Table of Contents

• If All You Have Is a Hammer: TRIZ and ComplexityDarrell Mann. 3-15 [doi]
• Innovation Lab: New TRIZ Tools for Fast Idea TriggeringDavide Russo, Paolo Carrara. 16-25 [doi]
• Patent Based Method to Evaluate the Market Potential of a ProductDavide Russo, Christian Spreafico, Matteo Spreafico. 26-35 [doi]
• Evaluation of the Effectiveness of Modern TRIZ Based on Practical Results in New Product DevelopmentOleg Y. Abramov, Alexander V. Medvedev, Vladimir Y. Rychagov. 36-44 [doi]
• Applied Ideality: From Concepts to Inventive Problem Solving AlgorithmEvgeniy E. Smirnov. 45-54 [doi]
• Deducing Altshuller's Laws of Evolution of Technical SystemsJustus Schollmeyer, Viesturs Tamuzs. 55-69 [doi]
• A New Way to Classify Physical Effects for Ontology InstantiationPei Zhang, Denis Cavallucci, Cecilia Zanni-Merk. 70-78 [doi]
• TRIZ-Assisted Frugal InnovationOliver Mayer, Tiziana Bertoncelli. 81-92 [doi]
• How Can TRIZ Tools Tremendously Stimulate the Lean Canvas Analysis to Foster Start-Up Business Model and Value Proposition?Pascal Sire, Eric Prevost, Yves Guillou, Alain Riwan, Pierre Saulais. 93-105 [doi]
• A Proposal for a Methodology of Technical Creativity Mixing TRIZ and Additive ManufacturingArmand Lang, Claude Gazo, Frédéric Segonds, Fabrice Mantelet, Camille Jean, Jérôme Guegan, Stéphanie Buisine. 106-116 [doi]
• FAST for TRIZKai Hiltmann. 117-134 [doi]
• Differences and Complementarities Between C-K and TRIZSébastien Dubois, Roland De Guio, Hicham Chibane. 135-143 [doi]
• An Approach Merging the IDM-Related KnowledgeXin Ni, Ahmed Samet, Denis Cavallucci. 147-158 [doi]
• How to Find Disruptive Technologies Systematically?Jianguang Sun, Zhitao Song, Kang Wang, Haoyu Li, Runhua Tan. 159-173 [doi]
• Research of the Possibilities for Using and Linking TRIZ Methods with Systems EngineeringOvidiu Bielefeld, Vladimir Sizikov, Nadine Schlüter. 174-186 [doi]
• An Approach for Customer Requirements Acquisition Based on Time IterationWen-Dan Yang, Guo-Zhong Cao, Jun-Lei Zhang, Chuan He. 187-203 [doi]
• Method of Identification of Useful Functions in the Scope of Technical System DevelopmentMarek Mysior, Witold Hnat, Sebastian Koziolek. 204-215 [doi]
• Improving Inventive Design Methodology's AgilityMasih Hanifi, Hicham Chibane, Rémy Houssin, Denis Cavallucci. 216-227 [doi]
• A Multi-perspective and Multi-level Based Approach to Organize and Represent Inventive KnowledgeLongfan Liu, Denis Cavallucci, Yan Li. 228-239 [doi]
• Conceptual Design of the Technical System Using Complementary Use of TRIZ Function Analysis and Patent InformationSehoon Cho, Kyeongwon Lee, Yongwon Song. 240-256 [doi]
• TRIZ Barcamp Exercise: Ideas for Wearable DefibrillatorsTiziana Bertoncelli, Barbara Gronauer, Horst Nähler. 257-265 [doi]
• Sustainable Innovation in Process Engineering Using Quality Function Deployment Approach and Importance-Satisfaction Analysis of RequirementsMas'udah, Pavel Livotov, Arun Prasad Chandra Sekaran. 269-281 [doi]
• Investigating the Value Perception of Specific TRIZ Solutions Aimed to Reduce Product's Environmental ImpactLorenzo Maccioni, Yuri Borgianni. 282-294 [doi]
• TRIZ Applied to Waste Pyrolysis Project in MoroccoDavide Russo, Paolo Peri, Christian Spreafico. 295-304 [doi]
• TRIZ Directed Evolution for Automobile FuelMohd Roshdi Hassan, Yaser Yahya Al-Kodami. 305-313 [doi]
• Classification of TRIZ Inventive Principles and Sub-principles for Process Engineering ProblemsArun Prasad Chandra Sekaran, Pavel Livotov, Mas'udah. 314-327 [doi]
• Technological Landscape and Ideation in the Field of Waste Separation with Help of TRIZLuka Ivanovskis, Timo Kärki, Ville Lahtela. 328-339 [doi]
• Technology Strategy by TRIZ Tools for Eco-Aircare SolutionGukhyun Cho, Ahreum Lee, Jungin Kim, Wanseok Jeong, Youshin Han. 340-349 [doi]
• Enhancing Eco-Design Methods Using TRIZ Tools: the Case of ECOFAIREFatima Zahra Ben Moussa, Fatima Ezzahra Essaber, Rachid Benmoussa, Sébastien Dubois. 350-367 [doi]
• TRIZ, a Systematic Approach to Create Quantum Activation Function for Deep Learning's Hidden Layers, in Order to Make AI Explainable with Quantum ComputerAdehi Guehika. 371-387 [doi]
• Exploring State Machine CECA ModelJerzy Chrzaszcz. 388-399 [doi]
• CALDET: A TRIZ-Driven Integrated Software Development MethodologyStelian Brad, Emilia Brad, Daniel Homorodean. 400-416 [doi]
• Future Home 4.0 for People with Major Neurodegenerative Disorders, Finding the ContradictionsJean Renaud, Rémy Houssin, Negar Armaghan, Mickaël Gardoni. 417-426 [doi]
• Using TRIZ in the Healthcare Environment: First Proposition of a New Design MethodAxel Degland, Camille Jean, Claude Gazo. 429-437 [doi]
• The Concept of Contradiction Finding and Classification in the Field of Marketing Communication Quality ManagementJoanna Majchrzak, Agnieszka Chuda, Arkadiusz Kalemba, Gerhard-Wilhelm Weber. 438-457 [doi]
• Characteristics of Traditional Farm Equipment in Korea from the Viewpoint of TRIZ's Invention PrincipleSehoon Cho. 458-471 [doi]
• An Innovative Methodology to Design LCM Mold for Aeronautic and Automotive IndustriesA. Ouezgan, S. Adima, A. Maziri, E. Mallil, J. Echaabi. 472-485 [doi]
• Application of TRIZ and Innovation Management Theory on Decision Support for Transport InfrastructureGiacomo Bersano, Pierre-Emmanuel Fayemi. 486-493 [doi]
• Study on Finding Effective Measures in Education to Counter Googling Action Based on TRIZYutaka Takafuji. 497-507 [doi]
• World TRIZ Sites Project (WTSP) (2): To Build Catalogs of TRIZ-Related Web Sites in the WorldToru Nakagawa, Darrell Mann, Michael Orloff, Simon Dewulf, Simon Litvin, Valeri Souchkov. 508-525 [doi]
• Lower Abstraction Level of TRIZ Inventive Principles Improves Ideation Productivity of Engineering StudentsPavel Livotov, Arun Prasad Chandra Sekaran, Mas'udah. 526-538 [doi]