Software: Architecture, data storage, UI, deployment, authentication Services: Delivery channel, pricing model, timing, customization, support level Processes: Automation level, batch size, quality control, scheduling, location
| Improving ↑ | Worsens ↓ | Example TRIZ Principles |
|---|---|---|
| Speed | Precision | Segmentation, Periodic action |
| Strength | Weight | Anti-weight, Composite materials |
| Reliability | Complexity | Segmentation, Beforehand cushioning |
| Functionality | Ease of use | Segmentation, Universality |
| Capacity | Size | Nesting, Another dimension |
Full principles list: See resources/template.md for all 40.
Morphological Analysis:
TRIZ:
General:
Resources:
resources/template.md - Morphological structure, TRIZ contradiction matrix, 40 principlesresources/methodology.md - Advanced TRIZ (trends of evolution, substance-field, ARIZ algorithm)resources/evaluators/rubric_morphological_analysis_triz.json - Quality criteriaOutput: morphological-analysis-triz.md with problem definition, morphological matrix (if used), contradictions, TRIZ principles applied, solution concepts, evaluation, selected solutions
Success Criteria:
Quick Decisions:
Common Mistakes:
Examples:
Morphological (Portable Speaker):
Power: Battery | Solar | Hybrid
Size: Pocket | Handheld | Tabletop
Audio: Mono | Stereo | Surround
Material: Plastic | Metal | Fabric
Control: Button | Touch | Voice | App
Result: 3×3×3×4×4 = 432 configs → Evaluate top 10
TRIZ (Electric Vehicle Range):
Contradiction: Increase range → worsens cost (battery expensive)
Principles: #6 (Universality - battery is structure), #35 (Parameter change - new chemistry)
Solution: Structural battery pack + high energy density cells
Combined:
Build morphological box for EV architecture → Top config has range/cost contradiction → Apply TRIZ Universality principle → Structural battery resolves both range and cost
For detailed principle explanations, contradiction matrix, advanced techniques (substance-field analysis, ARIZ, trends of evolution), and software/service adaptation, see resources/template.md and resources/methodology.md.
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