logging in or signing up triz-deg-4-12-04 rahulpatel18 Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINT lite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 37 Category: Entertainment License: All Rights Reserved Like it (0) Dislike it (0) Added: February 10, 2012 This Presentation is Public Favorites: 0 Presentation Description No description available. Comments Posting comment... Premium member Presentation Transcript Texts Used: Texts Used Kaplan, S. (1996). An introduction to TRIZ: The Russian theory of inventive problem solving. Southfield, MI: Ideation International Inc. Altshuler, G. (1994). And suddenly the inventor appeared: TRIZ, the theory of inventive problem solving (L. Shulyak & S. Rodman, trans) . Worcester, MA: Technical Innovation Center. Altshuler, G. (2000). The innnovation algorithm: TRIZ, systematic innovation and technical creativity (L. Shulyak & S. Rodman, trans) . Worcester, MA: Technical Innovation Center.More Texts: More Texts Altshuler, G. S. (1984). Creativity as an exact science: The theory of the solution of inventive problems (A. Williams, trans.). New York: Gordon and Breach. Savransky, S. D. (2000). Engineering of creativity: Introduction to TRIZ methodology of inventive problem solving. Boca Raton: FL: CRC Press.G. S. Altshuller: G. S. Altshuller Genrich Saulovich Altshuller (1926-1998). 1946 was working in Soviet Navy patent office. 1948 wrote a letter to Comrade Stalin wishing to help the motherland do better invention. 1950 arrested for “investor’s sabotage” sent to the Gulag. 1956 wrote his first paper.TRIZ: TRIZ Teoriya Resheniya Izobreatatelskikh Zadatch Theory of inventive problem solving. Started with Altshuller’s interest in invention and work in Soviet Navy patent office.What is TRIZ?: What is TRIZ? TRIZ is an evolving, open-ended system for enhancing human inventiveness through Systematic identification of problems and ideal solutions Overcoming various blocks through heuristics and approaches that have worked in other disciplinesOrganization of Presentation: Organization of Presentation Levels of inventive solutions Regularities in the evolution of technological systems Technical contradictions, the matrix SU-Field theoryLevels of Inventive Solution: Levels of Inventive Solution Level 1: Standard, routine methods within specialty. Level 2: Improvement, new features. Level 3: Invention inside paradigm, essential improvement of existing system (automatic transmission). Level 4: Invention outside paradigm, new system (use of little known phenomena). Level 5: Discovery, essentially new system, new science? (lasers, aircraft, computers).Regularities in Evolution of Technological Systems: Regularities in Evolution of Technological Systems 8 Laws of Development of Engineered Systems Law of completeness of parts of a system Law of energy conductivity of a system Law of harmonization of rhythms Law of increasing ideality Law of uneven development of parts Law of transition to a supersystem Law ot transition from macro to mirco level Law of increasing substance-field involvementCompleteness: Completeness Four canonical parts Engine Working organ Transmission Control organ Systems evolve toward more complete synthesis of these partsEnergy Conductivity: Energy Conductivity Systems evolve toward increasing efficiency in the transfer of energy From engine to working organ. Transfer through a substance or a field Substance: material items Field: magnetic field Substance-field: stream of charged particles Query: What about information flow?Harmonization: Harmonization System evolves toward harmony of its rhythms and natural frequencies of its parts. Coal boring method example. 2-steps, 7-year delay avoided.Ideality: Ideality IFR = ideal final result Function exists but machine does not. Ideality is the useful effects divided by the harmful.Uneven Development of Parts: Uneven Development of Parts Development proceeds monotonically Parts evolve in fits and starts See this in GAs Cargo ship example: capacity and engine size exceed braking capacity.Last 3 Laws: Last 3 Laws Transition to Supersystem Reach limits of development System becomes subsystem of larger system Transition from Macro to Micro Stuff gets smaller Increasing substance-field involvement Discuss in a momentOther Altshuller Pearls: Other Altshuller Pearls Other writings resulted in other laws Increasing dynamism: things become moveable (landing gear, wings) Psychological inertia: people resist change Note about laws : empirical laws like Darwin or prescriptive/normative laws. Thou shalt do X.Principle of Solution by Abstraction: Principle of Solution by Abstraction Steps: Specific inventive problem Identify abstract problem category Determine associated abstract solution category Specialize abstract solutions to specific problem ChartTechnical Contradictions & the Matrix: Technical Contradictions & the Matrix Parameter A improves, but parameter B deteriorates, strength v. weight. Usually involves tradeoff or compromise TRIZ seeks to surmount contradiction. In patent study, Altshuler identified 39 engineering parameters and 40 operators 39 x 39 matrix of parameter contradictionsAltshuller’s Parameters: Altshuller’s Parameters Weight of moving object Weight of nonmoving object Length of moving object Length of nonmoving object Area of moving object Area of nonmoving object Volume of moving object Volume of nonmoving object Speed Force Tension, pressure Shape Stability of object Strength Durability of moving object Durability of nonmoving object Temperature Brightness .Energy spent by moving object Energy spent by nonmoving objectMore Parameters: More Parameters Power Waste of energy Waste of substance Loss of information Waste of time Amount of substance Reliability Accuracy of measurement Accuracy of manufacturing Harmful factors acting on object Harmful side effects Manufacturability Convenience of use Repairability Adaptability Complexity of device Complexity of control Level of automation Productivity40 Inventive Principles: 40 Inventive Principles Segmentation Extraction Local quality Asymmetry Combining Universality Nesting Counterweight Prior counter-action Prior action Cushion in advance Equipotentiality Inversion Spheroidality Dynamicity Partial or overdone actionMore Inventive Principles: More Inventive Principles Move to new dimension Mechanical vibration Periodic action Continue useful action Rushing through Convert harm to benefit Feedback Mediator Self-service Copying Substitute throwaway Replace mechanical system Use pneumatic-hydraulic systemSample Contradiction: Sample Contradiction Weight of moving object vs force Use 8, 10, 18, 37 Counterweight Prior action Mechanical vibration Thermal expansion Amounts to an expert system depending upon technical blocks.Physical Contradiction: Physical Contradiction Single parameter that we want to both increase and decrease. Do not compromise: Invent. Separation principles for overcoming: Separation in time Separation in space Separation in scaleExamples of Separation Solutions: Examples of Separation Solutions Siberian pile driving: desire sharp point to drive easily, blunt point to sustain max load. Separate in time Explosive charge after driving Coating problem: high temp for quick coating, but coating breaks down Separate in space Local heating, quick coating, but chemical OK.More Examples: More Examples Want bike transmission to be rigid for strength, but flexible for smooth drive Separation in scale Bike chain is rigid at small scale, but flexible at large scale.SU-Field Theory: SU-Field Theory Substances act through fields Field types: Mechanical Acoustic Thermal Chemical Electric Magnetic DiagramTRIZ Well Known in Russia: TRIZ Well Known in Russia Less so elsewhere Software to implement TRIZ in various ways. Invention machine & IDEATION software. Extension to non-tech systems.Connections: Connections Similarities Evolutionary foundations List based Heuristics based Contradictions -> bisociation? Differences Grasp at universalitySpeculation: Speculation Integrate GP-GA with TRIZ engine to generate new domains. How far can we go with automating “true invention” machine? How can we represent important items? Past invention Scientific knowledgeEven More: Even More Flexible film or thin membranes Use porous material Change color Make homogeneous Rejecting or regenerating parts Transform physical-chemical states Phase transition Thermal expansion Use oxidizers Inert environment Composite material You do not have the permission to view this presentation. In order to view it, please contact the author of the presentation.
triz-deg-4-12-04 rahulpatel18 Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINT lite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 37 Category: Entertainment License: All Rights Reserved Like it (0) Dislike it (0) Added: February 10, 2012 This Presentation is Public Favorites: 0 Presentation Description No description available. Comments Posting comment... Premium member Presentation Transcript Texts Used: Texts Used Kaplan, S. (1996). An introduction to TRIZ: The Russian theory of inventive problem solving. Southfield, MI: Ideation International Inc. Altshuler, G. (1994). And suddenly the inventor appeared: TRIZ, the theory of inventive problem solving (L. Shulyak & S. Rodman, trans) . Worcester, MA: Technical Innovation Center. Altshuler, G. (2000). The innnovation algorithm: TRIZ, systematic innovation and technical creativity (L. Shulyak & S. Rodman, trans) . Worcester, MA: Technical Innovation Center.More Texts: More Texts Altshuler, G. S. (1984). Creativity as an exact science: The theory of the solution of inventive problems (A. Williams, trans.). New York: Gordon and Breach. Savransky, S. D. (2000). Engineering of creativity: Introduction to TRIZ methodology of inventive problem solving. Boca Raton: FL: CRC Press.G. S. Altshuller: G. S. Altshuller Genrich Saulovich Altshuller (1926-1998). 1946 was working in Soviet Navy patent office. 1948 wrote a letter to Comrade Stalin wishing to help the motherland do better invention. 1950 arrested for “investor’s sabotage” sent to the Gulag. 1956 wrote his first paper.TRIZ: TRIZ Teoriya Resheniya Izobreatatelskikh Zadatch Theory of inventive problem solving. Started with Altshuller’s interest in invention and work in Soviet Navy patent office.What is TRIZ?: What is TRIZ? TRIZ is an evolving, open-ended system for enhancing human inventiveness through Systematic identification of problems and ideal solutions Overcoming various blocks through heuristics and approaches that have worked in other disciplinesOrganization of Presentation: Organization of Presentation Levels of inventive solutions Regularities in the evolution of technological systems Technical contradictions, the matrix SU-Field theoryLevels of Inventive Solution: Levels of Inventive Solution Level 1: Standard, routine methods within specialty. Level 2: Improvement, new features. Level 3: Invention inside paradigm, essential improvement of existing system (automatic transmission). Level 4: Invention outside paradigm, new system (use of little known phenomena). Level 5: Discovery, essentially new system, new science? (lasers, aircraft, computers).Regularities in Evolution of Technological Systems: Regularities in Evolution of Technological Systems 8 Laws of Development of Engineered Systems Law of completeness of parts of a system Law of energy conductivity of a system Law of harmonization of rhythms Law of increasing ideality Law of uneven development of parts Law of transition to a supersystem Law ot transition from macro to mirco level Law of increasing substance-field involvementCompleteness: Completeness Four canonical parts Engine Working organ Transmission Control organ Systems evolve toward more complete synthesis of these partsEnergy Conductivity: Energy Conductivity Systems evolve toward increasing efficiency in the transfer of energy From engine to working organ. Transfer through a substance or a field Substance: material items Field: magnetic field Substance-field: stream of charged particles Query: What about information flow?Harmonization: Harmonization System evolves toward harmony of its rhythms and natural frequencies of its parts. Coal boring method example. 2-steps, 7-year delay avoided.Ideality: Ideality IFR = ideal final result Function exists but machine does not. Ideality is the useful effects divided by the harmful.Uneven Development of Parts: Uneven Development of Parts Development proceeds monotonically Parts evolve in fits and starts See this in GAs Cargo ship example: capacity and engine size exceed braking capacity.Last 3 Laws: Last 3 Laws Transition to Supersystem Reach limits of development System becomes subsystem of larger system Transition from Macro to Micro Stuff gets smaller Increasing substance-field involvement Discuss in a momentOther Altshuller Pearls: Other Altshuller Pearls Other writings resulted in other laws Increasing dynamism: things become moveable (landing gear, wings) Psychological inertia: people resist change Note about laws : empirical laws like Darwin or prescriptive/normative laws. Thou shalt do X.Principle of Solution by Abstraction: Principle of Solution by Abstraction Steps: Specific inventive problem Identify abstract problem category Determine associated abstract solution category Specialize abstract solutions to specific problem ChartTechnical Contradictions & the Matrix: Technical Contradictions & the Matrix Parameter A improves, but parameter B deteriorates, strength v. weight. Usually involves tradeoff or compromise TRIZ seeks to surmount contradiction. In patent study, Altshuler identified 39 engineering parameters and 40 operators 39 x 39 matrix of parameter contradictionsAltshuller’s Parameters: Altshuller’s Parameters Weight of moving object Weight of nonmoving object Length of moving object Length of nonmoving object Area of moving object Area of nonmoving object Volume of moving object Volume of nonmoving object Speed Force Tension, pressure Shape Stability of object Strength Durability of moving object Durability of nonmoving object Temperature Brightness .Energy spent by moving object Energy spent by nonmoving objectMore Parameters: More Parameters Power Waste of energy Waste of substance Loss of information Waste of time Amount of substance Reliability Accuracy of measurement Accuracy of manufacturing Harmful factors acting on object Harmful side effects Manufacturability Convenience of use Repairability Adaptability Complexity of device Complexity of control Level of automation Productivity40 Inventive Principles: 40 Inventive Principles Segmentation Extraction Local quality Asymmetry Combining Universality Nesting Counterweight Prior counter-action Prior action Cushion in advance Equipotentiality Inversion Spheroidality Dynamicity Partial or overdone actionMore Inventive Principles: More Inventive Principles Move to new dimension Mechanical vibration Periodic action Continue useful action Rushing through Convert harm to benefit Feedback Mediator Self-service Copying Substitute throwaway Replace mechanical system Use pneumatic-hydraulic systemSample Contradiction: Sample Contradiction Weight of moving object vs force Use 8, 10, 18, 37 Counterweight Prior action Mechanical vibration Thermal expansion Amounts to an expert system depending upon technical blocks.Physical Contradiction: Physical Contradiction Single parameter that we want to both increase and decrease. Do not compromise: Invent. Separation principles for overcoming: Separation in time Separation in space Separation in scaleExamples of Separation Solutions: Examples of Separation Solutions Siberian pile driving: desire sharp point to drive easily, blunt point to sustain max load. Separate in time Explosive charge after driving Coating problem: high temp for quick coating, but coating breaks down Separate in space Local heating, quick coating, but chemical OK.More Examples: More Examples Want bike transmission to be rigid for strength, but flexible for smooth drive Separation in scale Bike chain is rigid at small scale, but flexible at large scale.SU-Field Theory: SU-Field Theory Substances act through fields Field types: Mechanical Acoustic Thermal Chemical Electric Magnetic DiagramTRIZ Well Known in Russia: TRIZ Well Known in Russia Less so elsewhere Software to implement TRIZ in various ways. Invention machine & IDEATION software. Extension to non-tech systems.Connections: Connections Similarities Evolutionary foundations List based Heuristics based Contradictions -> bisociation? Differences Grasp at universalitySpeculation: Speculation Integrate GP-GA with TRIZ engine to generate new domains. How far can we go with automating “true invention” machine? How can we represent important items? Past invention Scientific knowledgeEven More: Even More Flexible film or thin membranes Use porous material Change color Make homogeneous Rejecting or regenerating parts Transform physical-chemical states Phase transition Thermal expansion Use oxidizers Inert environment Composite material