Advances and Impacts of the Theory of Inventive Problem Solving
The TRIZ Methodology, Tools and Case Studies
- Sebastian Koziołek 0 ,
- Leonid Chechurin 1 ,
- Mikael Collan 2
Department of Machine Design and Research, Wrocław University of Science and Technology, Wrocław, Poland
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School of Engineering Science, Lappeenranta University of Technology, Lappeenranta, Finland
School of business and management, lappeenranta university of technology, lappeenranta, finland.
- Features ?a collection of case studies on the use of the Theory of Inventive Problem Solving (TRIZ) across various business activities
- Provides a research update to various TRIZ topics
- Highlights the importance and examples of TRIZ implementation
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- Table of contents
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Table of contents (21 chapters)
Front matter, digital learning design: from ideation via triz to implementation.
- Iuliia Shnai
Experimental Validation of Quantum-Economic Analysis (QEA) as a Screening Tool for New Product Development
- Oleg Abramov, Sergey Markosov, Alexander Medvedev
Can Altshuller’s Matrix Be Skipped Using CBR and Semantic Similarity Reasoning?
- Pei Zhang, Sarra Ghabri, Denis Cavallucci, Cecilia Zanni-Merk
A Critical Comparison of Two Creativity Methods for Fostering Participatory Innovation: Implications to Improve TRIZ
- Anna-Maija Nisula, Aino Kianto
Problem Formulation of Screw Feeding System of Fibrous Materials Using TRIZ
- Marek Mysior, Sebastian Koziołek, Eugeniusz Rusiński
Quantifying and Leading Innovation with TRIZ Within Competitiveness Strategies
- Stelian Brad, Emilia Brad
TRIZ to Support Disruptive Innovation of Shared Bikes in China
- Jianguang Sun, Kang Wang, Zhonghang Bai, Yu Wang, Runhua Tan
From Simulation to Contradictions, Different Ways to Formulate Innovation Directions
- Sébastien Dubois, Hicham Chibane, Roland De Guio, Ivana Rasovska
How Problems Are Solved in TRIZ Literature: The Need for Alternative Techniques to Individuate the Most Suitable Inventive Principles
- Yuri Borgianni, Francesco Saverio Frillici, Federico Rotini
TRIZ to Support Creation of Innovative Shared Value Business Initiatives
- Stelian Brad
Mobile Biogas Station Design: The TRIZ Approach
- Mariusz Ptak, Sebastian Koziołek, Damian Derlukiewicz, Marek Mysior, Mateusz Słupiński
Cause-Effect Chains Analysis Using Boolean Algebra
- Jerzy Chrząszcz, Piotr Salata
A Praxiological Model of Creative Actions in the Field of Mechanical Engineering
- Maksymilian Smolnik
A Long-Term Strategy to Spread TRIZ in SMEs. Analysis of Bergamo’s Experience
- Davide Russo, Daniele Regazzoni, Caterina Rizzi
Lessons for TRIZ from Design Thinking and Lean 3P
- Michal Halas
TRIZ Potential for IT Projects
- Monika Woźniak
TRIZ/CrePS Approach to the Social Problems of Poverty: ‘Liberty vs. Love’ Is Found the Principal Contradiction of the Human Culture
- Toru Nakagawa
Product Development Using Heuristic-Systematic Approach: A Case Study
- Bartosz Pryda, Marek Mysior
TRIZ Based Problem Solving of Tile Manufacturing System
- Sebastian Koziołek, Mateusz Słupiński
- Case studies on TRIZ
- Advances in TRIZ methodology
- Application case studies for TRIZ
- Tools for TRIZ implementation
- Digital learning design with TRIZ methodology
- Altshuller's matrix
- Cause-effect chains analysis
- Participative innovation methods
- quality control, reliability, safety and risk
This book offers a collection of cutting-edge research on the Theory of Inventive Problem Solving (TRIZ). Introduced by Genrich Altshuller in 1956, TRIZ has since been used by engineers, inventors and creators as an essential structured innovation method at businesses and organizations around the globe. The chapters of this book showcase work by selected authors from the 'TRIZ Future' conferences, which are organized by the European TRIZ Association (ETRIA).
The chapters reflect an international mix of new ideas on TRIZ and knowledge-based innovation, highlight recent advances in the TRIZ community, and provide examples of successful collaboration between industry and academia. The book first introduces the reader to recent methodological innovations, then provides an overview of established and new TRIZ tools, followed by a collection of case studies and examples of TRIZ implementation in various scientific and social contexts.
Sebastian Koziołek
Leonid Chechurin
Mikael Collan
Book Title : Advances and Impacts of the Theory of Inventive Problem Solving
Book Subtitle : The TRIZ Methodology, Tools and Case Studies
Editors : Sebastian Koziołek, Leonid Chechurin, Mikael Collan
DOI : https://doi.org/10.1007/978-3-319-96532-1
Publisher : Springer Cham
eBook Packages : Business and Management , Business and Management (R0)
Copyright Information : Springer Nature Switzerland AG 2018
Hardcover ISBN : 978-3-319-96531-4 Published: 12 December 2018
eBook ISBN : 978-3-319-96532-1 Published: 29 November 2018
Edition Number : 1
Number of Pages : VIII, 242
Number of Illustrations : 62 b/w illustrations, 57 illustrations in colour
Topics : Project Management , Quality Control, Reliability, Safety and Risk , Operations Research/Decision Theory , Production
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What is TRIZ?
- Structured Innovation
Case Studies
- TRIZ & Other Toolkits
- Published Books
- Innovation Bank
- Effects Database
- In the Press
TRIZ is a systematic approach for understanding and solving any problem, boosting brain power and creativity, and ensuring innovation.
We regularly run live webinars to provide an overview of TRIZ processes and tools, register for free to find out more?
Watch with German subtitles / Mit Deutschen Untertiteln >>
The Origins of TRIZ
Beginning in 1946 and still evolving, TRIZ was developed by the Soviet inventor Genrich Altshuller and his colleagues. TRIZ in Russian = Teoriya Resheniya Izobretatelskikh Zadatch or in English, The Theory of Inventive Problem Solving. Years of Russian research into patents uncovered that there are only 100 known solutions to fundamental problems and made them universally available in three TRIZ solution lists and the Effects Database .
Through enabling clear thinking and the generation of innovative ideas, TRIZ helps you to find an ideal solution without the need for compromise. However it is not a Theory - it is a big toolkit consisting of many simple tools - most are easy to learn and immediately apply to problems. This amazing capability helps us tackle any problem or challenge even when we face difficult, intractable or apparently impossible situations.
TRIZ helps us keep detail in its place, to see the big picture and avoid getting tripped up with irrelevance, waylaid by trivial issues or seduced by premature solutions. It works alongside and supports other toolkits, and is particularly powerful for getting teams to work together to understand problems effectively, collectively generate ideas and innovate.
Developed by Oxford Creativity, Oxford TRIZ™ is simpler than standard or classic TRIZ. Its tools and processes are faster to learn and easier to apply. Oxford TRIZ is true to classic TRIZ (neither adding nor removing anything) but it delivers:
More powerful results
Faster and easier ways to learn and apply triz, step-by-step processes for applying triz toolkits, 'at a glance' understanding, supported by our hallmark commissioned cartoons (from clive goddard), philosophy of making every session effective, efficient and fun, gap-filling where other toolkits fall short.
TRIZ enthusiasts who have failed to use TRIZ effectively or to embed TRIZ into their organisations hail Oxford TRIZ as revelatory.
Very impressed with how Oxford Creativity has been able to create a methodology for applying TRIZ that can be widely used.
"I have learnt new and powerful ways of looking at problems differently to come up with new and viable solutions. It is a toolset that I think all engineers would find useful. "
Michelle Chartered (Aeronautical) Engineer
Join one of our free webinars to learn more about TRIZ, its tools and how they can help you create innovative solutions to your problems.
Alternatively, sign up for Oxford TRIZ Live - Fundamental Problem Solving, our new online course that will give you a solid foundation in TRIZ concepts, tools and techniques and get you using them from day one.
History of TRIZ
How did triz start who was the founder altshuller.
It seems unfair that the work of Altshuller, perhaps one of the greatest engineers of the twentieth century remains quite obscure; especially as the his powerful findings enhances and transforms the work of managerial and technical teams in most countries of the world. He was a remarkable and charismatic man who innovated innovation and inspired many, as an inventor, teacher, and science-fiction author (Altov). The stories about Genrich Saulovich Altshuller (1926-1998) founder of TRIZ, derive mostly from those who worked with him, a community of Jewish intellectuals from Ukraine, Russia, and other countries once part of the Soviet Union. Many of these left Russia when they could, in the early 1990’s, taking TRIZ with them, to reach business and technical communities all over the world. Although TRIZ is a Russian acronym*, in today’s troubled world it is worth emphasising that TRIZ is much more Zelensky than Putin – as it was developed in a Siberian Gulag by those who stood up to Stalin.
Altshuller's groundbreaking work in the field of creative problem-solving derives from analysing the patent database and identifying and sharing the patterns of success in the world’s published knowledge. This is unlike most other creative techniques which cluster round brain prompts to improve brainstorming. TRIZ contains all these too, but they seem less significant than the power of the unique solution techniques uncovered by the TRIZ community in the last century.
Altshuller’s life
Genrich Saulovich Altshuller was bought up in Baku, Azerbaijan, but was born in Tashkent, Uzbekistan on October 15, 1926, at those times both countries were a part of the Soviet Union. Just too young to serve in World War II, Altshuller was patenting his inventions from 1940 when he was just 14. He trained as a diver and electrician and later at the Azerbaijan Oil and Chemistry Institute in Baku. Altshuller joined the Soviet Navy as a mechanical engineer in his early twenties and worked in the Baku patent department, interacting with the Caspian Sea flotilla of the Soviet Navy where, as in all wars, creativity and invention flourished; this had a profound impact on his thinking and future endeavours. It was here that he began to formalize his Theory of Inventive Problem Solving, together with his colleague Raphael Shapiro. TRIZ was born out of the pair's aspiration to create a systematic approach to problem-solving that could replace the hit-or-miss strategies often used by inventors.
Altshuller’s genius observation of the frequent occurrence of identical solutions in different industries
Altshuller ’bottled’ the inventive process. He identified how frequently inventors duplicate each other’s work as they unknowingly reinvent the wheel. They fail to recognise that their efforts are repeating work already achieved (and documented), because their results are published in their own specialist technical language. Altshuller could see how science and engineering (by this time segmented and specialised) had become a ‘Tower of Babel’** because each discipline had its own different technical jargon. It was as if there were now many tribes in technology, with their own tribal language, which they used to write their papers and patents; (Chemists spoke chemistry and physicist spoke physics etc.). Altshuller showed that by stripping out details (which removed most technical jargon) both the problems being solved and their answers were revealed. This research showed that there are only about 100 fundamental ways to solve any problem. Altshuller and his teams gave these ‘ hundred answers to anything’ in three overlapping lists which show us how to:-
- Resolve contradictions (40 Principles)
- Invent future Products (8 Trends)
- Deal with Harms, boost insufficiencies and measure or detect (76 Standard Solutions)
These concept solutions underly all inventive problem-solving and they help us solve particular problems through using the TRIZ Contradiction Matrix and Separation Principles and TRIZ Function Mapping. Also there is the TRIZ Effects Database which answers ‘how to’ questions – so if we wanted to know how to ‘change viscosity’ it would show us all published ways and give an explanation of each. (see https://www.triz.co.uk/triz-effects-database )
Development of TRIZ:
Altshuller and his TRIZ community created their database of technical problems and solutions from various industries by undertaking an exhaustive study of patents, scientific literature, and innovation history. TRIZ ‘uncovered’ all the ways humankind knows to tackle tough challenges and was a vast collaboration of many (including Rafael Shapiro) to formalise the TRIZ methodology by identifying patterns and principles common to all successful inventive solutions. TRIZ aimed to stop needless time-wasting duplication by providing a systematic approach to enable anyone to overcome problems and recognise and resolve contradictions, deal with harms and barriers in their work.
Once built the TRIZ foundations were their gift to the world distilling a vast store of human wisdom into the 3 simple lists of TRIZ concepts. Some erroneously describe TRIZ as complicated because it derives from more rigour and research than all other toolkits put together, but its power is its logical steps and simplicity. It is as easy as learning chess - each tool is can be quickly understood to see how it can be ‘played’ in specific ways – the challenge is knowing how to combine the tools together. There are as many solutions to problems as outcomes in chess – mastering both takes quick learning (and talent?) and then as much practice as possible.
Soviet Suppression:
Despite its immense potential, TRIZ was not initially well-received by the Soviet government, Altshuller's claim that scientists and engineers duplicated each other’s work was unacceptable "non-conformist" thinking, and TRIZ was initially labelled as "bourgeois pseudoscience." Altshuller, along with several of his colleagues, often faced oppression, and their work was kept underground in several different periods. By the late 1940s Altshuller was arrested on political charges and spent time in the infamous Vorkuta Gulag in the Russian Arctic before being released in 1954 (after Stalin’s death). On his arrest the KGB ‘interviewed’ his widowed mother, killing her by pushing her from the balcony of her flat. Despite these setbacks, his determination to pursue his theories did not wane even in the Gulag which he described as his university of life.
Upon his release, Altshuller returned to his work with renewed vigour, working through thousands of patents, extracting their patterns of problem-solving into the TRIZ lists, and also uncovering the contradiction toolkit and the other creative concepts essential to tackling problems such as the Ideal and Ideality, Thinking in Time and Scale (9 boxes) plus many other tools for idea generation.
Recognition and success
Altshuller's determination prevailed, and in the 1960s, he managed to publish some of his TRIZ-related works. He also conducted lectures and workshops to disseminate the principles of TRIZ across the Soviet Union and beyond. His community expanded to include school children from his fortnightly TRIZ comics and his most famous book ‘And Suddenly the Inventor Appeared’. His ideas gained traction among engineers, leading to the formation of TRIZ associations and study groups. After 1990 the political reforms which swept the Soviet Union and its territories enabled TRIZ to surge in popularity and recognition. Altshuller's efforts were finally acknowledged, and he received numerous awards and honours for his groundbreaking work.
TRIZ Today?
Genrich Altshuller's legacy lives on through TRIZ, which continues to influence problem-solving and innovation processes worldwide. TRIZ has been integrated into various industries, including engineering, product development, and management, allowing practitioners to find inventive solutions efficiently. It has proved an essential innovation toolkit in countries like South Korea, China and Japan where they have moved to the top of Patent league tables, pushing aside counties like the UK where there is no official or university take up (exceptions include the universities of Imperial and Bath). However one the world’s leading TRIZ consultancies is based in the UK and created the popular Oxford TRIZ TM. Russian TRIZ development seems to be detailed and complicated (the opposite of TRIZ simplicity)
Altshuller's Legacy
Altshuller’s income derived more from his writings than his TRIZ work because he made TRIZ free to the world and public domain. Altshuller published so many books, articles, and scientific papers, which inspire and clarify the thinking of generations of inventors, innovators, and problem-solvers. In his later years he developed Parkinson’s disease, and he worked on sharing all the habits of geniuses and his last book was called ‘How to be a genius or heretic’ and he died on September 24, 1998, in Petrozavodsk, Russia. Altshuller's work has influenced numerous fields, including engineering, business strategy, and software development. Despite TRIZ being less known than other toolkit , his impact on the world remains undeniable if still largely under-appreciated. The power of TRIZ for boosting genius brain power, inventive problem-solving and innovation could change the world for the better if only it was known and accepted everywhere.
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Research and practice on the theory of inventive problem solving (TRIZ) : linking creativity, engineering and innovation
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- Introduction.- Scientific Articles: Elevate Design-to-Cost-Innovation Using TRIZ.- The Effectiveness of TRIZ Tools for Eco-Efficient Product Design.- Using Enhanced Nested Function Models for Strategic Product Development.- Taming Complex Problems by Systematic Innovation.- TRIZ Evolutionary Approach: Main Points and Implementation.- Contradiction-centred Identification of Search Fields and Development Directions.- 5-Step Method for Breakthrough.- Case Study: TRIZ in Enhancing of Design Creativity: A Case Study from Singapore.- TRIZ-supported Development of an Allocation System for Sheet Metal Processing.- TRIZ-Events Increase Innovative Strength of Lean Product Development Processes.- Advanced Function Approach in Modern TRIZ.- Essay: TRIZ as a Primary Tool for Biomimetrics.- Using TRIZ in the Social Sciences: Possibilities and Limitations.- Linking TRIZ and Cross-Industry Innovation: Evidence from Practice.- TRIZ and Big Systems.- A Glossary of Essential TRIZ Terms.
- (source: Nielsen Book Data)
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TRIZ: Innovation and Inventive Problem Solving. Handbook [Print Replica] Kindle Edition
- Print length 366 pages
- Language English
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- Publication date December 8, 2015
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Product details
- ASIN : B0194VB4E6
- Publisher : (December 8, 2015)
- Publication date : December 8, 2015
- Language : English
- File size : 5064 KB
- Text-to-Speech : Not enabled
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- Print length : 366 pages
- #931 in Engineering Patents & Inventions
- #101,378 in Business & Investing (Kindle Store)
- #324,280 in Business & Money (Books)
About the author
Vladimir Petrov
Vladimir Petrov, holder of the title "TRIZ Master ", Professor of the Plekhanov Russian University of Economics, the representative ETRIA (European TRIZ Association) in Israel , Co-founder TRIZ Developers Summit , and VP R&D of Innovation Technology.
Prof. Petrov holds two Master's degrees (Automatic Systems Control, and Management of Research and Development). He defended a doctor's dissertation on the subject: "On choosing a promising direction for R&D", that was based on TRIZ, Value Engineering and Systems Analysis.
Having practiced TRIZ since 1972, Mr. Petrov assisted in organizing TRIZ schools in many cities and republics of the former Soviet Union, Bulgaria, Czechoslovakia, Vietnam, Germany and the USA. He personally taught many courses in the former USSR, Czechoslovakia, Bulgaria and Israel.
Mr. Petrov conducted joint seminars with the founder of TRIZ, the late Genrich Altshuller, serving as a second teacher.
Several thousand students have graduated Mr. Petrov's courses.
Mr. Petrov solved a large number of inventive problems and conducted system development forecasts for major companies in the USA, Germany, Israel, the former USSR, Czechoslovakia and Bulgaria. Among these companies were Ford Motor Company, General Motors Corp., Boeing, Johnson & Johnson, Xerox Corp., BOSCH, DaimlerChryser Aerospace (DASA), Miele, Roche, MASTERFOODS, Karat Digital Press Israel, Applied Materials Israel, Intel Israel, Samsung Israel, Samsung Display, Samsung Electronics and other.
Mr. Petrov has authored 15 monographs, textbooks and over 400 published works on TRIZ and 48 patents.
Description of my TRIZ books
https://drive.google.com/file/d/1xGW0pIqLJoOl4KLRVYo6nzcIdKuEB1Ce/view or https://yadi.sk/i/8xl1Sh9D3fGlSA
List of my TRIZ books:
1. Vladimir Petrov. TRIZ Basics. Theory of Inventive Problem Solving. Kindle Edition. Amazon Digital Services LLC. 2020. – 820 p. ASIN: B081D6VGFJ https://amzn.to/3gSTCap
Vladimir Petrov. TRIZ Basics. Theory of Inventive Problem Solving. Paperback. Independently published. 2020. – 795 p. ISBN: 9798622683022 https://amzn.to/3gOJGyG
2. Vladimir Petrov. TRIZ. Theory of Inventive Problem Solving. Level 1. Springer, 2019, 221 pages, ISBN 978-3-030-04254-7 https://link.springer.com/book/10.1007/978-3-030-04254-7
3. Vladimir Petrov. Solving Non-Standard Problems. TRIZ. Kindle Edition. Amazon Digital Services LLC. 2019. – 266 p. ASIN: B081D6VGFJ https://amzn.to/2UcLM1C Vladimir Petrov. Solving Non-Standard Problems. TRIZ. Paperback. Independently published. 2019. - 181 p. ISBN-10: 1707864195, ISBN-13: 978-1707864195 https://amzn.to/2Xzr4LJ
4. Vladimir Petrov. Selected TRIZ Tools. Theory of inventive problem solving. Kindle Edition. Amazon Digital Services LLC. 2019. – 238 p. ASIN: B081ZJ966M https://amzn.to/3f441yz
Vladimir Petrov. Selected TRIZ Tools. Theory of inventive problem solving. Paperback. Independently published. 2019. – 195 p. ISBN-10: 1711620378, ISBN-13: 978-1711620374 https://amzn.to/2XyEmYx
5. Vladimir Petrov. Systems Approach: Theory of Inventive Problem Solving (TRIZ). Kindle Edition. Amazon Digital Services LLC. 2019. 45 p. ASIN: B07S3VRKKD https://amzn.to/3cyJYq7
Vladimir Petrov. Systems Approach: Theory of Inventive Problem Solving (TRIZ). Paperback. Independently published. 2019.– 59 p. ISBN-10: 1088677738, ISBN-13: 978-1088677735 https://lnkd.in/dndsJKG
6. Vladimir Petrov. Growth Hacking for Breakthrough and Inventors. 5-Step Method for Breakthrough. Kindle Edition. Amazon Digital Services LLC. 2015. 86 p. ASIN: B019KDT814. https://amzn.to/308AyPs
Vladimir Petrov. Growth Hacking for Inventors. 5-Step Method for Breakthrough. Paperback. Independently published. 2019, 124 p. ISBN-10: 1694580539, ISBN-13: 978-1694580535 https://amzn.to/3gV6Vr0
7. Pavel Livotov, Vladimir Petrov. TRIZ: Innovation and Inventive Problem Solving. Handbook. [Print Replica] Kindle Edition. Amazon Digital Services LLC. 284 p. ASIN: B0194VB4E6. https://amzn.to/3gWoHtW
Pavel Livotov, Vladimir Petrov. TRIZ: Innovation and Inventive Problem Solving. Handbook. Paperback. Independently published. 2019, 366 p. ISBN-10: 1521716609, ISBN-13: 978-1521716601. https://amzn.to/2UbsHNu
8. Vladimir Petrov. Universal Inventive Principles TRIZ: Inventive Principles for All Fields. Kindle Edition. 2018. Amazon Digital Services LLC. 2018. 226 p. ASIN: B07CRRY99N. https://amzn.to/2U9qMJ1
Vladimir Petrov. Universal Inventive Principles TRIZ: Inventive Principles for All Fields. Paperback. Independently published. 2019. 253 p. ISBN-10: 1983365823, ISBN-13: 978-1983365829 https://lnkd.in/d_kzjxM
9. System of Standard Inventive Solution by Genrich Altsuller (Author): Additional Material by Vladimir Petrov (TRIZ). Kindle Edition. Amazon Digital Services LLC. 2017. - 95 p. ASIN: B073GZCSDT. Vladimir Petrov (Illustrator, Editor), Boris Zlotin (Translator), Alla Zusman (Translator) https://amzn.to/2Y2yuG3
System of Standard Inventive Solution by Genrich Altsuller (Author): Additional Material by Vladimir Petrov (TRIZ)., Vladimir Petrov (Illustrator, Editor), Boris Zlotin (Translator), Alla Zusman (Translator). Paperback. Independently published. 2019. – 164 p. ISBN-10: 1521714061, ISBN 13: 978-1521714065 https://amzn.to/2XA95EF
10. Vladimir Petrov. Laws of System Evolution: TRIZ. Kindle Edition. Amazon Digital Services LLC. 2016. - 31 p. ASIN: B01L0P700G. https://amzn.to/2Udql0p
Vladimir Petrov. Laws of System Evolution: TRIZ. Paperback. Independently published. 2019. – 57 p. ISBN-10: 1696068835, ISBN-13: 978-1696068833. https://amzn.to/2MsfVWC
11. Vladimir Petrov. Structural System Analysis. Su-Field Analysis. TRIZ. Kindle Edition. Amazon Digital Services LLC. 2019. 272 p. ASIN: B07XTR56HM https://amzn.to/2zapyWY
Vladimir Petrov. Structural System Analysis. Su-Field Analysis. TRIZ. Paperback. Independently published. 2019. 357 p. ISBN-10: 1692987011, ISBN-13: 978-1692987015 https://amzn.to/2zUsuHF
12. Vladimir Petrov, German Voronov. A New Approach to Su-Field Analysis: TRIZ. Kindle Edition. Amazon Digital Services LLC. 2016. - 39 p. ASIN: B01L8SU5XO. https://amzn.to/2zano9O
Vladimir Petrov, German Voronov. A New Approach to Su-Field Analysis: TRIZ. Paperback. Independently published. 2019. – 61 p. ISBN-10: 1696203678, ISBN-13: 978-1696203678 https://amzn.to/2Uc9WcG
13. Vladimir Petrov. Law of Ideality Increasing: TRIZ. Kindle Edition. Amazon Digital Services LLC. 2016. - 16 p. ASIN: B01L4CIKIG. https://amzn.to/2Mykmz0
Vladimir Petrov. Law of Ideality Increasing: TRIZ. Paperback. Independently published. 2019. – 37 p. ISBN-10: 1699160287, ISBN-13: 978-1699160282 https://amzn.to/2A6dNB7
14. Vladimir Petrov. The Law of Increasing Degree of Su-Field: TRIZ. Kindle Edition. Amazon Digital Services LLC. 2016. - 13 p. ASIN: B01L4GV30E. https://amzn.to/2XAb23X
15. Vladimir Petrov. Laws of Dialectics in Technology Evolution: TRIZ. Kindle Edition. Amazon Digital Services LLC. 2016. - 12 p. ASIN: B01L1BPNVM https://amzn.to/2MuODyN
Vladimir Petrov. Laws of Dialectics in Technology Evolution: TRIZ. Paperback. Independently published. 2019. – 25 p. ISBN-10: 1699181071, ISBN-13: 978-1699181072 https://amzn.to/2UaCYJR
16. Vladimir Petrov. LAWS OF NEEDS DEVELOPMENT: TRIZ. Kindle Edition. Amazon Digital Services LLC. 2016. - 53 p. ASIN: B01L1AIV8U. https://amzn.to/2MIK8kt
Vladimir Petrov. LAWS OF NEEDS DEVELOPMENT: TRIZ. Paperback. Independently published. 2019. – 103 p. ISBN-10: 1696430186, ISBN-13: 978-1696430180 https://amzn.to/2Y0qHJ3
17. Vladimir Petrov. Law - Antilaw: TRIZ. Kindle Edition. Amazon Digital Services LLC. 2016. - 61 p. ASIN: B01L49YGDC. https://amzn.to/3cBYjC2
Vladimir Petrov. Law - Antilaw: TRIZ. Paperback. Independently published. 2019. – 80 p. ISBN-10: 169517898X, ISBN-13: 978-1695178984 https://amzn.to/2UetCwv
18. Vladimir Petrov. Logic of ARIZ: TRIZ. Kindle Edition. Amazon Digital Services LLC. 2016. 36 p. ASIN: B01L4CIJZK. https://amzn.to/3gOSrZA
Vladimir Petrov. Logic of ARIZ: TRIZ. Paperback. Independently published. 2019. – 69 p. ISBN-10: 169898927X, ISBN-13: 978-1698989273 https://amzn.to/2Uf1yt3
19. Vladimir Petrov. Inventive thinking: TRIZ. Kindle Edition. Amazon Digital Services LLC. 2016. - 18. p. ASIN: B01L4OKWDA. https://amzn.to/3gVyNLK
Vladimir Petrov. Inventive thinking: TRIZ. Paperback. Independently published. 2019. – 29 p. ISBN-10: 1088869831, ISBN-13: 978-1088869833 https://amzn.to/2AGsWt3
20. Vladimir Petrov. Designing business projects: TRIZ. Kindle Edition. Amazon Digital Services LLC. 2016. 19 p. ASIN: B01L4CIJBY. https://amzn.to/30ddC1A
Vladimir Petrov. Designing business projects: TRIZ. Paperback. Independently published. 2019, 34 pages. ISBN-10: 1694077047, ISBN-13: 978-1694077042 https://amzn.to/3gW4jsV
21. Vladimir Petrov. The TRIZ Glossary. Kindle Edition. Amazon Digital Services LLC. 2015. - 43 p. ASIN: B013YE59M2. https://amzn.to/30ddWgO
Vladimir Petrov. The TRIZ Glossary. Paperback. Independently published. 2019, - 68 p. ISBN-10: 1695993306, ISBN-13: 978-1695993303. https://amzn.to/37dOWI1
22. Simion Litvin, Vladimir Petrov, Michael Rubin. TRIZ Body of Knowledge: for MATRIZ. Kindle Edition. Amazon Digital Services LLC. 2016. - 43 p. ASIN: B01KMQPTNO. https://amzn.to/376XJev
23. Simion Litvin, Vladimir Petrov, Michael Rubin, Victor Fey. TRIZ Body of Knowledge: for AI & MATRIZ [Print Replica] Kindle Edition. Amazon Digital Services LLC. 2016. ASIN: B01KM20JWY. https://amzn.to/2XAdWWp
24. Pavel Livotov, Vladimir Petrov. TRIZ: Innovationstechnologie: Produktentwicklung und Problemlosung. Handbuch (German Edition) Kindle Edition. Amazon Digital Services LLC. 2017. - 334 p. ASIN: B077V45TV7. https://amzn.to/305HQng
25. Vladimir Petrov. Fundamentos De La Teoria Para La Solución De Los Problemas Inventivos (TRIZ) (Spanish Edition) Kindle. Edition. Amazon Digital Services LLC. 2015. - 619 p. ASIN: B013J50X5O. https://amzn.to/373cQWl
Vladimir Petrov. Fundamentos De La Teoria Para La Solución De Los Problemas Inventivos (TRIZ) (Spanish Edition). Paperback. Independently published. 2019 – 623 p. ISBN-10: 1694730387, ISBN-13: 978-1694730381. https://amzn.to/3eK7Mca
26. Vladimir Petrov. LEY - ANTI LEY: TRIZ (Spanish Edition). Kindle Edition. Amazon Digital Services LLC. 2016. 48 p. ASIN: B01L4CIHFW. https://amzn.to/3dDYQoG
Vladimir Petrov. LEY - ANTI LEY: TRIZ (Spanish Edition). Paperback. Independently published. 2019 – 79 p. ISBN-10: 1695976983, ISBN-13: 978-1695976986 https://amzn.to/30dgxY6
27. Vladimir Petrov. Enfoque de sistemas: Teoría para Resolver Problemas de Inventiva (TRIZ) (Spanish Edition) Kindle Edition. Amazon Digital Services LLC. 2019. - 59 p. ASIN: B077V45TV7. https://amzn.to/3gXLllN
Vladimir Petrov. Enfoque de sistemas: Teoría para Resolver Problemas de Inventiva (TRIZ) (Spanish Edition) Paperback. Independently published. 2019. – 94 p ISBN-10: 1089103581, ISBN-13: 978-1089103585 https://amzn.to/2MxO3jW
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The book presents the most general methods for solving inventive problems and obtaining new ideas. It quotes traditional technology for problem solving, based on trials and errors method. Describes the general idea of TRIZ. Describes the main notions of system approach, like system thinking.
In English, TRIZ is typically rendered as the theory of inventive problem solving. TRIZ developed from a foundation of research into hundreds of thousands of inventions in many fields to produce an approach which defines patterns in inventive solutions and the characteristics of the problems these inventions have overcome. The research has ...
TRIZ (the Russian acronym for Theory of Inventive Problem Solving) was developed by this book's author, Genrich Altshuller. Studied and respected around the world, TRIZ shows that technical systems evolve following predictable patterns. Consequently, inventiveness can be learned by anyone. Developed underground by Russian scientists, TRIZ has ...
Vladimir Petrov. Springer, Apr 1, 2019 - Technology & Engineering - 221 pages. This introductory book describes the initial (first) level of studying the theory of inventive problem solving (TRIZ) from the series "TRIZ from A to Z," and presents the most general methods for solving inventive problems and generating new ideas.
Theory of Inventive Problem Solving 1st ed. 2019 Edition. This introductory book describes the initial (first) level of studying the theory of inventive problem solving (TRIZ) from the series "TRIZ from A to Z," and presents the most general methods for solving inventive problems and generating new ideas.
This book clarifies the common misconception that there are no systematic instruments to support ideation, heuristics and creativity. Using a collection of articles from professionals practicing the Theory of Inventive Problem Solving (TRIZ), this book presents an overview of current trends and enhancements within TRIZ in an international context, and shows its different roles in enhancing ...
Theory of Inventive Problem Solving: Level 1 1st ed. 2019 Edition, Kindle Edition. This introductory book describes the initial (first) level of studying the theory of inventive problem solving (TRIZ) from the series "TRIZ from A to Z," and presents the most general methods for solving inventive problems and generating new ideas.
Inventive Problem Solving (TRIZ), Theory, Fig. 8. Commercial offerings of TRIZ education, software, and analytical services (Ideation International 2010) Full size image. The benefits from learning TRIZ for an individual are quite obvious - one can become a strong critical thinker, innovator, and problem solver.
This exciting new book presents the Theory of Inventive Problem Solving (TRIZ), a process that will provoke a breakthrough in your thinking patterns and the way you approach problem solving. The pillar of TRIZ is that contradiction can be methodically resolved through the application of innovative solutions.The Three Premises of TRIZThe ideal design is a goalContradictions help solve ...
This exciting new book presents the Theory of Inventive Problem Solving (TRIZ), a process that will provoke a breakthrough in your thinking patterns and the way you approach problem solving. The pillar of TRIZ is that contradiction can be methodically resolved through the application of innovative solutions. The Three Premises of TRIZ
This book is devoted to the systematic presentation of the Theory of Inventive Problem Solving (TRIZ). It details methods for formulating non-standard problems and ways to solve them, laws of system evolution, method of forecasting development of system, structural analysis and synthesis of system, systems modeling methods, methods to identify and resolve contradictions, methods of detection ...
Denis Cavallucci is Full Professor in Engineering of Innovation at the National Institute of Applied Science in Strasbourg, France. He is the head of the research team CSIP/DISIP (Design, Information Systems and Inventive Processes) which investigates theories, methods, and tools for formalizing inventive activities within industrial organizations.
In closing, the author makes recommendations on how to most effectively use TRIZ tools, on how readers can improve their knowledge, skills and habits concerning the use of TRIZ, and on how they can hone their inventive thinking skills. The book also features Appendices that include analyses of selected problems, a list of the main websites ...
used to solve this problem. The process is to try to apply each of the four physical separation techniques - space, time, condition, or whole vs. portion - to the air in turn, to see if any of ...
solved by information found in books, technical journal, or other subject matter The other type of problem is one with no known solution. It is called an inventive problem. ³75,=´LVWKHDFURQ\PLQ5XVVLDQ L_hjby j_r_gbybah[j_lZl_evkdboaZ^Zq ) for ³7KHRU\RI,QYHQWLYH3UREOHP6ROYLQJ ´
This book clarifies the common misconception that there are no systematic instruments to support ideation, heuristics and creativity. Using a collection of articles from professionals practicing the Theory of Inventive Problem Solving (TRIZ), this book presents an overview of current trends and enhancements within TRIZ in an international context, and shows its different roles in enhancing ...
Summary This chapter contains sections titled: Breakthrough Products and Processes with Seven Inventive Techniques Triz Flow Chart Summary and Conclusions Keys to Success in Applying Triz Technique...
This book offers a collection of cutting-edge research on the Theory of Inventive Problem Solving (TRIZ). Introduced by Genrich Altshuller in 1956, TRIZ has since been used by engineers, inventors and creators as an essential structured innovation method at businesses and organizations around the globe.
Beginning in 1946 and still evolving, TRIZ was developed by the Soviet inventor Genrich Altshuller and his colleagues. TRIZ in Russian = Teoriya Resheniya Izobretatelskikh Zadatch or in English, The Theory of Inventive Problem Solving. Years of Russian research into patents uncovered that there are only 100 known solutions to fundamental ...
A milestone in the development of the Theory of Inventive Problem Solving (TRIZ), this book is the result of over twenty years of research and analysis. Altshuller details TRIZ's problem solving algorythm (ARIZ) that can produce innovation of the highest order. Saturated with profound thoughts, insights, and examples, this book is regarded by ...
This book is devoted to the systematic presentation of the Theory of Inventive Problem Solving (TRIZ). It details methods for formulating non-standard problems and ways to solve them, laws of system evolution, method of forecasting development of system, structural analysis and synthesis of system, systems modeling methods, methods to identify and resolve contradictions, methods of detection ...
This book clarifies the common misconception that there are no systematic instruments to support ideation, heuristics and creativity. Using a collection of articles from professionals practicing the Theory of Inventive Problem Solving (TRIZ), this book presents an overview of current trends and enhancements within TRIZ in an international ...
The Theory of Inventive Problem Solving (TRIZ) is an important factor in helping organizations manage their way through the process of technical and technological innovation. TRIZ is regarded today as one of the most comprehensive, systematically organized invention knowledge. The TRIZ methodology has the following advantages over traditional ...