TRIZ

TRIZ

TRIZ (IPAEng|triːz) is a romanized acronym for Russian _ru. Теория решения изобретательских задач” ("transl|ru|ALA|Teoriya Resheniya Izobretatelskikh Zadatch") meaning "The theory of solving inventor's problems" or "The theory of inventor's problem solving". It was developed by a Soviet engineer and researcher Genrich Altshuller and his colleagues starting in 1946. It has been evolving ever since.

Today, TRIZ is a methodology, tool set, knowledge base, and model-based technology for generating innovative ideas and solutions for problem solving. TRIZ provides tools and methods for use in problem formulation, system analysis, failure analysis, and patterns of system evolution (both 'as-is' and 'could be'). TRIZ, in contrast to techniques such as brainstorming (which is based on random idea generation), aims to create an algorithmic approach to the invention of new systems, and the refinement of old systems.

Some TRIZ is in the public domain. Some TRIZ resides in knowledge bases held by commercial consulting organizations. A complete and open TRIZ development process is not yet evident. Various camps vie for control of TRIZ and interpretation of its findings and applications.

History

Since childhood, Altshuller showed his talents as an inventor. When he was just 15 years old he received his first certificate of the authorship of invention for an underwater apparatus. [The USSR did not issue patents to its citizens because it outlawed private property. Instead it issued certificates of authorship as an acknowledgment of the fact that a person is the author of an invention.] In 1946, at the age of 20, Altshuller developed his first mature invention - a method for escaping from an immobilized submarine without diving gear. In the late 1940s he worked in the "Inventions Inspection" department of the Caspian Sea flotilla of the Soviet Navy in Baku. Altshuller's job was to inspect invention proposals, help document them, and help others to invent. By 1969 he reviewed about 40,000 patent abstracts in order to find out in what way the innovation had taken place. He eventually developed 40 Principles of Invention, several Laws of Technical Systems Evolution, the concepts of technical and physical contradictions that creative inventions resolve, the concept of Ideality of a system and numerous other theoretical and practical approaches; together, this extensive work represents a unique contribution to the development of creativity and inventive problem-solving.

By examining a large database of his own and other people's inventions, Altshuller soon arrived at his most important observation: :"Inventing is the removal of a technical contradiction with the help of certain principles"

To develop a method for inventing, he argued, one must scan a large number of inventions, identify the contradictions underlying them, and formulate the principle used by the inventor for their removal.

His results are being applied to solve creative invention problems not just within all branches of engineering, but within many other technical and non-technical fields as well.

The effectiveness of TRIZ is in dispute in many Engineering circles. Claims by some inventors that they arrived at their inventions with the help of TRIZ cannot be independently verified. Very often managers try to introduce TRIZ into their organizations in order to not be blamed for failures (a kind of "due diligence" and a means of preventing such accusations as "why have you not used TRIZ ?")

Frequently, TRIZ is also sold to people outside of engineering disciplines as a way to 'produce' creativity in any field of human activity without any grounds for that and ignoring the fact that traditionally TRIZ has grown up in the domain of engineering.

The tools developed under Altshuller's leadership were
* 40 Principles 1946-1971
* ARIZ - Algorithm of Inventive Problems Solving, 1959-1985
* Separation Principles 1973-1985
* Substance-Field Analysis 1973-1985
* Standard Solutions 1975-1985
* Natural Effects (Scientific Effects) 1970-1980
* Patterns of Evolution 1975-1980The different schools for TRIZ and individual practitioners have continued to improve and add to the methodology.

Effectiveness

According to commercial promoters of TRIZ, as a collage of concepts and tools TRIZ has been employed by many Fortune 500 companies in the United States and other countries to solve manufacturing problems and create new products. These promoters claim that companies such as BAE Systems, CSC, Procter & Gamble, Ford Motor Company, Boeing, Philips Semiconductors, Samsung, LG Electronics, and many others have used TRIZ concepts to systematically solve complex technical and organizational problems. They also claim that the use of TRIZ has been expanding into other areas, and that TRIZ has been used successfully in biomedical research, medicine, computer programming, business management, etc. These claims cannot be independently confirmed.

Structure of TRIZ

ARIZ consists of a program (sequence of actions) for the exposure and solution of contradictions, i.е. the solution of problems. ARIZ includes: the program itself, information safeguards supplied by the knowledge base (shown by an arrow in fig.1.1), and methods for the control of psychological factors, which are a component part of the methods for developing a creative imagination. Furthermore, sections of ARIZ are predetermined for the selection of problems and the evaluation of the received solution.

Su-Field Analysis (structural substance-field analysis) produces a structural model of the initial technological system, exposes its characteristics, and with the help of special laws, transforms the model of the problem. Through this transformation the structure of the solution that eliminates the shortcomings of the initial problem is revealed. Su-Field Analysis is a special language of formulas with which it is possible to easily describe any technological system in terms of a specific (structural) model. A model produced in this manner is transformed according to special laws and regularities, thereby revealing the structural solution of the problem.

Classification of a system of standard solutions for inventive problems, as well as the standards themselves, is built on the basis of "Su-Field Analysis" of technological systems. Su-Field Analysis is also a component part of the program ARIZ (shown by arrows in fig. 1).

The use of different elements of TRIZ for specific functions are shown in Table 1: "Functions and Structure of TRIZ." A system of laws for the development of technology, a system of standards for the solution of inventive problems, and Su-Field Analysis are used to forecast the development of technology, to search for and select problems, and to evaluate the received solution. For the development of a creative imagination, all elements of TRIZ can be used, although particular stress is given to methods for developing a creative imagination.The solution of inventive problems is realized with the help of laws for the development of technological systems, the knowledge base, Su-Field Analysis, ARIZ, and, in part, with the help of methods for the development of a creative imagination. By means of TRIZ, both known and unknown types of problems could be solved. Known (standard) types of inventive problems are solved with the use of the knowledge base, and unknown (nonstandard) – with the use of АRIZ. As experience grows, solutions for a class of know types of problems increase and exhibit a structure.

At the present time, computer programs have been developed on the basis of TRIZ that try to provide intellectual assistance to engineers and inventors during the solution of technological problems. These programs also try to reveal and forecast emergency situations and undesirable occurrences.

Essentials

Basic terms

*Ideal Final Result (IFR) - the ultimate idealistic solution of a problem when the desired result is achieved by itself;
*Administrative Contradiction - contradiction between the needs and abilities;
*Technical Contradiction - an inverse dependence between parameters/characteristics of a machine or technology;
*Physical Contradiction - opposite/contradictory physical requirements to an object;
*Separation principle - a method of resolving physical contradictions by separating contradictory requirements;
*VePol or SuField - a minimal technical system consisting of two material objects (substances) and a "field". "Field" is the source of energy whereas one of the substances is "transmission" and the other one is the "tool";
*FePol - a sort of VePol where "substances" are ferromagnetic objects;
*Level of Invention;
*Standard - a standard inventive solution of a higher level;
*Law of Technical Systems Evolution;
*ARIZ - Algorithm of Inventive Problems Solving, which combines various specialized methods of TRIZ into one universal tool;

Identifying a problem: contradictions

Altshuller believed that inventive problems stem from contradictions (one of the basic TRIZ concepts) between two or more elements, such as, "If we want more acceleration, we need a larger engine; but that will increase the cost of the car," that is, more of something desirable also brings more of something less desirable, or less of something else also desirable.

These are called Technical Contradictions by Altshuller. He also defined so-called physical or inherent contradictions: More of one thing and less of another may be needed. For instance, a higher temperature may be needed to melt a compound more rapidly, but a lower temperature may be needed to achieve a homogeneous mixture.

An inventive situation might involve several such contradictions. The inventor typically "trades" one contradictory parameter for another; no special inventiveness is needed for that. Rather, the inventor would develop some creative approach for "resolving" the contradiction, such as inventing an engine that produces more acceleration without increasing the cost of the engine.

Inventive principles and the matrix of contradictions

Altshuller screened patents in order to find out what kind of contradictions were resolved or dissolved by the invention and the way this had been achieved. From this he developed a set of 40 inventive principles and later a Matrix of Contradictions. Rows of the matrix indicate the 39 system features that one typically wants to improve, such as speed, weight, accuracy of measurement and so on. Columns refer to typical undesired results. Each matrix cell points to principles that have been most frequently used in patents in order to resolve the contradiction.

For instance, Dolgashev mentions the following contradiction: Increasing accuracy of measurement of machined balls while avoiding the use of expensive microscopes and elaborate control equipment. The matrix cell in row "accuracy of measurement" and column "complexity of control" points to several principles, among them the Copying Principle, which states, "Use a simple and inexpensive optical copy with a suitable scale instead of an object that is complex, expensive, fragile or inconvenient to operate." From this general invention principle, the following idea might solve the problem: Taking a high-resolution image of the machined ball. A screen with a grid might provide the required measurement.

Laws of technical system evolution

Altshuller also studied the way technical systems have been developed and improved over time. From this, he discovered several trends (so called Laws of Technical Systems Evolution) that help engineers predict what the most likely improvements that can be made to a given product are. The most important of these laws involves the ideality of a system.

ubstance-field analysis

One more technique that is frequently used by inventors involves the analysis of substances, fields and other resources that are currently not being used and that can be found within the system or nearby. TRIZ uses non-standard definitions for substances and fields. Altshuller developed methods to analyze resources; several of his invention principles involve the use of different substances and fields that help resolve contradictions and increase ideality of a technical system. For instance, videotext systems used television signals to transfer data, by taking advantage of the small time segments between TV frames in the signals.

ARIZ - algorithm of inventive problems solving

ARIZ (Russian acronym of Алгоритм решения изобретательских задач - АРИЗ) - Algorithm of Inventive Problems Solving - is a list of about 85 step-by-step procedures to solve very complicated invention problems, where other tools of TRIZ (Su-field analysis, 40 inventive principles, etc.) are not applicable.

Alternative approaches

There are several other approaches that purportedly help develop inventive power. Most of them are quite heuristical:

# Trial-and-error
# Brainstorming
# Morphological analysis
# Method of focal objects
# Lateral thinking

Approaches, which are modifications/derrivatives of TRIZ

# SIT (Systematic Inventive Thinking)
# ASIT (Advanced Systematic Inventive Thinking)
# USIT (Unified Systematic Inventive Thinking)
# JUSIT ( [http://www3.sympatico.ca/karasik/toru_nakagawa_gospel.html Japanese version of Unified Systematic Inventive Thinking] )

Honours

In the last year of his life Altshuller established a two-level form of certification:
# a "TRIZ Master" Diploma, issued and signed by Altshuller; he granted it to several most proven persons in TRIZ community (according to his own list).
# a "TRIZ Specialist" and "TRIZ Expert" Certificates, issued by International Association of TRIZ and signed by a TRIZ-master; these certificates are intended to be granted to people which need a confirmation of their credentials as TRIZ teachers (because people complained that without a certificate they faced obstacles in teaching TRIZ)

Some of the TRIZ-masters interpreted their title as a confirmation of their outstanding contribution to TRIZ, whereas others claimed that it was not exactly Altshuler's intent. [http://www.triz-ri.ru/forum/mess.asp?thr=20409&cat=67 (rus)] The latter claim is based on the fact that the original list of masters [http://www.aitriz.org/ai/index.php?page=altshuller&article=letter#trizmasters] did not include the well known outstanding contributors to TRIZ such as his wife Valentina Zuravliova, the co-author of SuField Analysis, Irina Flikstein and many others simply because they had not been teaching TRIZ and thus required no certification.

After Altshuller's death some of TRIZ masters started promoting the first interpretation of the title and claiming to be heirs to TRIZ with a right to pass their diploma to their disciples (possibly saving an overall number of masters) and even claiming their entitlement to financial support from International Association of TRIZ (V. V. Mitrofanov is the most outspoken representative of such claimants [http://www.metodolog.ru/00406/00406.html (rus)] .) Others considered these claims as a devaluation and discreditation of the TRIZ-master title.

To counter the inflation of a prestige of the TRIZ-master title and to foster the real TRIZ research, [http://www3.sympatico.ca/karasik Anti TRIZ-Journal] established the [http://www3.sympatico.ca/karasik/altshuller_prize_announcement.html Altshuller Prize] for outstanding contribution to TRIZ in 2002. The Altshuller Prize Committee decided not to announce winners for 2006.

ee also

*System theory

Notes

References

* cite book
last = Altshuller
first = Genrich
year = 1973
title = Innovation Algorithm
location = Worcester, MA
publisher = Technical Innovation Center
id = ISBN 0-9640740-2-8

* cite book
last = Altshuller
first = Genrich
year = 1984
title = Creativity as an Exact Science
location = New York, NY
publisher = Gordon & Breach
id = ISBN 0-677-21230-5

* cite book
last = Altshuller
first = Genrich
year = 1994
title = And Suddenly the Inventor Appeared
others = translated by Lev Shulyak
location = Worcester, MA
publisher = Technical Innovation Center
id = ISBN 0-9640740-1-X

External links

* [http://www.altshuller.ru/ Official G.S. Altshuller foundation ]
* [http://www.etria.net/ European TRIZ Association ]
* [http://www.triz-journal.com/ TRIZ journal ]
* [http://www3.sympatico.ca/karasik Anti TRIZ-journal] critique of TRIZ and TRIZ-journal by former close associates of Altshuller
* [http://www.themanufacturer.com/content_detail.html?header=article&contents_id=1909&t=manufacturer_us Innovation, Soviet Style by Rich Weissman] How a problem solving methodology developed in 1940s Russia helps companies today
* [http://www.salon.com/tech/feature/2000/06/29/altshuller/index.html The science of invention by Mark Wallace] How Altshuller's theories can solve today's engineering problems
*PDFlink| [http://www.tiesmagazine.org/archives/jun_2004/pdf/jun_2004_Inventamin.pdf TIES] |296 KiB The Magazine of Design and Technology Education about TRIZ


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